CMHC-R CMHC-R IC... CES... -element in a Pack Insulated Type LPT-IGBT / Soft Recovery Diode ISiC Baseplate PPLICTION Traction drives, High Reliability Converters / Inverters, DC choppers OUTLINE DRWING & CIRCUIT DIGRM Dimensions in mm 9. ±. 9 ±. ±. ±. ±. -M NUTS LBEL ±. ±. ±. +.. ±. C (C) (C) (C) ±. >PET+PBT<. ±. C >PET+PBT< E G G E (E) (E) CIRCUIT DIGRM (E) SCREWING DEPTH MIN. SCREWING DEPTH MIN. +. ±. -M NUTS -φ MOUNTING HOLES. ±. 9 ±. 9. ±.. ±. ±.. ±. ±. ±. Mar. 9
CMHC-R MXIMUM RTINGS Symbol Item Conditions Ratings CES GES IC ICM IE IEM Pc iso e Tj Top Tstg tpsc Collector-emitter voltage Gate-emitter voltage Collector current Emitter current (Note ) Maximum power dissipation(note ) Isolation voltage Partial discharge extinction voltage Junction temperature Operating temperature Storage temperature Maximum short circuit pulse width ELECTRICL GE =, Tj = + C GE =, Tj = C CE =, Tj = C DC, Tc = 9 C Pulse DC Pulse Tc = C, IGBT part RMS, sinusoidal, f = Hz, t = min. RMS, sinusoidal, f = Hz, QPD pc CC =, CE CES, GE =, Tj = C (Note ) (Note ) ± ~ + ~ + ~ + W C C C Symbol ICES GE(th) IGES Cies Coes Cres Qg CE(sat) td(on) tr (%) td(off) tf (%) EC Item Collector cutoff current Gate-emitter threshold voltage Gate leakage current Input capacitance Output capacitance Reverse transfer capacitance Total gate charge Collector-emitter saturation voltage Turn-on delay time Turn-on rise time Turn-on switching energy Turn-on switching energy Turn-off delay time Turn-off fall time Turn-off switching energy Turn-off switching energy Emitter-collector voltage (Note ) (Note ) (Note ) (Note ) (Note ) CE = CES, GE = IC = (Note ) GE = CC = IC = GE = ± RG(on) =.Ω Ls = nh CC = IC = GE = ± RG(off) =.Ω Ls = nh Conditions CE =, IC = m, Tj = C GE = GES, CE =, Tj = C CE =, GE =, f = khz Tj = C CC =, IC =, GE = ± IE = (Note ) GE = Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Min.. Limits Typ............9.9.....9................... Max............. m µ nf nf nf µc Mar. 9
CMHC-R ELECTRICL (continuation) Symbol trr Irr Qrr (%) Item Reverse recovery time (Note ) Reverse recovery current (Note ) Reverse recovery charge (Note ) Reverse recovery energy (Note )(Note ) Reverse recovery energy (Note )(Note ) CC = IC = GE = ± RG(on) =. Ω Ls = nh Conditions Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C Min Limits Typ......... Max µc THERML Symbol Item Conditions Rth(j-c)Q Rth(j-c)R Rth(c-f) Thermal resistance Contact thermal resistance Junction to Case, IGBT part Junction to Case, FWDi part Case to Fin, λgrease = W/m K,D(c-f) = µm Limits Min Typ Max... K/kW K/kW K/kW MECHNICL Symbol Item Conditions Mt Ms Mt m CTI da ds LP CE RCC +EE rg Mounting torque Mass Comparative tracking index Clearance Creepage distance Parasitic stray