LTC1155_15 Datasheet, PDF(6/16 Page) Linear Technology – Dual High Side Micropower MOSFET Driver

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LTC1155_15 Datasheet, PDF (6/16 Pages) Linear Technology – Dual High Side Micropower MOSFET Driver

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LTC1155

OPERATION

Gate Charge Pump

Gate drive for the power MOSFET is produced by an

adaptive charge pump circuit that generates a gate volt-

age substantially higher than the power supply voltage.

The charge pump capacitors are included on-chip and,

therefore, no external components are required to gener-

ate the gate drive.

Drain Current Sense

The LTC1155 is configured to sense the drain current of

the power MOSFET in high side applications. An internal

100mV reference is compared to the drop across a sense

resistor (typically 0.002â¦ to 0.1â¦) in series with the drain

lead. If the drop across this resistor exceeds the internal

100mV threshold, the input latch is reset and the gate is

quickly discharged by a large N-channel transistor.

Controlled Gate Rise and Fall Times

When the input is switched ON and OFF, the gate is

charged by the internal charge pump and discharged in a

controlled manner. The charge and discharge rates have

been set to minimize RFI and EMI emissions in normal

operation. If a short circuit or current overload condition

is encountered, the gate is discharged very quickly (typi-

cally a few microseconds) by a large N-channel transistor.

APPLICATIONS INFORMATION

Protecting the MOSFET

The MOSFET is protected against destruction by removing

drive from the gate as soon as an overcurrent condition is

detected. Resistive and inductive loads can be protected

with no external time delay. Large capacitive or lamp loads,

however, require that the overcurrent shutdown function

be delayed long enough to start the load but short enough

to ensure the safety of the MOSFET.

Example Calculations

Consider the circuit of Figure 1. A power MOSFET is driven

by one side of an LTC1155 to switch a high inrush cur-

rent load. The drain sense resistor is selected to limit the

maximum DC current to 3.3A.

RSEN = VSEN/ITRIP

= 0.1/3.3A

= 0.03â¦

A time delay is introduced between RSEN and the drain

sense pin of the LTC1155 which provides sufficient delay

to start a high inrush load such as large supply capacitors.

In this example circuit, we have selected the IRLZ34 because

of its low RDS(ON)(0.05â¦ with VGS = 5V). The FET drops

VS = 5.0V

DS1

IN1 LTC1155

GND

CDLY

0.22ÂµF

RDLY

270k

RSEN

0.03Î©

IRLZ34

GND

LOAD

1155 F01

Figure 1. Adding an RC Delay

0.1V at 2A and, therefore, dissipates 200mW in normal

operation (no heat sinking required).

If the output is shorted to ground, the current through

the FET rises rapidly and is limited by the RDS(ON) of the

FET, the drain sense resistor and the series resistance

between the power supply and the FET. Series resistance

in the power supply can be substantial and attributed to

many sources including harness wiring, PCB traces, supply

capacitor ESR, transformer resistance or battery resistance.

1155fb

For more information www.linear.com/LTC1155

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