X5643 Datasheet, PDF(3/19 Page) Intersil Corporation – CPU Supervisor with 64Kbit SPI EEPROM

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X5643 Datasheet, PDF (3/19 Pages) Intersil Corporation – CPU Supervisor with 64Kbit SPI EEPROM

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X5643, X5645

PRINCIPLES OF OPERATION

Power-on Reset

Application of power to the X5643/X5645 activates a

power-on reset circuit. This circuit goes active at about

1V and pulls the RESET/RESET pin active. This signal

prevents the system microprocessor from starting to

operate with insufficient voltage or prior to stabilization

of the oscillator. When VCC exceeds the device VTRIP

value for 200ms (nominal) the circuit releases

RESET/RESET, allowing the processor to begin execut-

ing code.

Low Voltage Monitoring

During operation, the X5643/X5645 monitors the VCC

level and asserts RESET/RESET if supply voltage falls

below a preset minimum VTRIP. The RESET/RESET

signal prevents the microprocessor from operating in a

power fail or brownout condition. The RESET/RESET

signal remains active until the voltage drops below 1V.

It also remains active until VCC returns and exceeds

VTRIP for 200ms.

Watchdog Timer

The watchdog timer circuit monitors the microprocessor

activity by monitoring the WDI input. The microproces-

sor must toggle the CS/WDI pin periodically to prevent a

RESET/RESET signal. The CS/WDI pin must be toggled

from HIGH to LOW prior to the expiration of the watch-

dog time out period. The state of two nonvolatile con-

trol bits in the status register determine the watchdog

timer period. The microprocessor can change these

watchdog bits, or they may be âlockedâ by tying the WP

pin LOW and setting the WPEN bit HIGH.

VCC Threshold Reset Procedure

The X5643/X5645 has a standard VCC threshold

(VTRIP) voltage. This value will not change over normal

operating and storage conditions. However, in applica-

tions where the standard VTRIP is not exactly right, or

for higher precision in the VTRIP value, the

X5643/X5645 threshold may be adjusted.

Setting the VTRIP Voltage

This procedure sets the VTRIP to a higher voltage

value. For example, if the current VTRIP is 4.4V and the

new VTRIP is 4.6V, this procedure directly makes the

change. If the new setting is lower than the current set-

ting, then it is necessary to reset the trip point before

setting the new value.

To set the new VTRIP voltage, apply the desired VTRIP

threshold to the Vcc pin and tie the CS/WDI pin and

the WP pin HIGH. RESET/RESET and SO pins are

left unconnected. Then apply the programming voltage

VP to both SCK and SI and pulse CS/WDI LOW then

HIGH. Remove VP and the sequence is complete.

Figure 1. Set VTRIP Voltage

SCK

Resetting the VTRIP Voltage

This procedure sets the VTRIP to a ânativeâ voltage

level. For example, if the current VTRIP is 4.4V and the

VTRIP is reset, the new VTRIP is something less than

1.7V. This procedure must be used to set the voltage

to a lower value.

To reset the VTRIP voltage, apply a voltage between 2.7

and 5.5V to the VCC pin. Tie the CS/WDI pin, the WP pin,

and the SCK pin HIGH. RESET/RESET and SO pins are

left unconnected. Then apply the programming voltage

VP to the SI pin ONLY and pulse CS/WDI LOW then

HIGH. Remove VP and the sequence is complete.

Figure 2. Reset VTRIP Voltage

SCK VCC

FN8135.1

July 18, 2005

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