DRF1202_11 Datasheet, PDF(2/4 Page) Microsemi Corporation

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DRF1202_11 Datasheet, PDF (2/4 Pages) Microsemi Corporation – MOSFET Driver Hybrid

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Driver Output Characteristics

Symbol

Parameter

Cout

Output Capacitance

Rout

Output Resistance

Lout

Output Inductance

FMAX

Operating Frequency CL = 3000nF + 50Î©

FMAX

Operating Frequency RL = 50Î©

Driver Thermal Characteristics

Symbol

Parameter

RÎ¸JC

RÎ¸JHS

TJSTG

PDJHS

PDJC

Thermal Resistance Junction to Case

Thermal Resistance Junction to Heat Sink

Storage Temperature

Maximum Power Dissipation @ TSINK = 25Â°C

Total Power Dissipation @ TC = 25Â°C

MOSFET Absolute Maximum Ratings

Symbol

Parameter

BVDSS

RDS(on)

Tjmax

Drain Source Voltage

Continuous Drain Current THS = 25Â°C

Drain-Source On State Resistance

Operating Temperature

MOSFET Dynamic Characteristics

Symbol

Parameter

Ciss

Input Capacitance

Coss

Output Capacitance

Crss

Reverse Transfer Capacitance

MOSFET Thermal Characteristics

Symbol

Parameter

RÎ¸JC

Thermal Resistance Junction to Case

RÎ¸JHS

Thermal Resistance Junction to Heat Sink

TJSTG

Storage Temperature

PDHS

Maximum Power Dissipation @ TSINK = 25Â°C

PDC

Total Power Dissipation @ TC = 25Â°C

Microsemi reserves the right to change, without notice, the speciï¬cations and information contained herein.

DRF1202

Min

Typ Max Unit

2500

Î©

MHz

Min

Typ

Max

1.5

2.5

-55 to 150

100

Unit

Â°C/W

Â°C

Min

Typ

Max

Unit

500

0.25

Î©

175

Â°C

Min

Typ

Max

Unit

2000

165

Min

Typ

Max

0.53

0.141

-55 to 150

1060

2830

Unit

Â°C/W

Â°C

Figure 1, DRF1202 Simpliï¬ed Circuit Diagram

The Simpliï¬ed DRF1202 Circuit Diagram is illustrated above. By including the driver high speed by-pass capacitor (C1), their contribution to

the internal parasitic loop inductance of the driver output is greatly reduced. This, coupled with the tight geometry of the hybrid, allows optimal

gate drive to the MOSFET. This low parasitic approach, coupled with the Schmitt trigger input (IN), Kelvin signal ground (SG) and the Anti-

Ring Function, provide improved stability and control in Kilowatt to Multi-Kilowatt, high Frequency applications. The IN pin is the input for the

control signal and is applied to a Schmitt Trigger. Both the FN and IN pins are referenced to Kelvin ground (SG.) The signal is then applied to

the intermediate drivers and level shifters; this section contains proprietary circuitry designed speciï¬cally for the ring abatement. The power

drivers provide high current to the gate of the MOSFETS.

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