Renesas SH7781 Bedienungsanleitung PDF herunterladen

Seite 1 - Hardware Manual

Revision Date: Jan. 10, 200832 Hardware Manual Renesas 32-Bit RISC Microcomputer SuperH™ RISC Engine Family SH7780 Series R

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Rev.1.00 Jan. 10, 2008 Page x of xxx REJ09B0261-0100 5.2.2 Exception Event Register (EXPEVT)...

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 70 of 1658 REJ09B0261-0100 I1 I2 I3 ID s1 s2 s3 WBI3I3I3I3I3I3I3I1 I2 ID s1 s2 s3WBI1 I2 ID s1 s2 s3WBI

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 970 of 1658 REJ09B0261-0100 Figure 20.1 shows the GDTA block diagram

Seite 5 - Preface

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 971 of 1658 REJ09B0261-0100 (1) Target Interface The target interfa

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 972 of 1658 REJ09B0261-0100 (6) Buffer RAM Buffer RAM consists of t

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 973 of 1658 REJ09B0261-0100 20.2 GDTA Address Space Figure 20.2 sho

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 974 of 1658 REJ09B0261-0100 20.3 Register Descriptions Table 20.1 t

Seite 9 - Contents

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 975 of 1658 REJ09B0261-0100 Table 20.2 GDTA Register Configuration

Seite 10 - REJ09B0261-0100

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 976 of 1658 REJ09B0261-0100 Table 20.3 GDTA Register Configuration

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 977 of 1658 REJ09B0261-0100 Table 20.4 GDTA Register States in Each

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 978 of 1658 REJ09B0261-0100 Table 20.6 GDTA States in Each Processi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 979 of 1658 REJ09B0261-0100 20.3.1 GA Mask Register (GACMR) GACMR i

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 71 of 1658 REJ09B0261-0100 I1 I2 I3 ID s1 s2 s3 WBI3I3I3I3I3I3I3I1 I2 IDWBI1 I2 ID S1 S2 S3E1s1 E2s2 E3

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 980 of 1658 REJ09B0261-0100 20.3.2 GA Enable Register (GACER) GACER

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 981 of 1658 REJ09B0261-0100 20.3.3 GA Interrupt Source Indicating R

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 982 of 1658 REJ09B0261-0100 20.3.4 GA Interrupt Source Indication C

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 983 of 1658 REJ09B0261-0100 20.3.5 GA Interrupt Enable Register (GA

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 984 of 1658 REJ09B0261-0100 20.3.6 GA CL Input Data Alignment Regis

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 985 of 1658 REJ09B0261-0100 20.3.7 GA CL Output Data Alignment Regi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 986 of 1658 REJ09B0261-0100 20.3.8 GA MC Input Data Alignment Regis

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 987 of 1658 REJ09B0261-0100 20.3.9 GA MC Output Data Alignment Regi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 988 of 1658 REJ09B0261-0100 20.3.10 GA Buffer RAM 0 Data Alignment

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 989 of 1658 REJ09B0261-0100 20.3.11 GA Buffer RAM 1 Data Alignment

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 990 of 1658 REJ09B0261-0100 20.3.12 CL Command FIFO (CLCF) CLCF is

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 991 of 1658 REJ09B0261-0100 2. Setting Method When Setting Values

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 992 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descript

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 993 of 1658 REJ09B0261-0100 20.3.14 CL Status Register (CLSR) CLSR

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 994 of 1658 REJ09B0261-0100 20.3.15 CL Frame Width Setting Register

Seite 31 - Section 1 Overview

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 995 of 1658 REJ09B0261-0100 20.3.16 CL Frame Height Setting Registe

Seite 32 - 1. Overview

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 996 of 1658 REJ09B0261-0100 20.3.17 CL Input Y Padding Size Setting

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 997 of 1658 REJ09B0261-0100 20.3.18 CL Input UV Padding Size Settin

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 998 of 1658 REJ09B0261-0100 20.3.19 CL Output Padding Size Setting

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 999 of 1658 REJ09B0261-0100 20.3.20 CL Palette Pointer Register (CL

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 73 of 1658 REJ09B0261-0100 I1 I2 I3 ID s1 s2 s3s1 s2 s3 WBs1 s2 s3 WBFS1 FS2 FS3 FS4FS1 FS2 FS3 FS4FSFS

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1000 of 1658 REJ09B0261-0100 20.3.21 MC Command FIFO (MCCF) MCCF is

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1001 of 1658 REJ09B0261-0100 Writing Order Intra Macroblock Processi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1002 of 1658 REJ09B0261-0100 ⎯ Bit 26: Indicates whether or not the

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1003 of 1658 REJ09B0261-0100 20.3.22 MC Status Register (MCSR) MCSR

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1004 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descript

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1005 of 1658 REJ09B0261-0100 20.3.24 MC Frame Height Setting Regist

Seite 43 - 1.2 Block Diagram

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1006 of 1658 REJ09B0261-0100 20.3.25 MC Y Padding Size Setting Regi

Seite 44 - 1.3 Pin Arrangement Table

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1007 of 1658 REJ09B0261-0100 20.3.26 MC UV Padding Size Setting Reg

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1008 of 1658 REJ09B0261-0100 20.3.27 MC Output Frame Y Pointer Regi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1009 of 1658 REJ09B0261-0100 20.3.29 MC Output Frame V Pointer Regi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1010 of 1658 REJ09B0261-0100 20.3.31 MC Past Frame U Pointer Regist

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1011 of 1658 REJ09B0261-0100 20.3.33 MC Future Frame Y Pointer Regi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1012 of 1658 REJ09B0261-0100 20.3.35 MC Future Frame V Pointer Regi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1013 of 1658 REJ09B0261-0100 20.4 GDTA Operation 20.4.1 Explanatio

Seite 52 - PKG TOP VIEW

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1014 of 1658 REJ09B0261-0100 Table 20.7 shows YUYV4:2:2 conversion s

Seite 53 - PKG BTM VIEW

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1015 of 1658 REJ09B0261-0100 (2) Overview of ARGB Conversion Functi

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1016 of 1658 REJ09B0261-0100 Table 20.8 shows ARGB8888 conversion se

Seite 55 - 2.1 Data Formats

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1017 of 1658 REJ09B0261-0100 No. Operation Description (4) ARGB con

Seite 56 - 2.2 Register Descriptions

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1018 of 1658 REJ09B0261-0100 [Step (1) Clear the CL access mask]Afte

Seite 57 - 2. Programming Model

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1019 of 1658 REJ09B0261-0100 20.4.2 Explanation of MC Operation By

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 75 of 1658 REJ09B0261-0100 I1 I2 I3 IDFE1 FE2 FE3FEPLFEPLFE4 FE5 FE6 FSI1 I2 I3IDFE1 FE2 FE3 FE4 FE5 FE

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1020 of 1658 REJ09B0261-0100 (1) Estimated Image Generation Functio

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1021 of 1658 REJ09B0261-0100 Table 20.9 shows estimated image genera

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1022 of 1658 REJ09B0261-0100 No. Operation Description (2) Calculat

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1023 of 1658 REJ09B0261-0100 No. Operation Description (3) Calculat

Seite 63 - (1) Status Register (SR)

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1024 of 1658 REJ09B0261-0100 No. Operation Description (3) Calculat

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1025 of 1658 REJ09B0261-0100 No. Operation Description (4) Calculat

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1026 of 1658 REJ09B0261-0100 No. Operation Description (6) Half-pix

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1027 of 1658 REJ09B0261-0100 No. Operation Description (7) IDCT dat

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1028 of 1658 REJ09B0261-0100 StartEndIs an interrupt used to recogni

Seite 68 - <Little endian>

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1029 of 1658 REJ09B0261-0100 20.5 Interrupt Processing In the GDTA,

Seite 69 - 2.3 Memory-Mapped Registers

4. Pipelining Rev.1.00 Jan. 10, 2008 Page 76 of 1658 REJ09B0261-0100 4.2 Parallel-Executability Instructions are categorized into six groups acc

Seite 70 - 2.5 Data Formats in Memory

20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1030 of 1658 REJ09B0261-0100 D0 D1 D2 D3 D4 D5 D6 D7D4 D5 D6 D7 D0 D

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1031 of 1658 REJ09B0261-0100 20.7 Usage Notes When using the GDTA,

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 1032 of 1658 REJ09B0261-0100 20.7.3 Regarding Frequency Changes Dur

Seite 73 - 2.7 Usage Notes

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1033 of 1658 REJ09B0261-0100 Section 21 Serial Communication In

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1034 of 1658 REJ09B0261-0100 • Full-duplex communication capabil

Seite 75 - Section 3 Instruction Set

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1035 of 1658 REJ09B0261-0100 Figure 21.1 shows a block diagram of

Seite 76 - 3. Instruction Set

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1036 of 1658 REJ09B0261-0100 SPTRWD7D6RQDRTSIOCSPTRRSPTRWRQDRTSDT

Seite 77 - Rn + 1/2/4

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1037 of 1658 REJ09B0261-0100 SPTRWD5D4RQDCTSIOCSPTRRSPTRWRQDCTSDT

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1038 of 1658 REJ09B0261-0100 SPTRWD3D2RQDSCKIOCSPTRRSPTRWRQDSCKDT

Seite 79 - GBR + R0

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1039 of 1658 REJ09B0261-0100 SPTRRLegend:SPTRR: Read from SCSPTRS

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 77 of 1658 REJ09B0261-0100 Instruction Group Instruction FE FADD FSUB FCMP (S/D) FCNVDS FCNVSD FDIV FIP

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1040 of 1658 REJ09B0261-0100 21.3 Register Descriptions The SCIF

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1041 of 1658 REJ09B0261-0100 Ch. Register Name Abbrev. R/W P4 A

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1042 of 1658 REJ09B0261-0100 Ch. Register Name Abbrev. R/W P4 A

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1043 of 1658 REJ09B0261-0100 Table 21.2 Register Configuration (

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1044 of 1658 REJ09B0261-0100 Ch. Register Name Abbrev. Power-on

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1045 of 1658 REJ09B0261-0100 Ch. Register Name Abbrev. Power-on

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1046 of 1658 REJ09B0261-0100 21.3.1 Receive Shift Register (SCRS

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1047 of 1658 REJ09B0261-0100 21.3.3 Transmit Shift Register (SCT

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1048 of 1658 REJ09B0261-0100 21.3.5 Serial Mode Register (SCSMR)

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1049 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 78 of 1658 REJ09B0261-0100 Table 4.3 Combination of Preceding and Following Instructions Preceding I

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1050 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

Seite 93 - Comparis

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1051 of 1658 REJ09B0261-0100 21.3.6 Serial Control Register (SCS

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1052 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

Seite 95 - Section 4 Pipelining

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1053 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1054 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1055 of 1658 REJ09B0261-0100 21.3.7 Serial Status Register n (SC

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1056 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1057 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1058 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1059 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 79 of 1658 REJ09B0261-0100 4.3 Issue Rates and Execution Cycles Instruction execution cycles are summa

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1060 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1061 of 1658 REJ09B0261-0100 21.3.8 Bit Rate Register n (SCBRR)

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1062 of 1658 REJ09B0261-0100 21.3.9 FIFO Control Register n (SCF

Seite 106 - 4.2 Parallel-Executability

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1063 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

Seite 107 - OR.B #imm,@(R0,GBR)

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1064 of 1658 REJ09B0261-0100 21.3.10 Transmit FIFO Data Count Re

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1065 of 1658 REJ09B0261-0100 21.3.11 Receive FIFO Data Count Reg

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1066 of 1658 REJ09B0261-0100 21.3.12 Serial Port Register n (SCS

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1067 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1068 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descr

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1069 of 1658 REJ09B0261-0100 21.3.13 Line Status Register n (SCL

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Rev.1.00 Jan. 10, 2008 Page xi of xxx REJ09B0261-0100 7.1.1 Address Spaces ...

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 80 of 1658 REJ09B0261-0100 Table 4.4 Issue Rates and Execution Cycles Functional Category No. Instruct

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1070 of 1658 REJ09B0261-0100 21.3.14 Serial Error Register n (SC

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1071 of 1658 REJ09B0261-0100 21.4 Operation 21.4.1 Overview The

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1072 of 1658 REJ09B0261-0100 Clocked Synchronous Mode • Data len

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1073 of 1658 REJ09B0261-0100 Table 21.5 SCSMR and SCSCR Settings

Seite 119 - 5.2 Register Descriptions

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1074 of 1658 REJ09B0261-0100 21.4.2 Operation in Asynchronous Mo

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1075 of 1658 REJ09B0261-0100 (1) Data Transfer Format Table 21.6

Seite 121 - 5. Exception Handling

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1076 of 1658 REJ09B0261-0100 (2) Clock Either an internal clock

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1077 of 1658 REJ09B0261-0100 Figure 21.8 shows a sample SCIF init

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1078 of 1658 REJ09B0261-0100 (4) Serial Data Transmission (Async

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1079 of 1658 REJ09B0261-0100 In serial transmission, the SCIF ope

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 81 of 1658 REJ09B0261-0100 Functional Category No. Instruction Instruction Group Issue RateExecution Cy

Seite 126 - Table 5.3 Exceptions

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1080 of 1658 REJ09B0261-0100 Figure 21.10 shows an example of the

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1081 of 1658 REJ09B0261-0100 (5) Serial Data Reception (Asynchro

Seite 128 - 5.5 Exception Flow

21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1082 of 1658 REJ09B0261-0100 Error handlingReceive error handling

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1083 of 1658 REJ09B0261-0100 In serial reception, the SCIF operat

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1084 of 1658 REJ09B0261-0100 5. When modem control is enabled, t

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1085 of 1658 REJ09B0261-0100 21.4.3 Operation in Clocked Synchro

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1086 of 1658 REJ09B0261-0100 (1) Data Transfer Format A fixed 8-

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1087 of 1658 REJ09B0261-0100 Start of initializationClear TE and

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1088 of 1658 REJ09B0261-0100 (4) Serial Data Transmission (Clock

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1089 of 1658 REJ09B0261-0100 In serial transmission, the SCIF ope

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4. Pipelining Rev.1.00 Jan. 10, 2008 Page 82 of 1658 REJ09B0261-0100 Functional Category No. Instruction Instruction Group Issue RateExecution Cy

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1090 of 1658 REJ09B0261-0100 (5) Serial Data Reception (Clocked

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1091 of 1658 REJ09B0261-0100 Error handlingClear ORER flag in SCL

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1092 of 1658 REJ09B0261-0100 Bit 7 Bit 0 Bit 7 Bit 0 Bit 1 Bit 6

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1093 of 1658 REJ09B0261-0100 (6) Transmitting and Receiving Seri

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1094 of 1658 REJ09B0261-0100 21.5 SCIF Interrupt Sources and the

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1095 of 1658 REJ09B0261-0100 Table 21.7 SCIF Interrupt Sources I

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1096 of 1658 REJ09B0261-0100 21.6 Usage Notes Note the following

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21. Serial Communication Interface with FIFO (SCIF) Rev.1.00 Jan. 10, 2008 Page 1097 of 1658 REJ09B0261-0100 (4) Sending a Break Signal The inpu

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22. Serial I/O with FIFO (SIOF) Rev.1.00 Jan. 10, 2008 Page 1118 of 1658 REJ09B0261-0100 22.3.8 Interrupt Enable Register (SIIER) SIIER is a 16-

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22. Serial I/O with FIFO (SIOF) Rev.1.00 Jan. 10, 2008 Page 1130 of 1658 REJ09B0261-0100 SIOF_SCKSIOF_RXDSIOF_TXDSIOF_SYNC1-bit delayStart bit da

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22. Serial I/O with FIFO (SIOF) Rev.1.00 Jan. 10, 2008 Page 1131 of 1658 REJ09B0261-0100 SIOF_SCKSIOF_SYNCSIOF_TXDSIOF_RXD(a) Falling-edge sampli

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23. Serial Peripheral Interface (HSPI) Rev.1.00 Jan. 10, 2008 Page 1151 of 1658 REJ09B0261-0100 Section 23 Serial Peripheral Interface (HSPI) T

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23. Serial Peripheral Interface (HSPI) Rev.1.00 Jan. 10, 2008 Page 1152 of 1658 REJ09B0261-0100 Figure 23.1 is a block diagram of the HSPI. HSPI_

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23. Serial Peripheral Interface (HSPI) Rev.1.00 Jan. 10, 2008 Page 1154 of 1658 REJ09B0261-0100 Table 23.3 Register Configuration (2) Register N

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23. Serial Peripheral Interface (HSPI) Rev.1.00 Jan. 10, 2008 Page 1168 of 1658 REJ09B0261-0100 Data transfer cycleHSPI_CLK (CLKP = 0)HSPI_CLK

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1171 of 1658 REJ09B0261-0100 Section 24 Multimedia Card Interface (MMCIF) Thi

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1172 of 1658 REJ09B0261-0100 Figure 24.1 shows a block diagram of the MMCIF. MM

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1174 of 1658 REJ09B0261-0100 Register Name Abbrev. R/W P4 Address Area 7 Ad

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1175 of 1658 REJ09B0261-0100 Table 24.3 Register Configuration (2) Register Na

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1176 of 1658 REJ09B0261-0100 Register Name Abbrev. Power-on Reset by PRESET Pi

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1179 of 1658 REJ09B0261-0100 Bit: Initial value:R/W:7654321000000000RCMDSTARTRR

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1180 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 — 0

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1182 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 5 FIFO_

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1185 of 1658 REJ09B0261-0100 (2) INTCR1 Bit: Initial value:R/W:7654321000000 0

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1188 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description Interr

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1189 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description Interr

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 92 of 1658 REJ09B0261-0100 5.2.3 Interrupt Event Register (INTEVT) The interrupt event registe

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1190 of 1658 REJ09B0261-0100 (2) INTSTR1 Bit: Initial value:R/W:7654321000000

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1192 of 1658 REJ09B0261-0100 (3) INTSTR2 Bit: Initial value:R/W:7654321000000

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1194 of 1658 REJ09B0261-0100 24.3.8 Command Timeout Control Register (CTOCR) C

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1197 of 1658 REJ09B0261-0100 24.3.11 Command Type Register (CMDTYR) CMDTYR is

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1199 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 RTY

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1200 of 1658 REJ09B0261-0100 Table 24.5 summarizes the correspondence between t

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1201 of 1658 REJ09B0261-0100 CMD CMDTYR RSPTYR INDEX Abbreviation resp 6

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1204 of 1658 REJ09B0261-0100 (1) RSPR0 to RSPR16 Bit: Initial value:R/W:765432

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1205 of 1658 REJ09B0261-0100 24.3.15 Data Timeout Register (DTOUTR) DTOUTR spe

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1206 of 1658 REJ09B0261-0100 24.3.16 Data Register (DR) DR is a register for r

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1207 of 1658 REJ09B0261-0100 H'011 word (2 bytes)64 wordsH'23H'4

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1210 of 1658 REJ09B0261-0100 (1) Operation of Broadcast Commands CMD0, CMD1, C

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1212 of 1658 REJ09B0261-0100 Ye sStart of command sequenceSet command data in C

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1213 of 1658 REJ09B0261-0100 • The command response is received from the card.

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1214 of 1658 REJ09B0261-0100 MMCCLKMMCCMDMMCDATCMDSTRT(CMDSTART)INTSTR0(CMDI)CS

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1216 of 1658 REJ09B0261-0100 (5) Commands with Read Data Flash memory operatio

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1217 of 1658 REJ09B0261-0100 • The end of the command sequence is detected by

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1220 of 1658 REJ09B0261-0100 CMD11 (READ_DAT_UNTIL_STOP)CMD12 (STOP_TRANSMISSIO

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1221 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16 R

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1222 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16 R

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1223 of 1658 REJ09B0261-0100 End of command sequenceYe sNoFFI interrupt detecte

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1224 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16 R

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1225 of 1658 REJ09B0261-0100 End of command sequenceYe sNoFFI interrupt detecte

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1226 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFORead response r

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1227 of 1658 REJ09B0261-0100 (6) Commands with Write Data Flash memory operati

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1228 of 1658 REJ09B0261-0100 • The end of the command sequence is detected by

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1229 of 1658 REJ09B0261-0100 MMCCLKMMCCMDMMCDATCMDSTRT(CMDSTART)(CMDI)CSTR(CWRE

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 96 of 1658 REJ09B0261-0100 5.4 Exception Types and Priorities Table 5.3 shows the types of exc

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1230 of 1658 REJ09B0261-0100 MMCCLKMMCCMDMMCDATCMDSTRT(CMDSTART)INTSTR0(CMDI)(C

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1231 of 1658 REJ09B0261-0100 MMCCLKMMCCMDMMCDATCMDSTRT(CMDSTART)INTSTR0(CMDI)(C

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1232 of 1658 REJ09B0261-0100 MMCCLKMMCCMDMMCDATCMDSTRT(CMDSTART)INTSTR0(CMDI)(C

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1233 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16 R

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1234 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16 R

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1235 of 1658 REJ09B0261-0100 NoEnd of command sequenceWrite data to FIFOSet DAT

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1236 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16 S

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1237 of 1658 REJ09B0261-0100 NoEnd of command sequenceWrite data to FIFOSet DAT

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1238 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFORead response r

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1239 of 1658 REJ09B0261-0100 24.5 MMCIF Interrupt Sources Table 24.7 lists the

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 97 of 1658 REJ09B0261-0100 Exception Transition Direction*3 Exception Category Execution Mode

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1240 of 1658 REJ09B0261-0100 24.6 Operations when Using DMA 24.6.1 Operation

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1241 of 1658 REJ09B0261-0100 • An error in a command sequence (during data rec

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1242 of 1658 REJ09B0261-0100 Start of command sequenceEnd of command sequenceCl

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1243 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16Co

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1244 of 1658 REJ09B0261-0100 End of command sequenceSet DMACR to H'84Clear

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1245 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16Co

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1246 of 1658 REJ09B0261-0100 End of command sequenceSet DMACR to H'84Clear

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1247 of 1658 REJ09B0261-0100 Start of command sequenceEnd of command sequenceCl

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1248 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16Co

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1249 of 1658 REJ09B0261-0100 End of command sequenceSet DMACR to H'84Set C

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 98 of 1658 REJ09B0261-0100 5.5 Exception Flow 5.5.1 Exception Flow Figure 5.1 shows an outlin

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1250 of 1658 REJ09B0261-0100 24.6.2 Operation in Write Sequence To transfer da

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1251 of 1658 REJ09B0261-0100 • An error in a command sequence (during data tra

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1252 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16Co

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1253 of 1658 REJ09B0261-0100 End of command sequenceSet CMDOFF to 1Set the DATA

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1254 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16Co

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1255 of 1658 REJ09B0261-0100 End of command sequenceSet DATAEN to 1DRPI interru

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1256 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16Co

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1257 of 1658 REJ09B0261-0100 End of command sequenceSet DATAEN to 1DRPI interru

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1258 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOConfigure the D

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1259 of 1658 REJ09B0261-0100 Start of command sequenceClear FIFOExecute CMD16Co

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 99 of 1658 REJ09B0261-0100 Execute next instructionIs highest- priority exceptionre-exceptionty

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1260 of 1658 REJ09B0261-0100 End of command sequenceBTI interrupt detected?NoYe

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1261 of 1658 REJ09B0261-0100 24.7 Register Accesses with Little Endian Specifi

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24. Multimedia Card Interface (MMCIF) Rev.1.00 Jan. 10, 2008 Page 1262 of 1658 REJ09B0261-0100

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1263 of 1658 REJ09B0261-0100 Section 25 Audio Codec Interface (HAC) The HAC, the au

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1264 of 1658 REJ09B0261-0100 Figure 25.1 shows a block diagram of the HAC. HAC receiv

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1265 of 1658 REJ09B0261-0100 25.2 Input/Output Pins Table 25.1 describes the HAC pin

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1266 of 1658 REJ09B0261-0100 25.3 Register Descriptions The following shows the HAC

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1267 of 1658 REJ09B0261-0100 Table 25.2 Register Configuration (2) Channel Register

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1268 of 1658 REJ09B0261-0100 Channel Register Name Abbrev. Power-on Reset by PRESET

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1269 of 1658 REJ09B0261-0100 25.3.1 Control and Status Register (HACCR) HACCR is a 3

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Rev.1.00 Jan. 10, 2008 Page xiii of xxx REJ09B0261-0100 8.7 Store Queues...

