DYNEX MP03-300-14, MP03-300-16, MP03-300-10, MP03-300-12 Datasheet

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MP03 XXX 300 Series

Code

Circuit

HBT

HBP

HBN

MP03/300 - 16
MP03/300 - 14
MP03/300 - 12
MP03/300 - 10

Symbol Parameter Max. Units

312
265

A
A

Conditions

216

A

T

case

= 75oC

T

heatsink

= 75oC

T

heatsink

= 85oC

T

case

= 85oC

T

case

= 75oC

I

T(RMS)

RMS value

A

181

A490

Mean on-state current

Halfwave, resistive load

I

T(AV)

1600
1400
1200
1000

Lower voltage grades available.
For full description of part number see "Ordering instructions"
on page 3.

T

(vj)

= 125oC

I

DRM

= I

RRM

= 30mA

V

DSM

& V

RSM

=

V

DRM

& V

RRM

+ 100V

respectively

Module type code: MP03.

See Package Details for further information

VOLTAGE RATINGS

CURRENT RATINGS - PER ARM

PACKAGE OUTLINE

FEATURES

■ Dual Device Module

■ Electrically Isolated Package

■ Pressure Contact Construction

■ International Standard Footprint

■ Alumina (non-toxic) Isolation Medium

APPLICATIONS

■ Motor Control

■ Controlled Rectifier Bridges

■ Heater Control

■ AC Phase Control

CIRCUIT OPTIONS

KEY PARAMETERS

V

DRM

1600V

I

TSM

10600A

I

T(AV)

(per arm) 312A

V

isol

2500V

Type

Number

Repetitive

Peak
Voltages
V

DRM VRRM

Conditions

MP03 XXX 300 Series

Phase Control Dual SCR, SCR/Diode Modules

Replaces December 1998 version, DS4482-5.0 DS4482-6.0 January 2000

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MP03 XXX 300 Series

Symbol Parameter Conditions

Max.

Units

kA

VR = 0
VR = 50% V

RRM

VR = 0
VR = 50% V

RRM

A2s

10.6

Symbol Parameter Conditions Units

Thermal resistance - case to heatsink
per thyristor or diode

3 phase

Max.

Symbol Parameter

Peak reverse and off-state current

From 67% V

DRM

to 600A
Gate source 10V, 5Ω
Rise time 0.5µs, Tj =125oC

r

T

* Higher dV/dt values available, contact factory for particular requirements.
Note 1: The data given in this datasheet with regard to forward voltage drop is for calculation of the power dissipation in the

semiconductor elements only. Forward voltage drops measured at the power terminals of the module will be in excess of these
figures due to the impedance of the busbar from the terminal to the semiconductor.

kA

8.5

0.56 x 106A2s

0.36 x 10

6

10ms half sine;

Tj = 125˚C

10ms half sine;

Tj = 125˚C

Surge (non-repetitive) on-state current

I

FSM

I2t for fusingI2t

dc

Thermal resistance - junction to case
per Thyristor or Diode

halfwave

R

th(j-c)

R

th(c-hs)

Mounting torque = 5Nm
with mounting compound

T

vj

Virtual junction temperature

Off-state (Blocking)

T

stg

Storage temperature range

Commoned terminals to base plate
AC RMS, 1min, 50Hz

Isolation voltageV

isol

0.11

o

C/W

o

C/W

0.12

2.5 kV

-40 to 125oC

o

C125

0.05

o

C/W

0.13

o

C/W

Units

Conditions

Max.

At 1000A, T

case

= 25oC - See Note 1 1.50 V

At V

RRM/VDRM

, Tj = 125oC30mA

To 67% V

DRM Tj

= 125oC 200* V/µs

100 A/µs

0.8 VAt Tvj = 125oC - See Note 1

0.7

mΩ

At Tvj = 125oC - See Note 1On-state slope resistance

V

T(TO)

Threshold voltage

Rate of rise of on-state current

dI/dt

Linear rate of rise of off-state voltagedV/dt

I

RRM/IDRM

On-state voltage

V

TM

SURGE RATINGS - PER ARM

THERMAL & MECHANICAL RATINGS

DYNAMIC CHARACTERISTICS- THYRISTOR

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MP03 XXX 300 Series

Symbol Parameter Conditions

Gate non-trigger voltage

V

3.0

0.25

Typ.

mA

V

V

GD

Gate trigger voltage

150

V

GT

I

GT

Gate trigger current

At V

DRM Tcase

= 25oC

V

DRM

= 5V, T

case

= 25oC

V

DRM

= 5V, T

case

= 25oC

-

-

-

V

30

0.25

V

V

RGM

Peak reverse gate voltage V5.0-

A-

-

-

10

I

FGM

Peak forward gate current

Peak forward gate voltage

V

FGM

V

FGN

Peak forward gate voltage

Anode positive with respect to cathode
Anode negative with respect to cathode

Anode positive with respect to cathode

P

GM

P

G(AV)

Peak gate power
Mean gate power

tp = 25µs-

-

100

5

W
W

Max. Units

■ Adequate heatsinking is required to maintain the base temperature
at 75oC if full rated current is to be achieved. Power dissipation may
be calculated by use of V

T(TO)

and rT information in accordance with
standard formulae. We can provide assistance with calculations or
choice of heatsink if required.

■ The heatsink surface must be smooth and flat; a surface finish
of N6 (32µin) and a flatness within 0.05mm (0.002") are
recommended.

■ Immediately prior to mounting, the heatsink surface should be
lightly scrubbed with fine emery of Scotch Brite or a mild chemical
etchant and then cleaned with a solvent to remove oxide build up
and foreign material. Care should be taken to ensure no foreign
particles remain.

■ An even coating of thermal compound (eg. Unial) should be
applied to both the heatsink and module mounting surfaces. This
should ideally be 0.05mm (0.002") per surface to ensure optimum
thermal performance.

■ After application of thermal compound, place the module
squarely over the mounting holes, (or 'T' slots) in the heatsink.
Using a torque wrench, slowly tighten the recommended fixing
bolts at each end, rotating each in turn no more than 1/4 of a
revolution at a time. Continue until the required torque of 5Nm
(44lb.ins) is reached at both ends.

■ It is not acceptable to fully tighten one fixing bolt before starting
to tighten the others. Such action may DAMAGE the module.

GATE TRIGGER CHARACTERISTICS AND RATINGS

ORDERING INSTRUCTIONS

MOUNTING RECOMMENDATIONS

Examples:
MP03 HBP300 - 16

MP03 HBN300 - 10
MP03 HBT300 - 14

Part number is made up of as follows:
MP03 HBT 300 -12

MP = Pressure contact module
03 = Outline type
HBT = Circuit configuration code (see "circuit options" - front page)
300 = Nominal average current rating at T

case

= 75oC

12 = V

RRM

/100

NOTE: Diode ratings and characteristics are comparable with the SCR in types HBP or HBN

Types HBP or HBN can also be supplied with diode polarity reversed, to special order.