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MAX6340/MAX6421–

MAX6426

Low-Power, SC70/SOT µP Reset Circuits

with Capacitor-Adjustable Reset Timeout Delay

General Description

The MAX6340/MAX6421–MAX6426 low-power micropro-

cessor supervisor circuits monitor system voltages from

1.6V to 5V. These devices perform a single function: they

assert a reset signal whenever the V

supply voltage

falls below its reset threshold. The reset output remains

asserted for the reset timeout period after V

rises

above the reset threshold. The reset timeout is externally

set by a capacitor to provide more flexibility.

The MAX6421/MAX6424 have an active-low, push-

pull reset output. The MAX6422 has an active-high, push-

pull reset output and the MAX6340/MAX6423/ MAX6425/

MAX6426 have an active-low, open-drain reset output.

The MAX6421/MAX6422/MAX6423 are offered in 4-pin

SC70 or SOT143 packages. The MAX6340/MAX6424/

MAX6425/MAX6426 are available in 5-pin SOT23-5

packages.

Benefits and Features

●

Monitor System Voltages from 1.6V to 5V

●

Capacitor-Adjustable Reset Timeout Period

●

Low Quiescent Current (1.6µA typ)

●

Three RESET Output Options

Push-Pull

RESET

Push-Pull RESET

Open-Drain

RESET

●

Guaranteed Reset Valid to V

= 1V

●

Immune to Short V

Transients

●

Small 4-Pin SC70, 4-Pin SOT143, and 5-Pin SOT23

Packages

●

MAX6340 Pin Compatible with LP3470

●

MAX6424/MAX6425 Pin Compatible with

NCP300–NCP303, MC33464/MC33465,

S807/S808/S809, and RN5VD

●

MAX6426 Pin Compatible with PST92XX

●

AEC-Q100 Qualified (MAX6340UK31/V+T)

Typical Operating Circuit, Selector Guide,

and

Ordering

Information

appear at end of data sheet.

Applications

●

Portable Equipment

Battery-Powered Computers/Controllers

Automotive

Medical Equipment

Intelligent Instruments

Embedded Controllers

Critical µP Monitoring

Set-Top Boxes

Computers

Pin Configurations

TOP VIEW

RESET

(RESET)

SRT

MAX6421X

MAX6422X

MAX6423X

GND 2

SC70

( ) ARE FOR THE MAX6422

Pin Configurations continued at end of data sheet.

19-2440; Rev 10; 5/18

MAX6340/MAX6421–

MAX6426

Absolute Maximum Ratings

Low-Power, SC70/SOT µP Reset Circuits

with Capacitor-Adjustable Reset Timeout Delay

All Voltages Referenced to GND

.......................................................................-0.3V to +6.0V

SRT,

RESET,

RESET (push-pull)............. -0.3V to (V

+ 0.3V)

RESET

(open drain) .............................................-0.3V to +6.0V

Input Current (all pins)......................................................±20mA

Output Current (RESET, RESET) ....................................±20mA

Continuous Power Dissipation (T

= +70°C)

4-Pin SC70 (derate 3.1mW/°C above +70°C) .............245mW

4-Pin SOT143 (derate 4mW/°C above +70°C) ...........320mW

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

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

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

PARAMETER

Supply Voltage Range

Supply Current

= 1V to 5.5V, T

= T

MIN

to T

MAX

, unless otherwise specified. Typical values are at V

= 5V and T

= +25°C.) (Note 1)

SYMBOL

HYST

RAMP

VTH-RAMP

CONDITIONS

≤ 5.0V

≤ 3.3V

≤ 2.0V

= +25°C

MIN

1.0

TYP

2.5

1.9

1.6

MAX

5.5

4.2

3.4

2.5

+ 1.5%

+ 2.5%

UNITS

µA

Reset Threshold Accuracy

Hysteresis

to Reset Delay

Reset Timeout Period

SRT

Ramp Current

SRT

Ramp Threshold

= -40°C to +125°C

falling at 1mV/µs

SRT

= 1500pF

SRT

= 0

- 1.5%

- 2.5%

µs

4 x V

4.375

0.275

240

0.65

3.00

5.75

T = 0 to 0.65V; V

= 1.6V to 5V

= 1.6V to 5V (V

RAMP

rising)

