MAX6460UT-T Maxim Integrated, MAX6460UT-T Datasheet - Page 10

MAX6460UT-T

Manufacturer Part Number

MAX6460UT-T

Description

Supervisory Circuits

Manufacturer

Maxim Integrated

Series

MAX6457, MAX6458, MAX6459, MAX6460r

Datasheet

1.MAX6460UT-T.pdf (15 pages)

Specifications of MAX6460UT-T

Number Of Voltages Monitored

Monitored Voltage

4 V to 28 V

Manual Reset

Not Resettable

Watchdog

No Watchdog

Supply Voltage - Max

28 V

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Package / Case

SOT-23

Maximum Power Dissipation

696 mW

Minimum Operating Temperature

- 40 C

Supply Current (typ)

6.5 uA

Supply Voltage - Min

4 V

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Figure 8 shows the typical application circuit for detecting

an undervoltage event of a 5-cell Li+ battery stack.

Connect OUT of the MAX6457/MAX6458/MAX6460

(OUTA of the MAX6459) to the shutdown input of the DC-

DC converter to cut off power to the load in case of an

undervoltage event. Select R1 and R2 to set the trip volt-

age (see the Programming the Trip Voltage (V

tion). When the voltage of the battery stack decreases so

that V

then OUT (OUTA) goes low and disables the power sup-

ply to the load. When the battery charger restores the volt-

age of the 5-cell stack so that V

goes high and the power supply resumes driving the load.

The MAX6457–MAX6460 are ideal for overvoltage shut-

down applications. Figure 9 shows a typical circuit for

this application using a pass P-channel MOSFET. The

MAX6457–MAX6460 are powered directly from the sys-

tem voltage supply. Select R1 and R2 to set the trip volt-

age (see the Programming the Trip Voltage (V

section). When the supply voltage remains below the

selected threshold, a low logic level on OUT (OUTB for

MAX6459) turns on the p-channel MOSFET. In the case

of an overvoltage event, OUT (OUTB) asserts high, turns

off the MOSFET, and shuts down the power to the load.

Figure 10 shows a similar application using a fuse and

a silicon-controlled rectifier (SCR). An overvoltage

event turns on the SCR and shorts the supply to

ground. The surge of current through the short circuit

blows the fuse and terminates the current to the load.

Select R3 so that the gate of the SCR is properly biased

when OUT (OUTB) goes high impedance.

High-Voltage, Low-Current Voltage Monitors in

SOT Packages

MAX6457–MAX6460

Figure 9. Overvoltage Shutdown Circuit (with External Pass

MOSFET)

SUPPLY

100kΩ

1µF

+ drops below V

Applications Information

IN+

CLEAR

MAX6457–

MAX6460

Overvoltage Shutdown

GND

Undervoltage Lockout

- of the MAX6457–MAX6460,

(OUTA FOR

MAX6459)

OUT

+ > V

PULLUP

+, OUT (OUTA)

TRIP

LOAD

) sec-

TRIP

)

The MAX6458/MAX6459 include undervoltage and

overvoltage comparators for window detection (Figures

2 and 3). The circuit in Figure 11 shows the typical con-

figuration for this application. For the MAX6458, OUT

asserts high when V

When V

OUT asserts low.

The MAX6459 features two independent open-drain

outputs: OUTA (for undervoltage events) and OUTB (for

overvoltage events). When V

window, OUTA and OUTB assert high. When V

below V

Figure 10. Overvoltage Shutdown Circuit (with SCR Fuse)

Figure 11. Window Detection

TRIPLOW

SUPPLY

TRIPLOW

FUSE

) or exceeds the upper limit (V

falls below the lower limit of the window

IN+

IN-

IN+

, OUTA asserts low while OUTB

MAX6458

MAX6459

GND

MAX6457–

MAX6460

is within the selected “window.”

GND

MAX6458

MAX6459

(OUTA FOR

MAX6459)

OUTA

OUTB

ONLY

OUT

Window Detection

is within the selected

PULLUP

OUT

Maxim Integrated

SCR

TRIPHIGH

PULLUP

LOAD

OUTA

OUTB

falls

MAX6460UT-T Maxim Integrated, MAX6460UT-T Datasheet - Page 10

MAX6460UT-T

Specifications of MAX6460UT-T

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