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?p?d package outline drawings dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 3/22 a a p a c k a g e t y p e : p 6 2 2 d i m e n s i o n s i n m m ?q?d pin descriptions main circuit symbol description p positive input supply voltage. u output (u). v output (v). w output (w). n negative input supply voltage. b no contact. control circuit ?? symbol description ?@ gndu high side ground (u). ?a almu alarm signal output (u). ?b vinu logic input for igbt gate drive (u). ?c vccu high side supply voltage (u). ?d gndv high side ground (v). ?e almv alarm signal output (v). ?f vinv logic input for igbt gate drive (v). ?g vccv high side supply voltage (v). ?h gndw high side ground (w). ?i almw alarm signal output (w). ?j vinw logic input for igbt gate drive (w). ?k vccw high side supply voltage (w). ?l gnd low side ground. ?m vcc low side supply voltage. ?n vindb no contact. ?o vinx logic input for igbt gate drive (x). ?p viny logic input for igbt gate drive (y). ?q vinz logic input for igbt gate drive (z). ?r alm low side alarm signal output. dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 4/22 a 3 ?d block diagram dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 5/22 u v w ?m vcc vinx gnd ?o ?l viny ?p vinz ?q alm ?r b n vindb ?n ?k vccw almw gndw ?i ?h ?g vccv almv gndv ?e ?d ?c p vccu almu gndu ?a ?@ vinu vinv vinw ?b ?f ?j pre - driver pre - driver pre - driver pre - driver pre - driver pre - driver vz r alm 1.5k r alm 1.5k vz r alm 1.5k vz vz vz vz r alm 1.5k u v w ?m vcc vinx gnd ?o ?l viny ?p vinz ?q alm ?r b n vindb ?n ?k vccw almw gndw ?i ?h ?g vccv almv gndv ?e ?d ?c p vccu almu gndu ?a ?@ vinu vinv vinw ?b ?f ?j pre - driver pre - driver pre - driver pre - driver pre - driver pre - driver pre - driver pre - driver pre - driver pre - driver pre - driver pre - driver vz r alm 1.5k r alm 1.5k vz r alm 1.5k vz vz vz vz r alm 1.5k a a pre - drivers include following functions 1.amplifier for driver 2.short circuit protection 3.under voltage lockout circuit 4.over current protection 5.igbt chip over heating protection ?s?d absolute maximum ratings tc ?? 25 ?? unless otherwise specified. items symbol min. max. units dc v dc 0 450 v surge v dc(surge) 0 500 v bus voltage ( between terminal p and n) shortoperating vsc 200 400 v collector - emitter voltage *1 vces 0 600 v dc ic ?\ 100 a 1ms icp ?\ 200 a collector current duty72.3% *2 - ic ?\ 100 a in verter collector power dissipation one transistor *3 pc ?\ 347 w supply voltage of pre - driver *4 vcc - 0.5 20 v input signal voltage *5 vin - 0.5 vcc+0.5 v input signal curren t iin ?\ 3 ma alarm signal voltage *6 v alm - 0.5 vcc v alarm signal current *7 ?h alm ?\ 20 ma junction temperature tj ?\ 150 ?? operating case temperature topr - 20 100 ?? storage temperature tstg - 40 125 ?? solder temperature *8 tsol ?\ 260 ?? isolating volta ge ( terminal to base, 50/60hz sine wave 1min.) viso ?\ ac 2500 v screw torque mounting (m5) ?\ ?\ 3.5 nm ?m?????? *1 ?f vces shall be applied to the input voltage between terminal p and u or ?u or w , n and u or v or w *2 ?f 125 ?? /fwd rth(j - c)/(ic ?~ v f max)=125/0.665/(100 ?~ 2.6) ?~ 100=72.3% *3 ?f pc=125 ?? /igbt rth(j - c)=125/0.36=347w [inverter] *4 ?f vcc shall be applied to the input voltage between terminal no. 4 and 1, 8 and 5, 12 and 9, 14 and 13 *5 ?f v ???? shall be applied to the input voltage between terminal no. 3 and 1, 7 and 5, 11 and 9, 16,17,18 and 13 ?d *6 ?f ?u?