M16C6NK Datasheet, PDF(217/404 Page) Renesas Technology Corp – 16-BIT SINGLE-CHIP MICROCOMPUTER M16C FAMILY / M16C/60 SERIES

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M16C6NK Datasheet, PDF (217/404 Pages) Renesas Technology Corp – 16-BIT SINGLE-CHIP MICROCOMPUTER M16C FAMILY / M16C/60 SERIES

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Under development

This document is under development and its contents are subject to change.

M16C/6N Group (M16C/6NK, M16C/6NM)

15. Serial Interface

Table 15.19 SI/Oi Specifications

Item

Specification

Transfer Data Format Transfer data length: 8 bits

Transfer clock

â¢ SMi6 bit in SiC register = 1 (internal clock) : fj/2(n+1)

fj = f1SIO, f8SIO, f32SIO. n = Setting value of SiBRG register 00h to FFh

â¢ SMi6 bit = 0 (external clock) : Input from CLKi pin (1)

Transmission/Reception Before transmission/reception can start, the following requirements must be met

Start Condition

Write transmit data to the SiTRR register (2) (3)

Interrupt Request

Generation Timing

â¢ When SMi4 bit in SiC register = 0

The rising edge of the last transfer clock pulse (4)

CLKi Pin Function

SOUTi Pin Function

SINi Pin Function

â¢ When SMi4 bit = 1

The falling edge of the last transfer clock pulse (4)

I/O port, transfer clock input, transfer clock output

I/O port, transmit data output, high-impedance

I/O port, receive data input

Select Function

â¢ LSB first or MSB first selection

Whether to start sending/receiving data beginning with bit 0 or beginning

with bit 7 can be selected

â¢ Function for setting an SOUTi initial value set function

When the SMi6 bit in the SiC register = 0 (external clock), the SOUTi pin

output level while not transmitting can be selected.

â¢ CLK polarity selection

Whether transmit data is output/input timing at the rising edge or falling

edge of transfer clock can be selected.

i = 3 to 6 (5 and 6 are only in the 128-pin version.)

NOTES:

1. To set the SMi6 bit in the SiC register to â0â (external clock), follow the procedure described below.

â¢ If the SMi4 bit in the SiC register = 0, write transmit data to the SiTRR register while input on the

CLKi pin is high. The same applies when rewriting the SMi7 bit in the SiC register.

â¢ If the SMi4 bit = 1, write transmit data to the SiTRR register while input on the CLKi pin is low. The

same applies when rewriting the SMi7 bit.

â¢ Because shift operation continues as long as the transfer clock is supplied to the SI/Oi circuit, stop

the transfer clock after supplying eight pulses. If the SMi6 bit = 1 (internal clock), the transfer clock

automatically stops.

2. Unlike UART0 to UART2, SI/Oi is not separated between the transfer register and buffer. Therefore,

do not write the next transmit data to the SiTRR register during transmission.

3. When the SMi6 bit = 1 (internal clock), SOUTi retains the last data for a 1/2 transfer clock period after

completion of transfer and, thereafter, goes to a high-impedance state. However, if transmit data is

written to the SiTRR register during this period, SOUTi immediately goes to a high-impedance state,

with the data hold time thereby reduced.

4. When the SMi6 bit = 1 (internal clock), the transfer clock stops in the high state if the SMi4 bit = 0, or

stops in the low state if the SMi4 bit = 1.

Rev.2.00 Nov 28, 2005 page 199 of 378

REJ09B0124-0200

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