X5001 Datasheet, PDF(3/19 Page) Xicor Inc.

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X5001 Datasheet, PDF (3/19 Pages) Xicor Inc. – CPU Supervisor

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X5001

PRINCIPLES OF OPERATION

Power On Reset

Application of power to the X5001 activates a Power On

Reset Circuit. This circuit goes active at 1V and pulls the

RESET/RESET pin active. This signal prevents the sys-

tem microprocessor from starting to operate with insufï¬-

cient voltage or prior to stabilization of the oscillator. When

Vcc exceeds the device VTRIP value for 200ms (nominal)

the circuit releases RESET, allowing the processor to

begin executing code.

Low voltage monitoring

During operation, the X5001 monitors the VCC level and

asserts RESET if supply voltage falls below a preset mini-

mum VTRIP. The RESET signal prevents the microproces-

sor from operating in a power fail or brownout condition.

The 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 microprocessor

must toggle the CS/WDI pin periodically to prevent a

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

HIGH to LOW prior to the expiration of the watchdog time-

out period. The state of two nonvolatile control bits in the

Watchdog Register determine the watchdog timer period.

To set the new VTRIP voltage, apply the desired VTRIP

threshold voltage to the Vcc pin and tie the WPE pin to the

programming voltage VP. Then a VTRIP programming

command sequence is sent to the device over the SPI

interface. This VTRIP programming sequence consists of

pulling CS LOW, then clocking in data 03h, 00h and 01h.

This is followed by bringing CS HIGH then LOW and

clocking in data 02h, 00h, and 01h (in order) and bringing

CS HIGH. This initiates the VTRIP programming

sequence. VP is brought LOW to end the operation.

Resetting the VTRIP Voltage

This procedure is used to set the VTRIP to a ânativeâ volt-

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

the new VTRIP must be 4.0V, then the VTRIP must be

reset. When 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 greater than 3V to the

Vcc pin and tie the WPE pin to the programming voltage

Vp. Then a VTRIP command sequence is sent to the

device over the SPI interface. This VTRIP programming

sequence consists of pulling CS LOW, then clocking in

data 03h, 00h and 01h. This is followed by bringing CS

HIGH then LOW and clocking in data 02h, 00h, and 03h

(in order) and bringing CS HIGH. This initiates the VTRIP

programming sequence. VP is brought LOW to end the

operation.

Vcc Threshold Reset Procedure

The X5001 is shipped with 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 if

higher precision is needed in the VTRIP value, the X5001

threshold may be adjusted. The procedure is described

below, and requires the application of a high voltage con-

trol signal.

Setting the VTRIP Voltage

This procedure is used to set the VTRIP to a higher volt-

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

the new VTRIP is 4.6V, this procedure will directly make

the change. If the new setting is to be lower than the cur-

rent setting, then it is necessary to reset the trip point

before setting the new value.

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