`?k?l shall be applied to the voltage between terminal no.2 and 1, no6 and 5, no10 and 9, no.19 and 13 ?d *7 ?f ?h?`?k?l shall be applied to the in put current to terminal no. 2,6,10 and 19 ?d *8 ?f immersion time 10 ?} 1sec . dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 6/22 a ?t?d electrical characteristics tj ?? 25 ???c vcc ?? 15v unless otherwise specified. 5.1 main circuit item symbol conditions min. typ. max. units collector current at off signal input ices ?u ?b?d ?? 600v vin terminal open. - - 1.0 ma terminal - - 2. 3 ?u collector - emitter saturati on voltage vce ?i???????j ?h???? 100 a chip - 1.8 - v terminal - - 2. 6 ?u inverter forward voltage of fwd vf - ?h???? 100 a chip - 1.6 - v turn - on time ton 1. 2 - - turn - off time toff v dc ?? 300v ?a tj =125 ?? ic ?? 100 a fig.1 ?c fig.6 - - 3.6 reverse recovery time trr v dc ?? 300v ?a tj =25 ?? if ?? 100 a fig.1 ?c fig.6 - - 0.3 us maximum avalanche energy ( a non - repetition ) p av internal wiring inductance ?? 50nh main circuit wiring inductance ?? 54 nh 100 - - mj 5.2 control circuit item symbol conditions min. typ. max. units sup ply current of p - side pre - driver (one unit) iccp - - 18 ma supply current of n - side pre - driver iccn switching frequency: 0 ?` 15 khz tc ?? - 20 ?` 125 ?? fig.7 - - 65 ma on 1.00 1.35 1.70 input signal threshold voltage vin(th) off 1.25 1.60 1.95 v input zener v oltage vz rin ?? 20k ?? - 8.0 - v tc ?? - 20 ?? fig.2 1.1 - - ms tc ?? 25 ?? fig.2 - 2.0 - ms alarm signal hold time talm tc ?? 1 25 ?? fig.2 - - 4.0 ms current limit resistor ralm alarm terminal 1425 1500 1575 ?? dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 7/22 a a 5.3 protection section ?i vcc ???p?t?u?j item symbol conditions min. typ. max. units over current protection level of inverter circuit ioc tj=125 ?? 150 - - a over current protection delay time t doc tj=125 ?? - 5 - us sc protection delay time tsc tj=125 ?? fig. 4 - - 8 us igbt chips over heating protection temperature level tjoh surface of igbt chips 150 - - ?? over heating protection hysteresis tjh - 20 - ?? under voltage protection level vuv 11.0 - 12.5 v under voltage protection hysteresis vh 0.2 0.5 - ?u?d thermal characteristics ?i?s?????q?t???j item symbol min. typ. max. units igbt rth(j - c) - - 0.36 junction to case thermal resistance *10 inverter fwd rth(j - c) - - 0.665 case to fin thermal resistance with compound rth(c - f) - 0.05 - ?? /w ?v?d noise immunit y ?i vdc=300v ?a vcc=15v ?a test circuit fig 5. ?j item conditions min. typ. max. units common mode rectangular noise pulse width 1us,polarity ?} , 10 minu te s judge ?f no over - current , no miss operating ?} 2.0 - - kv common mode lightning surge rise time 1.2us, fal l time 50us interval 20s, 10 times judge ?f no over - current , no miss operating ?} 5.0 - - kv ?w?d recommended operating conditions item symbol min. typ. max. units dc bus voltage v dc - - 400 v power supply voltage of pre - driver vcc 13. 5 15.0 1 6.5 v screw torque (m5) - 2.5 - 3.0 nm ?x?d weight item symbol min. typ. max. units weight wt - 270 - g *9 ?f ( for 1device ?c case is under the device ) dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 8/22 figure 1 . switching time waveform definitions figure 2 . input/output timing diagram necessary conditions for alarm reset (refer to ?@ to ?b in figure 2.) ?