MP03 XX 440 Series
MP03 XX 440 Series
Dual Diode Modules
Replaces December 1998 version, DS5106-2.0 |
DS5106-3.0 January 2000 |
FEATURES
■Dual Device Module
■Electrically Isolated Package
■Pressure Contact Construction
■International Standard Footprint
■Alumina (non-toxic) Isolation Medium
APPLICATIONS
■Rectifier Bridges
■DC Power Supplies
■Plating Rectifiers
■Traction Systems
VOLTAGE RATINGS
Type |
Repetitive |
Conditions |
Number |
Peak |
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|
Voltages |
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VRRM |
|
MP03/440 - 21 |
2100 |
T = 150oC |
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|
vj |
MP03/440 - 20 |
2000 |
IRM = 30mA |
MP03/440 - 18 |
1800 |
VRSM = VRRM + 100V |
MP03/440 - 16 |
1600 |
respectively |
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KEY PARAMETERS |
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VRRM |
|
2100V |
IFSM |
|
11250A |
IF(AV)(per arm) |
440A |
|
Visol |
|
2500V |
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CIRCUIT OPTIONS |
|
Code |
Circuit |
|
HB |
|
|
G
GN
PACKAGE OUTLINE
Lower voltage grades available. For full description of part number see "Ordering Instructions" on page 3.
Module outline type code: MP03.
See Package Details for further information.
CURRENT RATINGS - PER ARM
Symbol |
Parameter |
Conditions |
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Max. |
Units |
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Tcase = 75oC |
440 |
A |
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IF(AV) |
Mean forward current |
Halfwave, resistive load |
Tcase = 85oC |
390 |
A |
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T |
= 75oC |
340 |
A |
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heatsink |
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Theatsink = 85oC |
300 |
A |
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I |
F(RMS) |
RMS value |
T = 75oC |
|
690 |
A |
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case |
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MP03 XX 440 Series
SURGE RATINGS - PER ARM
Symbol |
Parameter |
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Conditions |
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Max. |
Units |
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I |
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Surge (non-repetitive) on-state current |
10ms half sine; |
VR = 0 |
11250 |
A |
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FSM |
Tj |
= 150oC |
VR |
= 50% VRRM |
9000 |
A |
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I2t |
I2t for fusing |
10ms half sine; |
V |
= 0 |
630000 |
A2s |
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R |
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Tj |
= 150oC |
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V |
= 50% V |
405000 |
A2s |
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R |
RRM |
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THERMAL & MECHANICAL RATINGS
Symbol |
Parameter |
Conditions |
Max. |
Units |
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dc |
0.12 |
oC/W |
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R |
Thermal resistance - junction to case |
halfwave |
0.13 |
oC/W |
|
th(j-c) |
per Diode |
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3 phase |
0.14 |
oC/W |
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Rth(c-hs) |
Thermal resistance - case to heatsink |
Mounting torque = 5Nm |
0.05 |
oC/W |
|
per Diode |
with mounting compound |
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T |
Virtual junction temperature |
|
150 |
oC |
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vj |
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T |
Storage temperature range |
|
-40 to 150 |
oC |
|
sto |
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Visol |
Isolation voltage |
Commoned terminals to base plate |
2.5 |
kV |
|
AC RMS, 1min, 50Hz |
CHARACTERISTICS
Symbol |
Parameter |
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Conditions |
Max. |
Units |
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VFM |
Forward voltage |
At 1000A , Tcase = 25oC |
1.29 |
V |
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I |
RM |
Peak reverse current |
At V |
|
, T |
= 150oC |
30 |
mA |
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RRM j |
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V |
TO |
Threshold voltage |
At T |
|
= 150oC |
0.94 |
V |
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vj |
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r |
T |
On-state slope resistance |
At T |
|
= 150oC |
0.32 |
mΩ |
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vj |
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MP03 XX 440 Series
ORDERING INSTRUCTIONS
Part number is made up as follows:
|
MP03 HB 440 - 18 |
MP |
= Pressure contact module |
03 |
= Outline type |
HB |
= Circuit configuration code (see "circuit options" - front page) |
440 |
= Nominal average current rating at T = 75oC |
|
case |
18 |
= VRRM/100 |
Examples:
MP03HB440 - 21
MP03G440 - 16
MP03GN440 - 18
Note: Prefered type is HB configuration. G and GN types are available for specific applications, only when requested.
MOUNTING RECOMMENDATIONS
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 VTOand 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, 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.
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