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 100 of 1658 REJ09B0261-0100 5.5.2 Exception Source Acceptance A priority ranking is provided f

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1270 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 10 WMRT 0

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1271 of 1658 REJ09B0261-0100 25.3.2 Command/Status Address Register (HACCSAR) HACCSA

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1272 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 18 17 16 15

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1273 of 1658 REJ09B0261-0100 25.3.3 Command/Status Data Register (HACCSDR) HACCSDR i

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1274 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 31 to 20 ⎯

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1275 of 1658 REJ09B0261-0100 25.3.4 PCM Left Channel Register (HACPCML) HACPCML is a

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1276 of 1658 REJ09B0261-0100 In 16-bit packed DMA mode, HACPCML is defined as follows

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1277 of 1658 REJ09B0261-0100 25.3.5 PCM Right Channel Register (HACPCMR) HACPCMR is

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1278 of 1658 REJ09B0261-0100 25.3.6 TX Interrupt Enable Register (HACTIER) HACTIER i

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1279 of 1658 REJ09B0261-0100 25.3.7 TX Status Register (HACTSR) HACTSR is a 32-bit r

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 101 of 1658 REJ09B0261-0100 5.5.3 Exception Requests and BL Bit When the BL bit in SR is 0, ge

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1280 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W*2 Description 27 to 10 ⎯

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1281 of 1658 REJ09B0261-0100 25.3.8 RX Interrupt Enable Register (HACRIER) HACRIER i

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1282 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 12 PRRFOVIE

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1283 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W* Description 31 to 23 ⎯

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1284 of 1658 REJ09B0261-0100 25.3.10 HAC Control Register (HACACR) HACACR is a 32-bi

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1285 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 25 ⎯ 0 R Re

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1286 of 1658 REJ09B0261-0100 25.4 AC 97 Frame Slot Structure Figure 25.2 shows the A

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1287 of 1658 REJ09B0261-0100 Table 25.4 AC97 Receive Frame Structure Slot Name Desc

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1288 of 1658 REJ09B0261-0100 25.5 Operation 25.5.1 Receiver The HAC receiver receiv

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1289 of 1658 REJ09B0261-0100 25.5.3 DMA The HAC supports DMA transfer for slots 3 an

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 102 of 1658 REJ09B0261-0100 5.6 Description of Exceptions The various exception handling opera

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1290 of 1658 REJ09B0261-0100 25.5.5 Initialization Sequence Figure 25.3 shows an exa

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1291 of 1658 REJ09B0261-0100 NoNoYesYesYesWrite to codecReturn ErrorWrite 0 to TSR.CM

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1292 of 1658 REJ09B0261-0100 Read codecNoYesNoYesNoYesYesYesYesNoYesRegV = H'7C(

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1293 of 1658 REJ09B0261-0100 NoYesSend_read_requestWrite 0 to RSR.STARYWrite 0 to RSR

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1294 of 1658 REJ09B0261-0100 NoNoYesWaitLoop_CMDAMTNotes: E3, E4: Loop count req

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1295 of 1658 REJ09B0261-0100 25.5.6 Power-Down Mode It is possible to stop or resume

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25. Audio Codec Interface (HAC) Rev.1.00 Jan. 10, 2008 Page 1296 of 1658 REJ09B0261-0100

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1297 of 1658 REJ09B0261-0100 Section 26 Serial Sound Interface (SSI) Module

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1298 of 1658 REJ09B0261-0100 Figure 26.1 is a block diagram of the SSI module

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1299 of 1658 REJ09B0261-0100 26.2 Input/Output Pins Table 26.1 lists the pin

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 103 of 1658 REJ09B0261-0100 (4) Instruction TLB Multiple Hit Exception • Source: Multiple ITL

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1300 of 1658 REJ09B0261-0100 26.3 Register Descriptions The SSI has the foll

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1301 of 1658 REJ09B0261-0100 26.3.1 Control Register (SSICR) SSICR is a 32-b

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1302 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 23 2

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1303 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 14

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1304 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 12

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1305 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 9 P

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1306 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 8 D

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1307 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 C

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1308 of 1658 REJ09B0261-0100 26.3.2 Status Register (SSISR) SSISR is configu

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1309 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 27 U

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 104 of 1658 REJ09B0261-0100 5.6.2 General Exceptions (1) Data TLB Miss Exception • Source: A

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1310 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 26 O

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1311 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 24

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1312 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 1 S

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1313 of 1658 REJ09B0261-0100 26.3.3 Transmit Data Register (SSITDR) SSITDR i

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1314 of 1658 REJ09B0261-0100 26.4 Operation 26.4.1 Bus Format The SSI modul

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1315 of 1658 REJ09B0261-0100 26.4.2 Non-Compressed Modes The non-compressed

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1316 of 1658 REJ09B0261-0100 1. Philips Format Figures 26.2 and 26.3 show the

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1317 of 1658 REJ09B0261-0100 2. Sony Format System word 1 System word 2Data w

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1318 of 1658 REJ09B0261-0100 Table 26.4 Number of Padding Bits for Each Vali

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1319 of 1658 REJ09B0261-0100 In the case of the SSI module configured as a tr

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 105 of 1658 REJ09B0261-0100 (2) Instruction TLB Miss Exception • Source: Address mismatch in

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1320 of 1658 REJ09B0261-0100 System word 2Dataword 1Dataword 2Dataword 3Dataw

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1321 of 1658 REJ09B0261-0100 (7) Configuration Fields—Signal Format Fields T

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1322 of 1658 REJ09B0261-0100 1. Inverted Clock System word 1 System word 2As

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1323 of 1658 REJ09B0261-0100 4. Padding Bits First, Followed by Serial Data,

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1324 of 1658 REJ09B0261-0100 7. Parallel Right Aligned with Delay As basic s

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1325 of 1658 REJ09B0261-0100 The word select pin in this mode does not act as

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1326 of 1658 REJ09B0261-0100 (1) Slave Receiver This mode allows the module

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1327 of 1658 REJ09B0261-0100 26.4.4 Operation Modes There are three modes of

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1328 of 1658 REJ09B0261-0100 26.4.5 Transmit Operation Transmission can be c

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1329 of 1658 REJ09B0261-0100 (1) Transmission Using DMA Controller NoYesYesS

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 106 of 1658 REJ09B0261-0100 (3) Initial Page Write Exception • Source: TLB is hit in a store

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1330 of 1658 REJ09B0261-0100 (2) Transmission using Interrupt Data Flow Cont

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1331 of 1658 REJ09B0261-0100 26.4.6 Receive Operation As with transmission t

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1332 of 1658 REJ09B0261-0100 (1) Reception Using DMA Controller StartEnd*Rel

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1333 of 1658 REJ09B0261-0100 (2) Reception Using Interrupt Data Flow Control

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1334 of 1658 REJ09B0261-0100 When an underflow or overflow error condition is

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1335 of 1658 REJ09B0261-0100 26.5 Usage Note 26.5.1 Restrictions when an Ov

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26. Serial Sound Interface (SSI) Module Rev.1.00 Jan. 10, 2008 Page 1336 of 1658 REJ09B0261-0100 SCKSSI_WSSSI_SDATASSISR.IDSTSSICR.ENData transmi

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1337 of 1658 REJ09B0261-0100 Section 27 NAND Flash Memory Controller (FLCT

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1338 of 1658 REJ09B0261-0100 (5) Data Transfer FIFO • On-chip 224-byte FLD

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1339 of 1658 REJ09B0261-0100 Figure 27.1 shows a block diagram of the FLCTL.

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 107 of 1658 REJ09B0261-0100 (4) Data TLB Protection Violation Exception • Source: The access

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1340 of 1658 REJ09B0261-0100 27.2 Input/Output Pins Table 27.1 shows the pi

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1341 of 1658 REJ09B0261-0100 Corresponding Flash Memory Pin Pin Name Functi

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1342 of 1658 REJ09B0261-0100 27.3 Register Descriptions Table 27.2 shows th

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1343 of 1658 REJ09B0261-0100 Table 27.3 Register States in Each Processing

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1344 of 1658 REJ09B0261-0100 27.3.1 Common Control Register (FLCMNCR) FLCMN

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1345 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 15

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1346 of 1658 REJ09B0261-0100 27.3.2 Command Control Register (FLCMDCR) FLCM

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1347 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 25

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1348 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 16

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1349 of 1658 REJ09B0261-0100 27.3.4 Address Register (FLADR) FLADR is a 32-

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 108 of 1658 REJ09B0261-0100 The PC and SR contents for the instruction at which this exception

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1350 of 1658 REJ09B0261-0100 • Sector access mode 31 30 29 28 27 26 25 24 2

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1351 of 1658 REJ09B0261-0100 27.3.5 Address Register 2 (FLADR2) FLADR2 is a

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1352 of 1658 REJ09B0261-0100 27.3.6 Data Counter Register (FLDTCNTR) FLDTCN

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1353 of 1658 REJ09B0261-0100 27.3.7 Data Register (FLDATAR) FLDATAR is a 32

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27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1354 of 1658 REJ09B0261-0100 27.3.8 Interrupt DMA Control Register (FLINTDM

Seite 430

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1355 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 31 t

Seite 431

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1356 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 18 A

Seite 432

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1357 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 7 BT

Seite 433

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1358 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 3 B

Seite 434

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1359 of 1658 REJ09B0261-0100 27.3.9 Ready Busy Timeout Setting Register (FL

Seite 435

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 109 of 1658 REJ09B0261-0100 (5) Instruction TLB Protection Violation Exception • Source: The

Seite 436

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1360 of 1658 REJ09B0261-0100 27.3.10 Ready Busy Timeout Counter (FLBSYCNT)

Seite 437

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1361 of 1658 REJ09B0261-0100 27.3.11 Data FIFO Register (FLDTFIFO) FLDTFIFO

Seite 438

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1362 of 1658 REJ09B0261-0100 27.3.12 Control Code FIFO Register (FLECFIFO)

Seite 439

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1363 of 1658 REJ09B0261-0100 27.3.13 Transfer Control Register (FLTRCR) Set

Seite 440

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1364 of 1658 REJ09B0261-0100 27.4 Operation 27.4.1 Operating Modes Two ope

Seite 441

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1365 of 1658 REJ09B0261-0100 Figures 27.3 and 27.4 show examples of writing

Seite 442

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1366 of 1658 REJ09B0261-0100 (2) NAND-Type Flash Memory Access (2048 + 64 B

Seite 443

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1367 of 1658 REJ09B0261-0100 Figures 27.6 and 27.7 show examples of writing

Seite 444

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1368 of 1658 REJ09B0261-0100 27.4.3 Sector Access Mode In sector access mod

Seite 445

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1369 of 1658 REJ09B0261-0100 (1) Physical Sector Figure 27.9 shows the rela

Seite 446

Rev.1.00 Jan. 10, 2008 Page xiv of xxx REJ09B0261-0100 10.4 Interrupt Sources...

Seite 447

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 110 of 1658 REJ09B0261-0100 ITLB_protection_violation_exception() { TEA = EXCEPTION_ADDRESS;

Seite 448

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1370 of 1658 REJ09B0261-0100 (2) Continuous Sector Access Continuous physic

Seite 449

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1371 of 1658 REJ09B0261-0100 27.4.4 Status Read The FLCTL can read the stat

Seite 450

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1372 of 1658 REJ09B0261-0100 (2) Status Read of NAND-Type Flash Memory (204

Seite 451

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1373 of 1658 REJ09B0261-0100 27.5 Example of Register Setting The examples

Seite 452

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1374 of 1658 REJ09B0261-0100 Start of sector access (flash write)FLTRCR.TREN

Seite 453

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1375 of 1658 REJ09B0261-0100 Start of command access (flash read)FLTRCR.TREN

Seite 454

27. NAND Flash Memory Controller (FLCTL) Rev.1.00 Jan. 10, 2008 Page 1376 of 1658 REJ09B0261-0100 27.6 Interrupt Processing The FLCTL has four i

Seite 455

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1377 of 1658 REJ09B0261-0100 Section 28 General Purpose I/O Ports (GPIO) 28.1

Seite 456

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1378 of 1658 REJ09B0261-0100 Table 28.1 Multiplexed Pins Controlled by Port Con

Seite 457

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1379 of 1658 REJ09B0261-0100 Pin Name Port GPIO Selectable Module GPIO Inter

Seite 458

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 111 of 1658 REJ09B0261-0100 • Transition operations: The virtual address (32 bits) at which th

Seite 459

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1380 of 1658 REJ09B0261-0100 Pin Name Port GPIO Selectable Module GPIO Inter

Seite 460

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1381 of 1658 REJ09B0261-0100 Pin Name Port GPIO Selectable Module GPIO Inter

Seite 461

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1382 of 1658 REJ09B0261-0100 28.2 Register Descriptions The following registers

Seite 462

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1383 of 1658 REJ09B0261-0100 Register Name Abbrev. R/W P4 Address*1Area 7 Add

Seite 463

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1384 of 1658 REJ09B0261-0100 Table 28.2 Register Configuration (2) Register Na

Seite 464

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1385 of 1658 REJ09B0261-0100 Register Name Abbrev. Power-on Reset by RESET Pin/

Seite 465

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1386 of 1658 REJ09B0261-0100 28.2.1 Port A Control Register (PACR) PACR is a 16

Seite 466

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1387 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 9 8 PA4M

Seite 467

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1388 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 1 0 PA0M

Seite 468

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1389 of 1658 REJ09B0261-0100 28.2.2 Port B Control Register (PBCR) PBCR is a 16

Seite 469

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 112 of 1658 REJ09B0261-0100 (7) Instruction Address Error • Sources: ⎯ Instruction fetch fro

Seite 470

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1390 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 9 8 PB4M

Seite 471

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1391 of 1658 REJ09B0261-0100 28.2.3 Port C Control Register (PCCR) PCCR is a 16

Seite 472

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1392 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PC3M

Seite 473

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1393 of 1658 REJ09B0261-0100 28.2.4 Port D Control Register (PDCR) PDCR is a 16

Seite 474

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1394 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PD3M

Seite 475

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1395 of 1658 REJ09B0261-0100 28.2.5 Port E Control Register (PECR) PECR is a 16

Seite 476

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1396 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 5 4 PE2M

Seite 477

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1397 of 1658 REJ09B0261-0100 28.2.6 Port F Control Register (PFCR) PFCR is a 16

Seite 478

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1398 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PF3M

Seite 479

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1399 of 1658 REJ09B0261-0100 28.2.7 Port G Control Register (PGCR) PGCR is a 16

Seite 480

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 113 of 1658 REJ09B0261-0100 (8) Unconditional Trap • Source: Execution of TRAPA instruction •

Seite 481

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1400 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PG3M

Seite 482

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1401 of 1658 REJ09B0261-0100 28.2.8 Port H Control Register (PHCR) PHCR is a 16

Seite 483

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1402 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PH3M

Seite 484 - PCMCIA Interface

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1403 of 1658 REJ09B0261-0100 28.2.9 Port J Control Register (PJCR) PJCR is a 16

Seite 485

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1404 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PJ3M

Seite 486

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1405 of 1658 REJ09B0261-0100 28.2.10 Port K Control Register (PKCR) PKCR is a 1

Seite 487 - 12.1 Features

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1406 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PK3M

Seite 488

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1407 of 1658 REJ09B0261-0100 28.2.11 Port L Control Register (PLCR) PLCR is a 1

Seite 489

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1408 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PL3M

Seite 490 - 12.2 Input/Output Pins

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1409 of 1658 REJ09B0261-0100 28.2.12 Port M Control Register (PMCR) PMCR is a 1

Seite 491

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 114 of 1658 REJ09B0261-0100 (9) General Illegal Instruction Exception • Sources: ⎯ Decoding

Seite 492

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1410 of 1658 REJ09B0261-0100 28.2.13 Port N Control Register (PNCR) PNCR is a 1

Seite 493

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1411 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PL3M

Seite 494

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1412 of 1658 REJ09B0261-0100 28.2.14 Port P Control Register (PPCR) PPCR is a 1

Seite 495 - 12.3 Data Alignment

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1413 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 7 6 PP3M

Seite 496

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1414 of 1658 REJ09B0261-0100 28.2.15 Port Q Control Register (PQCR) PQCR is a 1

Seite 497

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1415 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 5 4 PQ2M

Seite 498

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1416 of 1658 REJ09B0261-0100 28.2.16 Port R Control Register (PRCR) PRCR is a 1

Seite 499

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1417 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 3 2 PR1M

Seite 500 - Set to 32 Bits

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1418 of 1658 REJ09B0261-0100 28.2.17 Port A Data Register (PADR) PADR is an 8-b

Seite 501

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1419 of 1658 REJ09B0261-0100 28.2.18 Port B Data Register (PBDR) PBDR is an 8-b

Seite 502

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 115 of 1658 REJ09B0261-0100 (10) Slot Illegal Instruction Exception • Sources: ⎯ Decoding of

Seite 503 - Set to 16 Bits

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1420 of 1658 REJ09B0261-0100 28.2.19 Port C Data Register (PCDR) PCDR is an 8-b

Seite 504

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1421 of 1658 REJ09B0261-0100 28.2.20 Port D Data Register (PDDR) PDDR is an 8-b

Seite 505

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1422 of 1658 REJ09B0261-0100 28.2.21 Port E Data Register (PEDR) PEDR is an 8-b

Seite 506

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1423 of 1658 REJ09B0261-0100 28.2.22 Port F Data Register (PFDR) PFDR is an 8-b

Seite 507 - Width Is 16 Bits

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1424 of 1658 REJ09B0261-0100 28.2.23 Port G Data Register (PGDR) PGDR is an 8-b

Seite 508 - Width Is 32 Bits

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1425 of 1658 REJ09B0261-0100 28.2.24 Port H Data Register (PHDR) PHDR is an 8-b

Seite 509 - 12.4 Register Descriptions

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1426 of 1658 REJ09B0261-0100 28.2.25 Port J Data Register (PJDR) PJDR is an 8-b

Seite 510

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1427 of 1658 REJ09B0261-0100 28.2.26 Port K Data Register (PKDR) PKDR is an 8-b

Seite 511

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1428 of 1658 REJ09B0261-0100 28.2.27 Port L Data Register (PLDR) PLDR is an 8-b

Seite 512

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1429 of 1658 REJ09B0261-0100 28.2.28 Port M Data Register (PMDR) PMDR is an 8-b

Seite 513

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 116 of 1658 REJ09B0261-0100 (11) General FPU Disable Exception • Source: Decoding of an FPU i

Seite 514

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1430 of 1658 REJ09B0261-0100 28.2.29 Port N Data Register (PNDR) PNDR is an 8-b

Seite 515

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1431 of 1658 REJ09B0261-0100 28.2.30 Port P Data Register (PPDR) PPDR is an 8-b

Seite 516 - BASFT0BASFT1

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1432 of 1658 REJ09B0261-0100 28.2.31 Port Q Data Register (PQDR) PQDR is an 8-b

Seite 517

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1433 of 1658 REJ09B0261-0100 28.2.32 Port R Data Register (PRDR) PRDR is an 8-b

Seite 518

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1434 of 1658 REJ09B0261-0100 28.2.33 Port E Pull-Up Control Register (PEPUPR) P

Seite 519

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1435 of 1658 REJ09B0261-0100 28.2.34 Port H Pull-Up Control Register (PHPUPR) P

Seite 520

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1436 of 1658 REJ09B0261-0100 28.2.35 Port J Pull-Up Control Register (PJPUPR) P

Seite 521

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1437 of 1658 REJ09B0261-0100 28.2.36 Port K Pull-Up Control Register (PKPUPR) P

Seite 522

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1438 of 1658 REJ09B0261-0100 28.2.37 Port L Pull-Up Control Register (PLPUPR) P

Seite 523

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1439 of 1658 REJ09B0261-0100 28.2.38 Port M Pull-Up Control Register (PMPUPR) P

Seite 524

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 117 of 1658 REJ09B0261-0100 (12) Slot FPU Disable Exception • Source: Decoding of an FPU inst

Seite 525 - RDWR0RDWR1RDWR2RDWR3

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1440 of 1658 REJ09B0261-0100 28.2.39 Port N Pull-Up Control Register (PNPUPR) P

Seite 526

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1441 of 1658 REJ09B0261-0100 28.2.40 Input-Pin Pull-Up Control Register 1 (PPUP

Seite 527

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1442 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 15 to 8

Seite 528

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1443 of 1658 REJ09B0261-0100 28.2.42 Peripheral Module Select Register 1 (P1MSE

Seite 529

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1444 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 12 11 PM

Seite 530

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1445 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 6 5 P1MS

Seite 531

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1446 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 0 P1MSE

Seite 532

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1447 of 1658 REJ09B0261-0100 28.2.43 Peripheral Module Select Register 2 (P2MSE

Seite 533

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1448 of 1658 REJ09B0261-0100 Bit Bit Name Initial value R/W Description 15 to 3

Seite 534

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1449 of 1658 REJ09B0261-0100 28.3 Usage Example Setting procedure examples are

Seite 535

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 118 of 1658 REJ09B0261-0100 (13) Pre-Execution User Break/Post-Execution User Break • Source:

Seite 536

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1450 of 1658 REJ09B0261-0100 28.3.2 Port Input function To input the data via t

Seite 537

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1451 of 1658 REJ09B0261-0100 28.3.3 Peripheral Module Function The procedures f

Seite 538

28. General Purpose I/O Ports (GPIO) Rev.1.00 Jan. 10, 2008 Page 1452 of 1658 REJ09B0261-0100

Seite 539

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1453 of 1658 REJ09B0261-0100 Section 29 User Break Controller (UBC) The user break

Seite 540

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1454 of 1658 REJ09B0261-0100 Figure 29.1 shows the UBC block diagram. SABInternal bus

Seite 541

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1455 of 1658 REJ09B0261-0100 29.2 Register Descriptions The UBC has the following re

Seite 542 - 12.5 DBSC2 Operation

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1456 of 1658 REJ09B0261-0100 Table 29.2 Register Status in Each Processing State Reg

Seite 543

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1457 of 1658 REJ09B0261-0100 29.2.1 Match Condition Setting Registers 0 and 1 (CBR0

Seite 544

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1458 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 29 to 24 MFI

Seite 545

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1459 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 7, 6 CD All

Seite 546

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 119 of 1658 REJ09B0261-0100 (14) FPU Exception • Source: Exception due to execution of a floa

Seite 547

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1460 of 1658 REJ09B0261-0100 • CBR1 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 160

Seite 548

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1461 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 23 to 16 AIV

Seite 549

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1462 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 7, 6 CD All

Seite 550

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1463 of 1658 REJ09B0261-0100 29.2.2 Match Operation Setting Registers 0 and 1 (CRR0

Seite 551

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1464 of 1658 REJ09B0261-0100 • CRR1 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 160

Seite 552 - Connected)

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1465 of 1658 REJ09B0261-0100 29.2.3 Match Address Setting Registers 0 and 1 (CAR0 an

Seite 553 - Are Connected)

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1466 of 1658 REJ09B0261-0100 29.2.4 Match Address Mask Setting Registers 0 and 1 (CA

Seite 554

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1467 of 1658 REJ09B0261-0100 • CAMR1 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16

Seite 555

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1468 of 1658 REJ09B0261-0100 29.2.5 Match Data Setting Register 1 (CDR1) CDR1 is a r

Seite 556

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1469 of 1658 REJ09B0261-0100 29.2.6 Match Data Mask Setting Register 1 (CDMR1) CDMR1

Seite 557

Rev.1.00 Jan. 10, 2008 Page xv of xxx REJ09B0261-0100 11.5.9 Bus Arbitration ...