@ this represents the case when a failure - causing fault lasts for a period more than talm. the alarm r esets when the input vin is off and the fault has disappeared. ?a this represents the case when the on condition of the input vin lasts for a period more than talm. the alarm resets when the vin turns off under no fault conditions. ?b this represents the case wh en the fault disappears and the vin turns off within talm. the alarm resets after lasting for a period of the specified time talm. figure 3 . over - current protection timing diagram period ?@ : when a collector current over the oc level flows and the off command is input within a period less than the trip delay time t doc , the current is hard - interrupted and no alarm is output. period ?a : when a collector current over the oc level flows for a period more than the trip delay time t doc , the current is soft - interrupted. if this is detected at the lower arm igbts, an alarm is output. dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 /vin vge (inside ipm ) fault (inside ipm ) /alm gate off on gate on 2 ms( typ .) off normal t alm t alm ?? max. t alm ?? max. off fault ?f over-current,over-heat or under-voltage on ?@ ?a ?b alarm ?x?o?? ?n?? ?????? ?u???? ?h?? ?????? ?u?????i?????j ?u?????i?????j ?x?o?? ?t?o?? ???? ff 1 ?o?? on /vin ic /alm ?? tdoc ioc off alarm ?@ on tdoc ?a 9/22 a figure 6. switching characteristics test circuit dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 vccu dc 15v + ipm p u v w n 20 k vinu gndu sw1 vcc dc 15v 20 k vinx gnd sw2 cooling fin earth ac200v 4700p noise ct figure 5. noise test circ uit a vcc vin gnd icc p u v w n p.g +8v fsw ipm dc 15v figure 7. icc test circuit figure.4 definition of tsc ic ic ic i alm i alm i alm t sc 10/22 vcc vin gnd dc 15v dc 300v n + l ipm ic p hcpl - 4504 20 k vcc vin gnd dc 15v dc 300v n + l ipm ic p hcpl - 4504 20 k a ?p?o?d truth table 10.1 igbt control the following table shows the igbt on/off status with respect to the input signal vin. the igbt turn - on when vin is at ?g low ?h level under no alarm condition. 10.2 fault detection (1) when a fault is detected at the high sid e, only the detected arm stops its output. at that time the ipm outputs detected arm ? s alarm. (2) when a fault is detected at the low side, all the lower arms stop their outputs and the ipm outputs an alarm of the low side. * ?f depend on input logic . dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 input output (vin) (igbt) low on high off u-phase v-phase w-phase low side alm-u alm-v alm-w alm oc off * * * l h h h uv off * * * l h h h tjoh off * * * l h h h oc * off * * h l h h uv * off * * h l h h tjoh * off * * h l h h oc * * off * h h l h uv * * off * h h l h tjoh * * off * h h l h oc * * * off h h h l uv * * * off h h h l tjoh * * * off h h h l high side u-phase high side v-phase high side w-phase low side igbt alarm output fault 11/22 a ?p?p . cautions for design and application 1. trace routing layout should be designed with particular attention to least stray capacity between the primary and secondary sides of optical isolators by minimizing the wiring length between the optical isolators a nd the ipm input terminals as possible. ?t?h?g?j?v?????h?o?l????[?q????z?????z?-??a?t?h?g?j?v??????????????????v?e??e???3?-??? ?p?^?[?????c?a?e?g?????o?3??b 2. mount a capacitor between vcc and gnd of each high - speed optical isolator as close to as possible. ?????t?h?g?j?v??? vcc - gnd ????a?r???f???t?e?o????????????????t????o?3??b 3. for the high - speed optical isolator, use high - cmr type one with tphl, tplh ?? 