MITSUBISHI SEMICONDUCTORS <HVIC> M81712FP HIGH VOLTAGE THREE PHASE BRIDGE DRIVER DESCRIPTION M81712FP is high voltage Power MOSFET and IGBT module driver for THREE PHASE bridge applications. PIN CONFIGURATION (TOP VIEW) FEATURES FLOATING SUPPLY VOLTAGE ................................. 600V OUTPUT CURRENT ....................... +200mA/-500mA (typ) THREE PHASE BRIDGE DRIVER 28Pin SSOP PACKAGE (Cut Pin Package) DISTANCE BETWEEN HIGHSIDE-PHASE : 3.4mm 1. VCC 28. UFB 2. NC 27. UPO 3. UPIN 26. UFS 4. VPIN 5. WPIN 6. UNIN 7. VNIN 8. WNIN 25. VFB 9. NC 24. VPO 10. NC 23. VFS 11. NC 12. GND APPLICATIONS MOSFET and IGBT module inverter driver for refrigerator, air-conditioner, washing machine, AC-servomotor and general purpose. 13. NC 14. NC 15. PGND 22. NC 16. WNO 21. WFB 17. VNO 20. WPO 18. UNO 19. WFS NC:NO CONNECTION Outline 28X9R BLOCK DIAGRAM GND 12 INTER LOCK UPIN 3 FILTER VREG/VCC Level Shift PULSE GEN TYP.10k UNIN 6 FILTER 28 UFB 27 UPO 26 UFS 1 VCC 18 UNO 15 PGND 25 VFB 24 VPO 23 VFS 17 VNO 21 WFB 20 WPO 19 WFS 16 WNO UV DETECT FILTER VREG VREG/VCC Level Shift RQ R S DELAY TYP.10k UV DETECT FILTER VPIN 4 VNIN 7 WPIN 5 WNIN 8 Same as U Phase Same as U Phase Aug. 2009 1 MITSUBISHI SEMICONDUCTORS <HVIC> M81712FP HIGH VOLTAGE THREE PHASE BRIDGE DRIVER ABSOLUTE MAXIMUM RATINGS (Ta=25C unless otherwise specified) Symbol U,V,WFB U,V,WFS VBS U,V,WPO VCC U,V,WNO U,V,WIN dVS/dt PD Kq Rth(j-c) Tj Topr Tstg Parameter High Side Floating Supply Absolute Voltage High Side Floating Supply Offset Voltage High Side Floating Supply Voltage High Side Output Voltage Low Side Fixed Supply Voltage Low Side Output Voltage Logic Input Voltage Allowable Offset Supply Voltage Transient Package Power Dissipation Linear Derating Factor Junction-Case Thermal Resistance Junction Temperature Operation Temperature Storage Temperature Conditions Ratings -0.5 ~ 624 U,V,WFB-24 ~ U,V,WFB +0.5 -0.5~24 U,V,WFS-0.5 ~ U,V,WFB+0.5 VBS = *FB-*FS Unit V V V *PIN, *NIN Terminal -0.5~24 -0.5~VCC+0.5 -0.5~VCC+0.5 V V V V Ta = 25C, On Board Ta > 25C, On Board 50 1.84 V/ns W 18.4 54.39 -20 ~ 125 -20 ~ 100 mW/C C/W C C -40 ~ 125 C RECOMMENDED OPERATING CONDITIONS Symbol U,V,WFB U,V,WFS VBS VCC VIN VPGND Min. Limits Typ. Max. VS+10 0 -- -- VS+20 500 V V VBS = *FB-*FS 10 10 -- -- 20 20 V V *PIN, *NIN Terminal 0 -5 -- -- 5 5 V V Parameter Test conditions High Side Floating Supply Absolute Voltage High Side Floating Supply Offset Voltage High Side Floating Supply Voltage Low Side Fixed Supply Voltage Logic Input Voltage Power GND Unit * For proper operation, the device should be used within the recommend conditions. THERMAL DERATING FACTOR CHARACTERISTIC (MAXIMUM RATING) Package Power Dissipation Pd (W) 2.0 1.5 1.0 0.5 0 0 25 50 75 100 125 150 Temparature Ta (C) Aug. 2009 2 MITSUBISHI SEMICONDUCTORS <HVIC> M81712FP HIGH VOLTAGE THREE PHASE BRIDGE DRIVER ELECTRICAL CHARACTERISTICS (Ta=25C, VCC=VBS(=*FB-*FS)=15V unless otherwise specified) Symbol Parameter Test conditions Limits Min. Typ.