Seite 558

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 120 of 1658 REJ09B0261-0100 5.6.3 Interrupts (1) NMI (Nonmaskable Interrupt) • Source: NMI p

Seite 559

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1470 of 1658 REJ09B0261-0100 29.2.7 Execution Count Break Register 1 (CETR1) CETR1 i

Seite 560

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1471 of 1658 REJ09B0261-0100 29.2.8 Channel Match Flag Register (CCMFR) CCMFR is a r

Seite 561

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1472 of 1658 REJ09B0261-0100 29.2.9 Break Control Register (CBCR) CBCR is a readable

Seite 562

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1473 of 1658 REJ09B0261-0100 29.3 Operation Description 29.3.1 Definition of Words

Seite 563

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1474 of 1658 REJ09B0261-0100 29.3.2 User Break Operation Sequence The following desc

Seite 564

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1475 of 1658 REJ09B0261-0100 6. While the BL bit in the SR register is 1, no break r

Seite 565

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1476 of 1658 REJ09B0261-0100 29.3.4 Operand Access Cycle Break 1. Table 29.4 shows

Seite 566

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1477 of 1658 REJ09B0261-0100 4. If the operand bus is selected, a break occurs after

Seite 567

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1478 of 1658 REJ09B0261-0100 • When the match condition is satisfied at the instruct

Seite 568

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1479 of 1658 REJ09B0261-0100 29.3.6 Program Counter Value to be Saved When a break h

Seite 569 - Figure 12.16 tWR

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 121 of 1658 REJ09B0261-0100 The code corresponding to the each interrupt source is set in INTEV

Seite 570

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1480 of 1658 REJ09B0261-0100 29.4 User Break Debugging Support Function By using the

Seite 571

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1481 of 1658 REJ09B0261-0100 29.5 User Break Examples (1) Match Conditions Are Spec

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29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1482 of 1658 REJ09B0261-0100 With the above settings, the user break occurs after exe

Seite 573 - Figure 12.20 tRFC

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1483 of 1658 REJ09B0261-0100 With the above settings, the user break occurs after exe

Seite 574

29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1484 of 1658 REJ09B0261-0100 ⎯ Channel 1 Address: H'00008010 / Address mask: H&

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29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1485 of 1658 REJ09B0261-0100 29.6 Usage Notes 1. A desired break may not occur betw

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29. User Break Controller (UBC) Rev.1.00 Jan. 10, 2008 Page 1486 of 1658 REJ09B0261-0100 ⎯ If the post-instruction-execution break and data acce

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1487 of 1658 REJ09B0261-0100 Section 30 User Debugging Interface (H-UDI) The H

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1488 of 1658 REJ09B0261-0100 TDOTDITRSTTMSTCKSDIR ASEBRK/BRKACKBoundary-scanTAPc

Seite 579

30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1489 of 1658 REJ09B0261-0100 30.2 Input/Output Pins Table 30.1 shows the pin co

Seite 580

5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 122 of 1658 REJ09B0261-0100 8. Initial page write exception in second data transfer (2) Indi

Seite 581 - 13.1 Features

30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1490 of 1658 REJ09B0261-0100 Notes: 1. This pin is pulled up in the chip. In d

Seite 582 - 13. PCI Controller (PCIC)

30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1491 of 1658 REJ09B0261-0100 30.3 Register Description The H-UDI has the follow

Seite 583 - GNT0/GNTIN

30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1492 of 1658 REJ09B0261-0100 30.3.1 Instruction Register (SDIR) SDIR is a 16-bi

Seite 584 - 13.2 Input/Output Pins

30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1493 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 15 to 1

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1494 of 1658 REJ09B0261-0100 Table 30.5 Boundary Scan Register Configuration Nu

Seite 586

30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1495 of 1658 REJ09B0261-0100 Number Pin Name Type Number Pin Name Type 49

Seite 587 - 13.3 Register Descriptions

30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1496 of 1658 REJ09B0261-0100 Number Pin Name Type Number Pin Name Type 43

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1497 of 1658 REJ09B0261-0100 Number Pin Name Type Number Pin Name Type 37

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1498 of 1658 REJ09B0261-0100 Number Pin Name Type Number Pin Name Type 30

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1499 of 1658 REJ09B0261-0100 Number Pin Name Type Number Pin Name Type 24

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 123 of 1658 REJ09B0261-0100 5.7 Usage Notes (1) Return from Exception Handling A. Check the

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1500 of 1658 REJ09B0261-0100 Number Pin Name Type Number Pin Name Type 18

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1501 of 1658 REJ09B0261-0100 Number Pin Name Type Number Pin Name Type 11

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1502 of 1658 REJ09B0261-0100 Number Pin Name Type Number Pin Name Type 55 SC

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1503 of 1658 REJ09B0261-0100 30.4 Operation 30.4.1 Boundary-Scan TAP Controlle

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1504 of 1658 REJ09B0261-0100 00010000Test-Logic-ResetRun-Test-IdleRun-Test-IdleT

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1505 of 1658 REJ09B0261-0100 30.4.2 TAP Control Figure 30.3 shows the internal

Seite 598

30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1506 of 1658 REJ09B0261-0100 30.4.3 H-UDI Reset The H-UDI is reset by a power-o

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1507 of 1658 REJ09B0261-0100 30.4.4 H-UDI Interrupt The H-UDI interrupt functio

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30. User Debugging Interface (H-UDI) Rev.1.00 Jan. 10, 2008 Page 1508 of 1658 REJ09B0261-0100

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1509 of 1658 REJ09B0261-0100 Section 31 Register List This section is a summary of the contents o

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5. Exception Handling Rev.1.00 Jan. 10, 2008 Page 124 of 1658 REJ09B0261-0100 other exceptions is determined depending on the processing mode by

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1510 of 1658 REJ09B0261-0100 Table 31.1 Register Address List Module Name Name Abbreviation R/W P

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1511 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1512 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1513 of 1658 REJ09B0261-0100 Modul e Name Name Abbreviation R/W P4 Area Address Area 7 Address Acc

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1514 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1515 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1516 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1517 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1518 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1519 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 125 of 1658 REJ09B0261-0100 Section 6 Floating-Point Unit (FPU) 6.1 Features The FPU

Seite 614

31. Register List Rev.1.00 Jan. 10, 2008 Page 1520 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

Seite 615

31. Register List Rev.1.00 Jan. 10, 2008 Page 1521 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

Seite 616 - Specification Revision 1.1

31. Register List Rev.1.00 Jan. 10, 2008 Page 1522 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1523 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1524 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1525 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

Seite 620 - 13.3.3 PCI Local Registers

31. Register List Rev.1.00 Jan. 10, 2008 Page 1526 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1527 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1528 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1529 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 126 of 1658 REJ09B0261-0100 6.2 Data Formats 6.2.1 Floating-Point Format A floating-po

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1530 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1531 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1532 of 1658 REJ09B0261-0100 Module Name Name Abbreviation R/W P4 Area Address Area 7 Address Acce

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1533 of 1658 REJ09B0261-0100 31.2 States of the Registers in the Individual Operating Modes The s

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1534 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1535 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1536 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1537 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1538 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1539 of 1658 REJ09B0261-0100 Table 31.3 States of the Registers in the Individual Operating Modes

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6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 127 of 1658 REJ09B0261-0100 Table 6.1 Floating-Point Number Formats and Parameters Para

Seite 636 - SH: R

31. Register List Rev.1.00 Jan. 10, 2008 Page 1540 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1541 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1542 of 1658 REJ09B0261-0100 Table 31.4 States of the Registers in the Individual Operating Modes

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1543 of 1658 REJ09B0261-0100 Table 31.5 States of the Registers in the Individual Operating Modes

Seite 640

31. Register List Rev.1.00 Jan. 10, 2008 Page 1544 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1545 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1546 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

Seite 643 - SH: R/W

31. Register List Rev.1.00 Jan. 10, 2008 Page 1547 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1548 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1549 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 128 of 1658 REJ09B0261-0100 Table 6.2 Floating-Point Ranges Type Single-Precision Doubl

Seite 647

31. Register List Rev.1.00 Jan. 10, 2008 Page 1550 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1551 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1552 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1553 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1554 of 1658 REJ09B0261-0100 Table 31.6 States of the Registers in the Individual Operating Modes

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1555 of 1658 REJ09B0261-0100 Table 31.7 States of the Registers in the Individual Operating Modes

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1556 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

Seite 654 - Coherency

31. Register List Rev.1.00 Jan. 10, 2008 Page 1557 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

Seite 655

31. Register List Rev.1.00 Jan. 10, 2008 Page 1558 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1559 of 1658 REJ09B0261-0100 Module Name Name Abbrev. Power-on Reset by PRESET Pin/ WDT/H-UDI Manu

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6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 129 of 1658 REJ09B0261-0100 6.2.2 Non-Numbers (NaN) Figure 6.3 shows the bit pattern of

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31. Register List Rev.1.00 Jan. 10, 2008 Page 1560 of 1658 REJ09B0261-0100 Table 31.8 States of the Registers in the Individual Operating Modes

Seite 659

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1561 of 1658 REJ09B0261-0100 Section 32 Electrical Characteristics 32.1 Absolute Ma

Seite 660 - 13.4 Operation

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1562 of 1658 REJ09B0261-0100 32.2 DC Characteristics Table 32.2 DC Characteristics (

Seite 661

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1563 of 1658 REJ09B0261-0100 Item Symbol Min. Typ. Max. Unit Test Conditions PRESET, N

Seite 662

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1564 of 1658 REJ09B0261-0100 Item Symbol Min. Typ. Max. Unit Item AC differential

Seite 663

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1565 of 1658 REJ09B0261-0100 Item Symbol Min. Typ. Max. Unit Test Conditions PCI p

Seite 664

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1566 of 1658 REJ09B0261-0100 Table 32.3 Permissible Output Currents Item Symbol Min.

Seite 665

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1567 of 1658 REJ09B0261-0100 32.3 AC Characteristics In principle, this LSI's in

Seite 666

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1568 of 1658 REJ09B0261-0100 32.3.1 Clock and Control Signal Timing Table 32.6 Clock

Seite 667 - (Non-Byte Swapping: TBS = 0)

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1569 of 1658 REJ09B0261-0100 Item Symbol Min. Max. Unit Figure MODE13 to MODE11, MODE8

Seite 668 - (Byte Swapping: TBS = 1)

Rev.1.00 Jan. 10, 2008 Page xvi of xxx REJ09B0261-0100 12.5.11 Method for Securing Time Required for Initialization, Self-Refresh Cancellation, e

Seite 669

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 130 of 1658 REJ09B0261-0100 See section 10, Instruction Descriptions of the SH-4A Extend

Seite 670

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1570 of 1658 REJ09B0261-0100 tCKOcyctCKOH1tCKOL1tCKOrtCKOf1/2VDDQVOHVOHVOLVOLVOH1/2VDD

Seite 671

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1571 of 1658 REJ09B0261-0100 VDDtOSC1VDDmintMDRHtOSCMDtTRSTRHtRESWCLKOUTNotes: 1. Os

Seite 672

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1572 of 1658 REJ09B0261-0100 tMDRHPRESETMODE13 to MODE11MODE8 to MODE5tMDRStPRrtPRf Fi

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1573 of 1658 REJ09B0261-0100 tBREQHtBREQStBREQHtBREQStBACKDtBACKDtBOFF1tBON1CKIOBREQBA

Seite 674

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1574 of 1658 REJ09B0261-0100 32.3.3 Bus Timing Table 32.8 Bus Timing Conditions: VDD

Seite 675

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1575 of 1658 REJ09B0261-0100 CLKOUTA25 to A0CSnRDRD/WRD31 to D0D31 to D0(Write)(Read)D

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1576 of 1658 REJ09B0261-0100 A25 to A0D31 to D0D31 to D0(Write)(Read)(SA: IO ← memory)

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1577 of 1658 REJ09B0261-0100 A25 to A0D31 to D0D31 to D0(Write)(Read)(SA: IO ← memory)

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1578 of 1658 REJ09B0261-0100 A25 to A0D31 to D0D31 to D0(Write)(Read)(SA: IO ← memory)

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1579 of 1658 REJ09B0261-0100 D31 to D0(Read)(SA: IO ← memory) Legend:IO: DACK deviceSA

Seite 680

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 131 of 1658 REJ09B0261-0100 6.3 Register Descriptions 6.3.1 Floating-Point Registers F

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1580 of 1658 REJ09B0261-0100 D31 to D0(Read)(SA: IO ← memory) Legend:IO: DACK deviceSA

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1581 of 1658 REJ09B0261-0100 D31 to D0(Read)(SA: IO ← memory) Legend:IO: DACK deviceSA

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1582 of 1658 REJ09B0261-0100 D31 to D0(Read)(SA: IO ← memory) Legend:IO: DACK deviceSA

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1583 of 1658 REJ09B0261-0100 D15 to D0D15 to D0(Write)(Read)Legend:IO: DACK deviceSA:

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1584 of 1658 REJ09B0261-0100 D15 to D0D15 to D0(Write)(Read)Legend:IO: DACK deviceSA:

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1585 of 1658 REJ09B0261-0100 Tpci0 Tpci1Tpci2wTpci2Tpci1w Tpci0 Tpci1Tpci2wTpci2Tpci1w

Seite 687

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1586 of 1658 REJ09B0261-0100 Tm1 Tmd1w Tmd1 Tm0 Tmd1w Tmd1Tmd1wCLKOUTRD/FRAMERD/WRWEnR

Seite 688

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1587 of 1658 REJ09B0261-0100 Tm1 Tmd1w Tmd1tFMDtFMDtBSDtBSDtCSDtCSDtDACDtRDYHtRDYStDAC

Seite 689

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1588 of 1658 REJ09B0261-0100 D31 to D0(2) 1st data: No internal wait, 2nd to 8th data:

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1589 of 1658 REJ09B0261-0100 D31 to D0(2) 1st data: One internal wait cycle, 2nd to 8t

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6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 132 of 1658 REJ09B0261-0100 7. Single-precision floating-point extended register matrix

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1590 of 1658 REJ09B0261-0100 A25 to A0D31 to D0(Read)(SA: IO ← memory) Legend:IO: DACK

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1591 of 1658 REJ09B0261-0100 A25 to A0D31 to D0(Read)(SA: IO ← memory) Legend:IO: DACK

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1592 of 1658 REJ09B0261-0100 32.3.4 DBSC2 Signal Timing Table 32.9 DBSC2 Signal Timi

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1593 of 1658 REJ09B0261-0100 Item Symbol Min. Max. Unit Figure Notes Write command to

Seite 696 - SuperHyway bus

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1594 of 1658 REJ09B0261-0100 MCK0, MCK1 (solid line)MCK0, MCK1 (dotted line)tIHMCKE, M

Seite 697 - 14.2 Input/Output Pins

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1595 of 1658 REJ09B0261-0100 MDQS[3:0] (solid line)MDQS[3:0] (dotted line)tRDQSHtRPREt

Seite 698

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1596 of 1658 REJ09B0261-0100 MDQS[3:0] (solid line)MDQS[3:0] (dotted line)MDQ[31:0]MDM

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1597 of 1658 REJ09B0261-0100 32.3.5 INTC Module Signal Timing Table 32.10 INTC Modul

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1598 of 1658 REJ09B0261-0100 NMIIRQtNMIIHtNMIILtIRQIHtIRQIL Figure 32.35 Interrupt S

Seite 701

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1599 of 1658 REJ09B0261-0100 32.3.6 PCIC Module Signal Timing Table 32.11 PCIC Signa

Seite 702

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 133 of 1658 REJ09B0261-0100 6.3.2 Floating-Point Status/Control Register (FPSCR) 31 30

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32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1600 of 1658 REJ09B0261-0100 0.5VDDQ0.5VDDQtPCICYCtPCIHIGHtPCILOWtPCIftPCIrVLVLVHVHVH

Seite 704

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1601 of 1658 REJ09B0261-0100 tPCISU0.4VDDQPCICLKInput0.4VDDQtPCIH Figure 32.39 PCI I

Seite 705

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1602 of 1658 REJ09B0261-0100 32.3.8 TMU Module Signal Timing Table 32.13 TMU Module

Seite 706

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1603 of 1658 REJ09B0261-0100 32.3.9 SCIF Module Signal Timing Table 32.14 SCIF Modul

Seite 707

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1604 of 1658 REJ09B0261-0100 tScyctTXDtRXStRXHSCIFn_CLKSCIFn_TXDSCIFn_RXDtTXD Figure 3

Seite 708

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1605 of 1658 REJ09B0261-0100 32.3.10 H-UDI Module Signal Timing Table 32.15 H-UDI Mo

Seite 709

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1606 of 1658 REJ09B0261-0100 ASEBRKBRKACKRESETtASEBRKHtASEBRKS Figure 32.45 RESET Ho

Seite 710

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1607 of 1658 REJ09B0261-0100 32.3.11 GPIO Signal Timing Table 32.16 GPIO Signal Timi

Seite 711

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1608 of 1658 REJ09B0261-0100 32.3.12 HSPI Module Signal Timing Table 32.17 HSPI Modu

Seite 712

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1609 of 1658 REJ09B0261-0100 32.3.13 SIOF Module Signal Timing Table 32.18 SIOF Modu

Seite 713

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 134 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 17 to 12 Cause

Seite 714

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1610 of 1658 REJ09B0261-0100 SIOF_SCK (Output)SIOF_SYNC (Output)SIOF_TXDSIOF_RXDtFSDtF

Seite 715

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1611 of 1658 REJ09B0261-0100 SIOF_SCK (Output)SIOF_SYNC (Output)SIOF_TXDSIOF_RXDtFSDtF

Seite 716

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1612 of 1658 REJ09B0261-0100 SIOF_SCK (Output)SIOF_SYNC (Output)SIOF_TXDSIOF_RXDtSICYC

Seite 717

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1613 of 1658 REJ09B0261-0100 32.3.14 MMCIF Module Signal Timing Table 32.19 MMCIF Mo

Seite 718

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1614 of 1658 REJ09B0261-0100 tMMRCStMMRCHMMCCLKMMCCMD (Input)MMCDAT (Input)tMMRDStMMRD

Seite 719

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1615 of 1658 REJ09B0261-0100 HACn_SYNCHACn_BITCLKtSYN_HIGH Figure 32.59 HAC Warm Res

Seite 720

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1616 of 1658 REJ09B0261-0100 32.3.16 SSI Interface Module Signal Timing Table 32.21

Seite 721

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1617 of 1658 REJ09B0261-0100 tDTRtHTRSSIn_SCKSSIn_WSSSIn_SDATA Figure 32.64 SSI Tran

Seite 722

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1618 of 1658 REJ09B0261-0100 32.3.17 FLCTL Module Signal Timing Table 32.22 NAND-Typ

Seite 723

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1619 of 1658 REJ09B0261-0100 FCE(Low)(High)(High)FCLEFR/BFD7 to FD0FREFWEFALECommandtN

Seite 724 - • DMARS0

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 135 of 1658 REJ09B0261-0100 <Big endian>DR (2i)FR (2i) FR (2i+1)8n+4 8n+78n 8n+363

Seite 725 - • DMARS1

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1620 of 1658 REJ09B0261-0100 FD7 to FD0(Low)(Low)(High)FCEFCLEFALEFWEFREFR/BtNRBDR2tNA

Seite 726 - • DMARS2

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1621 of 1658 REJ09B0261-0100 FCEFCLEFALEFREFR/BFD7 to FD0FWE(Low)(Low)(High)tNCDStNDOS

Seite 727 - • DMARS3

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1622 of 1658 REJ09B0261-0100 32.3.18 Display Unit Signal Timing Table 32.23 PCICLK/D

Seite 728

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1623 of 1658 REJ09B0261-0100 Table 32.25 Classification of Pins Pin Classification Di

Seite 729

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1624 of 1658 REJ09B0261-0100 tDStDHPCICLK/DCLKIN (Input)Display input control signal*1

Seite 730

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1625 of 1658 REJ09B0261-0100 tEXHLWtEXHHWtEXVHWtOD1tOD2IRDY/HSYNC(Input)IRDY/HSYNC(Inp

Seite 731 - 14.4 Operation

32. Electrical Characteristics Rev.1.00 Jan. 10, 2008 Page 1626 of 1658 REJ09B0261-0100 The following figure shows the output load circuit. IOLIO

Seite 732

Appendix Rev.1.00 Jan. 10, 2008 Page 1627 of 1658 REJ09B0261-0100 Appendix A. Package Dimensions Figure A.1 Package Dimensions (436-Pin BGA) Note

Seite 733

Appendix Rev.1.00 Jan. 10, 2008 Page 1628 of 1658 REJ09B0261-0100 B. Mode Pin Settings The MODE14–MODE0 pin values are input in the event of a pow

Seite 734

Appendix Rev.1.00 Jan. 10, 2008 Page 1629 of 1658 REJ09B0261-0100 Table B.2 Area 0 Memory Type and Bus Width Pin Value MODE7 MODE6* MODE5 Mem

Seite 735

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 136 of 1658 REJ09B0261-0100 Table 6.3 Bit Allocation for FPU Exception Handling Field

Seite 736

Appendix Rev.1.00 Jan. 10, 2008 Page 1630 of 1658 REJ09B0261-0100 Table B.6 Bus Mode Pin Value MODE12 MODE11 Bus Mode L L PCI host bus bridge

Seite 737

Appendix Rev.1.00 Jan. 10, 2008 Page 1631 of 1658 REJ09B0261-0100 C. Pin Functions C.1 Pin States Table C.1 Pin States in Reset, Power-Down State,

Seite 738

Appendix Rev.1.00 Jan. 10, 2008 Page 1632 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O

Seite 739

Appendix Rev.1.00 Jan. 10, 2008 Page 1633 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O

Seite 740

Appendix Rev.1.00 Jan. 10, 2008 Page 1634 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O Po

Seite 741

Appendix Rev.1.00 Jan. 10, 2008 Page 1635 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O Po

Seite 742

Appendix Rev.1.00 Jan. 10, 2008 Page 1636 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O

Seite 743

Appendix Rev.1.00 Jan. 10, 2008 Page 1637 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O P

Seite 744

Appendix Rev.1.00 Jan. 10, 2008 Page 1638 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O

Seite 745

Appendix Rev.1.00 Jan. 10, 2008 Page 1639 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O

Seite 746

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 137 of 1658 REJ09B0261-0100 6.4 Rounding In a floating-point instruction, rounding is p

Seite 747

Appendix Rev.1.00 Jan. 10, 2008 Page 1640 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O

Seite 748

Appendix Rev.1.00 Jan. 10, 2008 Page 1641 of 1658 REJ09B0261-0100 Reset Pin Name (LSI level) Pin Name (Module level) Related Module I/O

Seite 749

Appendix Rev.1.00 Jan. 10, 2008 Page 1642 of 1658 REJ09B0261-0100 C.2 Handling of Unused Pins Table C.2 Treatment of Unused Pins Pin Name (LSI le

Seite 750

Appendix Rev.1.00 Jan. 10, 2008 Page 1643 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use Port

Seite 751

Appendix Rev.1.00 Jan. 10, 2008 Page 1644 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use MCL

Seite 752

Appendix Rev.1.00 Jan. 10, 2008 Page 1645 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use AD[1

Seite 753

Appendix Rev.1.00 Jan. 10, 2008 Page 1646 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use PCIF

Seite 754

Appendix Rev.1.00 Jan. 10, 2008 Page 1647 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use TRDY

Seite 755

Appendix Rev.1.00 Jan. 10, 2008 Page 1648 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use MODE

Seite 756

Appendix Rev.1.00 Jan. 10, 2008 Page 1649 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use MODE

Seite 757

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 138 of 1658 REJ09B0261-0100 6.5 Floating-Point Exceptions 6.5.1 General FPU Disable Ex

Seite 758

Appendix Rev.1.00 Jan. 10, 2008 Page 1650 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use Port

Seite 759 - 14.5 DMAC Interrupt Sources

Appendix Rev.1.00 Jan. 10, 2008 Page 1651 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use Port

Seite 760 - 14.6 Usage Notes

Appendix Rev.1.00 Jan. 10, 2008 Page 1652 of 1658 REJ09B0261-0100 Pin Name (LSI level) Pin Name (Module level) Module I/O When Not in Use AUDC

Seite 761

Appendix Rev.1.00 Jan. 10, 2008 Page 1653 of 1658 REJ09B0261-0100 D. Turning On and Off Power Supply D.1 Turning On and Off Between Each Power Su

Seite 762

Appendix Rev.1.00 Jan. 10, 2008 Page 1654 of 1658 REJ09B0261-0100 D.2 Power-On and Power-Off Sequences for Power Supplies with Different Potential

Seite 763 - 15.1 Features

Appendix Rev.1.00 Jan. 10, 2008 Page 1655 of 1658 REJ09B0261-0100 D.3 Turning On and Off Between the Same Power Supply Series The order of the pow

Seite 764

Appendix Rev.1.00 Jan. 10, 2008 Page 1656 of 1658 REJ09B0261-0100 E. Version Registers (PVR, PRR) The SH7785 has the read-only registers which sho

Seite 765

Appendix Rev.1.00 Jan. 10, 2008 Page 1657 of 1658 REJ09B0261-0100 F. Product Lineup Table F.1 SH7785 Product Lineup Product Type Voltage Operating

Seite 766 - 15.2 Input/Output Pins

Appendix Rev.1.00 Jan. 10, 2008 Page 1658 of 1658 REJ09B0261-0100

Seite 767 - 15.3 Clock Operating Modes

Renesas 32-Bit RISC MicrocomputerHardware ManualSH7785Publication Date: Rev.1.00, January 10, 2008Published by: Sales Strategic Pla

Seite 768

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 139 of 1658 REJ09B0261-0100 6.5.3 FPU Exception Handling FPU exception handling is init

Seite 769 - 15.4 Register Descriptions

Sales Strategic Planning Div. Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japanhttp://www.renesas.comRefer to

Seite 770

Seite 771

SH7785 Hardware Manual

Seite 772

Rev.1.00 Jan. 10, 2008 Page xvii of xxx REJ09B0261-0100 14.4.2 Channel Priority...

