Microsemi Corporation 2N3584 Datasheet

APPLICATIONS:

7516 Central Industrial Drive

Riviera Beach, Florida

DESCRIPTION:DESCRIPTION:

Indicates JEDEC registered data.

FEATURES:

33404
PHONE: (561) 842-0305
FAX: (561) 845-7813

• Off-Line Inverters • Deflection Circuits

• Switching Regulators • DC-DC Converters

• Motor Controls • High Voltage Amplifiers

2N3584

5 Amp, 375V,

High Voltage

• High Voltage: 250 to 500V • High Current: 2 Amps

• Fast Switching: t

• High Power: 35 Watts

These power transistors are produced by PPC's DOUBLE
DIFFUSED PLANAR process. This technology produces high
voltage devices with excellent switching speeds, frequency
response, gain linearity, saturation voltages, high current gain,
and safe operating areas. They are intended for use in
Commercial, Industrial, and Military power switching, amplifier,
and regulator applications.

Ultrasonically bonded leads and controlled die mount
techniques are utilized to further increase the SOA capability
and inherent reliability of these devices. The temperature
range to 200°°C permits reliable operation in high ambients, and
the hermetically sealed package insures maximum reliability
and long life.

ABSOLUTE MAXIMUM RATINGS:ABSOLUTE MAXIMUM RATINGS:

SYMBOL CHARACTERISTIC VALUE UNITS

V

CBO

V

CEO

V

CER

V

EBO

IC* Peak Collector Current 5 Amps
IC* Continuous Collector Current 2 Amps
IB* Base Current 1 Amps

T

STG

TJ* Operating Junction Temperature -65 to 200

* Lead Temperature 1/16" from Case for 10 Sec. 235

PT*

θθ JC

NPN Silicon Power

< 3µµsec. • Low V

f

* Collector-Base Voltage 375 Volts
* Collector-Emitter Voltage 250 Volts
*
* Emitter-Base Voltage 6 Volts

* Storage Temperature -65 to 200

Collector-Emitter Voltage RBE = 50ΩΩ

Power Dissipation

TC = 25°°C

Thermal Impedance

CE (SAT)

Transistors

TO-66

300 Volts

°°C
°°C
°°C

35

5.0

Watts

°°C/W

*

MSC1056.PDF 05-19-99

ELECTRICAL CHARACTERISTICS:ELECTRICAL CHARACTERISTICS:

(25°°Case Temperature Unless Otherwise Noted)

SYMBOL CHARACTERISTIC TEST CONDITIONS

V

CEO(sus)*

V

CER(sus)

I

CEV*

I

CEV

I

CEO*

I

EB0*

hFE* DC Forward Current

V

CE(sat)

V

BE(sat)

Collector-Emitter

IC = 0.2 Amp (Notes 1 and 2) 250 ---- Volts
Sustaining Voltage
Collector-Emitter

IC = 0.2A, RBE = 50ΩΩ (Notes 1 and 2)
Sustaining Voltage

Collector Cutoff Current

* Collector Cutoff Current

VCE = 340V, VBE = -1.5V ---- 1.0 mA.

VCE = 300V, VBE = -1.5V ---- 3.0 mA.
TC = 150°°C
Collector Cutoff Current VCE = 150V, IB = 0 ---- 5.0 mA.

Emitter Cutoff Current VEB = 6V, IC = 0 ---- 0.5 mA.

IC = 0.1A, VCE = 10V
Transfer Ratio
(Note 1)

* Collector-Emitter

IC = 1.0A, VCE = 10V

IC = 1.0A, VCE = 2V

IC = 1.0A, IB = 0.125A ---- 0.75 Volts
Saturation Voltage
(Note 1)

* Base-Emitter Saturation

IC = 1.0A, IB = 0.10A ---- 1.4 Volts
Voltage (Note 1)

2N3584

VALUE

Min.

300 ---- Volts

40
25

Max.

100

8

----

80

Units

----

----

----

I

S/b

Second-Breakdown

VCE = 100V, t = 1.0sec. 0.35 ---- A
Collector Current (with
base forward biased)

E

S/b

Second-Breakdown

VEB = 4V, RBE = 20ΩΩ, L = 100µµh

200 ---­Energy (with base
reverse biased)

hfe* Common-Emitter Small-

VCE = 10V, IC = 0.2A, f = 5 MHz 3 ---- ---­Signal Forward Current
Transfer Ratio

I hfe I* Common-Emitter Small-

VCE = 10V, IC = 0.2A 2.0 ---- ---­Signal Forward Current
Transfer Ratio, f = 5 MHz

COb* Collector-Base

VCB = 10V, IE = 0, f = 1.0MHz ---- 120 pf
Capacitance

tr* Rise Time VCC = 200V, IC = 1.0A, IB2 = 0.10A ---- 3.0

ts* Storage Time VCC = 200V, IC = 1.0A, IB1 = IB2 = 0.10A ---- 4.0

tf* Fall Time VCC = 200V, IC = 1.0A, IB1 = IB2 = 0.10A ---- 3.0

Note 1: Pulse Test: Pulse width = 300µµSec., Rep. Rate 60Hz.
Note 2: Caution - Do not use Curve Tracer.

* Indicates JEDEC registered data.
MSC1056.PDF 05-19-99

µµJ

µµsec.
µµsec.
µµsec.