0.8 s. ?????t?h?g?j?v????a tphl,tplh ?? 0.8us ?a?? cmr ?^?c?v?e?2?g?p?-???3??b 4. for the alarm output circuit, use low - speed type optical isolators with ctr ?? 100%. ?a???[???o????h??a????t?h?g?j?v?? ctr ?? 100% ??^?c?v?e?2?g?p?-???3??b 5. for the control power vcc, use four power supplies isolated each. and they should be designed to reduce the voltage variations. ????d?1 vcc ??a?a???3????s?d?1?e?g?p????-???3??b????a?d?3?????e?}?|???y?v??????o?3??b 6. suppress surge voltages as possible by reducing the inductance between the dc bus p and n, and connecting some capacitors between the p and n terminals p - n ???????????o????????c???_?n?^???x????a p - n ?[?q????r???f???t?e???????????t?[?w ?d?3?e???????o?3??b 7. to prevent noise intrusion from the ac lines, connect a capacitor of some 4700pf between the three - phase lines each and the groun d. ac ???c????????m?c?y?n??e?h????????a?r???e??|?a?[?x????s?v?o?o???e????r???f???t?e??????o?3? 8. at the external circuit, never connect the control terminal ?@ gndu to the main terminal u - phase, ?d gndv to v - phase, ?h gndw to w - phase, and ?l gnd to n - phase. otherwise, malfunctions may be caused. ????[?q?@?f?m?c ?t?????[?q?t???a????[?q?d?f?m?c v ?????[?q v ???a????[?q?h?f?m?c w ?????[?q w ???a ????[?q?l?f?m?c?????[?q n ?e?o?????h??????????o?3??b???????????????b 9. take note that an optical isolator ? s response to the primary input signal becomes slow if a capacitor is connected between the input terminal and gnd. ???[?q - gnd ????r???f???t?e???????a ?t?h?g?j?v?????????m????????????????a??-??? ?????2????-???3??b dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 12/22 a h e a t s i n k m o u n t i n g h o l e s + 1 0 0 ? m 0 10. taking the used isolator ? s ctr into account, design with a sufficient allowance to decide the primary forward current of the optical isolator. ?t?h?g?j?v????????d????a??g???t?h?g?j?v??? ctr ?e?l????\?a??]?t?e?????y?v?????o?3??b 11. apply thermal compound to the surfaces between the ip m and its heat sink to reduce the thermal contact resistance. ??g?m???r?e???3?-????????a?h?o?l???q?[?g?v???n?????t?[?}???r???p?e???h?h?z????o?3??b 12. finish the heat sink surface within roughness of 10 m and flatness (camber) between screw positions of 0 to + 100 m. if the flatness is minus, the heat radiation becomes worse due to a gap between the heat sink and the ipm. and, if the flatness is over + 100 m, there is a danger that the ipm copper base may be deformed and this may cause a dielectric breakdown. ?q?[?g?v???n?\???d?????a?e?3 10um ??o?a?l?w??u?? ??????r?x?i ????j??a 0 ?` 100um ??????o?3??b???r?x?a?} ?c?i?x?????a?q?[?g?v???n?? ipm ?????????a??????m?a ????????b????a???r?x?a?{ 100um ????????h?o?l??o t??a???`??a???j??e?n????????a??????b 13. this product is designed on the assumption that it applies to a servo use. sufficient examination is required when applying to a general p urpose inverter or converter use. please contact fuji electric co.,ltd if you would like to applying to general purpose inverter or converter use. ?{???i??a?t?[?{?p?r????k?p?e?o????y?v?3????????b???p?c???o?[?^?a?r???o?[?^?p?r???k?p?3?? ?????a?\?a?????a?k?v????b???a???p?c???o?[?^?a?r???o?[?^???k?p?3?????????a???-???3??b 14. please see the ?w fuji igbt - ipm r series application manual ?x and ?w fuji igbt modules n series application manual ?x . ?w?x?m igbt - ipm r ?v???[?y ?a?v???p?[?v?????}?j???a???x?y???w igbt ?t-? n ?v???