MJE5850_06 Datasheet, PDF(5/8 Page) ON Semiconductor – 8 AMPERE PCP SILICON POWER TRANSISTORS 300 - 350

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MJE5850_06 Datasheet, PDF (5/8 Pages) ON Semiconductor – 8 AMPERE PCP SILICON POWER TRANSISTORS 300 - 350 - 400 VOLTS 80 WATTS

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MJE5850, MJE5851, MJE5852

VCEO(sus)

â10 V

PW Varied to Attain

IC = 100 mA

Table 1. Test Conditions for Dynamic Performance

RBSOA AND INDUCTIVE SWITCHING

0.0025 mF

50 mF

+â

INPUT

50 W

0.2 mF

0.1 mF

500 W

500 W 1/2 W

1/2 W

0.1 mF

MJE15029

1N4934

500 W

1/2 W

0.2 mF

0.0033 mF

500 W

1W2

MJE15028W

1/2 W

0.1 mF

âV adjusted to obtain desired IB1

+ V adjusted to obtain desired VBE(off)

â+

50 mF

âV

Lcoil = 80 mH, VCC = 10 V

Rcoil = 0.7 W

Lcoil = 180 mH

Rcoil = 0.05 W

VCC = 20 V

Vclamp = 250 V

RB adjusted to attain desired IB1

INDUCTIVE TEST CIRCUIT

TUT

IN-

PUT

SEE ABOVE FOR

DETAILED CONDITIONS

1N4937

EQUIVALENT

Vclamp

RS =

0.1 W

Rcoil

Lcoil

VCC

OUTPUT WAVEFORMS

t1 Adjusted to

Obtain IC

ICM

VCE

VCEM

TIM

Cltamped

Lcoil (ICM)

t1 â

VCC

Lcoil (ICM)

t2 â VClamp

Vclamp

Test Equipment

t Scope â Tektronix

475 or Equivalent

RESISTIVE SWITCHING

TURNâON TIME

IB1

IB1 adjusted to

obtain the forced

hFE desired

TURNâOFF TIME

Use inductive switching

driver as the input to

the resistive test circuit.

VCC = 250 V

RL = 62 W

Pulse Width = 10

RESISTIVE TEST CIRCUIT

TUT

VCC

1.0

tc 100Â°C

0.8

10%

90% IB1 VCEM

10% 2%

ICM ICM

0.6

tsv 100Â°C

VCE

tfi

tsr

trv

tti

0.4

3.0

IC = 4 A

2.7

IC/IB = 4

TJ = 25Â°C

2.4

2.1

tsv 25Â°C

1.8

1.5

1.2

0.9

90%

ICM

Vclamp

0.2 tc 25Â°C

0.6

0.3

ICM

VCEM

TIME

VBE, BASEâEMITTER VOLTAGE (VOLTS)

Figure 7. Inductive Switching Measurements

Figure 8. Inductive Switching Times

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