Seite 773

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 140 of 1658 REJ09B0261-0100 6.6 Graphics Support Functions This LSI supports two kinds

Seite 774

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 141 of 1658 REJ09B0261-0100 (2) FTRV XMTRX, FVn (n: 0, 4, 8, 12) This instruction is ba

Seite 775

6. Floating-Point Unit (FPU) Rev.1.00 Jan. 10, 2008 Page 142 of 1658 REJ09B0261-0100 This instruction changes the value of the SZ bit in FPSCR,

Seite 776

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 143 of 1658 REJ09B0261-0100 Section 7 Memory Management Unit (MMU) This LSI support

Seite 777

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 144 of 1658 REJ09B0261-0100 7.1 Overview of MMU The MMU was conceived as a means of

Seite 778

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 145 of 1658 REJ09B0261-0100 There are two methods by which the MMU can perform mappin

Seite 779

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 146 of 1658 REJ09B0261-0100 7.1.1 Address Spaces (1) Virtual Address Space This LSI

Seite 780 - CLKOUTENB

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 147 of 1658 REJ09B0261-0100 Area 0Area 1 Area 2 Area 3 Area 4 Area 5 Area 6 Area 7Phy

Seite 781

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 148 of 1658 REJ09B0261-0100 (b) P1 Area The P1 area does not allow address translati

Seite 782

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 149 of 1658 REJ09B0261-0100 The area from H'E000 0000 to H'E3FF FFFF compri

Seite 783

Rev.1.00 Jan. 10, 2008 Page xviii of xxx REJ09B0261-0100 16.4.1 Reset Request ...

Seite 784

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 150 of 1658 REJ09B0261-0100 (2) Physical Address Space This LSI supports a 29-bit ph

Seite 785

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 151 of 1658 REJ09B0261-0100 the return from the exception handling routine, the instr

Seite 786

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 152 of 1658 REJ09B0261-0100 7.2 Register Descriptions The following registers are re

Seite 787

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 153 of 1658 REJ09B0261-0100 Register Name Abbreviation Power-on Reset Manual Reset

Seite 788

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 154 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 31 to 10 VPN

Seite 789 - 16.1 Features

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 155 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 8 V Undefined

Seite 790

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 156 of 1658 REJ09B0261-0100 7.2.4 TLB Exception Address Register (TEA) After an MMU

Seite 791 - 16.2 Input/Output Pins

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 157 of 1658 REJ09B0261-0100 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16Bit:000000

Seite 792 - 16.3 Register Descriptions

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 158 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 25, 24 ⎯ All

Seite 793

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 159 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 7 ME 0 R/W

Seite 794

Rev.1.00 Jan. 10, 2008 Page xix of xxx REJ09B0261-0100 18.3.4 Timer Control Registers (TCRn) (n = 0 to 5) ...

Seite 795

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 160 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Description 31 to 14 ⎯ All

Seite 796

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 161 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 31 to 8 ⎯ All

Seite 797

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 162 of 1658 REJ09B0261-0100 7.2.8 Instruction Re-Fetch Inhibit Control Register (IRM

Seite 798

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 163 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 3 R1 0 R/W

Seite 799 - 16.4 Operation

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 164 of 1658 REJ09B0261-0100 7.3 TLB Functions (TLB Compatible Mode; MMUCR.ME = 0) 7.

Seite 800

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 165 of 1658 REJ09B0261-0100 • SH: Share status bit When 0, pages are not shared by p

Seite 801

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 166 of 1658 REJ09B0261-0100 1: Cacheable When the control register area is mapped, th

Seite 802

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 167 of 1658 REJ09B0261-0100 7.3.2 Instruction TLB (ITLB) Configuration The ITLB is u

Seite 803 - × 20 = 21.46 [s]

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 168 of 1658 REJ09B0261-0100 SR.MD?R/W?R/W?YesYesNoNoNoYesYesYesNoPR?PR?D?R/W?WWWRRR R

Seite 804

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 169 of 1658 REJ09B0261-0100 Figure 7.10 shows a flowchart of a memory access using th

Seite 805

Rev.1.00 Jan. 10, 2008 Page ii of xxx REJ09B0261-0100 1. This document is provided for reference purposes only so that Renesas customers may sele

Seite 806

Rev.1.00 Jan. 10, 2008 Page xx of xxx REJ09B0261-0100 19.3.26 Color Palette 4 Transparent Color Register (CP4TR) ...

Seite 807

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 170 of 1658 REJ09B0261-0100 7.4 TLB Functions (TLB Extended Mode; MMUCR.ME = 1) 7.4.

Seite 808

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 171 of 1658 REJ09B0261-0100 0001: 4-Kbyte page 0010: 8-Kbyte page 0100: 64-Kbyte page

Seite 809

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 172 of 1658 REJ09B0261-0100 EPR[1]: Writing in user mode EPR[0]: Execution in user mo

Seite 810

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 173 of 1658 REJ09B0261-0100 Virtual address Physical address311-Kbyte page10 9 0VPN O

Seite 811 - Section 17 Power-Down Mode

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 174 of 1658 REJ09B0261-0100 7.4.3 Address Translation Method Figure 7.14 is a flowch

Seite 812 - 17. Power-Down Mode

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 175 of 1658 REJ09B0261-0100 SH = 0 and (MMUCR.SV = 0 orSR.MD = 0)VPNs match,ASIDs mat

Seite 813 - 17.3 Register Descriptions

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 176 of 1658 REJ09B0261-0100 Figure 7.15 is a flowchart of memory access using the ITL

Seite 814

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 177 of 1658 REJ09B0261-0100 7.5 MMU Functions 7.5.1 MMU Hardware Management This LS

Seite 815

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 178 of 1658 REJ09B0261-0100 7.5.3 MMU Instruction (LDTLB) A TLB load instruction (LD

Seite 816

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 179 of 1658 REJ09B0261-0100 The operation of the LDTLB instruction is shown in figure

Seite 817

Rev.1.00 Jan. 10, 2008 Page xxi of xxx REJ09B0261-0100 19.4.12 Scroll Display ...

Seite 818

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 180 of 1658 REJ09B0261-0100 PPN[28:10]PPN[28:10]PPN[28:10]ESZ[3:0]ESZ[3:0]ESZ[3:0]SHS

Seite 819

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 181 of 1658 REJ09B0261-0100 7.5.5 Avoiding Synonym Problems When information on 1- o

Seite 820

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 182 of 1658 REJ09B0261-0100 7.6 MMU Exceptions There are seven MMU exceptions: instr

Seite 821

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 183 of 1658 REJ09B0261-0100 7.6.2 Instruction TLB Miss Exception An instruction TLB

Seite 822

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 184 of 1658 REJ09B0261-0100 3. In TLB compatible mode, execute the LDTLB instruction

Seite 823 - 17.4 Sleep Mode

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 185 of 1658 REJ09B0261-0100 (2) Software Processing (Instruction TLB Protection Viol

Seite 824 - 17.5 Deep Sleep Mode

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 186 of 1658 REJ09B0261-0100 3. Sets exception code H'040 in the case of a read,

Seite 825

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 187 of 1658 REJ09B0261-0100 7.6.6 Data TLB Protection Violation Exception A data TLB

Seite 826

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 188 of 1658 REJ09B0261-0100 7.6.7 Initial Page Write Exception An initial page write

Seite 827

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 189 of 1658 REJ09B0261-0100 5. In TLB compatible mode, execute the LDTLB instruction

Seite 828

Rev.1.00 Jan. 10, 2008 Page xxii of xxx REJ09B0261-0100 20.3.21 MC Command FIFO (MCCF) ...

Seite 829 - 18.1 Features

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 190 of 1658 REJ09B0261-0100 7.7 Memory-Mapped TLB Configuration To enable the ITLB a

Seite 830 - Bus interface

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 191 of 1658 REJ09B0261-0100 7.7.1 ITLB Address Array The ITLB address array is alloc

Seite 831 - 18.2 Input/Output Pins

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 192 of 1658 REJ09B0261-0100 7.7.2 ITLB Data Array (TLB Compatible Mode) The ITLB dat

Seite 832 - 18.3 Register Descriptions

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 193 of 1658 REJ09B0261-0100 7.7.3 ITLB Data Array (TLB Extended Mode) In TLB extende

Seite 833

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 194 of 1658 REJ09B0261-0100 (2) ITLB Data Array 2 The ITLB data array is allocated t

Seite 834 - • TSTR0

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 195 of 1658 REJ09B0261-0100 7.7.4 UTLB Address Array The UTLB address array is alloc

Seite 835 - • TSTR1

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 196 of 1658 REJ09B0261-0100 Address fieldData fieldVPN:V:E:D:*:Virtual page numberVal

Seite 836 - 18. Timer Unit (TMU)

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 197 of 1658 REJ09B0261-0100 Address fieldData fieldPPN:V:E:SZ:D:*:Physical page numbe

Seite 837

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 198 of 1658 REJ09B0261-0100 (2) UTLB Data Array 2 The UTLB data array is allocated t

Seite 838

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 199 of 1658 REJ09B0261-0100 7.8 32-Bit Address Extended Mode Setting the SE bit in P

Seite 839

Rev.1.00 Jan. 10, 2008 Page xxiii of xxx REJ09B0261-0100 21.3.12 Serial Port Register n (SCSPTR) ...

Seite 840 - 18.4 Operation

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 200 of 1658 REJ09B0261-0100 7.8.2 Transition to 32-Bit Address Extended Mode This LS

Seite 841

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 201 of 1658 REJ09B0261-0100 Legend: • VPN: Virtual page number For 16-Mbyte page: Up

Seite 842

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 202 of 1658 REJ09B0261-0100 • WT: Write-through bit Specifies the cache write mode.

Seite 843

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 203 of 1658 REJ09B0261-0100 7.8.5 Memory-Mapped PMB Configuration To enable the PMB

Seite 844 - 18.5 Interrupts

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 204 of 1658 REJ09B0261-0100 Address fieldData fieldVPN:V:E:Physical page numberValidi

Seite 845 - 18.6 Usage Notes

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 205 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 30 to 8 ⎯ All

Seite 846

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 206 of 1658 REJ09B0261-0100 (5) CCR.CB The CB bit in CCR is invalid. Whether a cache

Seite 847 - 19.1 Features

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 207 of 1658 REJ09B0261-0100 7.9 32-Bit Boot Function The address mode of this LSI af

Seite 848 - 19. Display Unit (DU)

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 208 of 1658 REJ09B0261-0100 C. If the MT bit in IRMCR is set to 0 (initial value) be

Seite 849

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 209 of 1658 REJ09B0261-0100 7.10 Usage Notes 7.10.1 Note on Using LDTLB Instruction

Seite 850 - 19.2 Input/Output Pins

Rev.1.00 Jan. 10, 2008 Page xxiv of xxx REJ09B0261-0100 23.2 Input/Output Pins...

Seite 851 - 19.3 Register Descriptions

7. Memory Management Unit (MMU) Rev.1.00 Jan. 10, 2008 Page 210 of 1658 REJ09B0261-0100 Notes: 1. An exception handling routine is an entire se

Seite 852

8. Caches Rev.1.00 Jan. 10, 2008 Page 211 of 1658 REJ09B0261-0100 Section 8 Caches This LSI has an on-chip 32-Kbyte instruction cache (IC) for

Seite 853

8. Caches Rev.1.00 Jan. 10, 2008 Page 212 of 1658 REJ09B0261-0100 This LSI has an IC way prediction scheme to reduce power consumption. In additi

Seite 854

8. Caches Rev.1.00 Jan. 10, 2008 Page 213 of 1658 REJ09B0261-0100 31 54 2LW032 bitsLW132 bitsLW232 bitsLW332 bitsLW432 bitsLW532 bitsLW632 bitsLW

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8. Caches Rev.1.00 Jan. 10, 2008 Page 214 of 1658 REJ09B0261-0100 • Data array The data field holds 32 bytes (256 bits) of data per cache line.

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8. Caches Rev.1.00 Jan. 10, 2008 Page 215 of 1658 REJ09B0261-0100 8.2 Register Descriptions The following registers are related to cache. Table

Seite 857

8. Caches Rev.1.00 Jan. 10, 2008 Page 216 of 1658 REJ09B0261-0100 8.2.1 Cache Control Register (CCR) CCR controls the cache operating mode, the

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8. Caches Rev.1.00 Jan. 10, 2008 Page 217 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 10, 9 ⎯ All 0 R Reserved For detail

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8. Caches Rev.1.00 Jan. 10, 2008 Page 218 of 1658 REJ09B0261-0100 8.2.2 Queue Address Control Register 0 (QACR0) QACR0 specifies the area onto w

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8. Caches Rev.1.00 Jan. 10, 2008 Page 219 of 1658 REJ09B0261-0100 8.2.3 Queue Address Control Register 1 (QACR1) QACR1 specifies the area onto w

Seite 861

Rev.1.00 Jan. 10, 2008 Page xxv of xxx REJ09B0261-0100 24.4.1 Operations in MMC Mode...

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8. Caches Rev.1.00 Jan. 10, 2008 Page 220 of 1658 REJ09B0261-0100 8.2.4 On-Chip Memory Control Register (RAMCR) RAMCR controls the number of way

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8. Caches Rev.1.00 Jan. 10, 2008 Page 221 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 8 RP 0 R/W On-Chip Memory Protec

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8. Caches Rev.1.00 Jan. 10, 2008 Page 222 of 1658 REJ09B0261-0100 8.3 Operand Cache Operation 8.3.1 Read Operation When the Operand Cache (OC)

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8. Caches Rev.1.00 Jan. 10, 2008 Page 223 of 1658 REJ09B0261-0100 write-back buffer is then written back to external memory. 8.3.2 Prefetch Ope

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8. Caches Rev.1.00 Jan. 10, 2008 Page 224 of 1658 REJ09B0261-0100 8.3.3 Write Operation When the Operand Cache (OC) is enabled (OCE = 1 in CCR)

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8. Caches Rev.1.00 Jan. 10, 2008 Page 225 of 1658 REJ09B0261-0100 6. Cache miss (copy-back, with write-back) The tag and data field of the cache

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8. Caches Rev.1.00 Jan. 10, 2008 Page 226 of 1658 REJ09B0261-0100 8.3.6 OC Two-Way Mode When the OC2W bit in RAMCR is set to 1, OC two-way mode

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8. Caches Rev.1.00 Jan. 10, 2008 Page 227 of 1658 REJ09B0261-0100 8.4 Instruction Cache Operation 8.4.1 Read Operation When the IC is enabled (

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8. Caches Rev.1.00 Jan. 10, 2008 Page 228 of 1658 REJ09B0261-0100 3. Cache hit The LRU bits is updated to indicate the way is the latest one. 4.

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8. Caches Rev.1.00 Jan. 10, 2008 Page 229 of 1658 REJ09B0261-0100 8.5 Cache Operation Instruction 8.5.1 Coherency between Cache and External Me

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Rev.1.00 Jan. 10, 2008 Page xxvi of xxx REJ09B0261-0100 26.4 Operation ...

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8. Caches Rev.1.00 Jan. 10, 2008 Page 230 of 1658 REJ09B0261-0100 • FLUSH transaction When the operand cache is enabled, the FLUSH transaction c

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8. Caches Rev.1.00 Jan. 10, 2008 Page 231 of 1658 REJ09B0261-0100 the dirty bit to 0. This operation is only executable in privileged mode, and a

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8. Caches Rev.1.00 Jan. 10, 2008 Page 232 of 1658 REJ09B0261-0100 8.6 Memory-Mapped Cache Configuration The IC and OC can be managed by software

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8. Caches Rev.1.00 Jan. 10, 2008 Page 233 of 1658 REJ09B0261-0100 In the data field, the tag is indicated by bits [31:10], and the V bit by bit [

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8. Caches Rev.1.00 Jan. 10, 2008 Page 234 of 1658 REJ09B0261-0100 8.6.2 IC Data Array The IC data array is allocated to addresses H'F100 00

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8. Caches Rev.1.00 Jan. 10, 2008 Page 235 of 1658 REJ09B0261-0100 32-bit data field specification. The way and entry to be accessed are specified

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8. Caches Rev.1.00 Jan. 10, 2008 Page 236 of 1658 REJ09B0261-0100 Address field31 23 5432101 1 1 1 0 1 0 0 Entry AData field31 10 9 1 0VTag24 131

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8. Caches Rev.1.00 Jan. 10, 2008 Page 237 of 1658 REJ09B0261-0100 Address field31 23 5432101 1 1 1 0 1 0 1 EntryData field31 0Longword data24 131

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8. Caches Rev.1.00 Jan. 10, 2008 Page 238 of 1658 REJ09B0261-0100 8.7 Store Queues This LSI supports two 32-byte store queues (SQs) to perform h

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8. Caches Rev.1.00 Jan. 10, 2008 Page 239 of 1658 REJ09B0261-0100 8.7.3 Transfer to External Memory Transfer from the SQs to external memory can

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Rev.1.00 Jan. 10, 2008 Page xxvii of xxx REJ09B0261-0100 Section 28 General Purpose I/O Ports (GPIO)...

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8. Caches Rev.1.00 Jan. 10, 2008 Page 240 of 1658 REJ09B0261-0100 Physical address bits [4:0] are always fixed at 0 since burst transfer starts a

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8. Caches Rev.1.00 Jan. 10, 2008 Page 241 of 1658 REJ09B0261-0100 8.8 Notes on Using 32-Bit Address Extended Mode In 32-bit address extended mod

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8. Caches Rev.1.00 Jan. 10, 2008 Page 242 of 1658 REJ09B0261-0100

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 243 of 1658 REJ09B0261-0100 Section 9 On-Chip Memory This LSI includes three types of memory modu

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 244 of 1658 REJ09B0261-0100 (2) IL Memory • Capacity The IL memory in this LSI is 8 Kbytes. • Pa

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 245 of 1658 REJ09B0261-0100 The CPU can access the P4 area in the virtual address space (when SR.MD

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 246 of 1658 REJ09B0261-0100 9.2 Register Descriptions The following registers are related to the o

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 247 of 1658 REJ09B0261-0100 9.2.1 On-Chip Memory Control Register (RAMCR) RAMCR controls the prote

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 248 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 OC2W 0 R/W OC Two-Way

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 249 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 5 to 0 L0SSZ Undefined R/

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Rev.1.00 Jan. 10, 2008 Page xxviii of xxx REJ09B0261-0100 28.2.37 Port L Pull-Up Control Register (PLPUPR)...

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 250 of 1658 REJ09B0261-0100 9.2.3 OL memory Transfer Source Address Register 1 (LSA1) When MMUCR.A

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 251 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 5 to 0 L1SSZ Undefined R/

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 252 of 1658 REJ09B0261-0100 9.2.4 OL memory Transfer Destination Address Register 0 (LDA0) When MM

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 253 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 5 to 0 L0DSZ Undefined R/

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 254 of 1658 REJ09B0261-0100 9.2.5 OL memory Transfer Destination Address Register 1 (LDA1) When MM

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 255 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 5 to 0 L1DSZ Undefined R/

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 256 of 1658 REJ09B0261-0100 9.3 Operation 9.3.1 Instruction Fetch Access from the CPU (1) OL Mem

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 257 of 1658 REJ09B0261-0100 (3) U Memory Operand access from the CPU and read access from the FPU

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 258 of 1658 REJ09B0261-0100 (1) When MMU is Enabled (MMUCR.AT = 1) and RAMCR.RP = 1 An address of

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 259 of 1658 REJ09B0261-0100 When the PREF instruction is issued to the OL memory area, the physical

Seite 905

Rev.1.00 Jan. 10, 2008 Page xxix of xxx REJ09B0261-0100 30.3.2 Interrupt Source Register (SDINT)...

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 260 of 1658 REJ09B0261-0100 9.4 On-Chip Memory Protective Functions This LSI implements the follow

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 261 of 1658 REJ09B0261-0100 9.5 Usage Notes 9.5.1 Page Conflict In the event of simultaneous acce

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9. On-Chip Memory Rev.1.00 Jan. 10, 2008 Page 262 of 1658 REJ09B0261-0100 (2) IL Memory In order to allocate instructions in the IL memory, writ

Seite 909

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 263 of 1658 REJ09B0261-0100 Section 10 Interrupt Controller (INTC) The interrupt co

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 264 of 1658 REJ09B0261-0100 Figure 10.1 shows a block diagram of the INTC. Input cont

Seite 911

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 265 of 1658 REJ09B0261-0100 The details of the input control circuit of figure 10.1 a

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 266 of 1658 REJ09B0261-0100 10.1.1 Interrupt Method The basic flow of exception hand

Seite 913

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 267 of 1658 REJ09B0261-0100 10.1.2 Interrupt Sources Table 10.1 shows an example of

Seite 914

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 268 of 1658 REJ09B0261-0100 Source Number of Sources (Max.) Priority INTEVT Remarks

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 269 of 1658 REJ09B0261-0100 Source Number of Sources (Max.) Priority INTEVT Remarks

Seite 916

Rev.1.00 Jan. 10, 2008 Page iii of xxx REJ09B0261-0100 General Precautions in the Handling of MPU/MCU Products The following usage notes are appli

Seite 917

Rev.1.00 Jan. 10, 2008 Page xxx of xxx REJ09B0261-0100 Appendix ...

