MIC5021 Datasheet, PDF(8/9 Page) Micrel Semiconductor – High-Speed High-Side MOSFET Driver

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MIC5021 Datasheet, PDF (8/9 Pages) Micrel Semiconductor – High-Speed High-Side MOSFET Driver

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MIC5021

External Protection

Resistors placed in series with each SENSE connection limit

the current drawn from the internal Schottky diodes during a

negative transient. This minimizes the forward drop across

the diodes.

MIC5021

VDD

VBOOST

Input

Gate

Gnd

Senseâ

Sense+

VR1 = VR2

to avoid skewing

the 50mV trip point..

(5mV suggested)

5ÂµA

VR1

15ÂµA

VR2

N-Channel

Power MOSFET

50mV nominal

(at trip)

R1 â 3 Ã R2

Figure 7. Resistor Voltage Drop

During normal operation, sensing current from the sense pins

is unequal (5ÂµA and 15ÂµA). The internal Schottky diodes are

reverse biased and have no effect. To avoid skewing the trip

voltage, the current limiting resistors must drop equal volt-

ages at the trip point currents. See Figure 7. To minimize

resistor tolerance error, use a voltage drop lower than the trip

voltage of 50mV. 5mV is suggested.

External Schottky diodes are also recommended. See D2

and D3 in Figure 8. The external diodes clamp negative

transients better than the internal diodes because their larger

size minimizes the forward voltage drop at higher currents.

+12V to +36V

10ÂµF

TTL Input

MIC5021

VDD

VBOOST

Input

Gate

Sense

Gnd Sense

11DQ03

2.7

1.0k

330â¦

N-Channel

Power MOSFET

RSENSE

Inductive

Load

Figure 8. Protection from Inductive Kick

Micrel

High-Side Sensing

Sensing the current on the high side of the MOSFET isolates

the SENSE pins from the inductive spike.

+12V to +20V

(+12V)

10ÂµF

TTL Input

MIC5021

VDD

VBOOST

Input

Gate

Sense

Gnd Sense

0.01

ÂµF

RSENSE

(< 0.01â¦)

N-Channel

Power MOSFET

(IRFZ44)

Wirewound

Resistor

(3â¦)

Figure 9. High Side Sensing

Lamp Driver Application

Incandescent lamps have a high inrush current (low resis-

tance) when turned on. The MIC5021 can perform a âsoft

startâ by pulsing the MOSFET (overcurrent condition) until

the filament is warm and its current decreases (resistance

increases). The sense resistor value is selected so the

voltage drop across the sense resistor decreases below the

sense threshold (50mV) as the filament becomes warm. The

FET is no longer pulsed and the lamp turns completely on.

V+

10ÂµF

TTL Input

MIC5021

VDD

VBOOST

Input

Gate

Gnd

Senseâ

Sense+

(+12V)

N-Channel

Power MOSFET

(IRF540)

0.01

ÂµF

RSENSE

(0.041â¦)

"( )" values apply to demo circuit.

See text.

Incandescent

Lamp (#1157)

Figure 10. Lamp Driver with

Current Sensing

A lamp may not fully turn on if the filament does not heat up

adequately. Changing the duty cycle, sense resistor, or both

to match the filament characteristics can correct the problem.

Soft start can be demonstrated using a #1157 dual filament

automotive lamp. The value of RS shown in Figure 10 allows

for soft start of the higher-resistance filament (measures

approx. 2.1â¦ cold or 21â¦ hot).

5-176

October 1998

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