Motorola MTP2P50E Datasheet

1

Motorola TMOS Power MOSFET Transistor Device Data

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

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P–Channel Enhancement–Mode Silicon Gate

This high voltage MOSFET uses an advanced t ermination
scheme to provide enhanced voltage–blocking capability without
degrading performance over time. In addition, this advanced TMOS
E–FET is designed to withstand high energy in the avalanche and
commutation modes. The new energy efficient design also offers a
drain–to–source diode with a fast recovery time. Designed for high
voltage, high speed switching applications in power supplies,
converters and PWM motor controls, these devices are particularly
well suited for bridge circuits where diode speed and commutating
safe operating areas are critical and offer additional safety margin
against unexpected voltage transients.

• Robust High Voltage Termination

• Avalanche Energy Specified

• Source–to–Drain Diode Recovery Time Comparable to a Discrete

Fast Recovery Diode

• Diode is Characterized for Use in Bridge Circuits

• I

DSS

and V

DS(on)

Specified at Elevated Temperature

MAXIMUM RATINGS

(TC = 25°C unless otherwise noted)

Rating

Symbol Value Unit

Drain–Source Voltage V

DSS

500 Vdc

Drain–Gate Voltage (RGS = 1.0 MΩ) V

DGR

500 Vdc

Gate–Source Voltage — Continuous

Gate–Source Voltage — Non–Repetitive (tp ≤ 10 ms)

V

GS

V

GSM

±20
±40

Vdc
Vpk

Drain Current — Continuous

Drain Current — Continuous @ 100°C
Drain Current — Single Pulse (tp ≤ 10 µs)

I

D

I

D

I

DM

2.0

1.6

6.0

Adc

Apk

Total Power Dissipation

Derate above 25°C

P

D

75

0.6

Watts

W/°C

Operating and Storage Temperature Range TJ, T

stg

–55 to 150 °C

Single Pulse Drain–to–Source Avalanche Energy — Starting TJ = 25°C

(VDD = 100 Vdc, VGS = 10 Vdc, IL = 4.0 Apk, L = 10 mH, RG = 25 Ω)

E

AS

80 mJ

Thermal Resistance — Junction to Case

Thermal Resistance — Junction to Ambient

R

θJC

R

θJA

1.67

62.5

°C/W

Maximum Lead Temperature for Soldering Purposes, 1/8″ from case for 10 seconds T

L

260 °C

Designer’s Data for “Worst Case” Conditions — The Designer’s Data Sheet permits the design of most circuits entirely from the information presented. SOA Limit
curves — representing boundaries on device characteristics— are given to facilitate “worst case” design.

E–FET and Designer’s are trademarks of Motorola, Inc. TMOS is a registered trademark of Motorola, Inc.

Preferred devices are Motorola recommended choices for future use and best overall value.

REV 1

Order this document

by MTP2P50E/D

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SEMICONDUCTOR TECHNICAL DATA

 Motorola, Inc. 1995



TMOS POWER FET

2.0 AMPERES
500 VOLTS

R

DS(on)

= 6.0 OHM

Motorola Preferred Device



CASE 221A–06, Style 5

TO–220AB

D

S

G

MTP2P50E

2

Motorola TMOS Power MOSFET Transistor Device Data

ELECTRICAL CHARACTERISTICS

(T

J

= 25°C unless otherwise noted)

Characteristic

Symbol Min Typ Max Unit

OFF CHARACTERISTICS

Drain–Source Breakdown Voltage

(VGS = 0 Vdc, ID = 250 µAdc)
Temperature Coefficient (Positive)

V

(BR)DSS

500

—

—

564

—
—

Vdc

mV/°C

Zero Gate Voltage Drain Current

(VDS = 500 Vdc, VGS = 0 Vdc)
(VDS = 500 Vdc, VGS = 0 Vdc, TJ = 125°C)

I

DSS

—
—

—
—

10

100

µAdc

Gate–Body Leakage Current (VGS = ±20 Vdc, VDS = 0) I

GSS

— — 100 nAdc

ON CHARACTERISTICS (1)

Gate Threshold Voltage

(VDS = VGS, ID = 250 µAdc)
Temperature Coefficient (Negative)

V

GS(th)

2.0
—

3.0

4.0

4.0
—

Vdc

mV/°C

Static Drain–Source On–Resistance (VGS = 10 Vdc, ID = 1.0 Adc) R

DS(on)

— 4.5 6.0 Ohm

Drain–Source On–Voltage (VGS = 10 Vdc)

(ID = 2.0 Adc)
(ID = 1.0 Adc, TJ = 125°C)

V

DS(on)

