SGS Thomson Microelectronics DTV1500MFP, DTV1500MF, DTV1500MD Datasheet

®

MAIN PRODUCTS CHARACTERISTICS

DTV1500Mxx

(CRT HORIZONTAL DEFLECTION)

HIGH VOLTAGE DAMPER DIODE

I

F(AV)

V

RRM

(max) 1.65 V

V

F

6A

1500 V

trr (max) 135 ns

FEATURES AND BENEFITS

High breakdown voltage capability

■

High frequency operation

■

Specified turn on switching characteristics

■

Very fast recovery diode

■

Low static and peak forward voltage drop for low

■

dissipation

■ Insulatedpackage(ISOWATT220AC,TO-220FPAC):

Insulating voltage = 2000V DC
Capacitance = 12pF

■ Planar technology allowing high quality and best

electrical characteristics

DESCRIPTION

High voltage diode especially designed for
horizontal deflection stage in standard and high
resolution displays for TV’s and monitors.

This device is packaged in TO-220AC,
ISOWATT220AC and TO-220FPAC (insulated
package).

K

TO-220FPAC

DTV1500MFP

TO-220AC

DTV1500MD

A

A

K

A

K

ISOWATT220AC

DTV1500MF

A

K

ABSOLUTE MAXIMUM RATINGS

Symbol Parameter Value Unit

V

RRM

I

F(RMS)

I

FSM

Repetitive peak reverse voltage 1500 V
RMS forward current 15 A
Surge non repetitive forward current tp = 10ms

75 A

sinusoidal

T

stg

T

j

January 2002 - Ed: 3B

Storage temperature - 65 to 150 °C
Maximum operating junction temperature 150 °C

1/8

DTV1500Mxx

THERMAL RESISTANCE

Symbol Parameter Value Unit

R

th(j-c)

Junction to Case thermal resistance TO-220FPAC 5.4 °C/W

ISOWATT220AC 4.75
TO-220AC 2.5

STATIC ELECTRICAL CHARACTERISTICS

Symbol Parameter Test Conditions

I

R*

V

F**

pulse test : * tp=5ms ,δ<2%

Reverse leakage current VR= 1500V Tj = 25°C 100

Forward voltage drop IF=6A Tj = 25°C 1.4 2.2 V

** tp = 380 µs, δ <2%

RECOVERY CHARACTERISTICS

Value

Unit

Typ Max

µ

Tj = 125°C 100 1000 µA

Tj = 125°C 1.20 1.65

A

Symbol Parameter Test Conditions

t

rr

Reverse recovery
time

t

rr

Reverse recovery
time

Tj = 25°C IF=1A dIF/dt = -50A/µs

VR= 30V

Tj = 25°C IF= 100mA IR= 100mA

IRR= 10mA

TURN-ON SWITCHING CHARACTERISTICS

Symbol Parameter Test Conditions

t

fr

Forward
recovery time

V

Fp

Peak forward

Tj = 100°C IF=6A dIF/dt=80A/µs

VFR=3V

Tj = 100°C IF=6A dIF/dt=80A/µs2128V

voltage

To evaluate the maximum conduction losses use the following equation :
P=1.37xI

F(AV)

+ 0.047 x I

F2(RMS)

Value

Unit

Typ Max

110 135 ns

750 ns

Value

Unit

Typ Max

570 ns

2/8

DTV1500Mxx

Fig. 1: Power dissipation versus peak forward cur-

rent (triangular waveform, δ = 0.45)

PF(av)(W)

2.5

2.0

1.5

1.0

0.5

Ip(A)

0.0
0123456

Fig. 2-2: Average current versus case tempera­ture (δ = 0.5) (ISOWATT220AC)

IF(av)(A)

12
10

Fig. 2-1: Average current versus case tempera­ture (δ = 0.5) (TO-220FPAC)

IF(av)(A)

12
10

8
6
4
2
0

0 25 50 75 100 125 150

δ

=tp/T

T

tp

Tcase(°C)

Fig. 2-3: Average current versus case tempera-

ture (δ = 0.5) (TO-220AC)

IF(av)(A)

12
10

8
6
4
2
0

0 25 50 75 100 125 150

δ

=tp/T

T

tp

Tcase(°C)

Fig. 3: Forward voltage drop versus forward cur-

rent (DTV1500MFP/F/D)

IFM(A)

15.0

10.0

5.0

0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8

Maximum
Tj=125°C

Typical

Tj=125°C

VFM(V)

Maximum

Tj=25°C

8
6
4
2
0

0 25 50 75 100 125 150

δ

=tp/T

T

tp

Tcase(°C)

Fig.4-1: Non repetitivesurge peak forwardcurrent

versus overload duration (TO-220FPAC)

IM(A)

50

40

30

20

IM

10

0

1E-3 1E-2 1E-1 1E+0

δ=0.5

t

t(s)

Tc=100°C

3/8