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參數(shù)資料

型號(hào)：	S1C63406F
元件分類：	微控制器/微處理器
英文描述：	4-BIT, MROM, 4.2 MHz, MICROCONTROLLER, PQFP128
封裝：	PLASTIC, TQFP15-128
文件頁數(shù)：	19/144頁
文件大?。?/td>	1160K
代理商：	S1C63406F

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S1C63406 TECHNICAL MANUAL

EPSON

107

CHAPTER 5: SUMMARY OF NOTES

(2) The programmable timer actually enters RUN/STOP status in synchronization with the falling edge of

the input clock after writing to the PTRUN0/PTRUN1 register. Consequently, when "0" is written to the

PTRUN0/PTRUN1 register, the timer enters STOP status at the point where the counter is decremented

(-1). The PTRUN0/PTRUN1 register maintains "1" for reading until the timer actually stops.

Figure 5.2.1 shows the timing chart for the RUN/STOP control.

PTRUN0/PTRUN1 (WR)

PTD0X/PTD1X

42H

41H 40H 3FH 3EH

3DH

PTRUN0/PTRUN1 (RD)

Input clock

"1" (RUN)

writing

"0" (STOP)

writing

Fig. 5.2.1 Timing chart for RUN/STOP control

(3) Since the TOUT signal is generated asynchronously from the PTOUT register, a hazard within 1/2

cycle is generated when the signal is turned ON and OFF by setting the register.

(4) When the OSC3 oscillation clock is selected for the clock source, it is necessary to turn the OSC3

oscillation ON, prior to using the programmable timer. However the OSC3 oscillation circuit requires

a time at least 5 msec from turning the circuit ON until the oscillation stabilizes. Therefore, allow an

adequate interval from turning the OSC3 oscillation circuit ON to starting the programmable timer.

Refer to Section 4.3, "Oscillation Circuit", for the control and notes of the OSC3 oscillation circuit.

At initial reset, the OSC3 oscillation circuit is set in the OFF state.

(5) For the reason below, pay attention to the reload data write timing when changing the interval of the

programmable timer interrupts while the programmable timer is running.

The programmable timer counts down at the falling edge of the input clock and at the same time it

generates an interrupt if the counter underflows. Then it starts loading the reload data to the counter

and the counter data is determined at the next rising edge of the input clock (period shown in as in

the figure).

Input clock

Counter data

(continuous mode)

(Reload data = 25H)

03H

02H

01H

00H

25H

24H

Counter data is determined by reloading.

Underflow (interrupt is generated)

Fig. 5.2.2 Reload timing for programmable timer

To avoid improper reloading, do not rewrite the reload data after an interrupt occurs until the counter

data is determined including the reloading period . Be especially careful when using the OSC1 (low-

speed clock) as the clock source of the programmable timer and the CPU is operating with OSC3

(high-speed clock).

Serial interface

(1) Be sure to initialize the serial interface mode in the transmit/receive disabled status (TXEN = RXEN =

"0").

(2) Do not perform double trigger (writing "1") to TXTRG (RXTRG) when the serial interface is in the

transmitting (receiving) operation.

(3)

_________

In the clock synchronous mode, since one clock line (SCLK) is shared for both transmitting and

receiving, transmitting and receiving cannot be performed simultaneously. (Half duplex only is

possible in clock synchronous mode.)

Consequently, be sure not to write "1" to RXTRG (TXTRG) when TXTRG (RXTRG) is "1".

(4) When a parity error or flaming error is generated during receiving in the asynchronous mode, the

receiving error interrupt factor flag ISER is set to "1" prior to the receive completion interrupt factor

flag ISRC for the time indicated in Table 5.2.1. Consequently, when an error is generated, you should

reset the receiving complete interrupt factor flag ISRC to "0" by providing a wait time in error process-

ing routines and similar routines.

When an overrun error is generated, the receiving complete interrupt factor flag ISRC is not set to "1"

and a receiving complete interrupt is not generated.

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