MAX6722AUTYDD3+T - Maxim Integrated

General Description

The MAX6715A–MAX6729A/MAX6797A are ultra-low-

voltage microprocessor (μP) supervisory circuits designed to

monitor two or three system power-supply voltages. These

devices assert a system reset if any monitored supply falls

below its factory-trimmed or adjustable threshold and main-

tain reset for a minimum timeout period after all supplies rise

above their thresholds. The integrated dual/triple superviso-

ry circuits significantly improve system reliability and reduce

size compared to separate ICs or discrete components.

These devices monitor primary supply voltages (VCC1)

from 1.8V to 5.0V and secondary supply voltages (VCC2)

from 0.9V to 3.3V with factory-trimmed reset threshold

voltage options (see the Reset Voltage Threshold Suffix

Guide). An externally adjustable RSTIN input option

allows customers to monitor a third supply voltage down

to 0.62V. These devices are guaranteed to be in the cor-

rect reset output logic state when either VCC1 or VCC2

remains greater than 0.8V.

A variety of push-pull or open-drain reset outputs along

with watchdog input, manual-reset input, and power-fail

input/output features are available (see the Selector

Guide). Select reset timeout periods from 1.1ms to

1120ms (min) (see the Reset Timeout Period Suffix

Guide). The MAX6715A–MAX6729A/MAX6797A are

available in small 5-, 6-, and 8-pin SOT23 packages and

operate over the -40°C to +125°C temperature range.

Applications

● Multivoltage Systems

● Telecom/Networking

Equipment

● Computers/Servers

● Portable/Battery-

Operated Equipment

● Industrial Equipment

● Printers/Fax Machines

● Set-Top Boxes

Features

● VCC1 (Primary Supply) Reset Threshold Voltages

from 1.58V to 4.63V

● VCC2 (Secondary Supply) Reset Threshold Voltages

from 0.79V to 3.08V

● Externally Adjustable RSTIN Threshold for Auxiliary/

Triple-Voltage Monitoring (0.62V Internal Reference)

● Watchdog Timer Option

• 35s (min) Long Startup Period

• 1.12s (min) Normal Timeout Period

● Manual-Reset Input Option

● Power-Fail Input/Power-Fail Output Option

(Push-Pull and Open-Drain Active-Low)

● Guaranteed Reset Valid Down to VCC1 or

VCC2 = 0.8V

● Reset Output Logic Options

● Immune to Short VCC Transients

● Low Supply Current 14μA (typ) at 3.6V

● Watchdog Disable Feature

● Small 5-, 6-, and 8-Pin SOT23 Packages

Ordering Information continued at end of data sheet.

Pin Configurations and Selector Guide appear at end of

data sheet.

19-0536; Rev 4; 3/14

Note: The first “_ _” are placeholders for the threshold voltage

levels of the devices. Desired threshold levels are set by the part

number suffix found in the Reset Voltage Threshold Suffix Guide.

The “_” after the D is a placeholder for the reset timeout delay

time. Desired delay time is set using the timeout period suffix

found in the Reset Timeout Period Suffix Guide. For example,

the MAX6716AUTLTD3-T is a dual-voltage supervisor VTH1 =

4.625V, VTH2 = 3.075V, and 210ms (typ) timeout period.

+Denotes a lead(Pb)-free/RoHS-compliant package.

T = Tape and reel.

/V denotes an automotive qualified part.

*Future product—contact factory for availability.

PART TEMP RANGE PIN-

PACKAGE

MAX6715AUT_ _D_+T -40°C to +125°C 6 SOT23

MAX6716AUT_ _D_+T -40°C to +125°C 6 SOT23

MAX6717AUK_ _D_+T -40°C to +125°C 5 SOT23

MAX6718AUK_ _D_+T -40°C to +125°C 5 SOT23

MAX6719AUT_ _D_+T -40°C to +125°C 6 SOT23

MAX6719AUT_ _D_/V+T* -40°C to +125°C 6 SOT23

OUT2

OUT1

DC-DC

CONVERTER

UNREGULATED

VCC1 VCC2

RSTIN/PFI

RST

WDI

PFO

MAX67_ _

PUSHBUTTON

SWITCH

I/O

SUPPLY

CORE

SUPPLY

RESET

I/O

NMI

µP

1.8V 0.9V

MAX6715A-

MAX6729A/

MAX6797A

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

Typical Operating Circuit

Ordering Information

Terminal Voltage (with respect to GND)

VCC1, VCC2 .........................................................-0.3V to +6V

Open-Drain RST, RST1, RST2, PFO, RST ............-0.3V to +6V

Push-Pull RST, RST1, PFO, RST .......... -0.3V to (VCC1 + 0.3V)

Push-Pull RST2 ...................................... -0.3V to (VCC2 + 0.3V)

RSTIN, PFI, MR, WDI .............................................-0.3V to +6V

Input Current/Output Current (all pins) ...............................20mA

Continuous Power Dissipation (TA = +70°C)

5-Pin SOT23-5 (derate 7.1mW/°C above +70°C) .......571mW

6-Pin SOT23-6 (derate 8.7mW/°C above +70°C) .......696mW

8-Pin SOT23-8 (derate 8.9mW/°C above +70°C) .......714mW

Operating Temperature Range ......................... -40°C to +125°C

Storage Temperature Range ............................ -65°C to +150°C

Junction Temperature ......................................................+150°C