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 270 of 1658 REJ09B0261-0100 Source Number of Sources (Max.) Priority INTEVT Remarks

Seite 919

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 271 of 1658 REJ09B0261-0100 BRI0, BRI1, BRI2, BRI3, BRI4, BRI5: SCIF channels 0 to

Seite 920

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 272 of 1658 REJ09B0261-0100 10.2 Input/Output Pins Table 10.2 shows the pin configur

Seite 921

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 273 of 1658 REJ09B0261-0100 10.3 Register Descriptions Table 10.3 shows the INTC reg

Seite 922

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 274 of 1658 REJ09B0261-0100 Name Abbreviation R/W P4 Address Area 7 Address Acces

Seite 923

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 275 of 1658 REJ09B0261-0100 Table 10.4 Register States in Each Operating Mode Name A

Seite 924

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 276 of 1658 REJ09B0261-0100 Name Abbreviation Power-on Reset by PRESET Pin/WDT/H-UDIM

Seite 925

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 277 of 1658 REJ09B0261-0100 10.3.1 External Interrupt Request Registers (1) Interru

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 278 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 25 NMIB 0 R/W

Seite 927

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 279 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 21 LVLMODE 0 R/W

Seite 928

1. Overview Rev.1.00 Jan. 10, 2008 Page 1 of 1658 REJ09B0261-0100 Section 1 Overview The SH7785 incorporates a DDR2-SDRAM interface, a PCI cont

Seite 929

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 280 of 1658 REJ09B0261-0100 (2) Interrupt Control Register 1 (ICR1) ICR1 is a 32-bit

Seite 930

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 281 of 1658 REJ09B0261-0100 IRQ and IRL Interrupt Requests). 2. When the IRQnS set

Seite 931

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 282 of 1658 REJ09B0261-0100 (3) Interrupt Priority Register (INTPRI) INTPRI is a 32-

Seite 932

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 283 of 1658 REJ09B0261-0100 (4) Interrupt Source Register (INTREQ) INTREQ is a 32-bi

Seite 933

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 284 of 1658 REJ09B0261-0100 (5) Interrupt Mask Register 0 (INTMSK0) INTMSK0 is a 32-

Seite 934

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 285 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 26 IM05 1 R/W Set

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 286 of 1658 REJ09B0261-0100 (6) Interrupt Mask Register 1 (INTMSK1) INTMSK1 is a 32-

Seite 936

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 287 of 1658 REJ09B0261-0100 (7) Interrupt Mask Register 2 (INTMSK2) INTMSK2 is a 32-

Seite 937

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 288 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 26 IM010 0 R/W

Seite 938

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 289 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 15 IM115 0 R/W

Seite 939

1. Overview Rev.1.00 Jan. 10, 2008 Page 2 of 1658 REJ09B0261-0100 Item Features CPU • Renesas Technology original architecture • 32-bit interna

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 290 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 2 IM102 0 R/W

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 291 of 1658 REJ09B0261-0100 (8) Interrupt Mask Clear Register 0 (INTMSKCLR0) INTMSKC

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 292 of 1658 REJ09B0261-0100 (9) Interrupt Mask Clear Register 1 (INTMSKCLR1) INTMSKC

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 293 of 1658 REJ09B0261-0100 (10) Interrupt Mask Clear Register 2 (INTMSKCLR2) INTMSK

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 294 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 23 IC007 0 R/W

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 295 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 11 IC111 0 R/W

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 296 of 1658 REJ09B0261-0100 (11) NMI Flag Control Register (NMIFCR) NMIFCR is a 32-b

Seite 947

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 297 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 16 NMIFL 0 R/(W

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 298 of 1658 REJ09B0261-0100 10.3.2 User Mode Interrupt Disable Function (1) User In

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 299 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Description 31 to 24 (Code f

Seite 950

1. Overview Rev.1.00 Jan. 10, 2008 Page 3 of 1658 REJ09B0261-0100 Item Features FPU • On-chip floating-point coprocessor • Supports single (32-

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 300 of 1658 REJ09B0261-0100 3. Branch to the device driver. 4. In the device driver

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 301 of 1658 REJ09B0261-0100 Table 10.5 Interrupt Request Sources and INT2PRI0 to INT

Seite 953

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 302 of 1658 REJ09B0261-0100 (2) Interrupt Source Register (Not affected by Mask Sett

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 303 of 1658 REJ09B0261-0100 Bit Initial Value R/W Source Function Description 21 Und

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 304 of 1658 REJ09B0261-0100 Bit Initial Value R/W Source Function Description 5 Unde

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 305 of 1658 REJ09B0261-0100 Table 10.7 Reflection time for INT2A0 and INT2A1 when In

Seite 957

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 306 of 1658 REJ09B0261-0100 Module Relation between Setting/Clearing Interrupt Source

Seite 958

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 307 of 1658 REJ09B0261-0100 (3) Interrupt Source Register (Affected by Mask States)

Seite 959

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 308 of 1658 REJ09B0261-0100 Bit Initial Value R/W Source Function Description 20 0

Seite 960 - 19.4 Operation

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 309 of 1658 REJ09B0261-0100 Bit Initial Value R/W Source Function Description 3 0

Seite 961 - 8 bits/

1. Overview Rev.1.00 Jan. 10, 2008 Page 4 of 1658 REJ09B0261-0100 Item Features Memory management unit (MMU) • 4-Gbyte address space, 256 addre

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 310 of 1658 REJ09B0261-0100 (4) Interrupt Mask Register (INT2MSKR) INT2MSKR is a 32-

Seite 963

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 311 of 1658 REJ09B0261-0100 Bit Initial Value R/W Source Function Description 18

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 312 of 1658 REJ09B0261-0100 (5) Interrupt Mask Clear Register (INT2MSKCR) INT2MSKCR

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 313 of 1658 REJ09B0261-0100 Bit Initial Value R/W Source Function Description 18

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 314 of 1658 REJ09B0261-0100 10.3.4 Individual On-Chip Module Interrupt Source Regist

Seite 967

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 315 of 1658 REJ09B0261-0100 (2) INT2B1: Detailed Interrupt Sources for the SCIF Modu

Seite 968

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 316 of 1658 REJ09B0261-0100 Module Bit Name Detailed Source Description SCIF 11 T

Seite 969 - • YUYV format

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 317 of 1658 REJ09B0261-0100 (3) INT2B2: Detailed Interrupt Sources for the DMAC Modu

Seite 970

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 318 of 1658 REJ09B0261-0100 (4) INT2B3: Detailed Interrupt Sources for the PCIC Modu

Seite 971

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 319 of 1658 REJ09B0261-0100 (5) INT2B4: Detailed Interrupt Sources for the MMCIF Mod

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1. Overview Rev.1.00 Jan. 10, 2008 Page 5 of 1658 REJ09B0261-0100 Item Features URAM • 128-Kbyte large-capacity memory • Three independent rea

Seite 973

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 320 of 1658 REJ09B0261-0100 (7) INT2B6: Detailed Interrupt Sources for the GPIO Modu

Seite 974

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 321 of 1658 REJ09B0261-0100 (8) INT2B7: Detailed Interrupt Sources for the GDTA Modu

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 322 of 1658 REJ09B0261-0100 10.3.5 GPIO Interrupt Set Register (INT2GPIC) INT2GPIC e

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 323 of 1658 REJ09B0261-0100 Bit Name Initial Value R/W Function Description 18 POR

Seite 977

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 324 of 1658 REJ09B0261-0100 10.4 Interrupt Sources There are four types of interrupt

Seite 978 - Plane 3 (YC data)

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 325 of 1658 REJ09B0261-0100 (2) Dependence on ICR0.LVLMODE Setting For the IRQ inter

Seite 979

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 326 of 1658 REJ09B0261-0100 Priorityencoder InterruptrequestsSH7785IRQ/IRL3 to IRQ/

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 327 of 1658 REJ09B0261-0100 The priority of IRL interrupts should be retained from wh

Seite 981

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 328 of 1658 REJ09B0261-0100 An on-chip peripheral module interrupt source flag or an

Seite 982

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 329 of 1658 REJ09B0261-0100 An interrupt request is masked if priority level H'0

Seite 983

1. Overview Rev.1.00 Jan. 10, 2008 Page 6 of 1658 REJ09B0261-0100 Item Features Local bus state controller (LBSC) • A dedicated Local-bus inter

Seite 984

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 330 of 1658 REJ09B0261-0100 Table 10.13 Interrupt Exception Handling and Priority In

Seite 985

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 331 of 1658 REJ09B0261-0100 Interrupt Source INTEVT Code Interrupt Priority Mask/Clea

Seite 986 - 19.5 Display Control

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 332 of 1658 REJ09B0261-0100 Interrupt Source INTEVT Code Interrupt Priority Mask/Clea

Seite 987

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 333 of 1658 REJ09B0261-0100 Interrupt Source INTEVT Code Interrupt Priority Mask/Clea

Seite 988

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 334 of 1658 REJ09B0261-0100 Interrupt Source INTEVT Code Interrupt Priority Mask/Clea

Seite 989

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 335 of 1658 REJ09B0261-0100 Interrupt Source INTEVT Code Interrupt Priority Mask/Clea

Seite 990

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 336 of 1658 REJ09B0261-0100 Interrupt Source INTEVT Code Interrupt Priority Mask/Clea

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10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 337 of 1658 REJ09B0261-0100 10.5 Operation 10.5.1 Interrupt Sequence The sequence o

Seite 992

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 338 of 1658 REJ09B0261-0100 Program execution state Interruptgenerated?ICR0.MAI = 1?S

Seite 993

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 339 of 1658 REJ09B0261-0100 10.5.2 Multiple Interrupts To handle multiple interrupts

Seite 994

1. Overview Rev.1.00 Jan. 10, 2008 Page 7 of 1658 REJ09B0261-0100 Item Features DDR2-SDRAM bus controller (DBSC) • A dedicated DDR2-SDRAM bus in

Seite 995 - 19.5.4 Color Detection

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 340 of 1658 REJ09B0261-0100 10.6 Interrupt Response Time Table 10.14 shows response

Seite 996

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 341 of 1658 REJ09B0261-0100 Table 10.15 shows response time. The response time is fro

Seite 997

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 342 of 1658 REJ09B0261-0100 Table 10.16 shows response time. The response time is the

Seite 998 - 19.6 Power-Down Sequence

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 343 of 1658 REJ09B0261-0100 10.7 Usage Notes 10.7.1 Example of Handing Routine of I

Seite 999 - 20.1 Features

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 344 of 1658 REJ09B0261-0100 10.7.2 Notes on Setting IRQ/IRL[7:0] Pin Function When t

Seite 1000

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 345 of 1658 REJ09B0261-0100 10.7.3 Clearing IRQ and IRL Interrupt Requests To clear

Seite 1001

10. Interrupt Controller (INTC) Rev.1.00 Jan. 10, 2008 Page 346 of 1658 REJ09B0261-0100

Seite 1002

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 347 of 1658 REJ09B0261-0100 Section 11 Local Bus State Controller (LBSC) The

Seite 1003 - 20.2 GDTA Address Space

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 348 of 1658 REJ09B0261-0100 • MPX interface ⎯ Address/data multiplexing Conne

Seite 1004 - 20.3 Register Descriptions

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 349 of 1658 REJ09B0261-0100 Figure 11.1 shows a block diagram of the LBSC. Bus

Seite 1005

1. Overview Rev.1.00 Jan. 10, 2008 Page 8 of 1658 REJ09B0261-0100 Item Features PCI bus controller (PCIC) • PCI bus controller (supports a subse

Seite 1006

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 350 of 1658 REJ09B0261-0100 11.2 Input/Output Pins Table 11.1 shows the LBSC p

Seite 1007

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 351 of 1658 REJ09B0261-0100 Pin Name Function I/O Description WE0/REG Data

Seite 1008

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 352 of 1658 REJ09B0261-0100 Pin Name Function I/O Description BACK Bus Requ

Seite 1009

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 353 of 1658 REJ09B0261-0100 Pin Name Function I/O Description MODE11, MODE12

Seite 1010

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 354 of 1658 REJ09B0261-0100 11.3 Overview of Areas 11.3.1 Space Divisions The

Seite 1011 - CL_ENDMC_ENDCL_ERRMC_ERR

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 355 of 1658 REJ09B0261-0100 Table 11.2 LBSC External Memory Space Map Area Ext

Seite 1012

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 356 of 1658 REJ09B0261-0100 Area External addresses Size Connectable Memory Spe

Seite 1013

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 357 of 1658 REJ09B0261-0100 11.3.2 Memory Bus Width The memory bus width of th

Seite 1014

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 358 of 1658 REJ09B0261-0100 11.3.3 PCMCIA Support This LSI supports the PCMCIA

Seite 1015

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 359 of 1658 REJ09B0261-0100 Table 11.4 PCMCIA Support Interface IC Memory Ca

Seite 1016

1. Overview Rev.1.00 Jan. 10, 2008 Page 9 of 1658 REJ09B0261-0100 Item Features Watchdog timer (WDT) • Number of channels: One • Single-channe

Seite 1017

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 360 of 1658 REJ09B0261-0100 IC Memory Card Interface I/O Card Interface Pi

Seite 1018

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 361 of 1658 REJ09B0261-0100 IC Memory Card Interface I/O Card Interface Pi

Seite 1019

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 362 of 1658 REJ09B0261-0100 11.4 Register Descriptions Table 11.5 shows regist

Seite 1020

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 363 of 1658 REJ09B0261-0100 Table 11.5 Register Configuration (2) Register Nam

Seite 1021

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 364 of 1658 REJ09B0261-0100 11.4.1 Memory Address Map Select Register (MMSELR)

Seite 1022

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 365 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 to 0

Seite 1023

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 366 of 1658 REJ09B0261-0100 Example: ------------------------------------------

Seite 1024

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 367 of 1658 REJ09B0261-0100 11.4.2 Bus Control Register (BCR) BCR is a 32-bit

Seite 1025

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 368 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 26 DPU

Seite 1026

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 369 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 19, 18

Seite 1027

Rev.1.00 Jan. 10, 2008 Page iv of xxx REJ09B0261-0100

Seite 1028

1. Overview Rev.1.00 Jan. 10, 2008 Page 10 of 1658 REJ09B0261-0100 Item Features Display unit (DU) • Display plane ⎯ 6 planes (a maximum number

Seite 1029

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 370 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 to 0

Seite 1030

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 371 of 1658 REJ09B0261-0100 11.4.3 CSn Bus Control Register (CSnBCR) CSnBCR ar

Seite 1031

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 372 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 30 to 2

Seite 1032

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 373 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 23 ⎯ 0

Seite 1033

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 374 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 15 ⎯ 0

Seite 1034

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 375 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 9, 8 SZ

Seite 1035

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 376 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 to 4

Seite 1036

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 377 of 1658 REJ09B0261-0100 11.4.4 CSn Wait Control Register (CSnWCR) CSnWCR (

Seite 1037

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 378 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 27 ⎯ 0

Seite 1038

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 379 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 19 ⎯ 0

Seite 1039

1. Overview Rev.1.00 Jan. 10, 2008 Page 11 of 1658 REJ09B0261-0100 Item Features Synchronized serial I/O with FIFO (SIOF) • Number of channels:

Seite 1040

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 380 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 11 ⎯ 0

Seite 1041

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 381 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 3 to 0

Seite 1042

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 382 of 1658 REJ09B0261-0100 11.4.5 CSn PCMCIA Control Register (CSnPCR) CSnPCR

Seite 1043 - 20.4 GDTA Operation

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 383 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 27 ⎯ 0

Seite 1044

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 384 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 19 to 1

Seite 1045

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 385 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 14 to 1

Seite 1046

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 386 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 to 4

Seite 1047 - (3) CL Processing Procedure

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 387 of 1658 REJ09B0261-0100 11.5 Operation 11.5.1 Endian/Access Size and Data

Seite 1048

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 388 of 1658 REJ09B0261-0100 Table 11.6 64-Bit External Device/Big Endian Acces

Seite 1049

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 389 of 1658 REJ09B0261-0100 Table 11.7 64-Bit External Device/Big Endian Acces

Seite 1050 - ≤ x ≤ 255)

1. Overview Rev.1.00 Jan. 10, 2008 Page 12 of 1658 REJ09B0261-0100 Item Features Serial sound interface (SSI) • Number of channels: Two (max.) •

Seite 1051

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 390 of 1658 REJ09B0261-0100 Table 11.8 32-Bit External Device/Big-Endian Acces

Seite 1052

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 391 of 1658 REJ09B0261-0100 Table 11.9 16-Bit External Device/Big-Endian Acces

Seite 1053

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 392 of 1658 REJ09B0261-0100 Table 11.10 8-Bit External Device/Big-Endian Acces

Seite 1054

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 393 of 1658 REJ09B0261-0100 Table 11.11 64-Bit External Device/Little Endian A

Seite 1055

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 394 of 1658 REJ09B0261-0100 Table 11.12 64-Bit External Device/Little Endian A

Seite 1056

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 395 of 1658 REJ09B0261-0100 Table 11.13 32-Bit External Device/Little-Endian A

Seite 1057 - (2) MC Processing Procedure

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 396 of 1658 REJ09B0261-0100 Table 11.14 16-Bit External Device/Little-Endian A

Seite 1058

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 397 of 1658 REJ09B0261-0100 Table 11.15 8-Bit External Device/Little-Endian Ac

Seite 1059 - 20.6 Data Alignment

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 398 of 1658 REJ09B0261-0100 11.5.2 Areas (1) Area 0 Area 0 is an area where b

Seite 1060

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 399 of 1658 REJ09B0261-0100 For the number of bus cycles, 0 to 25 wait cycles t

Seite 1061 - 20.7 Usage Notes

1. Overview Rev.1.00 Jan. 10, 2008 Page 13 of 1658 REJ09B0261-0100 1.2 Block Diagram A block diagram of the SH7785 is given as figure 1.1. ROM

Seite 1062

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 400 of 1658 REJ09B0261-0100 (4) Area 3 Area 3 is an area where bits 28 to 26 i

Seite 1063 - 21.1 Features

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 401 of 1658 REJ09B0261-0100 For the number of bus cycles, 0 to 25 wait cycles i

Seite 1064

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 402 of 1658 REJ09B0261-0100 CS5PCR. In addition, the number of wait cycles can

Seite 1065 - SCFTDRn (128 stages)

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 403 of 1658 REJ09B0261-0100 11.5.3 SRAM interface (1) Basic Timing The strobe

Seite 1066 - Figure 21.2 SCIF0_RTS Pin

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 404 of 1658 REJ09B0261-0100 T1CLKOUTA25 to A0CSnR/WRDD31 to D0(In reading)WEnD3

Seite 1067 - Figure 21.3 SCIF0_CTS Pin

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 405 of 1658 REJ09B0261-0100 Figures 11.6 to 11.8 show examples of connections t

Seite 1068

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 406 of 1658 REJ09B0261-0100 A16A0CSOEI/O7I/O0WEA17A1CSnRDD15D8WE1D7D0WE0SH77851

Seite 1069 - Serial receive data

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 407 of 1658 REJ09B0261-0100 A16A0CSnRDD7D0WE0SH7785128K × 8 bitsSRAMA16A0CSOEI/

Seite 1070 - 21.3 Register Descriptions

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 408 of 1658 REJ09B0261-0100 T1CLKOUTA25 to A0CSnR/WRDD31 to D0(In reading)WEnD3

Seite 1071

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 409 of 1658 REJ09B0261-0100 When software wait insertion is specified by CSnWCR

Seite 1072

1. Overview Rev.1.00 Jan. 10, 2008 Page 14 of 1658 REJ09B0261-0100 1.3 Pin Arrangement Table Table 1.2 Pin Function No. Pin Name I/O Functio

Seite 1073

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 410 of 1658 REJ09B0261-0100 (3) Read-Strobe/Write-Strobe Timing When the SRAM

Seite 1074

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 411 of 1658 REJ09B0261-0100 TAS1CLKOUTA25-A0CSnR/WRDD31-D0T1 TS1 Tw Tw Tw T2Tw

Seite 1075

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 412 of 1658 REJ09B0261-0100 11.5.4 Burst ROM Interface When the TYPE bit in CS

Seite 1076

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 413 of 1658 REJ09B0261-0100 T1 TB1 TB2 TB1 TB2 TB1TB2 T2CLKOUTA25 to A5A4 to A0

Seite 1077

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 414 of 1658 REJ09B0261-0100 T1 Twe TB2 TB1 Tw TB2 TwTw TB1 TB2 Tw T2TB1CLKOUTA2

Seite 1078

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 415 of 1658 REJ09B0261-0100 *2TAS1 TS1 TB2 TB1 TB2 TB1 TB1T1 TB2 T2 TAH1TH1CLKO

Seite 1079

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 416 of 1658 REJ09B0261-0100 11.5.5 PCMCIA Interface By setting the TYPE bits i

Seite 1080

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 417 of 1658 REJ09B0261-0100 complement mode. To access the Device Control Regis

Seite 1081

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 418 of 1658 REJ09B0261-0100 Table 11.16 Relationship between Address and CE wh

Seite 1082

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 419 of 1658 REJ09B0261-0100 Bus (Bits) Read/ Write Access (bits)*1 Odd/ Even IO

Seite 1083

1. Overview Rev.1.00 Jan. 10, 2008 Page 15 of 1658 REJ09B0261-0100 No. Pin Name I/O Function No. Pin Name I/O Function 55 MA10 O DDR add

Seite 1084

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 420 of 1658 REJ09B0261-0100 GA25 to A0D15 to D0PC card (memory I/O)CD1, CD2CE1G

Seite 1085

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 421 of 1658 REJ09B0261-0100 (1) Memory Card Interface Basic Timing Figure 11.1

Seite 1086

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 422 of 1658 REJ09B0261-0100 CLKOUTTpcm0A25 to A0R/WCExxREGRD(In reading)D15 to

Seite 1087

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 423 of 1658 REJ09B0261-0100 (2) I/O Card Interface Timing Figures 11.19 and 11

Seite 1088

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 424 of 1658 REJ09B0261-0100 CLKOUTTpci1 Tpci2A25 to A0R/WCExxICIORD(In reading)

Seite 1089

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 425 of 1658 REJ09B0261-0100 CLKOUTA25 to A0R/WCExxICIORD(In reading)ICIOWR(In w

Seite 1090

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 426 of 1658 REJ09B0261-0100 TpciTpci0 Tpci1w Tpci2 Tpci2w Tpci0 TpciTpci2Tpci1w

Seite 1091 - (N + 1) × B × 64 × 2

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 427 of 1658 REJ09B0261-0100 11.5.6 MPX Interface When both the MODE 7 pin is s

Seite 1092

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 428 of 1658 REJ09B0261-0100 CLKOUTCSnBSRDR/WD31 to D0RDYSH7785MPX deviceCLKCSBS

Seite 1093

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 429 of 1658 REJ09B0261-0100 Tm1 Tm1CLKOUTRD/FRAMECSnR/WD63 to D0BSTmd1wTmd1RDYD

Seite 1094

1. Overview Rev.1.00 Jan. 10, 2008 Page 16 of 1658 REJ09B0261-0100 No. Pin Name I/O Function No. Pin Name I/O Function 119 A12 O Local b

Seite 1095

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 430 of 1658 REJ09B0261-0100 Tm1CLKOUTARD/FRAMECSnR/WD63 to D0BSTmd1w Tmd1wTmd1R

Seite 1096

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 431 of 1658 REJ09B0261-0100 Tm1CLKOUTARD/FRAMECSnR/WD63 to D0BSTmd1RDYDACKnD0In

Seite 1097

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 432 of 1658 REJ09B0261-0100 Tm1CLKOUTARD/FRAMECSnR/WD63 to D0BSTmd1w Tmd1wTmd1R

Seite 1098

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 433 of 1658 REJ09B0261-0100 Tm1CLKOUTRD/FRAMECSnR/WD63 to D0BSTmd1w Tmd1Tmd2 Tm

Seite 1099

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 434 of 1658 REJ09B0261-0100 Tm1CLKOUTARD/FRAMECSnR/WD63 to D0BSTmd1w Tmd1 Tmd2w

Seite 1100

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 435 of 1658 REJ09B0261-0100 Tm1CLKOUTARD/FRAMECSnR/WD63 to D0BSTmd1 Tmd2 Tmd3 T

Seite 1101 - 21.4 Operation

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 436 of 1658 REJ09B0261-0100 D2D1Tm1CLKOUTARD/FRAMECSnR/WD63 to D0BSTmd1w Tmd1Tm

Seite 1102

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 437 of 1658 REJ09B0261-0100 Tm1CLKOUTRD/FRAMECSnR/WD31 to D0BSTmd1w Tmd1Tmd2 Tm

Seite 1103

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 438 of 1658 REJ09B0261-0100 Tm1CLKOUTARD/FRAMECSnR/WD31 to D0BSTmd1w Tmd1 Tmd2w

Seite 1104

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 439 of 1658 REJ09B0261-0100 Tm1CLKOUTARD/FRAMECSnR/WD31 to D0BSTmd1 Tmd2 Tmd3 T

Seite 1105 - (1) Data Transfer Format

1. Overview Rev.1.00 Jan. 10, 2008 Page 17 of 1658 REJ09B0261-0100 No. Pin Name I/O Function No. Pin Name I/O Function 155 D37/AD5/DR5 IO/

Seite 1106

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 440 of 1658 REJ09B0261-0100 D3D2Tm1CLKOUTARD/FRAMECSnR/WD31 to D0BSTmd1w Tmd1Tm

Seite 1107

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 441 of 1658 REJ09B0261-0100 11.5.7 Byte Control SRAM Interface The byte contro

Seite 1108

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 442 of 1658 REJ09B0261-0100 A18 to A3CSnRDR/WSH778564K × 16 bitsSRAMD47 to D32W

Seite 1109

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 443 of 1658 REJ09B0261-0100 T1 T2CLKOUTA25 to A0CSnR/WRDD31 to D0(In reading)BS

Seite 1110

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 444 of 1658 REJ09B0261-0100 TAS1CLKOUTA25-A0CSnR/WWEn(In reading)(In writing)D6

Seite 1111

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 445 of 1658 REJ09B0261-0100 T1 Tw Twe T2CLKOUTA25 to A0CSnR/WRDD31 to D0(In rea

Seite 1112

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 446 of 1658 REJ09B0261-0100 11.5.8 Wait Cycles between Access Cycles When the

Seite 1113

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 447 of 1658 REJ09B0261-0100 T1CLKOUTCSmCSnA25 to A0BSR/WRDD31 to D0T2 Twait T1

Seite 1114

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 448 of 1658 REJ09B0261-0100 11.5.9 Bus Arbitration This LSI is provided with a

Seite 1115

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 449 of 1658 REJ09B0261-0100 Asserted for 2 cycles or moreMaster-mode device acc

Seite 1116

1. Overview Rev.1.00 Jan. 10, 2008 Page 18 of 1658 REJ09B0261-0100 No. Pin Name I/O Function No. Pin Name I/O Function 181 D63/AD31 IO/IO

