SIHP30N60E www.vishay.com vishay siliconix s11-2091 rev. c, 31-oct-11 1 document number: 91456 this document is subject to change without notice. the products described herein and this document are subject to specific disclaimers, set forth at www.vishay.com/doc?91000 e series power mosfet features ? low figure-of-merit (fom) r on x q g ? low input capacitance (c iss ) ? reduced switching and conduction losses ? ultra low gate charge (q g ) ? avalanche energy rated (uis) ? compliant to rohs directive 2002/95/ec applications ? server and telecom power supplies ? switch mode power supplies (smps) ? power factor correction power supplies (pfc) ?lighting - high-intensity discharge (hid) - fluorescent ballast lighting - led lighting ? industrial - welding - induction heating - motor drives ? battery chargers ? renewable energy - solar (pv inverters) notes a. repetitive rating; puls e width limited by maximum junction temperature. b. v dd = 50 v, starting t j = 25 c, l = 28.2 mh, r g = 25 ? , i as = 7 a. c. 1.6 mm from case. d. i sd ? i d , di/dt = 100 a/s, starting t j = 25 c. product summary v ds (v) at t j max. 650 r ds(on) max. at 25 c ( ? )v gs = 10 v 0.125 q g max. (nc) 130 q gs (nc) 15 q gd (nc) 39 configuration single n-channel mosfet g d s to-220ab g d s rohs compliant ordering information package to-220ab lead (pb)-free SIHP30N60E-e3 absolute maximum ratings (t c = 25 c, unless otherwise noted) parameter symbol limit unit drain-source voltage v ds 600 v gate-source voltage v gs 20 gate-source voltage ac (f > 1 hz) 30 continuous drain current (t j = 150 c) v gs at 10 v t c = 25 c i d 29 a t c = 100 c 18 pulsed drain current a i dm 65 linear dera ting factor 2w/c avalanche energy (repetitive) e ar 0.25 mj single pulse avalanche energy b e as 690 maximum power dissipation p d 250 w operating junction and storage temperature range t j , t stg - 55 to + 150 c drain-source voltage slope t j = 125 c dv/dt 37 v/ns reverse diode dv/dt d 18 soldering recommendations (peak temperature) for 10 s 300 c c
SIHP30N60E www.vishay.com vishay siliconix s11-2091 rev. c, 31-oct-11 2 document number: 91456 this document is subject to change without notice. the products described herein and this document are subject to specific disclaimers, set forth at www.vishay.com/doc?91000 the information shown here is a preliminary product proposal, not a commercial product datasheet. vishay siliconix is not comm itted to produce this or any similar product. this information should not be used for design purposes, nor construed as an offer to furnish or sell such products. thermal resistance ratings parameter symbol typ. max. unit maximum junction-to-ambient r thja -62 c/w maximum junction-to-case (drain) r thjc -0.5 specifications (t j = 25 c, unless otherwise noted) parameter symbol test conditions min. typ. max. unit static drain-source breakdown voltage v ds v gs = 0 v, i d = 250 a 600 - - v v ds temperature coefficient ? v ds /t j reference to 25 c, i d = 250 a -0.64- v/c gate-source threshold voltage (n) v gs(th) v ds = v gs , i d = 250 a 2.0 - 4.0 v gate-source leakage i gss v gs = 20 v - - 100 na zero gate voltage drain current i dss v ds = 600 v, v gs = 0 v - - 1 a v ds = 600 v, v gs = 0 v, t j = 150 c - - 100 drain-source on-state resistance r ds(on) v gs = 10 v i d = 15 a - 0.104 0.125 ? forward transconductance a g fs v ds = 8 v, i d = 3 a - 5.4 - s dynamic input capacitance c iss v gs = 0 v, v ds = 100 v, f = 1.0 mhz - 2600 - pf output capacitance c oss - 138 - reverse transfer capacitance c rss -3- total gate charge q g v gs = 10 v i d = 15 a, v ds = 480 v - 85 130 nc gate-source charge q gs -15- gate-drain charge q gd -39- turn-on delay time t d(on) v dd = 380 v, i d = 15 a, v gs = 10 v, r g = 4.7 ? -1940 ns rise time t r -3265 turn-off delay time t d(off) -6395 fall time t f -3675 gate input resistance r g f = 1 mhz, open drain - 0.63 - ? drain-source body diode characteristics continuous source-dra in diode current i s mosfet symbol showing the integral reverse p - n junction diode --29 a pulsed diode forward current i sm --65 diode forward voltage v sd t j = 25 c, i s = 15 a, v gs = 0 v - - 1.3 v body diode reverse recovery time t rr t j = 25 c, i f = i s = 15 a, di/dt = 100 a/s, v r = 20 v - 402 605 ns body diode reverse recovery charge q rr - 7 15 c reverse recovery current i rrm -3265a s d g
SIHP30N60E www.vishay.com vishay siliconix s11-2091 rev. c, 31-oct-11 3 document number: 91456 this document is subject to change without notice. the products described herein and this document are subject to specific disclaimers, set forth at www.vishay.com/doc?91000 typical characteristics (25 c, unless otherwise noted) fig. 1 - typical output characteristics, t c = 25 c fig. 2 - typical output characteristics, t c = 150 c fig. 3 - typical transfer characteristics fig. 4 - normalized on-resistance vs. temperature 0 10 20 30 40 50 60 70 80 0 5 10 15 20 25 30 i d - drain current (a) v d s -drain-to- s ource voltage (v) top 15 v 14 v 13 v 12 v 11 v 10 v 9.0 v 8.0 v 7.0 v 6.0 v bottom 5.0 v 5 v t j = 25 c 0 10 20 30 40 50 0 5 10 15 20 25 30 i d - drain current (a) v d s -drain-to- s ource voltage (v) top 15 v 14 v 13 v 12 v 11 v 10 v 9.0 v 8.0 v 7.0 v 6.0 v bottom 5.0 v t j = 150 c i d , drain current (a) v gs , gate-to-source voltage (v) 0 20 40 80 0 5 10 15 20 25 t j = 150 c t j = 25 c 60 0.0 0.5 1.0 1.5 2.0 2.5 3.0 - 60 - 40 - 20 0 20 40 60 80 100 120 140 160 r d s (on) -on-re s i s tance (normalized) t j - junction temperature ( c) i d = 15 a v gs = 10 v
SIHP30N60E www.vishay.com vishay siliconix s11-2091 rev. c, 31-oct-11 4 document number: 91456 this document is subject to change without notice. the products described herein and this document are subject to specific disclaimers, set forth at www.vishay.com/doc?91000 fig. 5 - typical capacitance vs. drain-to-source voltage fig. 6 - typical gate charge vs. gate-to-source voltage fig. 7 - typical source-dra in diode forward voltage fig. 8 - maximum safe operating area fig. 9 - maximum drain curre nt vs. case temperature fig. 10 - temperature vs. drain-to-source voltage c - capacitance (pf) v d s - drain-to- s ource voltage (v) 1 10 100 1000 10 000 0 100 200 300 400 500 600 v gs = 0 v, f = 1 mhz c i ss = c g s + c gd x c d s s horted c o ss = c d s + c gd c r ss = c gd c i ss c r ss c o ss 0 4 8 12 16 20 24 0 25 50 75 100 125 150 v gs - g ate-to- s ource voltage (v) q g -total g ate charge (nc) v d s = 480 v i d = 15 a v d s = 300 v v d s = 120 v 0.001 0.01 0.1 1 10 100 1000 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 i s - s ource current (a) v s d - s ource-to-drain voltage (v) t j = 150 c t j = 25 c v d s - drain-to- s ource voltage (v) * v gs > minimum v gs at which r d s (on) i s s pecied i d , drain current (a) t c = 25 c t j = 150 c single pulse operation in this area limited by r ds(on) * 1 ms 10 ms 100 s 1000 1 10 100 1 10 100 1000 0.1 5.0 10.0 15.0 20.0 25.0 30.0 25 50 75 100 125 150 i d , drain current (a) t c -temperature ( c) 0 v d s , drain-to- s ource breakdown voltage (v) t j -temperature ( c) 550 575 600 625 650 675 700 725 - 60 - 40 - 20 0 20 40 60 80 100 120 140 160