Lead Temperature (soldering, 10s) .................................+300°C

(VCC1 = 0.8V to 5.5V, VCC2 = 0.8V to 5.5V, GND = 0V, TA = -40°C to +125°C, unless otherwise noted. Typical values are at TA =

+25°C.) (Note 1)

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS

Supply Voltage VCC 0.8 5.5 V

Supply Current

ICC1

VCC1 < 5.5V all I/O connections open,

outputs not asserted 15 39

µA

VCC1 < 3.6V all I/O connections open,

outputs not asserted 10 28

ICC2

VCC2 < 3.6V all I/O connections open,

outputs not asserted 411

VCC2 < 2.75V all I/O connections open,

outputs not asserted 39

VCC1 Reset Threshold VTH1

L (falling) 4.500 4.625 4.750

M (falling) 4.250 4.375 4.500

T (falling) 3.000 3.075 3.150

S (falling) 2.850 2.925 3.000

R (falling) 2.550 2.625 2.700

Z (falling) 2.250 2.313 2.375

Y (falling) 2.125 2.188 2.250

W (falling) 1.620 1.665 1.710

V (falling) 1.530 1.575 1.620

VCC2 Reset Threshold VTH2

T (falling) 3.000 3.075 3.150

S (falling) 2.850 2.925 3.000

R (falling) 2.550 2.625 2.700

Z (falling) 2.250 2.313 2.375

Y (falling) 2.125 2.188 2.250

W (falling) 1.620 1.665 1.710

V (falling) 1.530 1.575 1.620

I (falling) 1.350 1.388 1.425

H (falling) 1.275 1.313 1.350

G (falling) 1.080 1.110 1.140

F (falling) 1.020 1.050 1.080

E (falling) 0.810 0.833 0.855

D (falling) 0.765 0.788 0.810

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Absolute Maximum Ratings

Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these

or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect

device reliability.

Electrical Characteristics

(VCC1 = 0.8V to 5.5V, VCC2 = 0.8V to 5.5V, GND = 0V, TA = -40°C to +125°C, unless otherwise noted. Typical values are at TA =

+25°C.) (Note 1)

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS

Reset Threshold Tempco ΔVTH/°C 20 ppm/°C

Reset Threshold Hysteresis VHYST Referenced to VTH typical 0.5 %

VCC to Reset Output Delay tRD VCC1 = (VTH1 + 100mV) to (VTH1 - 100mV) or

VCC2 = (VTH2 + 75mV) to (VTH2 - 75mV) 20 µs

Reset Timeout Period tRP

D1 1.1 1.65 2.2

D2 8.8 13.2 17.6

D7 (MAX6797A only) 17.5 26.25 35

D8 (MAX6797A only) 35 52.5 70

D3 140 210 280

D5 280 420 560

D6 560 840 1120

D4 1120 1680 2240

ADJUSTABLE RESET COMPARATOR INPUT (MAX6719A/MAX6720A/MAX6723A–MAX6727A)

RSTIN Input Threshold VRSTIN 611 626.5 642 mV

RSTIN Input Current IRSTIN -100 +100 nA

RSTIN Hysteresis 3 mV

RSTIN to Reset Output Delay tRSTIND VRSTIN to (VRSTIN - 30mV) 22 µs

POWER-FAIL INPUT (MAX6728A/MAX6729A)

PFI Input Threshold VPFI 611 626.5 642 mV

PFI Input Current IPFI -100 +100 nA

PFI Hysteresis VPFH 3 mV

PFI to PFO Delay tDPF (VPFI + 30mV) to (VPFI - 30mV) 2 µs

MANUAL-RESET INPUT (MAX6715A–MAX6722A/MAX6725A–MAX6729A)

MR Input Voltage VIL 0.3 x VCC1 V

VIH 0.7 x VCC1

MR Minimum Pulse Width 1 µs

MR Glitch Rejection 100 ns

MR to Reset Delay tMR 200 ns

MR Pullup Resistance 25 50 80 kΩ

WATCHDOG INPUT (MAX6721A–MAX6729A)

Watchdog Timeout Period tWD

First watchdog period after reset timeout

period 35 54 72 s

Normal mode 1.12 1.68 2.24

WDI Pulse Width tWDI (Note 2) 50 ns

WDI Input Voltage VIL 0.3 x VCC1 V

VIH 0.7 x VCC1

WDI Input Current IWDI VWDI = 0V or VCC1 -1 +1 µA

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Electrical Characteristics (continued)

(VCC1 = 0.8V to 5.5V, VCC2 = 0.8V to 5.5V, GND = 0V, TA = -40°C to +125°C, unless otherwise noted. Typical values are at TA =

+25°C.) (Note 1)

Note 1: Devices tested at TA = +25°C. Overtemperature limits are guaranteed by design and not production tested.

Note 2: Parameter guaranteed by design.

