Renesas M16C/6NK Technical Information PDF herunterladen (Seite 381)

Rev.2.10 Apr 14, 2006 page 357 of 378

REJ09B0124-0210

M16C/6N Group (M16C/6NK, M16C/6NM) 23. Usage Notes

23.12 Serial Interface

23.12.1 Clock Synchronous Serial I/O Mode

23.12.1.1 Transmission/reception

_______ ________

With an external clock selected, and choosing the RTS function, the output level of the RTSi pin goes to

“L” when the data-receivable status becomes ready, which informs the transmission side that the reception

________ ________

has become ready. The output level of the RTSi pin goes to “H” when reception starts. So if the RTSi pin

________

is connected to the CTSi pin on the transmission side, the circuit can transmission and reception data

_______

with consistent timing. With the internal clock, the RTS function has no effect.

_______

If a low-level signal is applied to the NMI pin when the IVPCR1 bit in the TB2SC register = 1 (three-phase

_______ _________

output forcible cutoff by input on NMI pin enabled), pins RTS2 and CLK2 go to a high-impedance state.

23.12.1.2 Transmission

When an external clock is selected, the conditions must be met while if the CKPOL bit in the UiC0

transfer clock), the external clock is in the high state; if the CKPOL bit = 1 (transmit data output at the

rising edge and the receive data taken in at the falling edge of the transfer clock), the external clock is in

the low state.

• The TE bit in the UiC1 register = 1 (transmission enabled)

• The TI bit in the UiC1 register = 0 (data present in UiTB register)

_______ ________

• If CTS function is selected, input on the CTSi pin = L

23.12.1.3 Reception

In operating the clock synchronous serial I/O, operating a transmitter generates a shift clock. Fix settings

for transmission even when using the device only for reception. Dummy data is output to the outside

from the TXDi (i = 0 to 2) pin when receiving data.

When an internal clock is selected, set the TE bit in the UiC1 register (i = 0 to 2) to 1 (transmission

enabled) and write dummy data to the UiTB register, and the shift clock will thereby be generated. When

an external clock is selected, set the TE bit to 1 and write dummy data to the UiTB register, and the shift

clock will be generated when the external clock is fed to the CLKi input pin.

When successively receiving data, if all bits of the next receive data are prepared in the UARTi receive

occurs and the OER bit in the UiRB register is set to 1 (overrun error occurred). In this case, because the

content of the UiRB register is undefined, a corrective measure must be taken by programs on the

transmit and receive sides so that the valid data before the overrun error occurred will be retransmitted.

Note that when an overrun error occurred, the IR bit in the SiRIC register does not change state.

To receive data in succession, set dummy data in the lower-order byte of the UiTB register every time

reception is made.

When an external clock is selected, the conditions must be met while if the CKPOL bit = 0, the external

clock is in the high state; if the CKPOL bit = 1, the external clock is in the low state.

• The RE bit in the UiC1 register = 1 (reception enabled)

• The TE bit in the UiC1 register = 1 (transmission enabled)

• The TI bit in the UiC1 register = 0 (data present in the UiTB register)

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