M37280MF Datasheet, PDF(26/178 Page) Mitsubishi Electric Semiconductor – SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER and ON-SCREEN DISPLAY CONTROLLER　　　　

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M37280MF Datasheet, PDF (26/178 Pages) Mitsubishi Electric Semiconductor – SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER and ON-SCREEN DISPLAY CONTROLLER　　　　

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MITSUBISHI MICROCOMPUTERS

M37280MFâXXXSP, M37280MKâXXXSP

M37280EKSP

SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER

and ON-SCREEN DISPLAY CONTROLLER

12.4 TIMERS

This microcomputer has 6 timers: timer 1, timer 2, timer 3, timer 4,

timer 5, and timer 6. All timers are 8-bit timers with the 8-bit timer

latch. The timer block diagram is shown in Figure 12.4.3.

All of the timers count down and their divide ratio is 1/(n+1), where n

is the value of timer latch. By writing a count value to the correspond-

ing timer latch (addresses 00F016 to 00F316 : timers 1 to 4, addresses

021A16 and 021B16 : timers 5 and 6), the value is also set to a timer,

simultaneously.

The count value is decremented by 1. The timer interrupt request bit

is set to â1â by a timer overflow at the next count pulse, after the

count value reaches â0016â.

12.4.1 Timer 1

Timer 1 can select one of the following count sources:

â¢ f(XIN)/16 or f(XCIN)/16

â¢ f(XIN)/4096 or f(XCIN)/4096

â¢ External clock from the P42/TIM2 pin

The count source of timer 1 is selected by setting bits 5 and 0 of

timer mode register 1 (address 00F416). Either f(XIN) or f(XCIN) is

selected by bit 7 of the CPU mode register.

Timer 1 interrupt request occurs at timer 1 overflow.

12.4.2 Timer 2

Timer 2 can select one of the following count sources:

â¢ f(XIN)/16 or f(XCIN)/16

â¢ Timer 1 overflow signal

â¢ External clock from the TIM2 pin

The count source of timer 2 is selected by setting bits 4 and 1 of

timer mode register 1 (address 00F416). Either f(XIN) or f(XCIN) is

selected by bit 7 of the CPU mode register. When timer 1 overflow

signal is a count source for the timer 2, the timer 1 functions as an 8-

bit prescaler.

Timer 2 interrupt request occurs at timer 2 overflow.

12.4.3 Timer 3

Timer 3 can select one of the following count sources:

â¢ f(XIN)/16 or f(XCIN)/16

â¢ f(XCIN)

â¢ External clock from the TIM3 pin

The count source of timer 3 is selected by setting bit 0 of timer mode

register 2 (address 00F516) and bit 6 at address 00C716. Either f(XIN)

or f(XCIN) is selected by bit 7 of the CPU mode register.

Timer 3 interrupt request occurs at timer 3 overflow.

12.4.4 Timer 4

Timer 4 can select one of the following count sources:

â¢ f(XIN)/16 or f(XCIN)/16

â¢ f(XIN)/2 or f(XCIN)/2

â¢ f(XCIN)

The count source of timer 3 is selected by setting bits 1 and 4 of

timer mode register 2 (address 00F516). Either f(XIN) or f(XCIN) is

selected by bit 7 of the CPU mode register. When timer 3 overflow

signal is a count source for the timer 4, the timer 3 functions as an 8-

bit prescaler.

Timer 4 interrupt request occurs at timer 4 overflow.

12.4.5 Timer 5

Timer 5 can select one of the following count sources:

â¢ f(XIN)/16 or f(XCIN)/16

â¢ Timer 2 overflow signal

â¢ Timer 4 overflow signal

The count source of timer 3 is selected by setting bit 6 of timer mode

register 1 (address 00F416) and bit 7 of timer mode register 2 (ad-

dress 00F516). When overflow of timer 2 or 4 is a count source for

timer 5, either timer 2 or 4 functions as an 8-bit prescaler. Either

f(XIN) or f(XCIN) is selected by bit 7 of the CPU mode register.

Timer 5 interrupt request occurs at timer 5 overflow.

12.4.6 Timer 6

Timer 6 can select one of the following count sources:

â¢ f(XIN)/16 or f(XCIN)/16

â¢ Timer 5 overflow signal

The count source of timer 6 is selected by setting bit 7 of timer mode

register 1 (address 00F416). Either f(XIN) or f(XCIN) is selected by bit

7 of the CPU mode register. When timer 5 overflow signal is a count

source for timer 6, timer 5 functions as an 8-bit prescaler.

Timer 6 interrupt request occurs at timer 6 overflow.

At reset, timers 3 and 4 are connected by hardware and âFF16â is

automatically set in timer 3; â0716â in timer 4. The f(XIN)V /16 is se-

lected as the timer 3 count source. The internal reset is released by

timer 4 overflow in this state and the internal clock is connected.

At execution of the STP instruction, timers 3 and 4 are connected by

hardware and âFF16â is automatically set in timer 3; â0716â in timer 4.

However, the f(XIN)V /16 is not selected as the timer 3 count source.

So set both bit 0 of timer mode register 2 (address 00F516) and bit 6

at address 00C716 to â0â before execution of the STP instruction

(f(XIN)V /16 is selected as the timer 3 count source). The internal

STP state is released by timer 4 overflow in this state and the inter-

nal clock is connected.

As a result of the above procedure, the program can start under a

stable clock.

V : When bit 7 of the CPU mode register (CM7) is â1,â f(XIN) becomes

f(XCIN).

The structure of timer-related registers is shown in Figures 12.4.1

and 12.4.2.

Rev. 1.0

26

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