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS

RESET/POWER-FAIL OUTPUTS

RST/RST1/RST2/PFO

Output Low

(Push-Pull or Open-Drain)

VOL

VCC1 or VCC2 ≥ 0.8V, ISINK = 1µA,

output asserted 0.3

VCC1 or VCC2 ≥ 1.0V, ISINK = 50µA,

output asserted 0.3

VCC1 or VCC2 ≥ 1.2V, ISINK = 100µA,

output asserted 0.3

VCC1 or VCC2 ≥ 2.7V, ISINK = 1.2mA,

output asserted 0.3

VCC1 or VCC2 ≥ 4.5V, ISINK = 3.2mA,

output asserted 0.4

RST/RST1/PFO

Output High

(Push-Pull Only)

VOH

VCC1 ≥ 1.8V, ISOURCE = 200µA, output not

asserted 0.8 x VCC1

VCC1 ≥ 2.7V, ISOURCE = 500µA, output not

asserted 0.8 x VCC1

VCC1 ≥ 4.5V, ISOURCE = 800µA, output not

asserted 0.8 x VCC1

RST2

Output High

(Push-Pull Only)

VOH

VCC1 ≥ 1.8V, ISOURCE = 200µA, output not

asserted 0.8 x VCC2

VCC1 ≥ 2.7V, ISOURCE = 500µA, output not

asserted 0.8 x VCC2

VCC1 ≥ 4.5V, ISOURCE = 800µA, output not

asserted 0.8 x VCC2

RST

Output High

(Push-Pull Only)

VOH

VCC1 ≥ 1.0V, ISOURCE = 1µA, reset asserted 0.8 x VCC1

VCC1 ≥ 1.8V, ISOURCE = 150µA,

reset asserted 0.8 x VCC1

VCC1 ≥ 2.7V, ISOURCE = 500µA,

reset asserted 0.8 x VCC1

VCC1 ≥ 4.5V, ISOURCE = 800µA,

reset asserted 0.8 x VCC1

RST

Output Low

(Push-Pull or Open Drain)

VOL

VCC1 or VCC2 ≥ 1.8V, ISINK = 500µA,

reset not asserted 0.3

VCC1 or VCC2 ≥ 2.7V, ISINK = 1.2mA,

reset not asserted 0.3

VCC1 or VCC2 ≥ 4.5V, ISINK = 3.2mA,

reset not asserted 0.4

RST/RST1/RST2/PFO Output

Open-Drain Leakage Current Output not asserted 0.5 µA

RST Output Open-Drain

Leakage Current Output asserted 0.5 µA

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Electrical Characteristics (continued)

(VCC1 = 5V, VCC2 = 3.3V, TA = +25°C, unless otherwise noted.)

SUPPLY CURRENT vs. TEMPERATURE

(VCC1 = +3.3V, VCC2 = +2.5V)

MAX6715A-29A toc02

TEMPERATURE (°C)

SUPPLY CURRENT (µA)

-40 20-10 50 805-25 35 65 11095 125

TOTAL

ICC1

ICC2

-40 20-10 50 805-25 35 65 11095 125

SUPPLY CURRENT vs. TEMPERATURE

(VCC1 = +2.5V, VCC2 = +1.8V)

MAX6715A-29A toc03

TEMPERATURE (°C)

SUPPLY CURRENT (µA)

TOTAL

ICC1

ICC2

-40 20-10 50 805-25 35 65 11095 125

SUPPLY CURRENT vs. TEMPERATURE

(VCC1 = +1.8V, VCC2 = +1.2V)

MAX6715A-29A toc04

TEMPERATURE (°C)

SUPPLY CURRENT (µA)

TOTAL

ICC1

ICC2

0.980

0.984

0.992

0.988

1.004

1.000

0.996

1.016

1.012

1.008

1.020

-40 20-10 50 805-25 35 65 11095 125

NORMALIZED/RESET WATCHDOG

TIMEOUT PERIOD vs. TEMPERATURE

MAX6715A-29A toc05

TEMPERATURE (°C)

RESET/WATCHDOG TIMEOUT PERIOD

10,000

1000

100

1 10010

1000

MAXIMUM VCC TRANSIENT DURATION

vs. RESET THRESHOLD OVERDRIVE

MAX6715A-29A toc06

RESET THRESHOLD OVERDRIVE (mV)

MAXIMUM V

TRANSIENT DURATION (µs)

RESET OCCURS ABOVE

THIS LINE

0.998

0.999

1.001

1.000

1.004

1.003

1.002

1.007

1.006

1.005

1.008

-40 20-10 50 805-25 35 65 11095 125

NORMALIZED VCC RESET THRESHOLD

vs. TEMPERATURE

MAX6715A-29A toc07

TEMPERATURE (°C)

RESET THRESHOLD

-40 20-10 50 805-25 35 65 11095 125

SUPPLY CURRENT vs. TEMPERATURE

(VCC1 = +5V, VCC2 = +3.3V)

MAX6715A-29A toc01

TEMPERATURE (°C)

SUPPLY CURRENT (µA)

TOTAL

ICC1

ICC2

628

630

629

633

632

631

637

636

634

635

638

-40 20-10 50 805-25 35 65 11095 125

RESET INPUT AND POWER-FAIL INPUT

THRESHOLD vs. TEMPERATURE

MAX6715A-29A toc08

TEMPERATURE (°C)

RESET THRESHOLD

-40 20-10 50 805-25 35 65 11095 125

VCC TO RESET DELAY

vs. TEMPERATURE

MAX6715A-29A toc09

TEMPERATURE (°C)

VCC TO RESET DELAY (µs)

75mV OVERDRIVE

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

Maxim Integrated

│

www.maximintegrated.com

Typical Operating Characteristics

(VCC1 = 5V, VCC2 = 3.3V, TA = +25°C, unless otherwise noted.)

NAME FUNCTION

MAX6715A/

MAX6716A

MAX6717A/

MAX6718A

MAX6719A/

MAX6720A

MAX6721A/

MAX6722A

MAX6723A/

MAX6724A

MAX6725A/

MAX6726A MAX6727A

MAX6728A/

MAX6729A/

MAX6797A

1 1 1 1 1 1 1, 4 1RST/

RST1

Active-Low Reset Output,

Open-Drain or Push-Pull.

