Datasheet NTE5705, NTE5703, NTE5702, NTE5700, NTE5701 Datasheet (NTE)

NTE5700 thru NTE5705

Industrial Power Module

Description:

The NTE5700 through NTE5705 series of IntegratedPowerCircuits consist of powerthyristors and
power diodes configured in a single package. Applications include power supplies, control circuits
and battery chargers.

Features:

D Glass Passivated Junctions for Greater Reliability
D Electrically Isolated Base Plate
D High Dynamic Characteristics

Absolute Maximum Ratings:

Maximum Repetitive Peak Reverse Voltage (VS£ 0), V

RRM

1200V............................

Maximum Non--Repetitive Peak Reverse Voltage, V

RSM

1300V...............................

Maximum Repetitive Peak Off State Voltage Gate Open Circuit, V

DRM

1200V..................

Thermal and Mechanical

Characteristics:

Junction Operating Temperature Range, T

J

-- 40° to +125°C..................................

Storage Temperature Range, T

stg

-- 40° to +150°C..........................................

Maximum Internal Thermal Resistance, One Junction to Case, R

thJC

DC Operation 2.24K/W............................................................

Maximum Thermal Resistance, Base to Heatsink, R

thCS

Mounting Surface Smooth and Greased 0.10K/W.....................................

Mounting Torque, Base to Heatsink ±10% (Note 1), T 5Nm..................................

Approximate Weight, wt 58g (2.0oz)......................................................

Note 1. A mountingcompound is recommended and the torque should be checkedafter aperiod of

about 3 hours to allow for the spread of the compound.

Electrical Characteristics:

Parameter Symbol Test Conditions Rating Unit

Forward Conduction

Maximum DC Output Current I

O

TC=+85°C, Full Bridge Circuits
(NTE5700, NTE5701, NTE5702)

25 A

Maximum Average On--State

and Forward Current

I

T(AV)

I

F(AV)

180° Sine Wave Conduction Circuits
(All Types)

12.5 A

Maximum RMS Current I

RMS

180° Sine Wave Conduction Circuit
(NTE5702)

28 A

Maximum Peak, One--Cycle

I

TSM

10ms

100% V

RRM

Sinusoidal Half Wave,

300 A

Non--Repetitive On--State

or

8.3ms

Reapplied Initial TJ=TJMax

315 A

orForwardCurrentI

FSM

10ms

No Voltage

357 A

8.3ms

Reapplied

375 A

Maximum I2t for Fusing I2t

10ms

100% V

RRM

Initial TJ=TJMax

450 A2s

8.3ms

Reapplied

410 A2s

10ms

No Voltage

637 A2s

8.3ms

Reapplied

580 A2s
Maximum I2Öt for Fusing I2Öt t = 0.1 to 10ms, No Voltage Reapplied, Note 2 6365 A2Ös
Maximum Value of Threshold

Voltage

V

T(TO)

TJ= +125°C 0.82 V

Maximum Value of On--State

Slope Resistance

r

T

TJ= +125°C 12 mW

Maximum Peak On--State

V

TM

ITM= p xI

T(AV)

TJ=+25°C,

1.35 V

or Forward Voltage

V

FM

IFM= p xI

F(AV)

180° Condition

1.35 V

Maximum Non--Repetitive Rate

of Rise of Turned On Circuit

di/dt TJ= +125°C, from 0.67V

DRM,ITM

= p xI

T(A V)

,

I

g

= 500mA, tr<0.5ms, tp>6ms

200 A/ms

Maximum Holding Current I

H

TJ=+25°C, Anode Supply = 6V,
Resistive Load, Gate Open Circuit

100 mA

Maximum Latching Current I

L

TJ=+25°C, Anode Supply = 6V,
Resistive Load

250 mA

Triggering

Maximum Peak Gate Power P

GM

8.0 W

Maximum Average Gate Power P

G(AV)

2.0 W

Maximum Peak Gate Current I

GM

2.0 A

Maximum Peak Negative Gate

Voltage

-- V

GM

10 V

Maximum Gate Voltage Required

V

GT

TJ=--40°C

Anode Supply = 6V

3.0 V

to Trigger

TJ=+25°C

Resistive Load

2.0 V

TJ= +125°C 1.0 V

Electrical Characteristics (Cont’d):

Parameter Symbol Test Conditions Rating Unit

Triggering (Cont’d)

Maximum Gate Current Required

I

GT

TJ=--40°C

Anode Supply = 6V

90 mA

to Trigger

TJ=+25°C

Resistive Load

60 mA

TJ= +125°C 35 mA

Maximum Gate Voltage that will

not Trigger

V

GD

TJ= +125°C, Rated V

DRM

Applied 0.2 V

Blocking

MaximumCriticalRateof Riseof

Off--State Voltage

dv/

dt

TJ= +125°C, Exponential to 0.67V

DRM

,

Gate Open Circuit

200 V/ms

Maximum Peak Reverse and

I

RM

TJ=TJMax, Gate Open Circuit

10 mA

Off--S

tateLeak

ageCurren

t

at V

RRM,VDRM

I

DM

2.0 mA

RMS Isolation Voltage V

INS

50Hz, Circuit to Base, All Terminals Shorted 2500 V

Note 2. I2tfortimetx=I2Öt ¯ Ötx.

Pin Connection and Schematic Diagrams:

NTE No. Description Terminal Positions Schematic Diagrams

5700 Single Phase,

Hybrid Bridge,

Common Cathode,

Freewheeling Diode

5701 Single Phase,

Hybrid Bridge,

Common Anode,

Freewheeling Diode

5702 Single Phase,

All SCR Bridge

* For transient protection, a Metal Oxide Varistor (MOV) may be connected externally across terminals AC1 & AC2.

AC1

AC2G1G2

(--)

(+)

AC1

AC2

*

G1

G2

(--) (+)

AC1

AC2G1G2

(--)

(+)

AC1

AC2

*

G1

G2

(--) (+)

AC2

AC1G2G3

(--)

(+)

G1 G4

AC1

AC2

*

G1G3

G2G4

(--) (+)

Pin Connection and Schematic Diagrams (Cont’d):

NTE No. Description Terminal Positions Schematic Diagrams

5703 SCRACSwitch

5704 Hybrid Doubler

5705 SCR Doubler

* For transient protection, a Metal Oxide Varistor (MOV) may be connected externally across terminals AC1 & AC2.

1.910 (48.5)

.200

(5.08)

1.250

(31.75)

2.500 (63.5)

.980

(24.89)

Max

.600 (15.24)

Max

.500 (12.7)

NOTE: Can be used with Heat Sink NTE441A

AC1 G2G1AC2

*

G2

G1

AC1 AC2

AC1

G1

(--)

(+)

G1AC1

(--) (+)

AC G1G2(--)

(+)

G2

AC1(--) (+)

G1