RAMP

falling threshold

≥ 1.0V, I

SINK

= 50µA

RAMP Threshold Hysteresis

RESET

Output Voltage Low

0.3

0.4

0.8 x V

1.0

0.8 x V

0.3

0.4

µA

≥ 2.7V, I

SINK

= 1.2mA

≥ 4.5V, I

SINK

= 3.2mA

≥ 1.8V, I

SOURCE

= 200µA

≥ 4.5V, I

SOURCE

= 800µA

> V

, reset not asserted

≥ 1.0V, I

SOURCE

= 1µA

≥ 1.8V, I

SOURCE

= 150µA

≥ 2.7V, I

SOURCE

= 500µA

≥ 4.5V, I

SOURCE

= 800µA

≥ 1.8V, I

SINK

= 500µA

≥ 2.7V, I

SINK

= 1.2mA

≥ 4.5V, I

SINK

= 3.2mA

RESET

Output Voltage High,

Push-Pull

RESET

Output Leakage Current,

Open-Drain

LKG

≥ 2.25V, I

SOURCE

= 500µA

RESET Output Voltage High

RESET Output Voltage Low

Note 1:

Devices production tested at +25°C. Overtemperature limits are guaranteed by design.

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Maxim Integrated

│

MAX6340/MAX6421–

MAX6426

Typical Operating Characteristics

Low-Power, SC70/SOT µP Reset Circuits

with Capacitor-Adjustable Reset Timeout Delay

= 5V, C

SRT

= 1500pF, T

= +25°C, unless otherwise noted.)

SUPPLY CURRENT

vs. SUPPLY VOLTAGE

MAX6421/26 toc01

MAX6421/26 toc02

RESET TIMEOUT PERIOD (ms)

SUPPLY CURRENT (µA)

3.0

2.5

2.0

1.5

1.0

0.5

= +25°C

= -40°C

1000

100

0.1

0.001

RESET TIMEOUT PERIOD (ms)

3.5

= +125°C

SRT

= 1500pF

4.25

4.20

4.15

0.01

0.1

SRT

(nF)

100

1000

4.10

-50

-25

100

125

SUPPLY VOLTAGE (V)

TEMPERATURE (°C)

MAX6421/26 toc04

MAX6421/26 toc05

550

RESET TIMEOUT PERIOD (µs)

500

450

400

350

300

250

200

-50

-25

SRT

= 0

150

TRANSIENT DURATION (s)

125

100

= 2.95V

200

400

600

800

RESET OCCURS

ABOVE THE CURVE

150

TO RESET DELAY Sµs)

140

130

120

110

100

FALLING AT 1mVs

100

125

1000

-50

-25

TEMPERATURE (°C)

RESET THRESHOLD OVERDRIVE (mV)

TEMPERATURE (°C)

100

125

POWER-UP/POWER-DOWN

CHARACTERISTIC

MAX6421/26 toc07

NORMALIZED RESET THRESHOLD

vs. TEMPERATURE

NORMALIZED RESET THRESHOLD

MAX6421/26 toc08

= 1.6V

1.006

1.004

1.002

1.000

0.998

0.996

0.994

1V/div

RESET

400s/div

-50

-25

100

125

TEMPERATURE (°C)

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MAX6421/26 toc06

600

RESET TIMEOUT PERIOD

vs. TEMPERATURE

175

MAXIMUM TRANSIENT DURATION

vs. RESET THRESHOLD OVERDRIVE

160

TO RESET DELAY

vs. TEMPERATURE (V

FALLING)

MAX6421/26 toc03

4.0

10,000

RESET TIMEOUT PERIOD vs. C

SRT

4.30

RESET TIMEOUT PERIOD

vs. TEMPERATURE

MAX6340/MAX6421–

MAX6426

Pin Description

MAX6340

SOT23

MAX6421

MAX6422

MAX6423

SOT143

SC70

MAX6424

MAX6425

SOT23

Low-Power, SC70/SOT µP Reset Circuits

with Capacitor-Adjustable Reset Timeout Delay

MAX6426

SOT23

NAME

FUNCTION

SRT

Set Reset Timeout Input. Connect a capacitor between

SRT and ground to set the timeout period. Determine the

period as follows: tRP = 2.73 × 10

× C

SRT

+ 275µs with

in seconds and C

SRT

in farads

Ground

Not Internally Connected. Can be connected to GND

Supply Voltage and Reset Threshold Monitor Input

RESET

changes from high to low whenever V

drops

below the selected reset threshold voltage.

RESET

remains low for the reset timeout period after V

exceeds

the reset threshold

RESET changes from low to high whenever V

drops

below the selected reset threshold voltage. RESET

remains high for the reset timeout period after V

exceeds the reset threshold

—

2, 3

—

GND

N.C.

RESET

—

RESET

Detailed Description

Reset Output

The reset output is typically connected to the reset input of

a µP. A µP’s reset input starts or restarts the µP in a known

state. The MAX6340/MAX6421–MAX6426 µP superviso-

ry circuits provide the reset logic to prevent code-execu-

tion errors during power-up, power-down, and brownout

conditions (see

Typical Operating Characteristics).

RESET

changes from high to low whenever V

drops

below the threshold voltage. Once V

exceeds the

threshold voltage,

RESET

remains low for the capaci-

tor-adjustable reset timeout period.