[?y ?a?v???p?[?v?????}?j?? ?a???x?e???q???-???3??b 15. there is thermal interference between nearby power devices, becau se the econo ipm is a compact package. therefore you measure the case temperature just under the igbt chips that showed in report mt6m04545, and estimate the chip temperature. econo ipm ??p?b?p?[?w???^????????a?p???[?f?q??m??a?a?l?|??????b ?????a?`?b?v??x?????k?? mt6m04545 ??|??`?b?v???o??p?[?x ??x?e?a?????s????o?3??b dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. 13/22 ms6m070 2 a a ?p?q?d example of applied circuit ???p???h? (a)in case of use of high side alarm (b) in case of no use of high side alarm ?????g?p???? ?????s?g?p???? ?p?r?d package and marking ?????d?l please see the mt6m04140 which is packing specification of ip m ?d ipm ?????d?l?? ?l?s?u?l?o?s?p?s?o ?e???q???-???3??b ?p?s?d cautions for storage and transportation ?????a?^??????? ?e store the modules at the normal temperature and humidity (5 to 35 c, 45 to 75%). ????? (5 ?` 35 ???a 45 ?` 75%) ??????????o?3??b ?e avoid a sudden change in ambient temperature to prevent cond ensation on the module surfaces. ???w???[????\??a???i???????a?}?????x?????e?e????o?3??b ?e avoid places where corrosive gas generates or much dust exists. ???h???k?x??-??????a?2?o?????????e????o?3??b ?e store the module terminals under unprocessed conditions ???w???[????[?q????h????????????????b . ?e avoid physical sho ck or falls during the transportation. ?^?????????e?^?|??????o?3?1?????o?3??b ?p?t?d scope of application ?k?p?? this specification is applied to the igbt - ipm (type: 6mbp100tea060). ?{?d?l????a igbt - ipm ( ?^???f 6mbp100tea060) ??k?p?? ?b ?p?u?d based safety standards ??????s?k?i ul1557 dwg.no. this material and the information herein is the property of fuji electric co.,ltd.they shall be neither reproduced, copied, lent, or disclosed in any way whatsoever for the use of any third party,nor used for the manufacturing purposes without the express written consent of fuji electric co.,ltd. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 14/23 vccu gndu ?@ ?b ?c + 0.1 uf 20 k ?? 10 uf +5 v hcpl4504 ?a vccv gndv ?d ?f ?g + 0.1 uf 20 k ?? 10 uf ?e vccw gndw ?h ?j ?k + 0.1 uf 20 k ?? 10 uf ?i vcc gnd ?l ?o ?m + 0.1 uf 20 k ?? 10 uf ?p 0.1 uf 20 k ?? ?q 0.1 uf 20 k ?? ?n ?r ? h ? ?? u ?? igbt y ? h ? ?? v ?? igbt y ? h ? ?? w ?? igbt y ? h ? ?? x ?? igbt y ? h ? ?? y ?? igbt y ? h ? ?? z ?? igbt y c+ ?l u v w b n p ac200v ipm tlp521 vccu gndu ?@ ?b ?c + 0.1 uf 20 k ?? 10 uf +5 v hcpl4504 ?a vccv gndv ?d ?f ?g + 0.1 uf 20 k ?? 10 uf ?e vccw gndw ?h ?j ?k + 0.1 uf 20 k ?? 10 uf ?i vcc gnd ?l ?o ?m + 0.1 uf 20 k ?? 10 uf ?p 0.1 uf 20 k ?? ?q 0.1 uf 20 k ?? ?n ?r ? h ? ?? u ?? igbt y ? h ? ?? v ?? igbt y ? h ? ?? w ?? igbt y ? h ? ?? x ?? igbt y ? h ? ?? y ?? igbt y ? h ? ?? z ?? igbt y c+ ?l u v w b n p ac200v ipm tlp521 vccu gndu ?@ ?b ?c + 0.1 uf 20 k ?? 10 uf +5 v hcpl4504 ?a vccv gndv ?d ?f ?g + 0.1 uf 20 k ?? 10 uf ?e vccw gndw ?h ?j ?k + 0.1 uf 20 k ?? 10 uf ?i vcc gnd ?l ?o ?m + 0.1 uf 20 k ?? 10 uf ?p 0.1 uf 20 k ?? ?q 0.1 uf 20 k ?? ?n ?r ? h ? ?? u ?? igbt y ? h ? ?? v ?? igbt y ? h ? ?? w ?? igbt y ? h ? ?? x ?? igbt y ? h ? ?? y ?? igbt y ? h ? ?? z ?? igbt y c+ ?l u v w b n p ac200v ipm tlp521 vccu gndu ?@ ?b ?c + + 0.1 uf 20 k ?? 10 uf +5 v hcpl4504 ?a vccv gndv ?d ?f ?g + + 0.1 uf 20 k ?? 10 uf ?e vccw gndw ?h ?j ?k + + 0.1 uf 20 k ?? 10 uf ?i vcc gnd ?l ?o ?m + + 0.1 uf 20 k ?? 