Seite 1117

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 450 of 1658 REJ09B0261-0100 11.5.10 Master Mode The processor in master mode h

Seite 1118

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 451 of 1658 REJ09B0261-0100 11.5.11 Slave Mode In slave mode, usually, the bus

Seite 1119

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 452 of 1658 REJ09B0261-0100 11.5.14 Mode Pin Settings and General Input Output

Seite 1120

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 453 of 1658 REJ09B0261-0100 Table 11.19 Register Settings for Divided-Up DACKn

Seite 1121

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 454 of 1658 REJ09B0261-0100 Table 11.20 Register Settings for Divided-Up DACKn

Seite 1122

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 455 of 1658 REJ09B0261-0100 Table 11.21 Register Settings for Divided-Up DACKn

Seite 1123

11. Local Bus State Controller (LBSC) Rev.1.00 Jan. 10, 2008 Page 456 of 1658 REJ09B0261-0100 Table 11.22 Register Settings for Divided-Up DACKn

Seite 1124

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 457 of 1658 REJ09B0261-0100 Section 12 DDR2-SDRAM Interface (DBSC2) The DDR2-SDRAM

Seite 1125

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 458 of 1658 REJ09B0261-0100 ⎯ DDR2-SDRAM data bus width: 16 bits • One 256 Mbits (

Seite 1126 - 21.6 Usage Notes

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 459 of 1658 REJ09B0261-0100 Figure 12.1 shows a block diagram of the DBSC2. BUS IFRe

Seite 1127

1. Overview Rev.1.00 Jan. 10, 2008 Page 19 of 1658 REJ09B0261-0100 No. Pin Name I/O Function No. Pin Name I/O Function 217 BREQ/BSACK I

Seite 1128

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 460 of 1658 REJ09B0261-0100 12.2 Input/Output Pins Table 12.1 shows the pin configu

Seite 1129 - 22.1 Features

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 461 of 1658 REJ09B0261-0100 The frequency of the SDRAM operation clocks MCK0, MCK0,

Seite 1130

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 462 of 1658 REJ09B0261-0100 Table 12.2 An Example of DDR2-SDRAM Connection (When F

Seite 1131 - 22.2 Input/Output Pins

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 463 of 1658 REJ09B0261-0100 3. SDRAM pins should be connected as shown below. Mem

Seite 1132 - 22.3 Register Descriptions

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 464 of 1658 REJ09B0261-0100 5. SDRAM pins should be connected as shown below. Mem

Seite 1133

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 465 of 1658 REJ09B0261-0100 12.3 Data Alignment The DBSC2 accesses DDR2-SDRAM with

Seite 1134

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 466 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1135

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 467 of 1658 REJ09B0261-0100 Table 12.3 Positions of Valid Data for Access with Burs

Seite 1136

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 468 of 1658 REJ09B0261-0100 Table 12.4 Positions of Valid Data for Access with Burs

Seite 1137

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 469 of 1658 REJ09B0261-0100 (2) Big Endian First Access Second Access Third Acces

Seite 1138

Rev.1.00 Jan. 10, 2008 Page v of xxx REJ09B0261-0100 Preface This LSI is a RISC (Reduced Instruction Set Computer) microcomputer which includes a

Seite 1139

1. Overview Rev.1.00 Jan. 10, 2008 Page 20 of 1658 REJ09B0261-0100 No. Pin Name I/O Function No. Pin Name I/O Function 249 SIOF_SCK/ HAC0_B

Seite 1140

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 470 of 1658 REJ09B0261-0100 Table 12.5 Data Alignment for Access in Little Endian w

Seite 1141

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 471 of 1658 REJ09B0261-0100 Access Size Address MDQ31 to MDQ24 MDQ23 to MDQ16 MDQ15

Seite 1142

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 472 of 1658 REJ09B0261-0100 Access Size Address MDQ31 to MDQ24 MDQ23 to MDQ16 MDQ15

Seite 1143

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 473 of 1658 REJ09B0261-0100 Table 12.7 Data Alignment for Access in Little Endian w

Seite 1144

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 474 of 1658 REJ09B0261-0100 Access Size Address MDQ15 to MDQ8 MDQ7 to MDQ0 Longwo

Seite 1145

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 475 of 1658 REJ09B0261-0100 Table 12.8 Data Alignment for Access in Big Endian when

Seite 1146

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 476 of 1658 REJ09B0261-0100 Access Size Address MDQ15 to MDQ8 MDQ7 to MDQ0 Longwo

Seite 1147

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 477 of 1658 REJ09B0261-0100 When the external bus width is set to 16 bitsAddress 16n

Seite 1148

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 478 of 1658 REJ09B0261-0100 When the external bus width is set to 32 bitsAddress 16n

Seite 1149

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 479 of 1658 REJ09B0261-0100 12.4 Register Descriptions Table 12.9 shows the DBSC2 r

Seite 1150

1. Overview Rev.1.00 Jan. 10, 2008 Page 21 of 1658 REJ09B0261-0100 No. Pin Name I/O Function No. Pin Name I/O Function 269 MODE11/ SCIF4_SC

Seite 1151

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 480 of 1658 REJ09B0261-0100 Table 12.9 DBSC2 Register Configuration Register Name

Seite 1152 - B'10 or B'11

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 481 of 1658 REJ09B0261-0100 Table 12.10 Register Status in each Processing Mode Pow

Seite 1153

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 482 of 1658 REJ09B0261-0100 12.4.1 DBSC2 Status Register (DBSTATE) The DBSC2 status

Seite 1154

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 483 of 1658 REJ09B0261-0100 12.4.2 SDRAM Operation Enable Register (DBEN) The SDRAM

Seite 1155

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 484 of 1658 REJ09B0261-0100 12.4.3 SDRAM Command Control Register (DBCMDCNT) The SD

Seite 1156

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 485 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 to 0 CMD2

Seite 1157

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 486 of 1658 REJ09B0261-0100 12.4.4 SDRAM Configuration Setting Register (DBCONF) Th

Seite 1158 - 22.4 Operation

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 487 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 15 to 10 ⎯

Seite 1159

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 488 of 1658 REJ09B0261-0100 12.4.5 SDRAM Timing Register 0 (DBTR0) The SDRAM timing

Seite 1160

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 489 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 23 to 20 ⎯

Seite 1161

1. Overview Rev.1.00 Jan. 10, 2008 Page 22 of 1658 REJ09B0261-0100 1.4 Pin Arrangement Package: 436-pin FC-BGA, 19 mm x 19 mm, ball pitch: 0.8 m

Seite 1162

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 490 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 14 to 8 TRFC

Seite 1163

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 491 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 to 0 TRCD2

Seite 1164

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 492 of 1658 REJ09B0261-0100 12.4.6 SDRAM Timing Register 1 (DBTR1) The SDRAM timing

Seite 1165

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 493 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 15 to 11 ⎯

Seite 1166

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 494 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 to 0 TWR2

Seite 1167

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 495 of 1658 REJ09B0261-0100 12.4.7 SDRAM Timing Register 2 (DBTR2) The SDRAM timing

Seite 1168

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 496 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 20 to 16 TRC

Seite 1169

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 497 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 11 to 8 RDWR

Seite 1170

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 498 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 3 to 0 WRRD3

Seite 1171

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 499 of 1658 REJ09B0261-0100 12.4.8 SDRAM Refresh Control Register 0 (DBRFCNT0) The

Seite 1172 - (4) Reception in Slave Mode

1. Overview Rev.1.00 Jan. 10, 2008 Page 23 of 1658 REJ09B0261-0100 1234567891011121314151617181920212212345678910111213141516171819202122VSSA25SC

Seite 1173

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 500 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 0 SRFEN 0

Seite 1174

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 501 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 12 to 0 TREF

Seite 1175

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 502 of 1658 REJ09B0261-0100 12.4.10 SDRAM Refresh Control Register 2 (DBRFCNT2) The

Seite 1176

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 503 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 15 to 8 ⎯ A

Seite 1177

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 504 of 1658 REJ09B0261-0100 12.4.11 SDRAM Refresh Status Register (DBRFSTS) The SDR

Seite 1178

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 505 of 1658 REJ09B0261-0100 12.4.12 DDRPAD Frequency Setting Register (DBFREQ) The

Seite 1179

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 506 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 to 0 FREQ2

Seite 1180

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 507 of 1658 REJ09B0261-0100 12.4.13 DDRPAD DIC, ODT, OCD Setting Register (DBDICODT

Seite 1181 - 23.1 Features

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 508 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 18 DIC_DQ 0

Seite 1182

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 509 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 10 ODT_ EARLY

Seite 1183 - 23.3 Register Descriptions

1. Overview Rev.1.00 Jan. 10, 2008 Page 24 of 1658 REJ09B0261-0100 1.5 Physical Memory Address Map The SH7785 supports 32-bit virtual address sp

Seite 1184

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 510 of 1658 REJ09B0261-0100 12.4.14 SDRAM Mode Setting Register (DBMRCNT) The SDRAM

Seite 1185

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 511 of 1658 REJ09B0261-0100 By writing to this register, the DDR2-SDRAM address and

Seite 1186

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 512 of 1658 REJ09B0261-0100 12.5 DBSC2 Operation 12.5.1 Supported SDRAM Commands T

Seite 1187 - Serial clock frequency =

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 513 of 1658 REJ09B0261-0100 12.5.2 SDRAM Command Issue (1) Basic Access The DBSC2

Seite 1188

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 514 of 1658 REJ09B0261-0100 16-bit external busRead (16 bytes)Read (1, 2, 4, 8, or 1

Seite 1189

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 515 of 1658 REJ09B0261-0100 command to be issued at time 2 from the following reques

Seite 1190

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 516 of 1658 REJ09B0261-0100 12.5.3 Initialization Sequence The following shows an e

Seite 1191

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 517 of 1658 REJ09B0261-0100 10. Writing to DBMRCNT issues the MRS command to the SDR

Seite 1192

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 518 of 1658 REJ09B0261-0100 Because access is disabled in self-refresh mode, any att

Seite 1193

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 519 of 1658 REJ09B0261-0100 1. Check to make sure the DBSC2 is not being accessed.

Seite 1194

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 25 of 1658 REJ09B0261-0100 Section 2 Programming Model The programming model of this LSI is ex

Seite 1195 - 23.4 Operation

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 520 of 1658 REJ09B0261-0100 12.5.5 Auto-Refresh Operation When the auto-refresh en

Seite 1196

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 521 of 1658 REJ09B0261-0100 LV1THLV0TH0TimeRefresh counter valueMax. value(Average r

Seite 1197

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 522 of 1658 REJ09B0261-0100 Table 12.12 Relation between SDRAM Address Pins and Log

Seite 1198

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 523 of 1658 REJ09B0261-0100 Table 12.13 Relation between SDRAM Address Pins and Log

Seite 1199

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 524 of 1658 REJ09B0261-0100 Table 12.14 Relation between SDRAM Address Pins and Log

Seite 1200

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 525 of 1658 REJ09B0261-0100 Table 12.15 Relation between SDRAM Address Pins and Log

Seite 1201 - 24.1 Features

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 526 of 1658 REJ09B0261-0100 Table 12.16 Relation between SDRAM Address Pins and Log

Seite 1202 - 24.2 Input/Output Pins

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 527 of 1658 REJ09B0261-0100 Table 12.17 Relation between SDRAM Address Pins and Log

Seite 1203 - 24.3 Register Descriptions

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 528 of 1658 REJ09B0261-0100 Table 12.18 Relation between SDRAM Address Pins and Log

Seite 1204

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 529 of 1658 REJ09B0261-0100 Table 12.19 Relation between SDRAM Address Pins and Log

Seite 1205

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 26 of 1658 REJ09B0261-0100 2.2 Register Descriptions 2.2.1 Privileged Mode and Banks (1) Proc

Seite 1206

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 530 of 1658 REJ09B0261-0100 12.5.7 Regarding SDRAM Access and Timing Constraints In

Seite 1207

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 531 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1208

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 532 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11 ]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[1

Seite 1209

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 533 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1210

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 534 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1211

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 535 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1212 - FIFO_EMPTY 0 R FIFO Empty

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 536 of 1658 REJ09B0261-0100 example is shown in section 12.5.11, Method for Securing

Seite 1213 - (1) INTCR0

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 537 of 1658 REJ09B0261-0100 command, the constraint tRCD between the ACT command and

Seite 1214

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 538 of 1658 REJ09B0261-0100 MCK0, MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[1

Seite 1215 - (2) INTCR1

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 539 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1216 - (3) INTCR2

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 27 of 1658 REJ09B0261-0100 (DBR), which can only be accessed in privileged mode. Some bits of th

Seite 1217 - (1) INTSTR0

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 540 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1218

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 541 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1219

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 542 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11]MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[10

Seite 1220 - (2) INTSTR1

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 543 of 1658 REJ09B0261-0100 MCK0,MCK1MA[14:11] MA[9:0]MBA[2:0]MCKEMCSMRASMCASMWEMA[1

Seite 1221

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 544 of 1658 REJ09B0261-0100 12.5.8 Important Information Regarding Use of 8-Bank DD

Seite 1222 - (3) INTSTR2

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 545 of 1658 REJ09B0261-0100 writeMCKCommandDataMCKEMODTTerminatingresistorin SDRAMAs

Seite 1223

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 546 of 1658 REJ09B0261-0100 writeMCKCommandDataMCKEMODTTerminatingresistorin SDRAMre

Seite 1224

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 547 of 1658 REJ09B0261-0100 This LSIMCKEMBKPRSTIO cellInternalCKEDBSC2Externaldevice

Seite 1225

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 548 of 1658 REJ09B0261-0100 MCKE to high level, upon power-on reset the data within

Seite 1226

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 549 of 1658 REJ09B0261-0100 5. The SDRAM configuration setting register (DBCONF), S

Seite 1227

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 28 of 1658 REJ09B0261-0100 Table 2.1 Initial Register Values Type Registers Initial Value* Gen

Seite 1228

12. DDR2-SDRAM Interface (DBSC2) Rev.1.00 Jan. 10, 2008 Page 550 of 1658 REJ09B0261-0100 12.5.13 Regarding MCKE Signal Operation The MCKE signal

Seite 1229

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 551 of 1658 REJ09B0261-0100 Section 13 PCI Controller (PCIC) The PCI controller (PCIC) co

Seite 1230 - RSPTYR registers

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 552 of 1658 REJ09B0261-0100 • Cache snoop functions are supported when the PCIC is a targe

Seite 1231

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 553 of 1658 REJ09B0261-0100 Figure 13.1 shows a block diagram of the PCIC. PCI busPCIC modu

Seite 1232

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 554 of 1658 REJ09B0261-0100 13.2 Input/Output Pins Table 13.1 shows the pin configuration

Seite 1233

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 555 of 1658 REJ09B0261-0100 Signal Name PCI Standard Signal I/O Description LOCK/ODDF LOCK

Seite 1234 - (2) RSPRD

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 556 of 1658 REJ09B0261-0100 Signal Name PCI Standard Signal I/O Description MODE12 MODE11 —

Seite 1235

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 557 of 1658 REJ09B0261-0100 13.3 Register Descriptions Table 13.2 shows a list of PCIC reg

Seite 1236

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 558 of 1658 REJ09B0261-0100 Name Abbreviation SH*1 R/W PCI*2 R/W P4 address Area 7 addres

Seite 1237

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 559 of 1658 REJ09B0261-0100 Name Abbreviation SH*1 R/W PCI*2 R/W P4 address Area 7 addressS

Seite 1238 - DMAEN SET2 SET1 SET0

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 29 of 1658 REJ09B0261-0100 31 0R0_BANK0*1,*2R1_BANK0*2R2_BANK0*2R3_BANK0*2R4_BANK0*2R5_BANK0*2R6

Seite 1239 - 24.4 Operation

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 560 of 1658 REJ09B0261-0100 Table 13.3 Register States in Each Processing Mode Name Abbrev

Seite 1240

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 561 of 1658 REJ09B0261-0100 Name Abbreviation Power-On Reset Manual Reset Sleep Mode PCI po

Seite 1241

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 562 of 1658 REJ09B0261-0100 13.3.1 PCIC Enable Control Register (PCIECR) PCIECR is a regis

Seite 1242

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 563 of 1658 REJ09B0261-0100 13.3.2 Configuration Registers The configuration registers def

Seite 1243

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 564 of 1658 REJ09B0261-0100 (3) PCI Command Register (PCICMD) PCICMD controls the basic fu

Seite 1244 - (with Data Busy State)

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 565 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 PER 0 SH: R/W PCI:

Seite 1245

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 566 of 1658 REJ09B0261-0100 (4) PCI Status Register (PCISTATUS) PCISTATUS is used to recor

Seite 1246

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 567 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 12 RTA 0 SH: R/WC

Seite 1247

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 568 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 ⎯ 0 SH: R/W PCI:

Seite 1248 - (Block Size > FIFO Size)

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 569 of 1658 REJ09B0261-0100 (6) PCI Program Interface Register (PCIPIF) This field is the

Seite 1249 - (Multiple Block Transfer)

Rev.1.00 Jan. 10, 2008 Page vi of xxx REJ09B0261-0100 Abbreviations ALU Arithmetic Logic Unit ASID Address Space Identifier BGA Ball Grid Array CM

Seite 1250 - (Stream Transfer)

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 30 of 1658 REJ09B0261-0100 2.2.2 General Registers Figure 2.3 shows the relationship between th

Seite 1251 - (Single Block Transfer)

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 570 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 0 OMP 0 SH: R/W PCI

Seite 1252

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 571 of 1658 REJ09B0261-0100 (8) PCI Base Class Code Register (PCIBCC) This field defines t

Seite 1253 - - Cap × n (FFI)

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 572 of 1658 REJ09B0261-0100 (10) PCI Latency Timer Register (PCILTM) 0123456700000000LTMR/

Seite 1254 - Set the number of blocks

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 573 of 1658 REJ09B0261-0100 (12) PCI BIST Register (PCIBIST) RRRRRRRRPCI R/W:0123456700000

Seite 1255

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 574 of 1658 REJ09B0261-0100 (13) PCI I/O Base Address Register (PCIIBAR) This register is

Seite 1256

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 575 of 1658 REJ09B0261-0100 (14) PCI Memory Base Address Register 0 (PCIMBAR0) This regist

Seite 1257

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 576 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 19 to 4 MBA2 H&ap

Seite 1258

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 577 of 1658 REJ09B0261-0100 (15) PCI Memory Base Address Register 1 (PCIMBAR1) This regist

Seite 1259 - (Block Size ≤ FIFO Size)

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 578 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 19 to 4 MBA2 H&ap

Seite 1260

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 579 of 1658 REJ09B0261-0100 (16) PCI Subsystem Vender ID Register (PCISVID) See the descri

Seite 1261

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 31 of 1658 REJ09B0261-0100 Note on Programming: As the user's R0 to R7 are assigned to R0_

Seite 1262

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 580 of 1658 REJ09B0261-0100 (18) PCI Capability Pointer Register (PCICP) This register is

Seite 1263

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 581 of 1658 REJ09B0261-0100 (20) PCI Interrupt Pin Register (PCIINTPIN) 0123456710000000IN

Seite 1264

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 582 of 1658 REJ09B0261-0100 (22) Maximum Latency Register (PCIMAXLAT) This register is not

Seite 1265

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 583 of 1658 REJ09B0261-0100 (24) PCI Next Item Pointer Register (PCINIP) PCINIP indicates

Seite 1266

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 584 of 1658 REJ09B0261-0100 (25) PCI Power Management Register (PCIPMC) PCIPMC is a 16-bit

Seite 1267

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 585 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 8 to 6 ⎯ All 0 S

Seite 1268

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 586 of 1658 REJ09B0261-0100 (26) PCI Power Management Control/Status Register (PCIPMCSR) T

Seite 1269

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 587 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 1, 0 PS 00 SH: R

Seite 1270

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 588 of 1658 REJ09B0261-0100 (27) PCIPMCSR Bridge Support Extension Register (PCIPMCSRBSE)

Seite 1271

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 589 of 1658 REJ09B0261-0100 (28) PCI Power Consumption/Radiation Register (PCIPCDD) The da

Seite 1272

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 32 of 1658 REJ09B0261-0100 7. Single-precision floating-point extended register matrix, XMTRX:

Seite 1273

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 590 of 1658 REJ09B0261-0100 13.3.3 PCI Local Registers (1) PCI Control Register (PCICR) P

Seite 1274

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 591 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 10 FTO 0 SH: R/W

Seite 1275

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 592 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 IOCS 0 SH: R/W P

Seite 1276

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 593 of 1658 REJ09B0261-0100 (2) PCI Local Space Register 0 (PCILSR0) See section 13.4.4 (1

Seite 1277

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 594 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 19 to 1 ⎯ All 0

Seite 1278

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 595 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 28 to 20 LSR 0 00

Seite 1279

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 596 of 1658 REJ09B0261-0100 (4) PCI Local Address Register 0 (PCILAR0) See section 13.4.3

Seite 1280

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 597 of 1658 REJ09B0261-0100 (5) PCI Local Address Register 1 (PCILAR1) See section 13.4.3

Seite 1281

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 598 of 1658 REJ09B0261-0100 (6) PCI Interrupt Register (PCIIR) PCIIR records interrupt sou

Seite 1282

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 599 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 9 TMTOI 0 SH: R/WC

Seite 1283

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 33 of 1658 REJ09B0261-0100 2.2.4 Control Registers (1) Status Register (SR) 31 30 29 28 27 26

Seite 1284

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 600 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 SDI 0 SH: R/WC PC

Seite 1285 - detected or DMA transfer

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 601 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 3 TADIM 0 SH: R/WC

Seite 1286

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 602 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 0 MRDPEI 0 SH: R/WC

Seite 1287

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 603 of 1658 REJ09B0261-0100 (7) PCI Interrupt Mask Register (PCIIMR) This register is the

Seite 1288

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 604 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 6 SDIM 0 SH: R/W PC

Seite 1289

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 605 of 1658 REJ09B0261-0100 (8) PCI Error Address Information Register (PCIAIR) This regi

Seite 1290

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 606 of 1658 REJ09B0261-0100 (9) PCI Error Command Information Register (PCICIR) This regis

Seite 1291

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 607 of 1658 REJ09B0261-0100 (10) PCI Arbiter Interrupt Register (PCIAINT) In host mode, th

Seite 1292

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 608 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 11 MBTOI 0 SH: R/WC

Seite 1293 - 25.1 Features

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 609 of 1658 REJ09B0261-0100 (11) PCI Arbiter Interrupt Mask Register (PCIAINTM) This regis

Seite 1294 - Figure 25.1 Block Diagram

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 34 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 27 to 16 — All 0 R Re

Seite 1295 - 25.2 Input/Output Pins

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 610 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 MAIM 0 SH: R/WC P

Seite 1296 - 25.3 Register Descriptions

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 611 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 31 to 5 ⎯ All 0

Seite 1297

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 612 of 1658 REJ09B0261-0100 (13) PCI PIO Address Register (PCIPAR) Setting this register g

Seite 1298

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 613 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 15 to 11 DN xxxxx

Seite 1299

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 614 of 1658 REJ09B0261-0100 (14) PCI Power Management Interrupt Register (PCIPINT) This re

Seite 1300

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 615 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 0 PMD0 0 SH: R/WCPC

Seite 1301

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 616 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 1 PMD1M 0 SH: R/W P

Seite 1302

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 617 of 1658 REJ09B0261-0100 (17) PCI Memory Bank Mask Register 0 (PCIMBMR0) This register

Seite 1303

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 618 of 1658 REJ09B0261-0100 (18) PCI Memory Bank Register 1 (PCIMBR1) This register specif

Seite 1304

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 619 of 1658 REJ09B0261-0100 (19) PCI Memory Bank Mask Register 1 (PCIMBMR1) This register

Seite 1305

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 35 of 1658 REJ09B0261-0100 (2) Saved Status Register (SSR) (32 bits, Privileged Mode, Initial V

Seite 1306

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 620 of 1658 REJ09B0261-0100 (20) PCI Memory Bank Register 2 (PCIMBR2) This register specif

Seite 1307

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 621 of 1658 REJ09B0261-0100 (21) PCI Memory Bank Mask Register 2 (PCIMBMR2) This register

Seite 1308

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 622 of 1658 REJ09B0261-0100 (22) PCI I/O Bank Register (PCIIOBR) This register specifies t