* Max. Unit IFS Floating Supply Leakage Current VB = VS = 600V, 1 per phase -- -- 1.0 IBS VBS Standby Current 1 per phase -- 0.2 0.5 A mA ICC VCC Standby Current -- 1.0 2.0 mA VOH High Level Output Voltage IO = 0A, *NO, *PO 14.9 -- -- V VOL VIH Low Level Output Voltage -- 2.7 -- -- 0.1 V High Level Input Threshold Voltage IO = 0A, *NO, *PO *PIN, *NIN -- V VIL Low Level Input Threshold Voltage *PIN, *NIN -- -- 0.8 V IIH High Level Input Bias Current *PIN, *NIN = 5V 0.3 0.5 1.0 mA IIL Low Level Input Bias Current *PIN, *NIN = 0V VBS Supply UV Reset Voltage -- 7.5 0 8.5 -- 9.5 A VBSuvr VBSuvh VBS Supply UV Hysteresis Voltage 0.2 0.5 0.8 V tVBSuv VBS Supply UV Filter Time -- 7.5 -- s VCCuvr VCC Supply UV Reset Voltage 7.5 8.5 9.5 V VCCuvh tVCCuv VCC Supply UV Hysteresis Voltage 0.2 -- 0.5 7.5 0.8 V -- s IOH Output High Level Short Circuit Pulsed Current *PO, *NO = 0V, *PIN, *NIN = 5V, PW < 10 s 120 200 -- mA IOL *PO, *NO = 15V, *PIN, *NIN = 0V, PW < 10 s 350 500 -- mA ROH Output Low Level Short Circuit Pulsed Current Output High Level On Resistance -- Output Low Level On Resistance -- 40 15 70 ROL IO = 20mA, ROH = (VOH-VO) /20mA IO = 20mA, ROL = VO/20mA 30 tdLH(HO) High Side Turn-On Propagation Delay CL = 1000pF between *HO-*VS Note.1 340 650 855 ns tdHL(HO) High Side Turn-Off Propagation Delay CL = 1000pF between *HO-*VS Note.1 340 650 855 ns trH High Side Turn-On Rise Time CL = 1000pF between *HO-*VS Note.2 20 130 220 tfH High Side Turn-Off Fall Time CL = 1000pF between *HO-*VS Note.2 -- 50 75 ns ns tdLH(LO) Low Side Turn-On Propagation Delay CL = 1000pF between *LO-PGND Note.1 340 650 855 ns tdHL(LO) Low Side Turn-Off Propagation Delay CL = 1000pF between *LO-PGND Note.1 340 650 855 ns trL Low Side Turn-On Rise Time CL = 1000pF between *LO-PGND Note.2 20 100 200 ns tfL Low Side Turn-Off Fall Time CL = 1000pF between *LO-PGND Note.2 -- 50 75 ns |tdLH (*HO) -tdLH (*LO)| -- -- 50 ns |tdHL (*HO) -tdHL (*LO)| -- -- 50 ns *PIN, *NIN : Convex Pulse 260 380 500 ns *PIN, *NIN : Concave Pulse 310 450 590 ns tdLH tdHL tfilter VCC Supply UV Filter Time Delay Matching, High Side and Low Side Turn-On Delay Matching, High Side and Low Side Turn-Off Input Filter Time V * Typ. is not specified. Aug. 2009 3 MITSUBISHI SEMICONDUCTORS <HVIC> M81712FP HIGH VOLTAGE THREE PHASE BRIDGE DRIVER Note1 : Propagation Delay Timing (Output capacitor load CL = 1000pF). Less than 50ns Less than 50ns 5V 50% 50% P(N)IN 0V tdLH() P(N)O tdHL() 50% 50% Note2 : Output Rise/Fall Timing (Output capacitor load CL = 1000pF). Less than 