High Reliability Crimping Technique Isolated Mounting Base Module

High Reliability Crimping Technique Isolated Mounting Base Module

Substantial dependability crimping method isolated mounting foundation module

We offer a wide assortment of thyristor module, diode module, SCR module, power module, fast diode module, rapidly thyristor module. a bridge rectifier,one-phase bridge rectifier,3 phase bridge rectifier. 

 

Energy Module 

Function

Isolated mounting base

CZPT standard package 

Foundation plate insulation utilizing AIN substrate   

CZPT appropriate packaging                          

Minimal CZPT voltage fall                                          

Higher surge existing Up to 5000V voltage CZPT on request

Push-pack structure, superb temperature qualities, and electricity cycling capacity

Underneath 350A modules are all forced air cooling,  above 400A modules, air-cooled and drinking water-cooled optional

 

Application 

For motor drives, electrical power source, energy transmission and distribution, railway transportation, steel smelting, 

machinery producing, welding equipment, chemical business, renewable power.

CE certification

Datasheet

 

Type IT(AV)   VDRM
VRRM
ITSM   IDRM
IRRM
di/dt dv/dt IGT VGT IH VTO rT Rth(j-c) Tj Fig
A V Ax103 mA A/μs V/μs mA v mA V ºC/ W ºC mm
MTx25 25 600-1800 .55  10 >50 >800 <50 <2 <50 .90 nine.80 .95 a hundred twenty five A
MTx40 forty one.00  10 >50 <150 <2 <150 .86 five.sixty .sixty eight A
MTx55 55 one.25  10 >50 <150 <2 <150 .87 3.70 .54 A
MTx70 70 1.60  fifteen >50 <150 <2 <150 .ninety 2.sixty five .forty two A
MTx90 ninety 2.00 fifteen >100 <150 <2 <150 .ninety 2.84 .thirty A,B
MTx110 110 two.40  20 >100 <150 <2 <150 .eighty two.34 .26 A,B
MTx130 130 three.60 thirty >100 <150 <3 <150 .90 2.twelve .twenty C
MTx160 160 five.40  30 >100 <150 <3 <150 .ninety 1.fifty three .seventeen C
MTx200 two hundred 7.20  30 >100 <200 <3 <200 .85 one.34 .thirteen D
MTx250 250 8.50  thirty >100 <200 <3 <200 .85 .90 .twelve D
MTx300 300 nine.30  40 >100 <200 <3 <200 .eighty five .seventy five .10 D
MTx350 350 eleven.0  forty >100 <200 <3 <200 .ninety .50 .09 F
MTx400 400 twelve.0  50 >100 <200 <3 <200 .eighty five .forty nine .09  F,N
MTx500 500 fourteen.5  fifty >100 <200 <3 <200 .eighty five .40 .08  F,N
MTx600 600 seventeen.four fifty >100 <200 <3 <200 .86 .45 .075 H
MTx800 800 23.2 50 >100 <200 <3 <200 .nine .50 .065 J
 MTx1000
*
a thousand 28. fifty >100 <200 <3 <200 .87 .forty five .06 J
*MTx500 five hundred 12. fifty >100 <200 <3 <200 .eight .sixty four .085 G
*MTx600
*
 
600 fifteen. fifty >100 <200 <3 <200 .eighty five .5 .07 I
*MTx800 800 eighteen. 50 >100 <200 <3 <200 .nine .four .05 K
     
MTC                    MTA                  MTK                    MTX              MT

Notice:  If VDRM/VRRM ≥2500V, Viso (AC)>3000V  otherwise =2500V, For module with VDRM/VRRM  from 2500 to 5000V please make contact with us         Tj=125ºC  Tc=85 ºC     * H2o cooling and Tc=55ºC

 

Type IF(AV)   VRRM IFSM   IRRM VFO rF Rth(j-c) VISO Tj Fig
A V Ax103 mA V ºC/ W V ºC mm
MDx25 twenty five 600-1800 .65  10 .eighty 10.9 1.twenty five 2500 a hundred and fifty A
MDx40 forty one.00  ten .eighty six.00 .90 A
MDx55 fifty five 1.30  10 .80 3.eighty .70 A
MDx70 70 one.80  15 .76 two.70 .56 A
MDx90 ninety two.thirty fifteen .77 2.20 .45 A,B
MDx110 a hundred and ten 2.60  20 .80 1.seventy five .35 A,B
MDx130 one hundred thirty three.90 30 .eighty one.forty five .30 C
MDx160 a hundred and sixty six.00  30 .seventy nine one.35 .23 C
MDx200 two hundred eight.00  thirty .seventy six .ninety .fourteen D
MDx250 250 eleven.0  30 .78 .88 .fourteen D
MDx300 300 12.5  40 .80 .sixty five .thirteen D
MDx350 350 15.0  forty .eighty .sixty one .10  F
MDx400 four hundred 17.0  50 .78 .fifty .ten F,N
MDx500 five hundred 19.
 