RST/RST1 changes from

high to low when VCC1

or VCC2 drops below the

selected reset thresholds,

RSTIN is below threshold,

MR is pulled low, or the

watchdog triggers a reset.

RST/RST1 remains low for

the reset timeout period

after VCC1/VCC2/RSTIN

exceed the device reset

thresholds, MR goes low

to high, or the watchdog

triggers a reset. Open-

drain outputs require an

external pullup resistor.

Push-pull outputs are

referenced to VCC1.

-40 20-10 50 805-25 35 65 11095 125

RSTIN INPUT TO RESET OUTPUT DELAY

vs. TEMPERATURE

MAX6715A-29A toc10

TEMPERATURE (°C)

RSTIN TO RESET DELAY (µs)

30mV OVERDRIVE

1.0

1.2

1.8

1.6

1.4

1.3

1.1

1.9

1.7

1.5

2.0

-40 20-10 50 805-25 35 65 11095 125

POWER-FAIL INPUT TO POWER-FAIL

OUTPUT DELAY vs. TEMPERATURE

MAX6715A-29A toc11

TEMPERATURE (°C)

POWER-FAIL DELAY (µs)

30mV OVERDRIVE

VRST

2V/div

MAX6715A-29A toc12

50ns/div

MR TO RESET OUTPUT DELAY

VMR

2V/div

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Pin Description

Typical Operating Characteristics (continued)

NAME FUNCTION

MAX6715A/

MAX6716A

MAX6717A/

MAX6718A

MAX6719A/

MAX6720A

MAX6721A/

MAX6722A

MAX6723A/

MAX6724A

MAX6725A/

MAX6726A MAX6727A

MAX6728A/

MAX6729A/

MAX6797A

5 — — — — — — — RST2

Active-Low Reset Output,

Open-Drain or Push-Pull.

RST2 changes from high

to low when VCC1 or VCC2

drops below the selected

reset thresholds or MR is

pulled low. RST2 remains

low for the reset timeout

period after VCC1/VCC2

exceed the device reset

thresholds or MR goes

low to high. Open-drain

outputs require an external

pullup resistor. Push-pull

outputs are referenced to

VCC2.

2 2 2 2 2 2 2 2 GND Ground

3 3 3 3 — 5 5 5 MR

Active-Low Manual-Reset

Input. Internal 50kΩ

pullup to VCC1. Pull low

to force a reset. Reset

remains active as long

as MR is low and for the

reset timeout period after

MR goes high. Leave

unconnected or connect to

VCC1 if unused.

4 4 4 4 4 6 6 6 VCC2

Secondary Supply Voltage

Input. Powers the device

when it is above VCC1 and

input for secondary reset

threshold monitor.

6 5 6 6 6 8 8 8 VCC1

Primary Supply Voltage

Input. Powers the device

when it is above VCC2

and input for primary reset

threshold monitor.

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Pin Description (continued)

NAME FUNCTION

MAX6715A/

MAX6716A

MAX6717A/

MAX6718A

MAX6719A/

MAX6720A

MAX6721A/

MAX6722A

MAX6723A/

MAX6724A

MAX6725A/

MAX6726A MAX6727A

MAX6728A/

MAX6729A/

MAX6797A

— — — 5 3 3 3 3 WDI

Watchdog Input. If WDI

remains high or low for

longer than the watchdog

timeout period, the

internal watchdog timer

runs out and the reset

output asserts for the

reset timeout period. The

internal watchdog timer

clears whenever a reset

is asserted or WDI sees

a rising or falling edge.

The watchdog has a long

startup period (35s min)

after each reset event

and a short watchdog

timeout period (1.12s min)

after the rst valid WDI

transition. Leave WDI

unconnected to disable

the watchdog timer. The

WDI unconnected-state

detector uses a small

200nA current source.

Therefore, do not connect

WDI to anything that will

source more than 50nA.

— — 5 — 5 7 7 — RSTIN

Undervoltage Reset

Comparator Input. High-

impedance input for

adjustable reset monitor.

The reset output is

asserted when RSTIN falls

below the 0.626V internal

reference voltage. Set the

monitored voltage reset

threshold with an external

resistor-divider network.

Connect RSTIN to VCC1

or VCC2 if not used.

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Pin Description (continued)

NAME FUNCTION

MAX6715A/

MAX6716A

MAX6717A/

MAX6718A

MAX6719A/

MAX6720A

MAX6721A/

MAX6722A

MAX6723A/

MAX6724A

MAX6725A/

MAX6726A MAX6727A

MAX6728A/

MAX6729A/

MAX6797A

— — — — — — — 7 PFI

Power-Fail Voltage

Monitor Input. High-

impedance input for

internal power-fail monitor

comparator. Connect PFI

to an external resistor-

divider network to set

the power-fail threshold

voltage (0.626V typical

internal reference voltage).

Connect to GND, VCC1, or

VCC2 if not used.

— — — — — — — 4 PFO

Active-Low Power-Fail

Monitor Output, Open-

Drain or Push-Pull. PFO

is asserted low when PFI

is less than 0.626V. PFO

deasserts without a reset

timeout period. Open-drain

outputs require an external

pullup resistor. Push-pull

outputs are referenced to

VCC1.

— — — — — 4 — — RST

Active-High Reset Output,

Open-Drain or Push-Pull.

