M37160M8 Datasheet, PDF(84/131 Page) Renesas Technology Corp – SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER

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M37160M8 Datasheet, PDF (84/131 Pages) Renesas Technology Corp – SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER

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M37160M8/MA/MF-XXXSP/FP,M37160EFSP/FP

8.12 RESET CIRCUIT

When the oscillation of a quartz-crystal oscillator or a ceramic reso-

nator is stable and the power source voltage is 5 V Â± 10 %, hold the

RESET pin at LOW for 2 Âµs or more, then return to HIGH. Then, as

shown in Figure 8.12.2, reset is released and the program starts from

the address formed by using the content of address FFFF16 as the

high-order address and the content of the address FFFE16 as the

low-order address. The internal states of the microcomputer at reset

are shown in Figures 8.2.2 to 8.2.5.

An example of the reset circuit is shown in Figure 8.12.1.

The reset input voltage must be kept 0.9 V or less until the power

source voltage surpasses 4.5 V.

Power on

Power source voltage 0 V

4.5 V

Reset input voltage 0 V

0.9 V

1

5

M51953AL

4

3

0.1 ÂµF

Vcc

RESET

Vss

Microcomputer

Fig.8.12.1 Example of Reset Circuit

XIN

Ï

RESET

Internal RESET

SYNC

Address

Data

?

?

01, S 01, S-1 01, S-2 FFFE FFFF

ADH,

ADL

?

?

?

?

? ADL ADH

Reset address from the vector table

32768 count of XIN

clock cycle (See note 3)

Notes 1 : f(XIN) and f(Ï) are in the relation : f(XIN) = 2Â·f (Ï).

2 : A question mark (?) indicates an undefined state that

depends on the previous state.

3 : Immediately after a reset, timer 3 and timer 4 are

connected by hardware. At this time, âFF16â is set

in timer 3 and â0716â is set to timer 4. Timer 3 counts down

with f(XIN)/16, and reset state is released by the timer 4

overflow signal.

Fig.8.12.2 Reset Sequence

Rev.1.01 2003.11.13 page 84 of 130

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