X40030_06 Datasheet, PDF(12/24 Page) Intersil Corporation – Triple Voltage Monitor with Integrated CPU Supervisor

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X40030_06 Datasheet, PDF (12/24 Pages) Intersil Corporation – Triple Voltage Monitor with Integrated CPU Supervisor

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X40030, X40031, X40034, X40035

Figure 7. Valid Data Changes on the SDA Bus

SCL

SDA

Data Stable

Data Change

Data Stable

At power-up, the FDR is defaulted to all â0â. The sys-

tem needs to initialize this register to all â1â before the

actual monitoring can take place. In the event of any

one of the monitored sources fail. The corresponding

bit in the register will change from a â1â to a â0â to indi-

cate the failure. At this moment, the system should

perform a read to the register and note the cause of

the reset. After reading the register the system should

reset the register back to all â1â again. The state of the

FDR can be read at any time by performing a random

read at address 0FFh, using the special preamble.

The FDR can be read by performing a random read at

0FFh address of the register at any time. Only one

byte of data is read by the register read operation.

MRF: Manual Reset Fail Bit (Volatile)

The MRF bit will be set to â0â when Manual Reset

input goes active.

WDF: Watchdog Timer Fail Bit (Volatile)

The WDF bit will be set to â0â when the WDO goes

active.

LV1F: Low VCC Reset Fail Bit (Volatile)

The LV1F bit will be set to â0â when VCC (V1MON)

falls below VTRIP1.

LV2F: Low V2MON Reset Fail Bit (Volatile)

The LV2F bit will be set to â0â when V2MON falls

below VTRIP2.

LV3F: Low V3MON Reset Fail Bit (Volatile)

The LV3F bit will be set to â0â when the V3MON falls

below VTRIP3.

SERIAL INTERFACE

Interface Conventions

The device supports a bidirectional bus oriented proto-

col. The protocol defines any device that sends data

onto the bus as a transmitter, and the receiving device

as the receiver. The device controlling the transfer is

called the master and the device being controlled is

called the slave. The master always initiates data

transfers, and provides the clock for both transmit and

receive operations. Therefore, the devices in this fam-

ily operate as slaves in all applications.

Serial Clock and Data

Data states on the SDA line can change only during

SCL LOW. SDA state changes during SCL HIGH are

reserved for indicating start and stop conditions. See

Figure 7.

Serial Start Condition

All commands are preceded by the start condition,

which is a HIGH to LOW transition of SDA when SCL

is HIGH. The device continuously monitors the SDA

and SCL lines for the start condition and will not

respond to any command until this condition has been

met. See Figure 8.

Serial Stop Condition

All communications must be terminated by a stop con-

dition, which is a LOW to HIGH transition of SDA when

SCL is HIGH. The stop condition is also used to place

the device into the Standby power mode after a read

sequence. A stop condition can only be issued after the

transmitting device has released the bus. See Figure 8.

FN8114.1

May 25, 2006

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