RST changes from low to

high when VCC1 or VCC2

drops below selected

reset thresholds, RSTIN

is below threshold, MR

is pulled low, or the

watchdog triggers a reset.

RST remains HIGH for

the reset timeout period

after VCC1/VCC2/RSTIN

exceed the device reset

thresholds, MR goes low

to high, or the watchdog

triggers a reset. Open-

drain outputs require an

external pullup resistor.

Push-pull outputs are

referenced to VCC1.

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Pin Description (continued)

Detailed Description

Supply Voltages

The MAX6715A–MAX6729A/MAX6797A μP supervisory

circuits maintain system integrity by alerting the μP to

fault conditions. These ICs are optimized for systems that

monitor two or three supply voltages. The output reset

state is guaranteed to remain valid while either VCC1 or

VCC2 is above 0.8V.

Threshold Levels

Input-voltage threshold level combinations are indicated

by a two-letter code in the Reset Voltage Threshold Suffix

Guide (Table 1). Contact factory for availability of other

voltage threshold combinations.

Reset Outputs

The MAX6715A–MAX6729A/MAX6797A provide an

active-low reset output (RST) and the MAX6725A/

MAX6726A also provide an active-high (RST) output.

RST, RST, RST1, and RST2 are asserted when the

voltage at either VCC1 or VCC2 falls below the voltage

threshold level, RSTIN drops below threshold, or MR is

pulled low. Once reset is asserted, it stays low for the

reset timeout period (see Table 2). If VCC1, VCC2, or

RSTIN goes below the reset threshold before the reset

timeout period is completed, the internal timer restarts.

The MAX6715A/MAX6717A/MAX6719A/MAX6721A/

MAX6723A/MAX6725A/MAX6727A/MAX6728A con-

tain open-drain reset outputs, while the MAX6716A/

MAX6718A/MAX6720A/MAX6722A/MAX6724A/

MAX6726A/MAX6729A/MAX6797A contain push-pull

reset outputs. The MAX6727A provides two separate

open-drain RST outputs driven by the same internal logic.

Manual-Reset Input

Many μP-based products require manual-reset capability,

allowing the operator, a test technician, or external logic

circuitry to initiate a reset. A logic-low on MR asserts the

reset output. Reset remains asserted while MR is low for

the reset timeout period (tRP) after MR returns high. This

input has an internal 50kΩ pullup resistor to VCC1 and

can be left unconnected if not used. MR can be driven

with CMOS logic levels, or with open-drain/collector out-

puts. Connect a normally open momentary switch from

MR to GND to create a manual-reset function; external

debounce circuitry is not required. If MR is driven from

long cables or if the device is used in a noisy environment,

connect a 0.1μF capacitor from MR to GND to provide

additional noise immunity.

Adjustable Input Voltage

The MAX6719A/MAX6720A and MAX6723A–MAX6727A

provide an additional input to monitor a third system volt-

age. The threshold voltage at RSTIN is typically 626mV.

Connect a resistor-divider network to the circuit as shown

in Figure 1 to establish an externally controlled threshold

voltage, VEXT_TH.

VEXT_TH = 626mV((R1 + R2)/R2)

Low-leakage current at RSTIN allows the use of large-

valued resistors resulting in reduced power consumption

of the system.

Watchdog Input

The watchdog monitors μP activity through the watchdog

input (WDI). To use the watchdog function, connect WDI

to a bus line or μP I/O line. When WDI remains high or

low for longer than the watchdog timeout period, the reset

output asserts.

The MAX6721A–MAX6729A/MAX6797A include a dual-

mode watchdog timer to monitor μP activity. The flexible

timeout architecture provides a long period initial watch-

dog mode, allowing complicated systems to complete

lengthy boots, and a short period normal watchdog mode,

allowing the supervisor to provide quick alerts when pro-

cessor activity fails. After each reset event (VCC power-

up/brownout, manual reset, or watchdog reset), there is

a long initial watchdog period of 35s minimum. The long

watchdog period mode provides an extended time for the

system to power-up and fully initialize all μP and system

components before assuming responsibility for routine

watchdog updates.

Figure 1. Monitoring a Third Voltage

VEXT_TH

RSTIN

GND

MAX6719A/

MAX6720A/

MAX6723A–

MAX6727A

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

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│

The normal watchdog timeout period (1.12s min) begins

after the first transition on WDI before the conclusion of

the long initial watchdog period (Figure 2). During the

normal operating mode, the supervisor will issue a reset

pulse for the reset timeout period if the μP does not

update the WDI with a valid transition (high-to-low or low-

to-high) within the standard timeout period (1.12s min).

Leave WDI unconnected to disable the watchdog timer.

The WDI unconnected-state detector uses a small (200nA

typ) current source. Therefore, do not connect WDI to

anything that will source more than 50nA.

Power-Fail Comparator

PFI is the noninverting input to a comparator. If PFI is less

than VPFI (626.5mV), PFO goes low. Common uses for

the power-fail comparator include monitoring preregulated

input of the power supply (such as a battery) or providing

an early power-fail warning so software can conduct an

orderly system shutdown. It can also be used to monitor

supplies other than VCC1 or VCC2 by setting the power-

fail threshold with a resistor-divider, as shown in Figure 3.

PFI is the input to the power-fail comparator. The typical

comparator delay is 2μs from PFI to PFO. Connect PFI to

ground of VCC1 if unused.