The MAX6422 active-high RESET output is the inverse

logic of the active-low

RESET

output. All device outputs

are guaranteed valid for V

> 1V.

The MAX6340/MAX6423/MAX6425/MAX6426 are open-

drain

RESET

outputs. Connect an external pullup resistor

to any supply from 0 to 5.5V. Select a resistor value large

enough to register a logic low when

RESET

is asserted

and small enough to register a logic high while supply-

ing all input current and leakage paths connected to the

RESET

line. A 10kΩ to 100kΩ pullup is sufficient in most

applications.

SRT

RESET

TIMEOUT

LASER-TRIMMED

RESISTORS

3.3V

5.0V

REF

10kΩ

RESET

SYSTEM

MAX6340

MAX6423

MAX6425

MAX6426

GND

Figure 1. MAX6340/MAX6423/MAX6425/MAX6426 Open-Drain

RESET

Output Allows Use with Multiple Supplies

Selecting a Reset Capacitor

The reset timeout period is adjustable to accommodate

a variety of µP applications. Adjust the reset timeout

period (t

) by connecting a capacitor (C

SRT

) between

SRT and ground. Calculate the reset timeout capacitor

as follows:

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Maxim Integrated

│

MAX6340/MAX6421–

MAX6426

SRT

= (t

- 275µs) / (2.73 5 10

)

Low-Power, SC70/SOT µP Reset Circuits

with Capacitor-Adjustable Reset Timeout Delay

Applications Information

Interfacing to Other Voltages for Logic

Compatibility

The open-drain outputs of the MAX6340/MAX6423/

MAX6425/MAX6426 can be used to interface to µPs with

other logic levels. As shown in Figure 1, the open-drain

output can be connected to voltages from 0 to 5.5V. This

allows for easy logic compatibility to various µPs.

where t

is in seconds and C

SRT

is in farads.

The reset delay time is set by a current/capacitor-con-

trolled ramp compared to an internal 0.65V reference. An

internal 240nA ramp current source charges the external

capacitor. The charge to the capacitor is cleared when a

reset condition is detected. Once the reset condition is

removed, the voltage on the capacitor ramps according to

the formula: dV/dt = I/C. The C

SRT

capacitor must ramp to

0.65V to deassert the reset. C

SRT

must be a low-leakage

(<10nA) type capacitor; ceramic is recommended.

Wired-OR Reset

Operating as a Voltage Detector

The MAX6340/MAX6421–MAX6426 can be operated in

a voltage detector mode by floating the SRT pin. The

reset delay times for V

rising above or falling below the

threshold are not significantly different. The reset output

is deasserted smoothly without false pulses.

To allow auxiliary circuitry to hold the system in reset,

an external open-drain logic signal can be connected

to the open-drain

RESET

of the MAX6340/MAX6423/

MAX6425/MAX6426, as shown in Figure 2. This config-

uration can reset the µP, but does not provide the reset

timeout when the external logic signal is released.

Negative-Going V

Transients

In addition to issuing a reset to the µP during power-up,

power-down, and brownout conditions, these supervisors

are relatively immune to short-duration negative-go-

ing transients (glitches). The graph Maximum Transient

Duration vs. Reset Threshold Overdrive in the

Typical

Operating Characteristics

shows this relationship.

The area below the curve of the graph is the region in

which these devices typically do not generate a reset

pulse. This graph was generated using a negative-going

pulse applied to V

, starting above the actual reset

threshold (V

) and ending below it by the magnitude

indicated (reset-threshold overdrive). As the magnitude of

the transient decreases (farther below the reset thresh-

old), the maximum allowable pulse width decreases.

Typically, a V

transient that goes 100mV below the

reset threshold and lasts 50µs or less does not cause a

reset pulse to be issued.

MAX6340

MAX6423

MAX6425

MAX6426

RESET

GND

10kΩ

µP

RESET

OPEN-DRAIN

LOGIC

Ensuring a Valid RESET or

RESET

Down to V

= 0

Figure 2. Wired-OR Reset Circuit

When V

falls below 1V,

RESET/RESET

current-sinking

(sourcing) capabilities decline drastically. In the case of

the MAX6421/MAX6424, high-impedance CMOS-logic

inputs connected to

RESET

can drift to undetermined

voltages. This presents no problems in most applications,

since most µPs and other circuitry do not operate with

below 1V.

In those applications where

RESET

must be valid down

to zero, adding a pulldown resistor between

RESET

and ground sinks any stray leakage currents, holding

RESET

low (Figure 3). The value of the pulldown resis-

tor is not critical; 100kΩ is large enough not to load

RESET

and small enough to pull

RESET

to ground. For

applications using the MAX6422, a 100kΩ pullup resis-

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