Datasheet 2SC4236 Datasheet (Shindengen)

SHINDENGEN

Switching Power Transistor

2SC4236

(T6W80HFX)

6A NPN

HFX Series

OUTLINE DIMENSIONS

Case : MTO-3P

Unit : mm

RATINGS

●Absolute Maximum Ratings

Item Symbol

Storage Temperature
Junction Temperature
Collector to Base Voltage
Collector to Emitter Voltage
Emitter to Base Voltage
Collector Current DC

Collector Current Peak
Base Current DC

Base Current Peak
Total Transistor Dissipation
Mounting Torque

●Electrical Characteristics (Tc=25℃)

Item Symbol

Collector to Emitter Sustaining Voltage
Collector Cutoff Current

Emitter Cutoff Current
DC Current Gain

Collector to Emitter Saturation Voltage
Base to Emitter Saturation Voltage
Thermal Resistance

Transition Frequency
Turn on Time
Storage Time
Fall Time

Conditions

Ratings Unit

Tstg -55～150 ℃

Tj 150 ℃

V

CBO

V

CEO

V

EBO

I

C

I

CP

I

B

I

BP

P

T

TOR

V

(sus)

CEO

I

CBO

I

CEO

I

EBO

h

FE

h

FEL

VCE(sat)
VBE(sat)

θjc

f

T

ton

ts

tf

Tc = 25℃
(Recommended torque : 0.5N･m)

Conditions

IC = 0.2A
At rated Voltage

At rated Voltage
V

= 5V, IC = 3A

CE

V

= 5V, IC = 1mA

CE

IC = 3A
IB = 0.6A
Junction to case

V

= 10V, IC = 0.6A

CE

IC = 3A
IB1 = 0.6A, IB2 = 1.2A
RL = 85Ω, V

BB2

= 4V

1200 V

800 V

7V
6A

12

3
6

100

0.8

Ratings Unit

Min 800 V
Max 0.1 mA
Max 0.1
Max 0.1 mA

Min 8

Min 7
Max 1.0 V
Max 1.5 V

Max 1.25 ℃/W

TYP 8 MHz
Max 0.5
Max 3.5 μs
Max 0.3

A

W

N･m

Copyright & Copy;2000 Shindengen Electric Mfg.Co.Ltd

C

- I

FE

h

= 5V

CE

V

12

[A]

C

2SC4236

100

Tc = 150°C

100°C

FE

50°C

25°C

0°C

10

−25°C

−55°C

DC Current Gain h

Collector Current I

1

0.001 0.01 0.1 1 10

BE

[V]

Base-Emitter Voltage V

3

2.5

Saturation Voltage

2

1.5

9.0A

1

6.0A

3.0A

0.5

0

6

[A]

B

2SC4236

= 0.75A 1.5A 3.0A 6.0A 9.0A 12A

C

I

3

2.5

CE

[V]

Base Current I

1.5A

= 0.75A

C

I

Tc = 25°C

0.01 0.1 1

2

1.5

1

0.5

0

Collector-Emitter Voltage V

[µs]

SW

10

2SC4236

1

Switching Time - I

t

s

C

Switching Time t

0.1

0.01
0 1 2 3 4 5 6

t

on

t

f

Collector Current IC [A]

IB1 = 0.2I
IB2 = 0.4I
V

BB2

VCC = 250V

Tc = 25°C

C

C

= 4V

[µs]

SW

10

2SC4236

1

Switching Time - V

t

s

t

on

CC

Switching Time t

0.1

0.01
0 50 100 150 200 250 300

t

f

IC = 3A
IB1 = 0.6A
IB2 = 1.2A
V

Tc = 25°C

Collector Voltage VCC [V]

BB2

= 4V

10

2SC4236

1

Switching Time - Tc

t

s

[µs]

SW

Switching Time t

0.1

t

on

t

f

IC = 3A
IB1 = 0.6A
IB2 = 1.2A
V

= 4V

BB2

R

= 85Ω

L

0.01
0 50 100 150

Case Temperature Tc [°C]

[µs]

SW

10

2SC4236

L-Load Switching Time - I

t

s

C

1

Switching Time t

0.1

0.01
0 1 2 3 4 5 6

tf + t

vs

t

f

IB1 = 0.2I
IB2 = 0.4I
V

BB2

V

CE (clamp)

Tc = 25°C

Collector Current IC [A]

C

C

= 4V

= 300V

2SC4236

10

1

[µs]

SW

L-Load Switching Time - IC (At High Temperature)

t

s

Switching Time t

0.1

0.01
0 1 2 3 4 5 6

tf + t

vs

t

f

IB1 = 0.2I
IB2 = 0.4I
V

BB2

V

CE (clamp)

Tc = 100°C

Collector Current IC [A]

C

C

= 4V

= 300V

1

10

0

10

-1

10

Transient Thermal Impedance

2SC4236

10

1

0.1

0.01

Time t [s]

-2

10

-3

10

-4

10

Transient Thermal Impedance θjc(t) [°C/W]

0.001

12

2SC4236

Forward Bias SOA

10

[A]

C

1ms10ms

DC

PT limit

1

I

limit

S/B

150µs

50µs

Collector Current I

0.1

Tc = 25°C

Single Pulse

0.01
1 10 100

Collector-Emitter Voltage VCE [V]

800

100

80

60

2SC4236 Collector Current Derating

I

limit

S/B

40

Collector Current Derating [%]

20

VCE = fixed

0

0 50 100 150

PT limit

Case Temperature Tc [°C]

12

2SC4236

Reverse Bias SOA

IB1 = 0.25I
IB2 = 0.9A

10

[A]

C

8

6

V

= 5V

BB2

Tc < 150°C

Collector Current I

4

C

2

0

0 200 400 600 800 1000 1200

Collector-Emitter Voltage VCE [V]