Seite 1309

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 623 of 1658 REJ09B0261-0100 (23) PCI I/O Bank Mask Register (PCIIOBMR) This register is th

Seite 1310

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 624 of 1658 REJ09B0261-0100 (24) PCI Cache Snoop Control Register 0 (PCICSCR0) An external

Seite 1311

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 625 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 1, 0 SNPMD All 0

Seite 1312 - STARY STDRY

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 626 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 31 to 5 ⎯ All 0

Seite 1313

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 627 of 1658 REJ09B0261-0100 (26) PCI Cache Snoop Address Register 0 (PCICSAR0) This regist

Seite 1314

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 628 of 1658 REJ09B0261-0100 (27) PCI Cache Snoop Address Register 1 (PCICSAR1) This regist

Seite 1315

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 629 of 1658 REJ09B0261-0100 (28) PCI PIO Data Register (PCIPDR) By reading or writing to t

Seite 1316

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 36 of 1658 REJ09B0261-0100 (4) Floating-Point Status/Control Register (FPSCR) 31 30 29 28 27 26

Seite 1317

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 630 of 1658 REJ09B0261-0100 13.4 Operation 13.4.1 Supported PCI Commands Table 13.4 Supp

Seite 1318 - 25.5 Operation

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 631 of 1658 REJ09B0261-0100 13.4.2 PCIC Initialization After a power-on reset, the ENBL bi

Seite 1319

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 632 of 1658 REJ09B0261-0100 13.4.3 Master Access This section describes how software contr

Seite 1320

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 633 of 1658 REJ09B0261-0100 (2) Accessing PCI Memory Space Figure 13.2 shows the memory ma

Seite 1321

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 634 of 1658 REJ09B0261-0100 For PCI memory space 0, the middle six bits ([23:18]) are contr

Seite 1322

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 635 of 1658 REJ09B0261-0100 For PCI memory space 2 accesses, the middle eleven bits ([28:18

Seite 1323

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 636 of 1658 REJ09B0261-0100 (3) Accessing PCI I/O Space Burst transfers are not supported

Seite 1324

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 637 of 1658 REJ09B0261-0100 MSB31 0LSBSHwy dataPCI bus data1. Little endianA' B'

Seite 1325

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 638 of 1658 REJ09B0261-0100 MSB31 0LSBSHwy dataPCI bus data1. Little endianA' B'

Seite 1326

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 639 of 1658 REJ09B0261-0100 31 0A31 0A31 0A31 0AB B B BC C C CD D D DAB AB BA ABCD CD DC CD

Seite 1327 - 26.1 Features

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 37 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 17 to 12 Cause 000000

Seite 1328

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 640 of 1658 REJ09B0261-0100 13.4.4 Target Access This section describes how the PCIC in th

Seite 1329 - 26.2 Input/Output Pins

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 641 of 1658 REJ09B0261-0100 To access the address space in this LSI, use PCIMBAR0/1, PCILSR

Seite 1330 - 26.3 Register Descriptions

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 642 of 1658 REJ09B0261-0100 MBAREPCI address 31 28 20 0 29 19 PCIMBAR0/1 PCILSR0/1PCILAR0/

Seite 1331 - DWL0 SWL2 SWL1

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 643 of 1658 REJ09B0261-0100 (3) Accessing PCIC Registers Configuration Registers: Configur

Seite 1332

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 644 of 1658 REJ09B0261-0100 (6) Endian This LSI supports both the big and little endian fo

Seite 1333

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 645 of 1658 REJ09B0261-0100 31MSB LSB0PCI bus dataSHwy data1. Little endianA' B'

Seite 1334

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 646 of 1658 REJ09B0261-0100 31 0A31 0A31 0A31 0AB B B BC C C CD D D DAB AB BA ABCD CD DC CD

Seite 1335

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 647 of 1658 REJ09B0261-0100 (7) Cache Coherency The PCIC supports cache coherency function

Seite 1336

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 648 of 1658 REJ09B0261-0100 13.4.5 Host Mode (1) Operation in Host Mode The PCI interface

Seite 1337

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 649 of 1658 REJ09B0261-0100 31 30 241623151110872 1 0 Configuration address registerPCI bus

Seite 1338

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 38 of 1658 REJ09B0261-0100 <Big endian>DR (2i)FR (2i) FR (2i+1)8n+4 8n+78n 8n+363 063

Seite 1339

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 650 of 1658 REJ09B0261-0100 Subsequently, after the PCIC requires the bus and transfer data

Seite 1340

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 651 of 1658 REJ09B0261-0100 The PCIC can retain error information on the PCI bus. When an e

Seite 1341

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 652 of 1658 REJ09B0261-0100 D0(Nomal state)D2(Clock stopped)D1(Bus idle)D3(Power-down) Figu

Seite 1342

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 653 of 1658 REJ09B0261-0100 13.4.8 PCI Local Bus Basic Interface The PCI interface of this

Seite 1343

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 654 of 1658 REJ09B0261-0100 PCICLK AD[31:0] PAR C/BE[3:0] PCIFRAMEIRDYDEVSELTRDYIDSELREQGNT

Seite 1344 - 26.4 Operation

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 655 of 1658 REJ09B0261-0100 Addr D0AP DP0Com BE0D1DPn-1 DPnBE1 BEnDnPCICLK AD[31:0] PAR C/B

Seite 1345

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 656 of 1658 REJ09B0261-0100 AddrD0APDP0Com BE0D1DPn-1DPn BE1BEnDnPCICLK AD[31:0] PAR C/BE[3

Seite 1346

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 657 of 1658 REJ09B0261-0100 (2) Target Read/Write Cycle Timing The PCIC returns retries to

Seite 1347

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 658 of 1658 REJ09B0261-0100 Addr D0APDP0Com BE0DisconnectConfiguration space accessLock PC

Seite 1348

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 659 of 1658 REJ09B0261-0100 DP0Addr D0APCom BE0DisconnectConfiguration space accessLock PC

Seite 1349

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 39 of 1658 REJ09B0261-0100 2.3 Memory-Mapped Registers Some control registers are mapped to the

Seite 1350 - SSI_SDATA

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 660 of 1658 REJ09B0261-0100 Addr D0APDP0ComBE0DisconnectLockD1DPn-1DPn BE1 BEnDnPCICLK AD[3

Seite 1351

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 661 of 1658 REJ09B0261-0100 Addr D0APDP0ComBE0DisconnectLockD1DPn-1DPn BE1 BEnDnPCICLK AD[3

Seite 1352

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 662 of 1658 REJ09B0261-0100 (3) Address/Data Stepping Timing By writing 1 to the SC bit in

Seite 1353

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 663 of 1658 REJ09B0261-0100 D1BE1PCICLK AD[31:0] PAR C/BE[3:0]PCIFRAMEIRDYDEVSELTRDYLegend:

Seite 1354

13. PCI Controller (PCIC) Rev.1.00 Jan. 10, 2008 Page 664 of 1658 REJ09B0261-0100

Seite 1355

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 665 of 1658 REJ09B0261-0100 Section 14 Direct Memory Access Controller (

Seite 1356

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 666 of 1658 REJ09B0261-0100 Figure 14.1 shows a block diagram of the DMAC.

Seite 1357

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 667 of 1658 REJ09B0261-0100 14.2 Input/Output Pins The DMAC-related exter

Seite 1358

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 668 of 1658 REJ09B0261-0100 14.3 Register Descriptions Table 14.2 shows t

Seite 1359

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 669 of 1658 REJ09B0261-0100 Channel Name Abbrev. R/W P4 Address Area 7 A

Seite 1360

Rev.1.00 Jan. 10, 2008 Page vii of xxx REJ09B0261-0100 MSB Most Significant Bit PC Program Counter PCI Peripheral Component Interconnect PCIC PC

Seite 1361

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 40 of 1658 REJ09B0261-0100 2.4 Data Formats in Registers Register operands are always longwords

Seite 1362

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 670 of 1658 REJ09B0261-0100 Channel Name Abbrev. R/W P4 Address Area 7 A

Seite 1363

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 671 of 1658 REJ09B0261-0100 Table 14.2 Register Configuration of the DMAC

Seite 1364

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 672 of 1658 REJ09B0261-0100 Channel Name Abbrev. Power-on Reset by PRESET

Seite 1365 - 26.5 Usage Note

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 673 of 1658 REJ09B0261-0100 Channel Name Abbrev. Power-on Reset by PRESET

Seite 1366

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 674 of 1658 REJ09B0261-0100 Channel Name Abbrev. Power-on Reset by PRESET

Seite 1367 - 27.1 Features

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 675 of 1658 REJ09B0261-0100 14.3.1 DMA Source Address Registers 0 to 11 (

Seite 1368

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 676 of 1658 REJ09B0261-0100 14.3.2 DMA Source Address Registers B0 to B3,

Seite 1369

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 677 of 1658 REJ09B0261-0100 14.3.3 DMA Destination Address Registers 0 to

Seite 1370 - 27.2 Input/Output Pins

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 678 of 1658 REJ09B0261-0100 14.3.4 DMA Destination Address Registers B0 t

Seite 1371

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 679 of 1658 REJ09B0261-0100 14.3.5 DMA Transfer Count Registers 0 to 11 (

Seite 1372 - 27.3 Register Descriptions

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 41 of 1658 REJ09B0261-0100 Address AA707070703115 0 15 031 015 031 023 15 7 0A + 1 A + 2 A + 3By

Seite 1373

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 680 of 1658 REJ09B0261-0100 14.3.6 DMA Transfer Count Registers B0 to B3,

Seite 1374

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 681 of 1658 REJ09B0261-0100 14.3.7 DMA Channel Control Registers 0 to 11

Seite 1375

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 682 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 27

Seite 1376

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 683 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 21

Seite 1377

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 684 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 19

Seite 1378

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 685 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 17

Seite 1379 - • Command access mode

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 686 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 15

Seite 1380 - • Sector access mode

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 687 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 11

Seite 1381

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 688 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 2

Seite 1382

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 689 of 1658 REJ09B0261-0100 14.3.8 DMA Operation Register 0, 1 (DMAOR0 an

Seite 1383

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 42 of 1658 REJ09B0261-0100 From any statewhen reset/manualreset inputReset stateInstruction exec

Seite 1384

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 690 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 11

Seite 1385

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 691 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 2

Seite 1386

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 692 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Descriptions 0

Seite 1387

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 693 of 1658 REJ09B0261-0100 14.3.9 DMA Extended Resource Selectors 0 to 5

Seite 1388

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 694 of 1658 REJ09B0261-0100 • DMARS4 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

Seite 1389

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 695 of 1658 REJ09B0261-0100 • DMARS1 Bit Bit Name Initial Value R/W Des

Seite 1390

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 696 of 1658 REJ09B0261-0100 • DMARS2 Bit Bit Name Initial Value R/W Des

Seite 1391

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 697 of 1658 REJ09B0261-0100 • DMARS3 Bit Bit Name Initial Value R/W Des

Seite 1392

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 698 of 1658 REJ09B0261-0100 • DMARS4 Bit Bit Name Initial Value R/W Des

Seite 1393 - TREND TRSTRT

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 699 of 1658 REJ09B0261-0100 • DMARS5 Bit Bit Name Initial Value R/W Des

Seite 1394 - 27.4 Operation

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 43 of 1658 REJ09B0261-0100 2.7 Usage Notes 2.7.1 Notes on Self-Modifying Code To accelerate th

Seite 1395 - 16 bytes)

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 700 of 1658 REJ09B0261-0100 Table 14.3 List of Transfer Request Sources P

Seite 1396

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 701 of 1658 REJ09B0261-0100 14.4 Operation When DMA transfer is requested

Seite 1397 - 64 bytes)

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 702 of 1658 REJ09B0261-0100 Choose whether DREQ is detected by edge or lev

Seite 1398

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 703 of 1658 REJ09B0261-0100 (3) On-Chip Peripheral Module Request Mode On

Seite 1399 - (1) Physical Sector

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 704 of 1658 REJ09B0261-0100 Table 14.8 List of On-Chip Peripheral Module

Seite 1400

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 705 of 1658 REJ09B0261-0100 CHCR DMARS RS[3:0] MID RIDDMA Transfer Reques

Seite 1401

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 706 of 1658 REJ09B0261-0100 14.4.2 Channel Priority When the DMAC receive

Seite 1402

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 707 of 1658 REJ09B0261-0100 CH1 > CH2 > CH3 > CH4 > CH5 > C

Seite 1403

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 708 of 1658 REJ09B0261-0100 Figure 14.3 shows how the priority changes whe

Seite 1404

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 709 of 1658 REJ09B0261-0100 14.4.3 DMA Transfer Types Tables 14.9 and 14.

Seite 1405

2. Programming Model Rev.1.00 Jan. 10, 2008 Page 44 of 1658 REJ09B0261-0100

Seite 1406 - 27.7 DMA Transfer Settings

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 710 of 1658 REJ09B0261-0100 Table 14.10 DMA Transfer Directions for On-Ch

Seite 1407 - 28.1 Features

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 711 of 1658 REJ09B0261-0100 (1) Dual Address Mode In dual address mode, b

Seite 1408 - Interrupt

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 712 of 1658 REJ09B0261-0100 Transfer source addressTransfer destination ad

Seite 1409

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 713 of 1658 REJ09B0261-0100 (2) Bus Modes Bus modes include cycle steal m

Seite 1410

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 714 of 1658 REJ09B0261-0100 • Intermittent mode 16 (DMAOR. CMS = 10, CHCR

Seite 1411

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 715 of 1658 REJ09B0261-0100 SuperHywaybus cycleRead Write Read Write Read

Seite 1412 - 28.2 Register Descriptions

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 716 of 1658 REJ09B0261-0100 DMA CH0Cycle stealCH0 transfer source(a) CH0:

Seite 1413

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 717 of 1658 REJ09B0261-0100 14.4.4 DMA Transfer Flow After intended trans

Seite 1414

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 718 of 1658 REJ09B0261-0100 Notes: 1. In repeat mode, a transfer reques

Seite 1415

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 719 of 1658 REJ09B0261-0100 14.4.5 Repeat Mode Transfer A repeat mode tra

Seite 1416

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 45 of 1658 REJ09B0261-0100 Section 3 Instruction Set This LSI's instruction set is implemen

Seite 1417

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 720 of 1658 REJ09B0261-0100 This function enables sequential voice compres

Seite 1418

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 721 of 1658 REJ09B0261-0100 14.4.7 DREQ Pin Sampling Timing Figures 14.13

Seite 1419

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 722 of 1658 REJ09B0261-0100 : Non-sensitive periodCLKOUTBus cycleDREQ (R

Seite 1420

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 723 of 1658 REJ09B0261-0100 CLKOUTBus cycleDREQ(Overrun 0, High level)DRAK

Seite 1421

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 724 of 1658 REJ09B0261-0100 Bus cycleDREQ(Overrun 0, High level)DRAK (High

Seite 1422

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 725 of 1658 REJ09B0261-0100 Acceptance startedAccepted after one cycle of

Seite 1423

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 726 of 1658 REJ09B0261-0100 Bus cycle(Overrun 0, High level)DRAK (High-act

Seite 1424

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 727 of 1658 REJ09B0261-0100 Acceptance startedAccepted after one cycle of

Seite 1425

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 728 of 1658 REJ09B0261-0100 Acceptance startedAccepted after one cycle of

Seite 1426

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 729 of 1658 REJ09B0261-0100 14.5 DMAC Interrupt Sources In the DMAC, each

Seite 1427

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 46 of 1658 REJ09B0261-0100 Table 3.1 Execution Order of Delayed Branch Instructions Instructions

Seite 1428

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 730 of 1658 REJ09B0261-0100 14.6 Usage Notes Note the following things in

Seite 1429

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 731 of 1658 REJ09B0261-0100 14.6.6 DACK/DREQ Setting If the IWRRD, IWRRS,

Seite 1430

14. Direct Memory Access Controller (DMAC) Rev.1.00 Jan. 10, 2008 Page 732 of 1658 REJ09B0261-0100

Seite 1431

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 733 of 1658 REJ09B0261-0100 Section 15 Clock Pulse Generator (CPG) The CPG generate

Seite 1432

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 734 of 1658 REJ09B0261-0100 Oscillator circuitControl sectionCrystal oscillator circu

Seite 1433

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 735 of 1658 REJ09B0261-0100 The function of each block in the CPG is as follows. • P

Seite 1434

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 736 of 1658 REJ09B0261-0100 15.2 Input/Output Pins Table 15.1 shows the CPG pin conf

Seite 1435

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 737 of 1658 REJ09B0261-0100 15.3 Clock Operating Modes Table 15.2 shows the relation

Seite 1436

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 738 of 1658 REJ09B0261-0100 Table 15.3 Clock Operating Modes and Frequency Multiplic

Seite 1437

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 739 of 1658 REJ09B0261-0100 15.4 Register Descriptions Table 15.5 lists the register

Seite 1438

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 47 of 1658 REJ09B0261-0100 3.2 Addressing Modes Addressing modes and effective address calculatio

Seite 1439

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 740 of 1658 REJ09B0261-0100 Table 15.6 Register State in Each Processing Mode Regist

Seite 1440

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 741 of 1658 REJ09B0261-0100 15.4.1 Frequency Control Register 0 (FRQCR0) FRQCR0 is a

Seite 1441

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 742 of 1658 REJ09B0261-0100 15.4.2 Frequency Control Register 1 (FRQCR1) FRQCR1 is a

Seite 1442

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 743 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 31 30 29 28 I

Seite 1443

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 744 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 11 10 9 8 S2F

Seite 1444

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 745 of 1658 REJ09B0261-0100 15.4.3 Frequency Display Register 1 (FRQMR1) FRQMR1 is a

Seite 1445

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 746 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 19 18 17 16 B

Seite 1446

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 747 of 1658 REJ09B0261-0100 15.4.4 PLL Control Register (PLLCR) PLLCR is a 32-bit re

Seite 1447

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 748 of 1658 REJ09B0261-0100 15.5 Calculating the Frequency Table 15.7 shows the rela

Seite 1448

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 749 of 1658 REJ09B0261-0100 15.6 How to Change the Frequency To change the frequency

Seite 1449

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 48 of 1658 REJ09B0261-0100 Addressing Mode Instruction Format Effective Address Calculation Metho

Seite 1450

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 750 of 1658 REJ09B0261-0100 4. Set H'CF000001 in FRQCR0 to enable execution of

Seite 1451

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 751 of 1658 REJ09B0261-0100 Table 15.8 Selectable Combinations of Clock Frequency (C

Seite 1452

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 752 of 1658 REJ09B0261-0100 Division ratio of divider 2 FRQMR1 read value CPU clock

Seite 1453

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 753 of 1658 REJ09B0261-0100 Division ratio of divider 2 FRQMR1 read value CPU clock I

Seite 1454

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 754 of 1658 REJ09B0261-0100 Table 15.10 Selectable Combinations of Clock Frequency (

Seite 1455

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 755 of 1658 REJ09B0261-0100 Table 15.11 Selectable Combinations of Clock Frequency (

Seite 1456

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 756 of 1658 REJ09B0261-0100 15.7 Notes on Designing Board 1. Note on Using a Crysta

Seite 1457

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 757 of 1658 REJ09B0261-0100 CB1RCB1CPB1CB2RCB2CPB2CB3RCB3CPB3CB4RCB4CPB4CB5RCB5CPB5Po

Seite 1458

15. Clock Pulse Generator (CPG) Rev.1.00 Jan. 10, 2008 Page 758 of 1658 REJ09B0261-0100

Seite 1459

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 759 of 1658 REJ09B0261-0100 Section 16 Watchdog Timer and Reset (WDT) The watchd

Seite 1460

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 49 of 1658 REJ09B0261-0100 Addressing Mode Instruction Format Effective Address Calculation Metho

Seite 1461

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 760 of 1658 REJ09B0261-0100 Figure 16.1 is a block diagram of the WDT. PRESETMRESE

Seite 1462

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 761 of 1658 REJ09B0261-0100 16.2 Input/Output Pins Table 16.1 shows the pin confi

Seite 1463

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 762 of 1658 REJ09B0261-0100 16.3 Register Descriptions Table 16.2 shows the regis

Seite 1464

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 763 of 1658 REJ09B0261-0100 16.3.1 Watchdog Timer Stop Time Register (WDTST) WDTS

Seite 1465

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 764 of 1658 REJ09B0261-0100 16.3.2 Watchdog Timer Control/Status Register (WDTCSR

Seite 1466

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 765 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 5 RSTS 0 R

Seite 1467

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 766 of 1658 REJ09B0261-0100 16.3.3 Watchdog Timer Base Stop Time Register (WDTBST

Seite 1468

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 767 of 1658 REJ09B0261-0100 16.3.4 Watchdog Timer Counter (WDTCNT) WDTCNT is a 32

Seite 1469

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 768 of 1658 REJ09B0261-0100 16.3.5 Watchdog Timer Base Counter (WDTBCNT) WDTBCNT

Seite 1470

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 769 of 1658 REJ09B0261-0100 16.4 Operation 16.4.1 Reset Request Power-on reset a

Seite 1471

Rev.1.00 Jan. 10, 2008 Page viii of xxx REJ09B0261-0100 All trademarks and registered trademarks are the property of their respective owners.

Seite 1472

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 50 of 1658 REJ09B0261-0100 Addressing Mode Instruction Format Effective Address Calculation Metho

Seite 1473

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 770 of 1658 REJ09B0261-0100 (2) Manual Reset • Requesting sources ⎯ A general e

Seite 1474

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 771 of 1658 REJ09B0261-0100 16.4.2 Using Watchdog Timer Mode 1. Set the WDTCNT o

Seite 1475

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 772 of 1658 REJ09B0261-0100 16.4.4 Time until WDT Counters Overflow The relations

Seite 1476

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 773 of 1658 REJ09B0261-0100 WDTBCNT is an 18-bit counter that is incremented by th

Seite 1477

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 774 of 1658 REJ09B0261-0100 16.5 Status Pin Change Timing during Reset 16.5.1 Po

Seite 1478

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 775 of 1658 REJ09B0261-0100 (2) Power-On Reset Caused by PRESET Input during Norm

Seite 1479 - 28.3 Usage Example

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 776 of 1658 REJ09B0261-0100 (3) Power-On Reset Caused by PRESET Input in Sleep Mo

Seite 1480

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 777 of 1658 REJ09B0261-0100 16.5.2 Power-On Reset by Watchdog Timer Overflow The

Seite 1481

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 778 of 1658 REJ09B0261-0100 (2) Power-On Reset Caused by Watchdog Timer Overflow

Seite 1482

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 779 of 1658 REJ09B0261-0100 16.5.3 Manual Reset by Watchdog Timer Overflow The ti

Seite 1483 - 29.1 Features

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 51 of 1658 REJ09B0261-0100 Addressing Mode Instruction Format Effective Address Calculation Metho

Seite 1484

16. Watchdog Timer and Reset (WDT) Rev.1.00 Jan. 10, 2008 Page 780 of 1658 REJ09B0261-0100 (2) Manual Reset Caused by Watchdog Timer Overflow in

Seite 1485 - 29.2 Register Descriptions

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 781 of 1658 REJ09B0261-0100 Section 17 Power-Down Mode In power-down mode, some of the on-chip

Seite 1486

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 782 of 1658 REJ09B0261-0100 Table 17.1 States of Power-Down Modes State On-Chip Peripheral Modul

Seite 1487

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 783 of 1658 REJ09B0261-0100 17.2 Input/Output Pins Table 17.2 shows the pins related to power-do

Seite 1488

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 784 of 1658 REJ09B0261-0100 Table 17.4 Register States of CPG in Each Processing Mode Power-on R

Seite 1489

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 785 of 1658 REJ09B0261-0100 17.3.1 Sleep Control Register (SLPCR) SLPCR is a 32-bit readable/wri

Seite 1490 - • CBR1

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 786 of 1658 REJ09B0261-0100 17.3.2 Standby Control Register 0 (MSTPCR0) MSTPCR0 is a 32-bit read

Seite 1491

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 787 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 21, 20 MSTP[21:20] All 0

Seite 1492

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 788 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 9, 8 MSTP[9:8] All 0 R/

Seite 1493

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 789 of 1658 REJ09B0261-0100 17.3.3 Standby Control Register 1 (MSTPCR1) MSTPCR1 is a 32-bit read

Seite 1494 - • CRR1

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 52 of 1658 REJ09B0261-0100 3.3 Instruction Set Table 3.3 shows the notation used in the SH instru

Seite 1495 - • CAR1

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 790 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 16 to 6 ⎯ All 0 R/W R

Seite 1496 - • CAMR0

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 791 of 1658 REJ09B0261-0100 17.3.4 Standby Display Register (MSTPMR) MSTPMR is a 32-bit readable

Seite 1497 - • CAMR1

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 792 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 5, 4 MSTPS105 MSTPS104 A

Seite 1498

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 793 of 1658 REJ09B0261-0100 17.4 Sleep Mode 17.4.1 Transition to Sleep Mode When the SLEEP inst

Seite 1499

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 794 of 1658 REJ09B0261-0100 17.5 Deep Sleep Mode 17.5.1 Transition to Deep Sleep Mode If a SLE

Seite 1500

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 795 of 1658 REJ09B0261-0100 17.5.2 Releasing Deep Sleep Mode Deep sleep mode is released by mean

Seite 1501

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 796 of 1658 REJ09B0261-0100 17.6 Module Standby Functions This LSI supports the module standby s

Seite 1502

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 797 of 1658 REJ09B0261-0100 17.7 Timing of the Changes on the STATUS Pins 17.7.1 Reset For deta

Seite 1503 - 29.3 Operation Description

17. Power-Down Mode Rev.1.00 Jan. 10, 2008 Page 798 of 1658 REJ09B0261-0100

Seite 1504

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 799 of 1658 REJ09B0261-0100 Section 18 Timer Unit (TMU) This LSI includes an on-chip 32-bit ti

Seite 1505

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 53 of 1658 REJ09B0261-0100 Item Format Description Privileged mode "Privileged" mean

Seite 1506

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 800 of 1658 REJ09B0261-0100 Figure 18.1 shows a block diagram of the TMU. Channel 0, 1Channel 2C

Seite 1507

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 801 of 1658 REJ09B0261-0100 18.2 Input/Output Pins Table 18.1 shows the TMU pin configuration.