—
—

9.5
—

14.4

12.6

Vdc

Forward Transconductance (VDS = 15 Vdc, ID = 1.0 Adc) g

FS

1.5 2.9 — mhos

DYNAMIC CHARACTERISTICS

Input Capacitance

C

iss

— 845 1183 pF

Output Capacitance

(VDS = 25 Vdc, VGS = 0 Vdc,

f = 1.0 MHz)

C

oss

— 100 140

Reverse Transfer Capacitance

f = 1.0 MHz)

C

rss

— 26 52

SWITCHING CHARACTERISTICS (2)

Turn–On Delay Time

t

d(on)

— 12 24 ns

Rise Time

t

r

— 14 28

Turn–Off Delay Time

VGS = 10 Vdc,

RG = 9.1 Ω)

t

d(off)

— 21 42

Fall Time

G

= 9.1 Ω)

t

f

— 19 38

Q

T

— 19 27 nC

(See Figure 8)

DS

= 400 Vdc, ID = 2.0 Adc,

Q

1

— 3.7 —

(VDS = 400 Vdc, ID = 2.0 Adc,

VGS = 10 Vdc)

Q

2

— 7.9 —

Q

3

— 9.9 —

SOURCE–DRAIN DIODE CHARACTERISTICS

Forward On–Voltage (1)

(IS = 2.0 Adc, VGS = 0 Vdc)

(IS = 2.0 Adc, VGS = 0 Vdc, TJ = 125°C)

V

SD

—
—

2.3

1.85

3.5
—

Vdc

t

rr

— 223 —

(See Figure 14)

S

= 2.0 Adc, VGS = 0 Vdc,

t

a

— 161 —

(IS = 2.0 Adc, VGS = 0 Vdc,

dIS/dt = 100 A/µs)

t

b

— 62 —

Reverse Recovery Stored Charge Q

RR

— 1.92 — µC

INTERNAL PACKAGE INDUCTANCE

Internal Drain Inductance

(Measured from contact screw on tab to center of die)
(Measured from the drain lead 0.25″ from package to center of die)

L

D

—
—

3.5

4.5

—
—

nH

Internal Source Inductance

(Measured from the source lead 0.25″ from package to source bond pad)

L

S

— 7.5 — nH

(1) Pulse Test: Pulse Width ≤ 300 µs, Duty Cycle ≤ 2%.
(2) Switching characteristics are independent of operating junction temperature.

Gate Charge

Reverse Recovery Time

(VDD = 250 Vdc, ID = 2.0 Adc,

(V

(I

ns

MTP2P50E

3

Motorola TMOS Power MOSFET Transistor Device Data

TYPICAL ELECTRICAL CHARACTERISTICS

0 4 8 28

0

1

2

3

4

VDS, DRAIN–TO–SOURCE VOLTAGE (VOLTS)

Figure 1. On–Region Characteristics

I

D

, DRAIN CURRENT (AMPS)

2 3 4 5 6 7

0

1

2

3

4

I

D

, DRAIN CURRENT (AMPS)

VGS, GATE–TO–SOURCE VOLTAGE (VOLTS)

Figure 2. Transfer Characteristics

0 1 2 2.5 3.5 4

0

2

6

10

R

DS(on)

, DRAIN-TO-SOURCE RESISTANCE (OHMS)

0 1 2 3 4

4

4.5

5

5.5

6

ID, DRAIN CURRENT (AMPS)

Figure 3. On–Resistance versus Drain Current

and Temperature

ID, DRAIN CURRENT (AMPS)

Figure 4. On–Resistance versus Drain Current

and Gate Voltage

0.5

1

1.5

2

R

DS(on)

1

10

100

1000

TJ, JUNCTION TEMPERATURE (

°

C)

Figure 5. On–Resistance Variation with

Temperature

VDS, DRAIN–TO–SOURCE VOLTAGE (VOLTS)

Figure 6. Drain–To–Source Leakage

Current versus Voltage

, DRAIN-TO-SOURCE RESISTANCE (OHMS)

, DRAIN-TO-SOURCE RESISTANCE

(NORMALIZED)

I

DSS

, LEAKAGE (nA)

TJ = 25°C VDS ≥ 10 V

TJ = –55°C

25°C

100°C

TJ = 100°C

TJ = 25°C

VGS = 0 V

VGS = 10 V

VGS = 10 V

VGS = 10 V
ID = 1 A

12 16

6 V

5 V

3.5

2.5

1.5

0.5

2.5 3.5 4.5 5.5 6.5

4

8

31.50.5

25°C

–55°C

VGS = 10 V

15 V

–50 –25 0 25 50 75 100 125 150 0 10050 150 200 250 500300 350 400 450

TJ = 125°C

100°C

25°C

0.5 1.5 2.5 3.5

3.5

2.5

1.5

0.5

20 24

4 V

8 V

7 V

5.75

5.25

4.75

4.25

R

DS(on)