X1288 Datasheet, PDF(15/27 Page) Xicor Inc. – 2-Wire RTC Real Time Clock/Calendar/CPU Supervisor with EEPROM

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X1288 Datasheet, PDF (15/27 Pages) Xicor Inc. – 2-Wire RTC Real Time Clock/Calendar/CPU Supervisor with EEPROM

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SCL

SDA

tRSP

tRSP<tWDO

X1288

tRSP>tWDO

tRST

tRSP>tWDO

tRST

RESET

Start

Stop Start

Note: All inputs are ignored during the active reset period (tRST).

FIGURE 4. WATCHDOG RESTART/TIME OUT

LOW VOLTAGE RESET OPERATION

When a power failure occurs, and the voltage to the

part drops below a fixed vTRIP voltage, a reset pulse is

issued to the host microcontroller. The circuitry moni-

tors the VCC line with a voltage comparator which

senses a preset threshold voltage. Power-up and

power-down waveforms are shown in Figure 5. The

Low Voltage Reset circuit is to be designed so the

RESET signal is valid down to 1.0V.

When the low voltage reset signal is active, the opera-

tion of any in progress nonvolatile write cycle is unaf-

fected, allowing a nonvolatile write to continue as long

as possible (down to the power-on reset voltage). The

low voltage reset signal, when active, terminates in

progress communications to the device and prevents

new commands, to reduce the likelihood of data cor-

ruption.

VCC THRESHOLD RESET PROCEDURE [Optional]

The X1288 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

X1288 threshold may be adjusted. The procedure is

described below, and uses the application of a nonvol-

atile write control signal.

Setting the VTRIP Voltage

It is necessary to reset the trip point before setting the

new value.

To set the new VTRIP voltage, apply the desired VTRIP

threshold voltage to the VCC pin and tie the RESET pin

to the programming voltage VP. Then write data 00h to

address 01h. The stop bit following a valid write opera-

tion initiates the VTRIP programming sequence. Bring

RESET to VCC to complete the operation. Note: this

operation may take up to 10 milliseconds to complete

and also writes 00h to address 01h of the EEPROM

array.

Resetting the VTRIP Voltage

This procedure is used to set the VTRIP to a ânativeâ

voltage 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 some-

thing less than 1.7V. This procedure must be used to

set the voltage to a lower value.

To reset the new VTRIP voltage, apply more than 5.5V

to the VCC pin and tie the RESET pin to the

programming voltage VP. Then write 00h to address

03h. The stop bit of a valid write operation initiates the

VTRIP programming sequence. Bring RESET to VCC to

complete the operation. Note: this operation takes up

to 10 milliseconds to complete and also writes 00h to

address 03h of the EEPROM array.

For best accuracy in setting VTRIP, it is advised that

the following sequence be used.

1.Program VTRIP as above.

2.Measure resulting VTRIP by measuring the VCC

value where a RESET occurs. Calculate Delta =

(Desired â Measured) VTRIP value.

3.Perform a VTRIP program using the following formula

to set the voltage of the RESET pin:

VRESET = (Desired Value â Delta) + 0.025V

FN8102.3

April 14, 2006

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