inductance Internal lead resistance Internal gate resistor M: Main terminals screw M: Mounting screw M: uxiliary terminals screw Tc = C Tc = C Limits Min Typ Max....... 9..... N m N m N m kg mm mm nh mω Ω Note. Pulse width and repetition rate should be such that junction temperature (Tj) does not exceed Topmax rating ( C).. The symbols represent characteristics of the anti-parallel, emitter to collector free-wheel diode (FWDi).. Junction temperature (Tj) should not exceed Tjmax rating ( C).. Pulse width and repetition rate should be such as to cause negligible temperature rise.. (%) / (%) / (%) are the integral of.ce x.ic x dt.. The integration range of / / according to IEC. Mar. 9
CMHC-R PERFORMNCE CURES Tj = C OUTPUT TRNSFER CE = GE GE = 9 GE = GE = GE = GE = 9 COLLECTOR-EMITTER OLTGE () Tj = C Tj = C GTE-EMITTER OLTGE () COLLECTOR-EMITTER STURTION OLTGE GE = FREE-WHEEL DIODE FORWRD EMITTER CURRENT () Tj = C Tj = C Tj = C Tj = C Tj = C Tj = C COLLECTOR-EMITTER STURTION OLTGE () EMITTER-COLLECTOR OLTGE () Mar. 9
CMHC-R CPCITNCE (nf) CPCITNCE Cies Coes Cres GTE-EMITTER OLTGE () - GTE CHRGE CE =, IC = Tj = C GE =, Tj = C f = khz - - - COLLECTOR-EMITTER OLTGE () GTE CHRGE (µc) HLF-BRIDGE SWITCHING ENERGY HLF-BRIDGE SWITCHING ENERGY SWITCHING ENERGIES () CC =, GE = ± RG(on) =.Ω, RG(off) =.Ω LS = nh, Tj = C SWITCHING ENERGIES () CC =, GE = ± RG(on) =.Ω, RG(off) =.Ω LS = nh, Tj = C Mar. 9
CMHC-R HLF-BRIDGE SWITCHING ENERGY CC =, IC = GE = ±, LS = nh Tj = C, HLF-BRIDGE SWITCHING ENERGY CC =, IC = GE = ±, LS = nh Tj = C, SWITCHING ENERGIES () SWITCHING ENERGIES () GTE RESISTOR (Ω) GTE RESISTOR (Ω) SWITCHING TIMES () - HLF-BRIDGE SWITCHING TIME CC =, GE = ± RG(on) =.Ω, RG(off) =.Ω LS = nh, Tj = C tf tr td(off) td(on) SWITCHING TIMES () - HLF-BRIDGE SWITCHING TIME CC =, GE = ± RG(on) =.Ω, RG(off) =.Ω LS = nh, Tj = C tr tf td(off) td(on) - - Mar. 9
CMHC-R REERSE RECOERY TIME () FREE-WHEEL DIODE REERSE RECOERY CC =, GE = ± RG(on) =.Ω, LS = nh Tj = C, lrr trr REERSE RECOERY CURRENT () REERSE RECOERY TIME () FREE-WHEEL DIODE REERSE RECOERY CC =, GE = ± RG(on) =.Ω, LS = nh Tj = C, lrr trr REERSE RECOERY CURRENT () - - EMITTER CURRENT () EMITTER CURRENT () NORMLIZED TRNSIENT THERML IMPEDNCE...... TRNSIENT THERML IMPEDNCE Rth(j c)q =.K/kW Rth(j c)r =.K/kW - - - Z th( j c ) ( t ) = Σ n Ri [K/kW] : τi [sec] : i=i Ri exp ti.9..9. t...9. TIME (s) Mar. 9
CMHC-R REERSE BIS SFE OPERTING RE (RBSO) CC, GE = ± Tj = C, RG(off) =.Ω SHORT CIRCUIT SFE OPERTING RE (SCSO) CC, GE = ± RG(on) =.Ω, RG(off) =.Ω Tj = C COLLECTOR CURRENT (k) COLLECTOR-EMITTER OLTGE () COLLECTOR-EMITTER OLTGE () FREE-WHEEL DIODE REERSE RECOERY SFE OPERTING RE (RRSO) CC, di/dt < 9k/ Tj = C REERSE RECOERY CURRENT () COLLECTOR-EMITTER OLTGE () Mar. 9