SIHP30N60E www.vishay.com vishay siliconix s11-2091 rev. c, 31-oct-11 5 document number: 91456 this document is subject to change without notice. the products described herein and this document are subject to specific disclaimers, set forth at www.vishay.com/doc?91000 fig. 11 - normalized thermal transient impedance, junction-to-case fig. 12 - switching time test circuit fig. 13 - switching time waveforms fig. 14 - unclamped inductive test circuit fig. 15 - unclamped inductive waveforms fig. 16 - basic gate charge waveform fig. 17 - gate charge test circuit 0.01 0.1 1 0.0001 0.001 0.01 0.1 1 normalized effective tran s ient thermal impedance s quare wave pul s e duration ( s ) duty cycle = 0.5 0.2 0.1 0.05 0.02 s ingle pul s e pulse width 1 s duty factor 0.1 % r d v gs r g d.u.t. 10 v + - v ds v dd v ds 90 % 10 % v gs t d(on) t r t d(off) t f r g i as 0.01 t p d.u.t l v ds + - v dd 10 v var y t p to obtain required i as i as v ds v dd v ds t p q gs q gd q g v g charge 10 v d.u.t. 3 ma v gs v ds i g i d 0.3 f 0.2 f 50 k 12 v current regulator current sampling resistors same type as d.u.t. + -
SIHP30N60E www.vishay.com vishay siliconix s11-2091 rev. c, 31-oct-11 6 document number: 91456 this document is subject to change without notice. the products described herein and this document are subject to specific disclaimers, set forth at www.vishay.com/doc?91000 fig. 18 - for n-channel vishay siliconix maintains worldwide manufactu ring capability. products may be manufact ured at one of seve ral qualified locatio ns. reliability data for silicon technology and package reliability represent a composite of all qualified locations. for related documents such as package/tape drawings, part marking, and reliability data, see www.vishay.com/ppg?91456 . p.w. period di/dt diode recovery dv/dt ripple 5 % body diode forward drop re-applied voltage rever s e recovery current body diode forward current v gs = 10 v a i s d driver gate drive d.u.t. l s d waveform d.u.t. v d s waveform inductor current d = p.w. period + - + + + - - - peak dio d e recovery d v/ d t test circuit v dd ? dv/dt controlled by r g ? driver s ame type a s d.u.t. ? i s d controlled by duty factor d ? d.u.t. - device under te s t d.u.t. circuit layout con s ideration s ? low s tray inductance ? g round plane ? low leakage inductance current tran s former r g note a. v gs = 5 v for logic level device s v dd
document number: 71195 www.vishay.com revison: 01-nov-10 1 package information vishay siliconix to-220ab note * m = 1.32 mm to 1.62 mm (dimension including protrusion) heatsink hole for hvm * m 3 2 1 l l(1) d h(1) q ? p a f j(1) b (1) e(1) e e b c millimeters inches dim. min. max. min. max. a 4.25 4.65 0.167 0.183 b 0.69 1.01 0.027 0.040 b(1) 1.20 1.73 0.047 0.068 c 0.36 0.61 0.014 0.024 d 14.85 15.49 0.585 0.610 e 10.04 10.51 0.395 0.414 e 2.41 2.67 0.095 0.105 e(1) 4.88 5.28 0.192 0.208 f 1.14 1.40 0.045 0.055 h(1) 6.09 6.48 0.240 0.255 j(1) 2.41 2.92 0.095 0.115 l 13.35 14.02 0.526 0.552 l(1) 3.32 3.82 0.131 0.150 ? p 3.54 3.94 0.139 0.155 q 2.60 3.00 0.102 0.118 ecn: x10-0416-rev. m, 01-nov-10 dwg: 5471
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