50ns Less than 50ns 5V P(N)IN 0V tr() tf() 90% 90% P(N)O 10% 10% Aug. 2009 4 MITSUBISHI SEMICONDUCTORS <HVIC> M81712FP HIGH VOLTAGE THREE PHASE BRIDGE DRIVER FUNCTION TABLE U,V,WPIN HL HL LH LH X HL Note1 Note2 Note3 Note4 : : : : U,V,WNIN L H L H L X UV(VCC) H H H X H L UV(VBS) H H H H L H U,V,WPO U,V,WNO L L H L L H L L L L L L Behavioral state *PO = L, *NO = L *NO = H *PO ON = H *NO,*PO = L when *PIN, *NIN is "L" at the same time *PO = L when VBS UV tripped. *NO = L when VCC UV tripped. "L" state of VBS UV, VCC UV means that UV trip voltage. In the case of both input signals (*PIN and *NIN) are "H", output signals (*PO and *NO) become "L". X (*PIN) : LH or HLO X (*HIN) : H or L. Output Signal (*PO) is triggered by the edge of input signal. PIN PO TIMING DIAGRAM 1. Input/Output Timing Diagram High Active, in the case of both input signals (*PIN, *NIN) are "H", output signals (*PO, *NO) become "L". PIN NIN PO NO Aug. 2009 5 MITSUBISHI SEMICONDUCTORS <HVIC> M81712FP HIGH VOLTAGE THREE PHASE BRIDGE DRIVER 2. VCC (VBS) Supply Under Voltage Lockout Timing Diagram If VBS supply voltage drops below UV trip voltage (VBSuvt) for VBS supply UV filter time, output signal is shut down. As soon as VBS supply voltage rises over UV reset voltage, output signal *PO becomes "H" at following edge of input signal. VBS VBSuvh VBSuvt VBSuvr tVBSuv PO PIN If VCC supply voltage drops below UV trip voltage (VCCuvt) for VCC supply UV filter time, *NO output signal is shut down. As soon as VCC supply voltage rises over UV reset voltage, output signal *NO becomes "H" if *NIN input signal is "H". VCC VCCuvh VCCuvt VCCuvr tVCCuv NO NIN If VCC supply voltage drops below UV trip voltage (VCCuvt) for VCC supply UV filter time, *PO output signal is shut down. As soon as VCC supply voltage rises over UV reset voltage, output signal *PO becomes "H" if *PIN input signal is "H". VCC VCCuvh VCCuvt VCCuvr tVCCuv PO PIN Aug. 2009 6 MITSUBISHI SEMICONDUCTORS <HVIC> M81712FP HIGH VOLTAGE THREE PHASE BRIDGE DRIVER 3. Allowable Supply Voltage Transient It is recommended to suply VCC firstly and supply VBS secondly. When shutting off supply voltage, please shut off VBS firstly and shut off VCC secondly. When applying VCC and VBS, power supply should be applied slowly. If it rises rapidly, output signal (HO or LO) may be malfunction. PACKAGE OUTLINE *1 E 19 F NOTE) 1. DIMENSIONS "*1" AND "*2" DO NOT INCLUDE MOLD FLASH. 2. DIMENSION "*3" DOES NOT INCLUDE TRIM OFFSET. 18 1 c Index mark *2 D A A2 e y *3 A1 bp L HE 36 Detail F Reference Dimension in Millimeters Symbol Min Nom Max D E A2 A A1 bp c q HE e y L 14.8 8.2 - - 0 0.3 0.18 0 11.63 0.65 - 0.3 15.0 8.4 2.05 - 0.1 0.35 0.2 - 11.93 0.8 - 0.5 15.2 8.6 - 2.35 0.2 0.45 0.25 8 12.23 0.95 0.10 0.7 Aug. 2009 7