Ensuring a Valid Reset Output

Down to VCC = 0V

The MAX6715A–MAX6729A/MAX6797A are guaranteed

to operate properly down to VCC = 0.8V. In applica-

tions that require valid reset levels down to VCC = 0V,

use a pulldown resistor at RST to ground. The resistor

value used is not critical, but it must be large enough

not to load the reset output when VCC is above the reset

threshold. For most applications, 100kΩ is adequate. This

configuration does not work for the open-drain outputs

of the MAX6715A/MAX6717A/MAX6719A/MAX6721A/

MAX6723A/MAX6725A/MAX6727A/MAX6728A. For

push-pull, active-high RST output connect the external

resistor as a pullup from RST to VCC1.

Figure 2. Normal Watchdog Startup Sequence Figure 3. Using Power-Fail Input to Monitor an Additional

Power-Supply a) VIN is Positive b) VIN is Negative

1.12s MAX

tWDI-NORMAL

1.12s MAX

tWDI-STARTUP

35s MAX

VTH

VCC

WDI

RST tRP

PFI

GND

VIN

PFO

VTRIP = VPFI R1 + R2

( )

PFI

GND

VCC

VIN

PFO VTRIP = R2 (VPFI) 1

+ - VCC

[ ]

( )

VPFI = 626.5mV

MAX6728A/

MAX6729A/

MAX6797A

MAX6728A/

MAX6729A/

MAX6797A

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

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│

Applications Information

Interfacing to μPs with Bidirectional

Reset Pins

Most μPs with bidirectional reset pins can interface directly

to open-drain RST output options. Systems simultane-

ously requiring a push-pull RST output and a bidirectional

reset interface can be in logic contention. To prevent con-

tention, connect a 4.7kΩ resistor between RST and the

μP’s reset I/O port, as shown in Figure 4.

Adding Hysteresis to the Power-Fail

Comparator

The power-fail comparator has a typical input hysteresis

of 3mV. This is sufficient for most applications where a

power-supply line is being monitored through an external

voltage-divider (see the Power-Fail Comparator section).

If additional noise margin is desired, connect a resistor

between PFO and PFI as shown in Figure 5. Select the

values of R1, R2, and R3 so PFI sees VPFI (626mV)

when VEXT falls to its power-fail trip point (VFAIL) and

when VIN rises to its power-good trip point (VGOOD). The

hysteresis window extends between the specified VFAIL

and VGOOD thresholds. R3 adds the additional hysteresis

by sinking current from the R1/R2 divider network when

PFO is logic-low and sourcing current into the network

when PFO is logic-high. R3 is typically an order of magni-

tude greater than R1 or R2.

The current through R2 should be at least 2.5μA to ensure

that the 100nA (max) PFI input current does not signifi-

cantly shift the trip points. Therefore, R2 < VPFI/10μA <

62kΩ for most applications. R3 will provide additional

hysteresis for PFO push-pull (VOH = VCC1) or open-drain

(VOH = VPULLUP) applications.

Monitoring an Additional Power Supply

These μP supervisors can monitor either positive or nega-

tive supplies using a resistor voltage-divider to PFI. PFO

can be used to generate an interrupt to the μP or cause

reset to assert (Figure 3).

Monitoring a Negative Voltage

The power-fail comparator can be used to monitor a neg-

ative supply voltage using the circuit shown in Figure 3.

When the negative supply is valid, PFO is low. When the

negative supply voltage drops, PFO goes high. The cir-

cuit’s accuracy is affected by the PFI threshold tolerance,

VCC, R1, and R2.

Negative-Going VCC Transients

The MAX6715A–MAX6729A/MAX6797A supervisors are

relatively immune to short-duration negative-going VCC

transients (glitches). It is usually undesirable to reset

the μP when VCC experiences only small glitches.

The Typical Operating Characteristics show Maximum

Transient Duration vs. Reset Threshold Overdrive, for

which reset pulses are not generated. The graph was

produced using negative-going VCC pulses, starting

above VTH and ending below the reset threshold by the

Figure 4. Interfacing to μPs with Bidirectional Reset I/O Figure 5. Adding Hysteresis to Power-Fail for Push-Pull PFO

GND GND

VCC1 VCC2

VCC2

VCC1

RST

RESET TO OTHER SYSTEM COMPONENTS

RESET

µP

4.7kΩ

MAX6715A–

MAX6729A/

MAX6797A

VEXT

PFI

GND

PFO

VGOOD = DESIRED VEXT GOOD VOLTAGE THRESHOLD

VFAIL = DESIRED VEXT FAIL VOLTAGE THRESHOLD

VOH = VCC1 (FOR PUSH-PULL PFO)

R2 = 50kΩ (FOR > 10µA R2 CURRENT)

R1 = R2 ((VGOOD - VPFI) - (VPFI)(VGOOD - VFAIL)/VOH)/VPFI

R3 = (R1 x VOH)/(VGOOD - VFAIL)

VGOOD

VFAIL

VIN

PFO

MAX6729A

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

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│

magnitude indicated (reset threshold overdrive). The

graph shows the maximum pulse width that a negative-

going VCC transient may typically have without causing a

reset pulse to be issued. As the amplitude of the transient

increases (i.e., goes farther below the reset threshold),

the maximum allowable pulse width decreases. A 0.1μF

bypass capacitor mounted close to the VCC pin provides

additional transient immunity.