10 uf ?p 0.1 uf 20 k ?? ?q 0.1 uf 20 k ?? ?n ?r ? h ? ?? u ?? igbt y ? h ? ?? v ?? igbt y ? h ? ?? w ?? igbt y ? h ? ?? x ?? igbt y ? h ? ?? y ?? igbt y ? h ? ?? z ?? igbt y c+ ?l u v w b n p ac200v ipm tlp521 vccu gndu ?@ ?b ?c + 0.1 uf 20 k ?? 10 uf +5 v hcpl4504 ?a vccv gndv ?d ?f ?g + 0.1 uf 20 k ?? 10 uf ?e vccw gndw ?h ?j ?k + 0.1 uf 20 k ?? 10 uf ?i vcc gnd ?l ?o ?m + 0.1 uf 20 k ?? 10 uf ?p 0.1 uf 20 k ?? ?q 0.1 uf 20 k ?? ?n ?r ? h ? ?? u ?? igbt y ? h ? ?? v ?? igbt y ? h ? ?? w ?? igbt y ? h ? ?? x ?? igbt y ? h ? ?? y ?? igbt y ? h ? ?? z ?? igbt y c+ ?l u v w b n p ac200v ipm tlp521 vccu gndu ?@ ?b ?c + + 0.1 uf 20 k ?? 10 uf +5 v hcpl4504 ?a vccv gndv ?d ?f ?g + + 0.1 uf 20 k ?? 10 uf ?e vccw gndw ?h ?j ?k + + 0.1 uf 20 k ?? 10 uf ?i vcc gnd ?l ?o ?m + + 0.1 uf 20 k ?? 10 uf ?p 0.1 uf 20 k ?? ?q 0.1 uf 20 k ?? ?n ?r ? h ? ?? u ?? igbt y ? h ? ?? v ?? igbt y ? h ? ?? w ?? igbt y ? h ? ?? x ?? igbt y ? h ? ?? y ?? igbt y ? h ? ?? z ?? igbt y c+ ?l u v w b n p ac200v ipm tlp521 a a ?p ?w - ?p?d reliability test items dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 19/22 a a test cate- gories test items test methods and conditions reference norms eiaj ed-4701 number of sample accept- ance number 1 terminal strength pull force : 20 n (main terminal) test method 401 5 ( 1 : 0 ) ?[?q?-?x 10 n (control terminal) method ?t (pull test) test time : 10 1 sec. 2 mounting strength screw torque : 2.5 ~ 3.5 n m (m5) test method 402 5 ( 1 : 0 ) ??t??-?x test time : 10 1 sec. method ?u 3 vibration range of frequency : 10 ?`500 hz test method 403 5 ( 1 : 0 ) ?u?? sweeping time : 15 min. condition code b acceleration : 100 m/s 2 sweeping direction : each x,y,z axis test time : 6 hr. (2hr./direction) 4 shock maximum acceleration : 5000 m/s 2 test method 404 5 ( 1 : 0 ) ???? pulse width 1.0 ms condition code b direction : each x,y,z axis test time : 3 times/direction 5 solderabitlity solder temp. : 235 5 ?? test method 303 5 ( 1 : 0 ) ??????t??? immersion duration : 5.0 0.5 sec. condition code a test time : 1 time each terminal should be immersed in solder within 1~1.5mm from the body. 6 resistance to solder temp. : 260 5 ?? test method 302 5 ( 1 : 0 ) soldering heat immersion time : 10 1sec. condition code a ????????m?? test time : 1 time each terminal should be immersed in solder within 1~1.5mm from the body. 1 high temperature storage temp. : 125 5 ?? test method 201 5 ( 1 : 0 ) storage ??????? test duration : 1000 hr. 2 low temperature storage temp. : -40 5 ?? test method 202 5 ( 1 : 0 ) storage ?????? test duration : 1000 hr. 3 temperature storage temp. : 85 2 ?? test method 103 5 ( 1 : 0 ) humidity storage relative humidity : 85 5% test code c ??????????? test duration : 1000hr. 4 unsaturated test temp. : 120 ?} 2 ?? test method 103 5 ( 1 : 0 ) pressure cooker atmospheric pressure : 1.7x10 5 pa test code e ?v???b?v???[?n?b?j?[ test humidity : 85 ?} 5% test duration : 96 hr. 5 temperature test temp. : minimum storage temp. -40 ?} 5 ?? test method 105 5 ( 1 : 0 ) cycle maximum storage temp. 125 ?