MCP1316MT-29LE/OT Microchip Technology, MCP1316MT-29LE/OT Datasheet - Page 30

MCP1316MT-29LE/OT

Manufacturer Part Number

MCP1316MT-29LE/OT

Description

IC,VOLT DETECTOR,FIXED,+2.9V,TSOP,5PIN,PLASTIC

Manufacturer

Microchip Technology

Type

Simple Reset/Power-On Resetr

Datasheet

1.MCP1316T-29LEOT.pdf (44 pages)

Specifications of MCP1316MT-29LE/OT

Rohs Compliant

YES

Number Of Voltages Monitored

Output

Open Drain or Open Collector

Reset

Active Low

Reset Timeout

140 ms Minimum

Voltage - Threshold

2.9V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

SOT-23-5, SC-74A, SOT-25

Monitored Voltage

2 V to 4.7 V

Output Type

Active Low, Open Drain

Manual Reset

Resettable

Watchdog

Battery Backup Switching

No Backup

Supply Voltage (max)

5.5 V

Supply Voltage (min)

1 V

Supply Current (typ)

10 uA

Maximum Power Dissipation

240 mW

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Power Fail Detection

Undervoltage Threshold

2.857 V

Overvoltage Threshold

2.944 V

Power-up Reset Delay (typ)

2240 ms

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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MCP131X/2X

4.5

The purpose of the Watchdog Timer (WDT) is to

increase system reliability. The Watchdog Timer fea-

ture can be used to detect when the Host Controller’s

program flow is not as expected. The Watchdog Timer

monitors for activity on the Watchdog Input pin (WDI).

The WDI pin is expected to be strobed within a given

time frame. When this time frame is exceeded, without

an edge transition on the WDI pin, the Reset pin is

driven active to reset the system. This stops the Host

Controller from continuing its erratic behavior (“run-

away” code execution).

The Watchdog Timer is external to the main portion of

the control system and monitors the operation of the

system. This feature is enabled by a falling edge on the

WDI pin (after device POR). Monitoring is then done by

requiring the embedded controller to force an edge

transition (falling or rising) on the WDI pin (“pet the

Watchdog”) within a predetermined time frame (T

If the MCP131X/2X does not detect an edge on the

WDI pin within the expected time frame, the MCP131X/

2X device will force the Reset pin active.

The Watchdog Timer is in the disabled state when:

• The Device Powers up

• A POR event occurred

• A WDT event occurred

• A Manual Reset (MR) event occurred

When the Watchdog Timer is in the disabled state, the

WDI pin has an internal smart pull-up resistor enabled.

This pull-up resistor has a typical value of 52 kΩ. This

pull-up resistor holds the WDI signal in the high state,

until it is forced to another state.

After the embedded controller has initialized, if the

Watchdog Timer feature is to be used, then the embed-

ded controller can force the WDI pin low (V

enables the Watchdog Timer feature and disables the

WDI pull-up resistor.

reduces the device’s current consumption. The pull-up

resistor will remain disconnected until the device has a

power-on, a Reset event occurs, or after the WDT time

out.

Once the Watchdog Timer has been enabled, the Host

Contoller must force an edge transition (falling or rising)

on the WDI pin before the minimum Watchdog Timer

time out to ensure that the Watchdog Timer does not

force the Reset pins (RST/RST) to the active state.

If an edge transition does not occur before the maxi-

mum time out occurs, then the MCP131X/2X will force

the Reset pins to their active state.

The MCP131X/2X supports four time outs. The stan-

dard offering devices have a typical Watchdog Timer

period (T

Watchdog Timer periods. The t

function of the device voltage and temperature.

DS21985B-page 30

Watchdog Timer

WDT

) of 1.6 s.

Disabling the pull-up resistor

Table 4-3

shows the available

WDT

time out is a

). This also

Figure 4-19

MCP131X/2X with a PIC

the Watchdog input.

TABLE 4-3:

FIGURE 4-19:

The software routine that strobes WDI is critical. The

code must be in a section of software that is executed

frequently enough so the time between edge transi-

tions is less than the Watchdog time out period. One

common technique controls the Host Controllers I/O

line from two sections of the program. The software

might set the I/O line high while operating in the Fore-

ground mode and set it low while in the Background or

Interrupt modes. If both modes do not execute cor-

rectly, the Watchdog Timer issues reset pulses.

If the time between

Note 1:

WDI edges is less

ensures that the

never forces a

MCP131X/2X

3-Terminal

MCP1700)

(example:

Regulator

than this, it

reset

1.12

17.9

Min

4.3

↑

Shaded rows are custom ordered Watch-

dog Timer Periods (t

information on ordering devices with

these t

local Microchip sales office. Minimum

purchase volumes are required.

shows a block diagram for using the

0.1

µF

+5V

WATCHDOG TIMER

PERIODS

WDT

25.6

Typ

102

6.3

1.6

Watchdog Timer.

time outs, please contact your

MCP13XX

GND

microcontroller (MCU) and

WDI

edges is greater

ensures that the

always forces a

between WDI

MCP131X/2X

(1)

than this, it

RST

If the time

WDT

reset

Max

38.4

153

9.3

2.4

+5V

↑

) time outs. For

10 kΩ

MCLR

I/O

MCU

PIC

Units

sec

MCP1316MT-29LE/OT Microchip Technology, MCP1316MT-29LE/OT Datasheet - Page 30

MCP1316MT-29LE/OT

Specifications of MCP1316MT-29LE/OT

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