LTC1478 查看數據表（PDF） - Linear Technology

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LTC1478

Single and Dual Protected High Side Switches

Linear Technology 

LTC1477/LTC1478

APPLICATIONS INFORMATION

ing of the switch parameters to the expected load current

and system current limit requirements.

A couple of examples are helpful:

1. If a nominal load of 1A was controlled by the switch

configured to current limit at 2A (all VIN pins connected

together), the RDS(ON) would be 0.07Ω and the voltage

drop across the switch would be 70mV. The power

dissipated by the switch would only be 70mW.

2. If a nominal load of 0.5A was controlled by the switch

configured to current limit at 0.85A (VIN2 and VIN3

disconnected), the RDS(ON) would increase to 0.14Ω.

But the voltage drop would remain at 70mV and the

switch power dissipation would drop to 35mW.

Supply Bypassing

For best results, bypass the supply input pins with a single

1.0µF capacitor as close as possible to the LTC1477.

Sometimes, much larger capacitors are already available

at the output of the power supply. In this case, it is still

good practice to use a 0.1µF capacitor as close as possible

to the LTC1477, especially if the power supply output

capacitor is more than 2 inches away on the printed circuit

board.

Output Capacitor

The output pin is designed to ramp on slowly, typically

1ms rise time. Therefore, very large output capacitors can

be driven without producing voltage spikes on the supply

pins (see graphs in Typical Performance Characteristics).

The output pin should have a 1µF capacitor for noise

reduction and smoothing.

Supply and Input Sequencing

The LTC1477 is designed to operate with continuous

power (quiescent current drops to < 1µA when disabled).

If the power must be turned off, for example to enter a

system “sleep” mode, the enable input must be turned off

100µs before the input supply is turned off to ensure that

the gate of the NMOS switch is completely discharged

before power is removed. However, the input control and

power can be applied simultaneously during power up.

TYPICAL APPLICATIONS

2.7V TO 5.5V

2A Protected Switch

0.1µF

ON/OFF

VOUT

VOUT

VIN1

VIN2

LTC1477

VINS

VIN3

EN

GND

ISC = 2A

+

1µF

LTC1477/1478 • TA03

1.5A Protected Switch

2.7V TO 5.5V

0.1µF

VOUT

VOUT

VIN1

VIN2

LTC1477

VINS

VIN3

ISC = 1.5A

+

1µF

NC

ON/OFF

EN

GND

LTC1477/1478 • TA04

0.85A Protected Switch

2.7V TO 5.5V

0.1µF

ON/OFF

VOUT

VOUT

VIN1

VIN2

LTC1477

VINS

VIN3

EN

GND

+

NC

ISC = 0.85A

1µF

NC

LTC1477/1478 • TA05

2A Protected Switch Driving a Large Capacitive Load

2.7V TO 5.5V

0.1µF

ON/OFF

VOUT

VOUT

VIN1

VIN2

LTC1477

VINS

VIN3

EN

GND

VOUT

+

CLOAD

100µF

LTC1477/1478 • TA06

6

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