Watchdog Software Considerations

Setting and resetting the watchdog input at different points

in the program, rather than “pulsing” the watchdog input

high-low-high or low-high-low, helps the watchdog timer to

closely monitor software execution. This technique avoids

a “stuck” loop where the watchdog timer continues to be

reset within the loop, keeping the watchdog from timing

out. Figure 6 shows an example flow diagram where the

I/O driving the watchdog input is set high at the begin-

ning of the program, set low at the beginning of every

subroutine or loop, then set high again when the program

returns to the beginning. If the program should “hang”

in any subroutine, the I/O is continually set low and the

watchdog timer is allowed to time out, causing a reset or

interrupt to be issued. Figure 6. Watchdog Flow Diagram

START

SET WDI

HIGH

PROGRAM

CODE

SUBROUTINE OR

PROGRAM LOOP

SET WDI LOW

RETURN

SUBROUTINE

COMPLETED

HANG IN

SUBROUTINE

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

VCC1

VREF

VCC2

RSTIN/PFI

VREF VCC1

VCC1

RESET

TIMEOUT

PERIOD

VCC2

RST

PFO

WATCHDOG

TIMER WDI

VCC1

PULLUP

RESET

OUTPUT

DRIVER

VREF/2

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

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│

Functional Diagram

Note: The first “_ _” are placeholders for the threshold voltage

levels of the devices. Desired threshold levels are set by the part

number suffix found in the Reset Voltage Threshold Suffix Guide.

The “_” after the D is a placeholder for the reset timeout delay

time. Desired delay time is set using the timeout period suffix

found in the Reset Timeout Period Suffix Guide. For example,

the MAX6716AUTLTD3-T is a dual-voltage supervisor VTH1 =

4.625V, VTH2 = 3.075V, and 210ms (typ) timeout period.

+Denotes a lead(Pb)-free/RoHS-compliant package.

T = Tape and reel.

PART

NUMBER

NUMBER OF

VOLTAGE

MONITORS

OPEN-

DRAIN

RESET

OPEN-

DRAIN

RESET

PUSH-

PULL

RESET

PUSH-

PULL

RESET

MANUAL

RESET

WATCH-

DOG

INPUT

POWER-FAIL

INPUT/

OUTPUT

MAX6715A 2 2 — — — √— —

MAX6716A 2 — — 2 — √— —

MAX6717A 2 1 — — — √— —

MAX6718A 2 — — 1 — √— —

MAX6719A 31 — — — √— —

MAX6720A 3 — — 1 — √— —

MAX6721A 2 1 — — — √ √ —

MAX6722A 2 — — 1 — √ √ —

MAX6723A 3 1 ———— √—

MAX6724A 3— — 1 — — √—

MAX6725A 31 1 — — √ √ —

MAX6726A 3— — 1 1 √ √ —

MAX6727A 32 — — — √ √ —

MAX6728A 2 1 — — — √ √ √ (open drain)

MAX6729A 2 — — 1 — √ √ √ (push-pull)

MAX6797A 2 — — 1 — √ √ √ (open drain)

PART TEMP RANGE PIN-

PACKAGE

MAX6720AUT_ _D_+T -40°C to +125°C 6 SOT23

MAX6721AUT_ _D_+T -40°C to +125°C 6 SOT23

MAX6722AUT_ _D_+T -40°C to +125°C 6 SOT23

MAX6723AUT_ _D_+T -40°C to +125°C 6 SOT23

MAX6724AUT_ _D_+T -40°C to +125°C 6 SOT23

MAX6725AKA_ _D_+T -40°C to +125°C 8 SOT23

MAX6726AKA_ _D_+T -40°C to +125°C 8 SOT23

MAX6727AKA_ _D_+T -40°C to +125°C 8 SOT23

MAX6728AKA_ _D_+T -40°C to +125°C 8 SOT23

MAX6729AKA_ _D_+T -40°C to +125°C 8 SOT23

MAX6797AKA_ _D_+T -40°C to +125°C 8 SOT23

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Selector Guide

Ordering Information (continued)

Table 1. Reset Voltage Threshold Suffix

Guide**

Table 2. Reset Timeout Period Suffix

Guide

†D7 and D8 timeout periods are only available for the MAX6797A.

Note: Standard versions are shown in bold and are available in

a D3 timeout option only. Standard versions require 2500-piece-

order increments and are typically held in sample stock. There is a

10,000 order increment on nonstandard versions. Other thresh-

old voltages may be available; contact factory for availability.

PART NUMBER

SUFFIX

(_ _)

VCC1 NOMINAL

VOLTAGE

THRESHOLD (V)

VCC2 NOMINAL

VOLTAGE

THRESHOLD (V)

LT 4.625 3.075

MS 4.375 2.925

MR 4.375 2.625

TZ 3.075 2.313

SY 2.925 2.188

RY 2.625 2.188

TW 3.075 1.665

SV 2.925 1.575

RV 2.625 1.575

TI 3.075 1.388

SH 2.925 1.313

RH 2.625 1.313

TG 3.075 1.110

SF 2.925 1.050

RF 2.625 1.050

TE 3.075 0.833

SD 2.925 0.788

RD 2.625 0.788

ZW 2.313 1.665

YV 2.188 1.575

ZI 2.313 1.388

YH 2.188 1.313

ZG 2.313 1.110

YF 2.188 1.050

ZE 2.313 0.833

YD 2.188 0.788

WI 1.665 1.388

VH 1.575 1.313

WG 1.665 1.110

VF 1.575 1.050

WE 1.665 0.833

VD 1.575 0.788

TIMEOUT

PERIOD SUFFIX

ACTIVE TIMEOUT PERIOD

MIN (ms) MAX (ms)

D1 1.1 2.2

D2 8.8 17.6

D7†17.5 35.0

D8†35.0 70.0

D3 140 280

D5 280 560

D6 560 1120

D4 1120 2240

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

PACKAGE

TYPE

PACKAGE

CODE

OUTLINE

NO.

