MCP1316T-46FE/OT Microchip Technology, MCP1316T-46FE/OT Datasheet - Page 29

MCP1316T-46FE/OT

Manufacturer Part Number

MCP1316T-46FE/OT

Description

Active Low P-P, WDI, MR (WDI = 102ms, Reset Delay = 30ms, Vtrpd - 4.6V) 5 SOT-2

Manufacturer

Microchip Technology

Type

Simple Reset/Power-On Resetr

Datasheet

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

Specifications of MCP1316T-46FE/OT

Number Of Voltages Monitored

Output

Push-Pull, Totem Pole

Reset

Active Low

Reset Timeout

20 ms Minimum

Voltage - Threshold

4.6V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

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

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

MCP1316T-46FE/OTTR

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4.3

The minimum pulse width (time) required to cause a

Reset may be an important criteria in the implementa-

tion of a Power-on Reset (POR) circuit. This time is

referred to as transient duration. The MCP131X/2X

devices are designed to reject a level of negative-going

transients (glitches) on the power supply line.

Transient duration is the amount of time needed for

these supervisory devices to respond to a drop in V

The transient duration time (t

magnitude of V

of duration and overdrive that lies under the duration/

overdrive curve will not generate a Reset signal. Gen-

erally speaking, the transient duration time decreases

with and increases in the V

nations of duration and overdrive that lies above the

duration/overdrive curve are detected as a brown-out

or power-down condition.

Figure 4-16

Reset comparator overdrive, for which the MCP131X/

2X will not generate a Reset pulse. It shows that the far-

ther below the trip point the transient pulse goes, the

duration of the pulse required to cause a Reset gets

shorter.

characteristics for the MCP131X/2X.

Transient immunity can be improved by adding a

bypass capacitor (typically 0.1 µF) as close as possible

to the V

FIGURE 4-16:

Transient Duration Waveform.

Negative Going V

Figure 4-16

pin of the MCP131X/2X device.

shows a typical transient duration vs.

TRIP

– V

Time (µs)

shows the transient response

Example of Typical

(overdrive). Any combination

TRIP

(Duration)

(Overdrive)

TRAN

TRANS

TRIP(MIN)

– V

) is dependant on the

Transients

- V

voltage. Combi-

TRIP(MAX)

TRIP(MIN)

4.4

The Manual Reset input pin (MR) allows the Reset pins

(RST/RST) to be manually forced to their active states.

The MR pin has circuitry to filter noise pulses that may

be present on the pin.

gram for using the MCP131X/2X with a push button

switch. To minimize the required external components,

the MR input has an internal pull-up resistor.

A mechanical push button or active logic signal can

drive the MR input.

Once MR has been low for a time, t

Reset delay time), the Reset output pins are forced

active. The Reset output pins will remain in their active

states for the Reset delay timer time out period (t

Figure 4-18

switch input and the Reset pins output.

FIGURE 4-17:

Watchdog Timer.

FIGURE 4-18:

4.4.1

The noise filter filters out noise spikes (glitches) on the

Manual Reset pin (MR). Noise spikes less than 100 ns

(typical) are filtered.

RST

The MR input typically ignores input pulses

of 100 ns.

Manual Reset Input

NOISE FILTER

shows a waveform for the Manual Reset

MRD

MCP13XX

+5V

MCP131X/2X

Push Button Reset and

MR Input – Push Button.

Figure 4-17

RST

WDI

shows a block dia-

I/O

MCLR

DS21985B-page 29

MRD

RST

PIC

(the Manual

MCU

)

MCP1316T-46FE/OT Microchip Technology, MCP1316T-46FE/OT Datasheet - Page 29

MCP1316T-46FE/OT

Specifications of MCP1316T-46FE/OT

Available stocks

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