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M3727GM6 Datasheet, PDF (36/129 Pages) Renesas Technology Corp – SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER and ON-SCREEN DISPLAY CONTROLLER | |||
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M3727GM6/M8âXXXSP/FP M37272E8SP/FP
8.6.6 START Condition Generation Method
When the ESO bit of the I2C control register (address 00F916) is â1,â
execute a write instruction to the I2C status register (address 00F816)
to set the MST, TRX and BB bits to â1.â A START condition will then
be generated. After that, the bit counter becomes â0002â and an SCL
for 1 byte is output. The START condition generation timing and BB
bit set timing are different in the standard clock mode and the high-
speed clock mode. Refer to Figure 8.6.9 for the START condition
generation timing diagram, and Table 8.6.2 for the START condition/
STOP condition generation timing table.
I2C status register
write signal
SCL
SDA
BB flag
Setup
time
Hold time
Set time
for BB flag
Fig. 8.6.9 START Condition Generation Timing Diagram
8.6.7 STOP Condition Generation Method
When the ESO bit of the I2C control register (address 00F916) is â1,â
execute a write instruction to the I2C status register (address 00F816)
for setting the MST bit and the TRX bit to â1â and the BB bit to â0â. A
STOP condition will then be generated. The STOP condition genera-
tion timing and the BB flag reset timing are different in the standard
clock mode and the high-speed clock mode. Refer to Figure 8.6.10
for the STOP condition generation timing diagram, and Table 8.6.2
for the START condition/STOP condition generation timing table.
I2C status register
write signal
SCL
SDA
BB flag
Setup
time
Hold time
Reset time
for BB flag
Fig. 8.6.10 STOP Condition Generation Timing Diagram
Table 8.6.2 START Condition/STOP Condition Generation Tim-
ing Table
Item
Standard Clock Mode
Setup time
5.0 µs (20 cycles)
(START condition)
Setup time
4.25 µs (17 cycles)
(STOP condition)
Hold time
5.0 µs (20 cycles)
Set/reset time
for BB flag
3.0 µs (12 cycles)
High-speed Clock Mode
2.5 µs (10 cycles)
1.75 µs (7 cycles)
2.5 µs (10 cycles)
1.5 µs (6 cycles)
Note: Absolute time at Ï = 4 MHz. The value in parentheses denotes the
number of Ï cycles.
Rev.1.00 Apr 01, 2001 page 36 of 127
REJ03B0132-0100Z
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