} 5 ?? ??x?t?c?n?? normal temp. 5 ~ 35 ?? dwell time : tmin ~ t n ~ tmax ~ t n 1hr. 0.5hr. 1hr. 0.5hr. number of cycles : 100 cycles 6 thermal shock +0 test method 307 5 ( 1 : 0 ) ?m???? test temp. : high temp. side 100 -5 ?? method ?t +5 condition code a low temp. side 0 -0 ?? fluid used : pure water (running water) dipping time : 5 min. par each temp. transfer time : 10 sec. number of cycles : 10 cycles mechanical tests environment tests mechanical tests environment tests ?p ?w - ?q?d reliability test items ?p?x?d failure criteria dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. item characteristic symbol failure criteria unit note lower limit upper limit electrical leakage current ices - usl2 ma characteristic saturation voltage vce(sat) - usl1.2 v forward voltage vf - usl1.2 v thermal igbt ?qth(j-c) - usl1.2 ?? /w resistance fwd ?qth(j-c) - usl1.2 ?? /w over current protection ioc lsl0.8 usl1.2 ?` alarm signal hold time talm lsl0.8 usl1.2 ms isolation voltage viso broken insulation - visual visual inspection inspection peeling - the visual sample - plating and the others lsl : lower specified limit. usl : upper specified limit. note : each parameter measurement read-outs shall be made after stabilizing the components at room ambient for 2 hours minimum, 24 hours maximum after removal from the tests. and in case of the wetting tests, for example, moisture resistance tests, each component shall be made wipe or dry completely before the measurement. ms6m0702 20/22 a test cate- gories test items test methods and conditions reference norms eiaj ed-4701 number of sample accept- ance number 1 high temperature test temp. : ta = 125 ?} 5 ?? test method 101 5 ( 1 : 0 ) reverse bias (tj ?? 150 ?? ) ????tt2? bias voltage : vc = 0.8vces bias method : applied dc voltage to c-e vcc = 15v test duration : 1000 hr. 2 temperature test temp. : 85 2 ?? test method 102 5 ( 1 : 0 ) humidity bias relative humidity : 85 5 % condition code c ???????t2? bias voltage : vc = 0.8vces vcc = 15v bias method : applied dc voltage to c-e test duration : 1000 hr. 3 intermitted on time : 2 sec. test method 106 5 ( 1 : 0 ) operating life off time : 18 sec. (power cycle) test temp. : d tj=100 5deg ?f???? tj ?? 150 ?? , ta=25 5 ?? number of cycles : 15000 cycles endurance tests endurance tests a warnings 1. this product shall be used within its absolute maximu m rating (voltage, current, and temperature). this product may be broken in case of using beyond the ratings. ???i??a????????i?i?d?3?c?d???c??x???j?????????g?p?o?3??b?a????????i?e??|???g?p?????a?f ?q?a?j???????a??????b 2. con n ect adeq uate fuse or protector of circuit between three - phase line and this product to prevent the equipment from causing secondary destruction. ?????s?????????f?q?a?j????????e?l????a??p?d?1???{???i?????k????e???q???[?y ????u???[?j?[?e?k???t????q???j??e?h????-???3??b 3. when stud y ing the device at a no r mal turn - off action, make sure that working paths of the turn - off voltage and current are within the rbsoa specification. and, when studying the device duty at a short - circuit current non - repetitive interruption, make sure that the paths are also within the avalanche proof (pav) specification which is calculated from the snubber inductance, the ipm inner inductance and the turn - off current. in case of use of igbt - ipm over these specifications, it might be possible to be broken. ????^?[???i?t????????f?q????????????a?^?[???i?t?d?3?e?d???????o???a rbsoa ?d?l?????????e?m?f????o?3??b????a???j?????z???d?????f?????f?q???????????? ??a?x?i?o?[?c???_?n?^???x???h?o?l????c???_?n?^???x?y???^?[???i?t?d???????z?o?3???a?o?????v?f?? ? (pav) ?d?l?????????e?m?f????o?3??b??????d?l?e?z?|???g?p?????a?f?q?a?j???????a ??????b 4. use this product after realizing enough working on enviro nment and considering of product's reliability life. this product may be broken before target life of the system in case of using beyond the product's reliability life. ???i??g?p?a???e?