CHAPTER 11 SERIAL INTERFACE 20
202
User’s Manual U15331EJ4V1UD
(d) Baud rate generator control register 20 (BRGC20)
BRGC20 is set with an 8-bit memory manipulation instruction.
RESET input sets BRGC20 to 00H.
TPS203
0
0
0
0
0
0
0
0
1
TPS202
0
0
0
0
1
1
1
1
0
f
X
/2
f
X
/2
2
f
X
/2
3
f
X
/2
4
f
X
/2
5
f
X
/2
6
f
X
/2
7
f
X
/2
8
(2.5 MHz)
(1.25 MHz)
(625 kHz)
(313 kHz)
(156 kHz)
(78.1 kHz)
(39.1 kHz)
(19.5 kHz)
TPS201
0
0
1
1
0
0
1
1
0
TPS200
0
1
0
1
0
1
0
1
0
n
1
2
3
4
5
6
7
8
−
Setting prohibited
Selection of baud rate generator source clock
External clock input to ASCK20 pin
Note
Other than above
TPS203
TPS202
TPS201
TPS200
0
0
0
0
BRGC20
7
6
5
4
Symbol
Address
After reset
R/W
FF73H
00H
R/W
3
2
1
0
Note
Can only be used in the UART mode.
Cautions 1. When writing to BRGC20 during a communication operation, the output of the baud
rate generator is disrupted and communications cannot be performed normally. Be
sure not to write to BRGC20 during a communication operation.
2. Be sure not to select n = 1 during operation at f
X
> 2.5 MHz because the resulting
baud rate exceeds the rated range.
3. When the external input clock is selected, set input mode by setting bit 0 of port
mode register 2 (PM2) to 1.
Remarks 1.
f
X
: Main system clock oscillation frequency
2.
n: Values determined by the settings of TPS200 to TPS203 (1
≤
n
≤
8)
3.
The parenthesized values apply to operation at f
X
= 5.0 MHz.
The baud rate transmit/receive clock to be generated is either a divided system clock signal, or a signal
obtained by dividing the clock input to the ASCK20 pin.
(i) Generation of baud rate transmit/receive clock from system clock
The transmit/receive clock is generated by dividing the system clock. The baud rate of a clock
generated from the system clock is estimated by using the following expression.
[Baud rate] = [bps]
f
X
: Main system clock oscillation frequency
n: Values in the above table determined by the settings of TPS200 to TPS203 (2
≤
n
≤
8)
f
X
2
n + 1
×
8
Содержание PD789488
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