LAND

PATTERN NO.

5 SOT23 U5+1 21-0057 90-0174

6 SOT23 U6+1 21-0058 90-0175

8 SOT23 K8SN+1 21-0078 90-0176

GND

VCC2

6 VCC1

SOT23

TOP VIEW

3 4

RST1

RST2

GND

VCC2

1 6 VCC1

SOT23

3 4

RST

WDI GND

VCC2

1 6 VCC1

SOT23

3 4

RST

WDI

RSTIN

5 RSTINGND

VCC2

1 5 VCC1

SOT23

3 4

RST

GND

VCC2

1 6 VCC1

SOT23

3 4

RST

VCC2

MRRST

VCC1

RSTINGND

WDI

RST

SOT23

VCC2

VCC1

RSTINGND

WDI

RST

SOT23

RST

VCC2

VCC1

PFIGND

WDI

RST

SOT23

PFO

MAX6715A/

MAX6716A

MAX6721A/

MAX6722A

MAX6723A/

MAX6724A

MAX6717A/

MAX6718A

MAX6719A/

MAX6720A

MAX6725A/

MAX6726A

MAX6727A MAX6728A/

MAX6729A/

MAX6797A

+ +

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

www.maximintegrated.com Maxim Integrated

│

Pin Congurations

Chip Information

PROCESS: BiCMOS

Package Information

For the latest package outline information and land patterns

(footprints), go to www.maximintegrated.com/packages. Note

that a “+”, “#”, or “-” in the package code indicates RoHS status

only. Package drawings may show a different suffix character, but

the drawing pertains to the package regardless of RoHS status.

REVISION

NUMBER

REVISION

DATE DESCRIPTION PAGES

CHANGED

0 4/06 Initial release —

17/06 Updated Ordering Information 1, 15

26/08

Added the MAX6797A to Ordering Information, Electrical Characteristics, Pin

Description, Detailed Description, Figures 4 and 5, Selector Guide, Table 2,

Pin Congurations

1, 2, 6–11, 12, 15–17

3 9/08 Updated Selector Guide 15

43/14 Added automotive part to the Ordering Information table 1

Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses

are implied. Maxim Integrated reserves the right to change the circuitry and specications without notice at any time. The parametric values (min and max limits)

shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.

Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc.

MAX6715A–MAX6729A/

MAX6797A

Dual/Triple, Ultra-Low-Voltage, SOT23 μP

Supervisory Circuits

│

Revision History

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MAX6726AKAZWD2+T MAX6726AKAZWD3+T MAX6726AKAZWD5+T MAX6726AKAZWD6+T

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MAX6727AKARDD3+T MAX6727AKARDD5+T MAX6727AKARDD6+T MAX6727AKARFD1+T MAX6727AKARFD2+T

MAX6727AKARFD3+T MAX6727AKARFD5+T MAX6727AKARFD6+T MAX6727AKARHD1+T

MAX6727AKARHD2+T MAX6727AKARHD3+T MAX6727AKARHD5+T MAX6727AKARHD6+T

MAX6727AKARVD1+T MAX6727AKARVD2+T MAX6727AKARVD3+T MAX6727AKARVD5+T MAX6727AKARVD6+T

MAX6727AKARYD1+T MAX6727AKARYD2+T MAX6727AKARYD3+T MAX6727AKARYD5+T

MAX6727AKARYD6+T MAX6727AKASDD1+T MAX6727AKASDD2+T MAX6727AKASDD3+T MAX6727AKASDD5+T

MAX6727AKASDD6+T MAX6727AKASFD1+T MAX6727AKASFD2+T MAX6727AKASFD3+T

MAX6727AKASFD5+T MAX6727AKASFD6+T MAX6727AKASHD1+T MAX6727AKASHD2+T MAX6727AKASHD3+T

MAX6727AKASHD5+T MAX6727AKASHD6+T MAX6727AKASVD1+T MAX6727AKASVD2+T

MAX6727AKASVD3+T MAX6727AKASVD5+T MAX6727AKASVD6+T MAX6727AKASYD1+T MAX6727AKASYD2+T

MAX6727AKASYD3+T MAX6727AKASYD5+T MAX6727AKASYD6+T MAX6727AKATED1+T

MAX6727AKATED2+T MAX6727AKATED3+T MAX6727AKATED5+T MAX6727AKATED6+T MAX6727AKATGD1+T

MAX6727AKATGD2+T MAX6727AKATGD3+T MAX6727AKATGD5+T MAX6727AKATGD6+T

MAX6727AKATID1+T MAX6727AKATID2+T MAX6727AKATID3+T MAX6727AKATID5+T MAX6727AKATID6+T

MAX6727AKATWD1+T MAX6727AKATWD2+T MAX6727AKATWD3+T MAX6727AKATWD5+T

MAX6727AKATWD6+T MAX6727AKATZD1+T MAX6727AKATZD2+T MAX6727AKATZD3+T MAX6727AKATZD5+T

MAX6727AKATZD6+T MAX6727AKAVDD1+T MAX6727AKAVDD2+T MAX6727AKAVDD3+T

MAX6727AKAVDD5+T MAX6727AKAVDD6+T MAX6727AKAVFD1+T