Seite 1508

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 802 of 1658 REJ09B0261-0100 18.3 Register Descriptions Tables 18.2 and 18.3 show the TMU regist

Seite 1509

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 803 of 1658 REJ09B0261-0100 Table 18.3 Register Configuration (2) Channel Register Name Abbrev

Seite 1510

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 804 of 1658 REJ09B0261-0100 18.3.1 Timer Start Registers (TSTRn) (n = 0, 1) The TSTR registers

Seite 1511 - 29.5 User Break Examples

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 805 of 1658 REJ09B0261-0100 • TSTR1 0123456700000000STR3STR4STR5—————R/WR/WR/WRRRRRBIt:Initial

Seite 1512

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 806 of 1658 REJ09B0261-0100 18.3.2 Timer Constant Registers (TCORn) (n = 0 to 5) The TCOR regis

Seite 1513

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 807 of 1658 REJ09B0261-0100 18.3.4 Timer Control Registers (TCRn) (n = 0 to 5) The TCR register

Seite 1514

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 808 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 7 6 ICPE1*1 ICPE0*1 0 0

Seite 1515 - 29.6 Usage Notes

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 809 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Description 2 1 0 TPSC2 TPSC1 TPSC0

Seite 1516

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 54 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit New MOV.B

Seite 1517 - 30.1 Features

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 810 of 1658 REJ09B0261-0100 18.4 Operation Each channel has a 32-bit timer counter (TCNT) and a

Seite 1518 - Shift register

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 811 of 1658 REJ09B0261-0100 (2) Auto-Reload Count Operation Figure 18.3 shows the TCNT auto-rel

Seite 1519 - 30.2 Input/Output Pins

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 812 of 1658 REJ09B0261-0100 (3) TCNT Count Timing • Operating on internal clock Any of five in

Seite 1520 - Clock Pulse Generator (CPG)

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 813 of 1658 REJ09B0261-0100 18.4.2 Input Capture Function Channel 2 has an input capture functi

Seite 1521 - 30.3 Register Description

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 814 of 1658 REJ09B0261-0100 18.5 Interrupts There are seven TMU interrupt sources: underflow in

Seite 1522

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 815 of 1658 REJ09B0261-0100 18.6 Usage Notes 18.6.1 Register Writes When writing to a TMU regi

Seite 1523

18. Timer Unit (TMU) Rev.1.00 Jan. 10, 2008 Page 816 of 1658 REJ09B0261-0100

Seite 1524

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 817 of 1658 REJ09B0261-0100 Section 19 Display Unit (DU) 19.1 Features The display unit (DU)

Seite 1525

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 818 of 1658 REJ09B0261-0100 CRT Scan Mode (CRT Scan Method): Internal register settings can be

Seite 1526

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 819 of 1658 REJ09B0261-0100 Figure 19.1 shows a block diagram of the display unit (DU). Pin con

Seite 1527

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 55 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit New MOVT

Seite 1528

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 820 of 1658 REJ09B0261-0100 19.2 Input/Output Pins Table 19.1 shows the pin configuration of t

Seite 1529

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 821 of 1658 REJ09B0261-0100 Pin Name Number I/O Function Signal Name Used in This Section DG

Seite 1530

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 822 of 1658 REJ09B0261-0100 • Display mode register (DSMR) ⎯ VSPM bit (VSYNC pin mode) ⎯ OD

Seite 1531

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 823 of 1658 REJ09B0261-0100 Table 19.2 Register Configuration Register Name Abbr. R/W P4 Ad

Seite 1532

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 824 of 1658 REJ09B0261-0100 Register Name Abbr. R/W P4 Address Area 7 Address Size Synchrono

Seite 1533 - 30.4 Operation

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 825 of 1658 REJ09B0261-0100 Register Name Abbr. R/W P4 Address Area 7 Address Size Synchrono

Seite 1534

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 826 of 1658 REJ09B0261-0100 Register Name Abbr. R/W P4 Address Area 7 Address Size Synchrono

Seite 1535

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 827 of 1658 REJ09B0261-0100 Register Name Abbr. R/W P4 Address Area 7 Address Size Synchrono

Seite 1536

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 828 of 1658 REJ09B0261-0100 Register Name Abbr. R/W P4 Address Area 7 Address Size Synchrono

Seite 1537 - 30.5 Usage Notes

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 829 of 1658 REJ09B0261-0100 Register Name Abbr. R/W P4 Address Area 7 Address Size Synchrono

Seite 1538

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 56 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit New CMP/STR

Seite 1539 - Section 31 Register List

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 830 of 1658 REJ09B0261-0100 Table 19.3 Status of Registers in Each Processing Mode Register Na

Seite 1540 - 31. Register List

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 831 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1541

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 832 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1542

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 833 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1543

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 834 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1544

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 835 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1545

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 836 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1546

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 837 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1547

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 838 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1548

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 839 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1549

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 57 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit New MULU.W

Seite 1550

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 840 of 1658 REJ09B0261-0100 Register Name Abbr. Power-On Reset by PRESET Pin/ WDT/ H-UDI Manua

Seite 1551

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 841 of 1658 REJ09B0261-0100 19.3.1 Display Unit System Control Register The display unit syste

Seite 1552

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 842 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 16 IUPD

Seite 1553

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 843 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 9 DRES 1

Seite 1554

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 844 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 7, 6 TV

Seite 1555

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 845 of 1658 REJ09B0261-0100 19.3.2 Display Mode Register (DSMR) The display mode register (DSM

Seite 1556

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 846 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 24 CSPM

Seite 1557

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 847 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 14, 13

Seite 1558

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 848 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 7, 6 CS

Seite 1559

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 849 of 1658 REJ09B0261-0100 19.3.3 Display Status Register (DSSR) The display status register

Seite 1560

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 58 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit New XOR #im

Seite 1561

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 850 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 20 DFB5

Seite 1562

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 851 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 16 DFB1

Seite 1563

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 852 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 13, 12

Seite 1564

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 853 of 1658 REJ09B0261-0100 19.3.4 Display Unit Status Register Clear Register (DSRCR) The dis

Seite 1565

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 854 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 9 RICL

Seite 1566

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 855 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 31 to 16

Seite 1567

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 856 of 1658 REJ09B0261-0100 The following are conditions, based on DSSR and this register, for

Seite 1568

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 857 of 1658 REJ09B0261-0100 19.3.6 Color Palette Control Register (CPCR) The color palette con

Seite 1569

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 858 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 18 CP3C

Seite 1570

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 859 of 1658 REJ09B0261-0100 19.3.7 Display Plane Priority Register (DPPR) The display plane pr

Seite 1571

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 59 of 1658 REJ09B0261-0100 Table 3.8 Branch Instructions Instruction Operation Instruction Cod

Seite 1572

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 860 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 19 DPE5

Seite 1573

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 861 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 11 DPE3

Seite 1574

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 862 of 1658 REJ09B0261-0100 19.3.8 Display Unit Extensional Function Enable Register (DEFR) Th

Seite 1575

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 863 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 4 ABRE

Seite 1576

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 864 of 1658 REJ09B0261-0100 19.3.9 Horizontal Display Start Register (HDSR) The horizontal dis

Seite 1577

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 865 of 1658 REJ09B0261-0100 19.3.10 Horizontal Display End Register (HDER) The horizontal disp

Seite 1578

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 866 of 1658 REJ09B0261-0100 19.3.11 Vertical Display Start Register (VDSR) The vertical displa

Seite 1579

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 867 of 1658 REJ09B0261-0100 19.3.12 Vertical Display End Register (VDER) The vertical display

Seite 1580

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 868 of 1658 REJ09B0261-0100 19.3.13 Horizontal Cycle Register (HCR) The horizontal cycle regis

Seite 1581

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 869 of 1658 REJ09B0261-0100 19.3.14 Horizontal Sync Width Register (HSWR) The horizontal sync

Seite 1582

Rev.1.00 Jan. 10, 2008 Page ix of xxx REJ09B0261-0100 Contents Section 1 Overview...

Seite 1583

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 60 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit New LDC Rm,

Seite 1584

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 870 of 1658 REJ09B0261-0100 19.3.15 Vertical Cycle Register (VCR) The vertical cycle register

Seite 1585

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 871 of 1658 REJ09B0261-0100 19.3.16 Vertical Sync Point Register (VSPR) The vertical sync poin

Seite 1586

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 872 of 1658 REJ09B0261-0100 19.3.17 Equal Pulse Width Register (EQWR) The equal pulse width re

Seite 1587

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 873 of 1658 REJ09B0261-0100 19.3.18 Separation Width Register (SPWR) The separation width regi

Seite 1588

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 874 of 1658 REJ09B0261-0100 19.3.19 CLAMP Signal Start Register (CLAMPSR) The CLAMP signal sta

Seite 1589

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 875 of 1658 REJ09B0261-0100 19.3.20 CLAMP Signal Width Register (CLAMPWR) The CLAMP signal wid

Seite 1590

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 876 of 1658 REJ09B0261-0100 19.3.21 DE Signal Start Register (DESR) The DE signal start regist

Seite 1591

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 877 of 1658 REJ09B0261-0100 19.3.22 DE Signal Width Register (DEWR) The DE signal width regist

Seite 1592 - 32.2 DC Characteristics

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 878 of 1658 REJ09B0261-0100 19.3.23 Color Palette 1 Transparent Color Register (CP1TR) The col

Seite 1593

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 879 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 12 CP1I

Seite 1594

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 61 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit New SETS

Seite 1595

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 880 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 5 CP1I5

Seite 1596

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 881 of 1658 REJ09B0261-0100 19.3.24 Color Palette 2 Transparent Color Register (CP2TR) The col

Seite 1597 - 32.3 AC Characteristics

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 882 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 12 CP2I

Seite 1598

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 883 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 5 CP2I5

Seite 1599

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 884 of 1658 REJ09B0261-0100 19.3.25 Color Palette 3 Transparent Color Register (CP3TR) The col

Seite 1600

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 885 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 12 CP3I

Seite 1601

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 886 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 5 CP3I5

Seite 1602

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 887 of 1658 REJ09B0261-0100 19.3.26 Color Palette 4 Transparent Color Register (CP4TR) The col

Seite 1603

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 888 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 12 CP4I

Seite 1604

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 889 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 5 CP4I5

Seite 1605

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 62 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit New SYNCO

Seite 1606

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 890 of 1658 REJ09B0261-0100 19.3.27 Display Off Mode Output Register (DOOR) The display off mo

Seite 1607

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 891 of 1658 REJ09B0261-0100 19.3.28 Color Detection Register (CDER) The color detection regist

Seite 1608

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 892 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 1, 0 ⎯

Seite 1609

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 893 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description 9, 8 ⎯ A

Seite 1610

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 894 of 1658 REJ09B0261-0100 19.3.30 Raster Interrupt Offset Register (RINTOFSR) The raster int

Seite 1611

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 895 of 1658 REJ09B0261-0100 19.3.31 Plane n Mode Register (PnMR) (n = 1 to 6) The plane n mode

Seite 1612

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 896 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 14 to 12

Seite 1613

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 897 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 9, 8 Pn

Seite 1614

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 898 of 1658 REJ09B0261-0100 19.3.32 Plane n Memory Width Register (PnMWR) (n = 1 to 6) The pla

Seite 1615

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 899 of 1658 REJ09B0261-0100 19.3.33 Plane n Blending Ratio Register (PnALPHAR) (n = 1 to 6) Th

Seite 1616

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 63 of 1658 REJ09B0261-0100 Instruction Operation Instruction Code Privileged T Bit NewFADD

Seite 1617

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 900 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description Plane n B

Seite 1618

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 901 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description 7 to 0 Pn

Seite 1619

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 902 of 1658 REJ09B0261-0100 19.3.35 Plane n Display Size Y Register (PnDSYR) (n = 1 to 6) The

Seite 1620

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 903 of 1658 REJ09B0261-0100 19.3.36 Plane n Display Position X Register (PnDPXR) (n = 1 to 6)

Seite 1621 - CSnWCR.WTH = 001)

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 904 of 1658 REJ09B0261-0100 19.3.37 Plane n Display Position Y Register (PnDPYR) (n = 1 to 6)

Seite 1622

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 905 of 1658 REJ09B0261-0100 19.3.38 Plane n Display Area Start Address 0 Register (PnDSA0R) (n

Seite 1623 - MCK0, MCK1

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 906 of 1658 REJ09B0261-0100 19.3.39 Plane n Display Area Start Address 1 Register (PnDSA1R) (n

Seite 1624

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 907 of 1658 REJ09B0261-0100 19.3.40 Plane n Start Position X Register (PnSPXR) (n = 1 to 6) Th

Seite 1625

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 908 of 1658 REJ09B0261-0100 19.3.41 Plane n Start Position Y Register (PnSPYR) (n = 1 to 6) Th

Seite 1626

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 909 of 1658 REJ09B0261-0100 19.3.42 Plane n Wrap Around Start Position Register (PnWASPR) (n =

Seite 1627

3. Instruction Set Rev.1.00 Jan. 10, 2008 Page 64 of 1658 REJ09B0261-0100 Table 3.12 Floating-Point Control Instructions Instruction Operation

Seite 1628 - Figure 32.36 IRQOUT Timing

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 910 of 1658 REJ09B0261-0100 19.3.43 Plane n Wrap Around Memory Width Register (PnWAMWR) (n = 1

Seite 1629

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 911 of 1658 REJ09B0261-0100 19.3.44 Plane n Blinking Time Register (PnBTR) (n = 1 to 6) The pl

Seite 1630

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 912 of 1658 REJ09B0261-0100 19.3.45 Plane n Transparent Color 1 Register (PnTC1R) (n = 1 to 6)

Seite 1631

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 913 of 1658 REJ09B0261-0100 19.3.46 Plane n Transparent Color 2 Register (PnTC2R) (n = 1 to 6)

Seite 1632

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 914 of 1658 REJ09B0261-0100 19.3.47 Plane n Memory Length Register (PnMLR) (n = 1 to 6) The pl

Seite 1633

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 915 of 1658 REJ09B0261-0100 19.3.48 Color Palette 1 Register 000 to 255 (CP1_000R to CP1_255R)

Seite 1634

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 916 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 9, 8 ⎯

Seite 1635

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 917 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 31 to 24

Seite 1636

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 918 of 1658 REJ09B0261-0100 19.3.50 Color Palette 3 Register 000 to 255 (CP3_000R to CP3_255R)

Seite 1637 - 32.3.11 GPIO Signal Timing

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 919 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 9, 8 ⎯

Seite 1638

4. Pipelining Rev.1.00 Jan. 10, 2008 Page 65 of 1658 REJ09B0261-0100 Section 4 Pipelining This LSI is a 2-ILP (instruction-level-parallelism) s

Seite 1639

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 920 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 31 to 24

Seite 1640

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 921 of 1658 REJ09B0261-0100 19.3.52 External Synchronization Control Register (ESCR) The exte

Seite 1641

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 922 of 1658 REJ09B0261-0100 Bit Bit Name Initial Value R/W Internal Update Description 4 to 0

Seite 1642

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 923 of 1658 REJ09B0261-0100 19.3.53 Output Signal Timing Adjustment Register (OTAR) The outpu

Seite 1643

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 924 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description 30 to 28

Seite 1644

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 925 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description 26 to 24

Seite 1645

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 926 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description 22 to 20

Seite 1646

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 927 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description 10 to 8

Seite 1647

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 928 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description 6 to 4 D

Seite 1648

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 929 of 1658 REJ09B0261-0100 Bit Bit NameInitial Value R/W Internal Update Description 2 to 0 S

Seite 1649

4. Pipelining Rev.1.00 Jan. 10, 2008 Page 66 of 1658 REJ09B0261-0100 Figure 4.2 shows the instruction execution patterns. Representations in figu

Seite 1650

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 930 of 1658 REJ09B0261-0100 19.4 Operation 19.4.1 Configuration of Output Screen The display

Seite 1651

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 931 of 1658 REJ09B0261-0100 Table 19.4 Display Functions of Planes Display Data Format Displa

Seite 1652

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 932 of 1658 REJ09B0261-0100 Frame buffer 2A double-buffer function is used to switch the frame

Seite 1653

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 933 of 1658 REJ09B0261-0100 19.4.2 Display On/Off All plane display can be turned on and off u

Seite 1654

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 934 of 1658 REJ09B0261-0100 19.4.3 Plane Parameter For each plane, a display area start positi

Seite 1655

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 935 of 1658 REJ09B0261-0100 Table 19.6 Memory Parameter/ Monitor Parameter Setting Registers N

Seite 1656

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 936 of 1658 REJ09B0261-0100 19.4.4 Memory Allocation A display start address for the display s

Seite 1657 - Appendix

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 937 of 1658 REJ09B0261-0100 19.4.5 Input Display Data Format The following format is used for

Seite 1658 - B. Mode Pin Settings

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 938 of 1658 REJ09B0261-0100 • 16 bit/pixel: ARGB The ARGB levels are represented using A:1, R:

Seite 1659 - Table B.5 Clock Input

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 939 of 1658 REJ09B0261-0100 • UYVY format A+3 A+2 A+1 A A A+1 A+2 A+3 31 23 15 7

Seite 1660 - Table B.9 Mode Control

4. Pipelining Rev.1.00 Jan. 10, 2008 Page 67 of 1658 REJ09B0261-0100 I1 I2 I3(I1) (ID)ID E1/S1 E2/s2 E3/s3 WBI3I3I3(I2)(I3)I1 I2 ID E1/S1 E2/S2 E

Seite 1661 - C. Pin Functions

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 940 of 1658 REJ09B0261-0100 19.4.6 Output Data Format When outputting digital RGB data from th

Seite 1662

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 941 of 1658 REJ09B0261-0100 Endian conversion in each of the units indicated below is shown in

Seite 1663

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 942 of 1658 REJ09B0261-0100 19.4.8 Color Palettes 8 bits/pixel data employs color palettes. Fo

Seite 1664

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 943 of 1658 REJ09B0261-0100 19.4.9 Superpositioning of Planes For each plane, three types of c

Seite 1665

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 944 of 1658 REJ09B0261-0100 Table 19.11 RGB888 Bit Configuration in Each Display Data Format D

Seite 1666

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 945 of 1658 REJ09B0261-0100 When the PnDDF bit in PnMR is set to ARGB, and moreover the PnSPIM

Seite 1667

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 946 of 1658 REJ09B0261-0100 Table 19.12 Transparent Color Specification Registers Data Format

Seite 1668

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 947 of 1658 REJ09B0261-0100 19.4.10 Display Contention Color Palette Contention: When performi

Seite 1669

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 948 of 1658 REJ09B0261-0100 P1 P1 P2 P3ΔΔΔX XP2 ΔΔX ΔXP3 Δ X ΔΔXP1P1P1P1P2P2P3BPORP1P1P1αP3P1

Seite 1670

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 949 of 1658 REJ09B0261-0100 Plane Priority Order: The display priority order for planes is set

Seite 1671

4. Pipelining Rev.1.00 Jan. 10, 2008 Page 68 of 1658 REJ09B0261-0100 I3I3I3I1 I2 IDs1 s2 s3WBI1 I2 IDWBI1 I2 ID E1/S1 E2/s2 E3/s3E1/s1 E2/s2 E3/S

Seite 1672 - C.2 Handling of Unused Pins

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 950 of 1658 REJ09B0261-0100 19.4.12 Scroll Display By setting display area and display screen

Seite 1673

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 951 of 1658 REJ09B0261-0100 19.4.13 Wraparound Display In addition to display scrolling, wrap-

Seite 1674

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 952 of 1658 REJ09B0261-0100 19.4.14 Upper-Left Overflow Display For each plane, a display star

Seite 1675

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 953 of 1658 REJ09B0261-0100 19.4.15 Double Buffer Control The double buffer control of the dis

Seite 1676

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 954 of 1658 REJ09B0261-0100 19.4.16 Sync Mode In order to facilitate synchronization with exte

Seite 1677

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 955 of 1658 REJ09B0261-0100 TV (sync signal generation circuit): MasterClockHSYNC VSYNCR,G,BTh

Seite 1678

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 956 of 1658 REJ09B0261-0100 19.5 Display Control 19.5.1 Display Timing Generation In the disp

Seite 1679

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 957 of 1658 REJ09B0261-0100 Table 19.13 Variables Defined in Display Screen Variables Contents

Seite 1680

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 958 of 1658 REJ09B0261-0100 Table 19.14 Correspondence Table of Settings of Display Timing Gen

Seite 1681

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 959 of 1658 REJ09B0261-0100 19.5.2 CSYNC When in master mode, a CSYNC (composite sync) signal

Seite 1682

4. Pipelining Rev.1.00 Jan. 10, 2008 Page 69 of 1658 REJ09B0261-0100 I1 I2 I3 ID S1 S2 S3 WBI3I3I3I3I1 I2 ID S1 S2 S3WBI1 I2 ID S1 S2 S3WBE2S2 E3

Seite 1683

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 960 of 1658 REJ09B0261-0100 VSYNC CSYNC (CSY = 00) EQW (CSY = 10) (CSY = 11) 1/2HC 1/2HC SPWHSW

Seite 1684

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 961 of 1658 REJ09B0261-0100 19.5.3 Scan Method The scan method can be selected from among non

Seite 1685

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 962 of 1658 REJ09B0261-0100 Raster scanned in an odd fieldRaster scanned in an even fie

Seite 1686

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 963 of 1658 REJ09B0261-0100 • Example of vertical scan period Non-interlaced mode: 1/60 seco

Seite 1687 - −20 to 85°C 436-pin BGA

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 964 of 1658 REJ09B0261-0100 • Display in interlaced method At every scan period VC of the inpu

Seite 1688

19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 965 of 1658 REJ09B0261-0100 19.5.4 Color Detection When output display data matches a color se

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19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 966 of 1658 REJ09B0261-0100 19.5.5 Output Signal Timing Adjustment The display unit (DU) enabl

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19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 967 of 1658 REJ09B0261-0100 19.5.6 CLAMP Signal and DE Signal The display unit (DU) generates

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19. Display Unit (DU) Rev.1.00 Jan. 10, 2008 Page 968 of 1658 REJ09B0261-0100 19.6 Power-Down Sequence When executing the power-down sequence by

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20. Graphics Data Translation Accelerator (GDTA) Rev.1.00 Jan. 10, 2008 Page 969 of 1658 REJ09B0261-0100 Section 20 Graphics Data Translation A

Renesas SH7781 Bedienungsanleitung

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Renesas SH7781 Bedienungsanleitung

Stöbern Sie online oder laden Sie Bedienungsanleitung nach Hardware Renesas SH7781 herunter. Renesas SH7781 User Manual Benutzerhandbuch

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