X40031S14Z-AT1 Intersil, X40031S14Z-AT1 Datasheet - Page 11

X40031S14Z-AT1

Manufacturer Part Number

X40031S14Z-AT1

Description

IC VOLTAGE MONITOR TRPL 14-SOIC

Manufacturer

Intersil

Type

Multi-Voltage Supervisorr

Datasheet

1.X40031S14Z-A.pdf (23 pages)

Specifications of X40031S14Z-AT1

Number Of Voltages Monitored

Output

Open Drain or Open Collector

Reset

Active Low

Reset Timeout

Adjustable/Selectable

Voltage - Threshold

1.8V, 2.9V, 4.6V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

14-SOIC (3.9mm Width), 14-SOL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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WEL: Write Enable Latch (Volatile)

The WEL bit controls the access to the memory and to the

that powers up in the LOW (disabled) state. While the WEL

bit is LOW, writes to any address, including any control

registers will be ignored (no acknowledge will be issued after

the Data Byte). The WEL bit is set by writing a “1” to the

WEL bit and zeroes to the other bits of the control register.

Once set, WEL remains set until either it is reset to 0 (by

writing a “0” to the WEL bit and zeroes to the other bits of the

control register) or until the part powers up again. Writes to

the WEL bit do not cause a high voltage write cycle, so the

device is ready for the next operation immediately after the

stop condition.

PUP1, PUP0: Power-Up Bits (Nonvolatile)

The Power-up bits, PUP1 and PUP0, determine the t

time delay. The nominal power-up times are shown in Table 2.

WD1, WD0: Watchdog Timer Bits (Nonvolatile)

The bits WD1 and WD0 control the period of the Watchdog

Timer. The options are shown in Table 3.

Writing to the Control Registers

Changing any of the nonvolatile bits of the control and trickle

registers requires the following steps:

• Write a 02H to the Control Register to set the Write Enable

• Write a 06H to the Control Register to set the Register

• Write one byte value to the Control Register that has all

PUP1

Latch (WEL). This is a volatile operation, so there is no

delay after the write (operation preceded by a start and

ended with a stop).

Write Enable Latch (RWEL) and the WEL bit. This is also

a volatile cycle. The zeros in the data byte are required

(operation proceeded by a start and ended with a stop).

the control bits set to the desired state. The Control

xy are the WD bits, s is the BP bit and qr are the power-up

WD1

TABLE 3. WATCHDOG TIMER OPTIONS

TABLE 2. NOMINAL POWER-UP TIMES

PUP0

WD0

POWER-ON RESET DELAY (

WATCHDOG TIME OUT PERIOD

Disabled (factory setting)

200ms (factory setting)

400ms

800ms

200ms

50ms

25ms

1.4s

X40030, X40031, X40034, X40035

PURST

)

• A read operation occurring between any of the previous

• The RWEL bit cannot be reset without writing to the

To illustrate, a sequence of writes to the device consisting of

[02H, 06H, 02H] will reset all of the nonvolatile bits in the

Control Register to 0. A sequence of [02H, 06H, 06H] will

leave the nonvolatile bits unchanged and the RWEL bit

remains set.

Note: t

Timer bits are shipped disabled.

Fault Detection Register (FDR)

The Fault Detection Register provides the user the status of

what causes the system reset active. The Manual Reset

Fail, Watchdog Timer Fail and Three Low Voltage Fail bits

are volatile.

The FDR is accessed with a special preamble in the slave

byte (1011) and is located at address 0FFh. It can only be

modified by performing a byte write operation directly to the

address of the register and only one data byte is allowed for

each register write operation.

There is no need to set the WEL or RWEL in the control

At power-up, the FDR is defaulted to all “0”. The system

needs to initialize this register to all “1” 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 “1” to a “0” to indicate 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 “1” 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.

LV1F

bits. This operation proceeded by a start and ended with a

stop bit. Since this is a nonvolatile write cycle it will take up

to 10ms (max.) to complete. The RWEL bit is reset by this

cycle and the sequence must be repeated to change the

nonvolatile bits again. If bit 2 is set to ‘1’ in this third step

(qxys 011r) then the RWEL bit is set, but the WD1, WD0,

PUP1, PUP0, and BP bits remain unchanged. Writing a

second byte to the control register is not allowed. Doing so

aborts the write operation and returns a NACK.

operations will not interrupt the register write operation.

nonvolatile control bits in the control register, or power

cycling the device or attempting a write to a write

protected block.

PURST

LV2F

is set to 200ms as factory default. Watchdog

LV3F

WDF

MRF

August 25, 2008

FN8114.2

X40031S14Z-AT1 Intersil, X40031S14Z-AT1 Datasheet - Page 11

X40031S14Z-AT1

Specifications of X40031S14Z-AT1

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