50 .seventy five .32 .09 F,N
 MDx600 600 20.8 50 .eighty two .forty .08 H
 MDx800 800 22. fifty .seventy eight .twenty five
five
.07 J
 MDx1000 one thousand twenty five. 50 .75 .forty five .065 J
*MDx500 500 thirteen. fifty .78 .fifty
five
.ten G
*MDx600 600 15. 50 .75 .forty five .09 I
*MDx800 800 19. 50 .seventy five .34 .08 K
         
MDC                        MDA                     MDK                      MD

Observe:  If VDRM/VRRM ≥2500V, Viso (AC)>3000V  otherwise =2500V, For module with VDRM/VRRM  from 2500 to 5000V remember to get in touch with manufacturing facility          Tc=100 ºC   * Drinking water cooling and Tc=85ºC
 

Sort IT(AV)   VDRM
VRRM
ITSM 
 IFSM 
IDRM
IRRM
di/dt dv/dt IGT VGT IH VTO rT Rth(j-c) Tj Fig
A V Ax10three mA A/μs V/μs mA v mA V ºC/ W ºC mm
MFx25 25 600-1800 .55  ten >50 >800 <50 <2 <50 .ninety 9.80 .95 a hundred twenty five A
MFx40 40 1.00  10 >50 <150 <2 <150 .86 5.60 .sixty eight A
MFx55 55 one.25  ten >50 <150 <2 <150 .87 3.70 .54 A
MFx70 70 one.60  fifteen >50 <150 <2 <150 .ninety 2.65 .forty two A
MFx90 ninety two.00 15 >100 <150 <2 <150 .ninety two.eighty four .30 A,B
MFx110 one hundred ten two.40  20 >100 <150 <2 <150 .80 2.34 .26 A,B
MFx130 a hundred thirty 3.sixty 30 >100 <150 <3 <150 .ninety 2.twelve .20 C
MFx160 160 5.40  30 >100 <150 <3 <150 .ninety one.fifty three .17 C
MFx200 200 seven.20  thirty >100 <200 <3 <200 .85 one.34 .13 D
MFx250 250 8.50  thirty >100 <200 <3 <200 .85 .90 .12 D
MFx300 three hundred 9.30  forty >100 <200 <3 <200 .85 .seventy five .ten D
MFx350 350 11.0  forty >100 <200 <3 <200 .90 .fifty .09 F
MFx400 400 twelve.0  50 >100 <200 <3 <200 .85 .49 .09  F,N
MFx500 500 fourteen.5  50 >100 <200 <3 <200 .eighty five .40 .08  F,N
MFx600 600 seventeen.4 fifty >100 <200 <3 <200 .86 .forty five .075 H
MFx800 800 23.2 fifty >100 <200 <3 <200 .9 .fifty .065 J
MFx1000 1000 28. 50 >100 <200 <3 <200 .87 .45 .06 J
*MFx500 five hundred 12. 50 >100 <200 <3 <200 .8 .sixty four .085 G
*MFx600 600 fifteen. fifty >100 <200 <3 <200 .85 .5 .07 I
*MFx800 800 18. fifty >100 <200 <3 <200 .9 .4 .05 K
                 
MFC                                MFA                                MFK                    

Notice: If VDRM/VRRM ≥2500V, Viso (AC)>3000V  otherwise =2500V, For module with VDRM/VRRM  from 2500 to 5000V you should speak to us         Tj=125ºC  Tc=85 ºC     * H2o cooling and Tc=55ºC
MDS

Kind IO   VRRM IFSM   IRRM VFO rF Rth(j-c) VISO Tj Fig
A V Ax10three mA V ºC/ W V ºC mm
MDS75 75 600-1800 1.00  10 .80 4.70 .36 2500 150 L
MDS100 one hundred one.50  10 .80 4.33 .29 L
MDS160 one hundred sixty two.60  10 .80 1.eighty .eighteen M
MDS200 two hundred 3.20  15 .80 1.60 .15 M
MDS

 Note:Tc=one hundred ºC
MKC  MHC

IT(AV)   VDRM
VRRM
ITSM  IDRM
IRRM
di/dt dv/dt IGT VGT IH VTO rT Rth(j-c) Tq Tj Fig
A V Ax103 mA A/μs V/μs mA v mA V ºC/ W μs ºC mm
a hundred and sixty 600-1600 four.30  thirty >200 >800 <150 <3 <150 .86 1.sixty six .14 15-35 115 D
two hundred five.60  thirty >200 <200 <3 <200 .90 one.17 .10 15-35 F
three hundred 7.80  40 >200 <200 <3 <200 .88 .eighty .07 fifteen-35 H

 MZC

IT(AV)   VRRM IFSM  IRRM VFO RF Rth(j-c) Trr Tj Fig
A V Ax103 mA V ºC/ W μs ºC mm
one hundred sixty 600-1600 four.fifty 30 .85 1.40 .eighteen 2. a hundred and forty D
200 6.00 30 .88 .ninety five .14 three. F
three hundred eight.thirty forty .86 .60 .10 four. H

    

                       
         MKC                           MHC                         MZC

Observe:  MKC MHC @ Tc=85ºC     MZC @Tc=100ºC   VISO (AC)>2500V

Define measurement:

Organization Certificate

Factory environment exhibit:

 

High Reliability Crimping Technique Isolated Mounting Base Module

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