\?a??c????a???i??m?????????a??????????????????a?{???i?e?k?p????o?3 ??b???i??m?????????e??|???g?p???????a???u???w????????o??f?q?a?j?????? ?a???? ??b 5. if the product had been used in the environment with acid, organic matter, and corrosive gas (for example : hydrogen sulfide, sulfurous acid gas), the product's performance and appearance can not be ensured easily. ?_?e?l?@??e???h???k?x?i??????f?c????_?k?x???j?e??t?a???o ???g?p?3???????a???i?@?\?e?o?? ??????????v????????b 6. use the product within the power cycle curve (technical rep.no. : mt6m4057) ?{???i??a?p???[?t?c?n???????j?[?u??o???g?p?o?3? ( ?z?p???? no.: mt6m4057) dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. ms6m0702 21/22 a 7. never add mechanical stress to deform the main or control terminal. the deformed terminal may cause poor contact prob l em. ???[?q?y??????[?q?????e?^?|?????`?3?1?????o?3??b ?[?q????`?????a??g?s??????e?????n?? ????a??????b 8. if excessive static electricity is applied to the control termina ls, the devices can be broken. implement some countermeasures against static electricity. ????[?q?????????d?c?a???3???????a?f?q?a?j???????a??????b???????????d?c?? ???e??{????o?3??b caution 1. fuji electric is constantly making every endeavor to improve the product quality and reliabilit y. however, semiconductor products may rarely happen to fail or malfunction. to prevent accidents causing inju r y or death, damage to property like by fire, and other social damage resulted from a failure or malfunction of the fuji electric semiconductor pr oducts, take some measures to keep safety such as redundant design, spread - fire - preventive design, and malfunction - protective design. ?x?m?d?@????|?????i??i?????m??????????w????????b?????a???????i????a?-???????a?? ?????????a??????b?x?m?d?@?????????i?????????????a?a?????????l?g????e???e????? ???y??????1?q?a?e???i??1?q?e?n ??3??????????y?v?e?????h?~?y?v?e??????h?~?y?v?????s ?m??????????i?e?u?????o?3??b 2. the application examples described in this specification only explain typical ones that used the fuji electric products. this specification never ensure to enforce the industrial property and other rights, no r license the enforcement rights. ?{?d?l????l??????????p???a?x?m?d?@???i?e?g?p??????\?i????p??e?????????????a?{?d?? ???????h?????l???a????????????{??????????????{????????e?s???????????1???b 3. the product described in this specification is not designed nor made for being applied to the equipment or systems used un der life - threatening situations. when you consider applying the product of this specification to particular used, such as vehicle - mounted units, shipboard equipment, aerospace equipment, medical devices, atomic control systems and submarine relaying equipm ent or systems, please apply after confirmation of this product to be satisfied about system construction and required reliability. ?{?d?l????l??3??????i??a?l????????????????o???g?p?3???@???????v?x?e????p???? ?????e??i??????y?v?e????3?????????????1???b?{?d?l??????i?e?????@??a?d???a?q??f???a?? ???@??a??q?????a?c????p?@???????v?x?e??????a???p?r????2?? ?p?e?2????????a?v?x?e?? ?\???y???v???i?????????????e?2?m?f????a?2???p?o?3??b dwg.no. . h04 - 004 - 03 fuji electric co.,ltd. if there is any unclear matter in this specification, please contact fuji electric co.,ltd. ms6m0702 22/22 a |
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