Apx803/d, Pin microprocessor reset circuit, Timing diagram – Diodes APX803/D User Manual

APX803/D

3-PIN MICROPROCESSOR RESET CIRCUIT

APX803

Document number: DS32132 Rev. 2 - 2

7 of 11

www.diodes.com

September 2010

© Diodes Incorporated

Timing Diagram

Vth

Vth

/RESET

RESET

T

Delay

T

Delay

T

Delay

T

Delay

Vcc

Vth

Functional Description

Microprocessors (µPs) and microcontrollers (µC) have a

reset input to ensure that it starts up in a known state.

The APX803/D drive the µP’s reset input to prevent

code-execution errors during power-up, power-down, or

brownout conditions. They assert a reset signal

whenever the V

CC

supply voltage declines below a

preset threshold and keep it asserted for a fixed period

of time after V

CC

has risen above the reset threshold. For

the APX803D this period is a minimum of 1ms while for

other APX803 variants it is at least 140ms. The

APX803/D have an open-drain output stage.

Ensuring a Valid Reset Output

Down to V

CC

= 0

RESET is guaranteed to be a logic low for V

CC

> 1V.

Once V

CC

exceeds the reset threshold, an internal timer

keeps RESET low for the reset timeout period; after

this interval, RESET goes high. If a brownout condition

occurs (V

CC

dips below the RESET reset threshold),

RESET goes low. Any time V

CC

goes below the reset

threshold, the internal timer resets to zero, and RESET

goes low. The internal timer starts after V

CC

returns

above the reset threshold, and RESET remains low for

the reset timeout period.

When V

CC

falls below 1V, the APX803/D

RESET

output no longer sinks current — it becomes an open
circuit. Therefore, high-impedance CMOS logic inputs

connected to RESET can drift to undetermined voltages.

This presents no problem in most applications since
most µP and other circuitry is inoperative with V

CC

below

1V.

Interfacing to µP with Bidirectional Reset Pins

Since the RESET output on the APX803/D is open drain,

this device interfaces easily with

μP/µC that have

bidirectional reset pins, such as the Motorola 68HC11.

Connecting the

μP supervisor’s RESET output directly to

the microcontroller’s (

μC’s) RESET pin with a single pull-

up resistor allows either device to assert reset.

Supervising and monitoring Multiple Supplies

Generally, the pull-up resistor connected to the

APX803/D will connect to the supply voltage that is being

monitored at the IC’s V

CC

pin. However, some systems

may use the APX803/D open-drain output to level-shift

from the monitored supply to reset the µP powered by a

different supply voltage or monitor multiple supplies that

will be fed into 1 µC/µP reset input.