GU-C40

MITSUBISHI GATE DRIVER FOR GCT THYRISTOR GU-C40 High Power Inverter Use GU-C40 APPLICATION Inverters, Converters, DC choppers, Induction heating, DC to DC converters. OUTLINE DRAWING & CIRCUIT DIAGRAM Dimensions in mm 4 φ12 (12.5) φ14 (29) 6.5 16-M3+0.5 SCREW φ1 34 8 11.2 10 5° 38 NAME PLATE 78.5 CONNECTOR FOR DC POWER SUPPLY B9PS-VH (JST) 229 40 369 449 EXPLANATION OF TERMINAL NUMBERS 123456 789 + + PC BOARD SIDE 5 ± 0.5V 20 ± 1V PC CATHODE BLOCK THICKNESS 8.5 A 8.5 Dφ 1 GATE ATTACHMENT 34 3.2 A PARTIAL SECTIONAL VIEW φ1 28 φ148 2.0 15.3 11.2 OPTICAL RECEIVER HFBR-2522 (HP:BLUE TERMINAL) 133 169 5° Aug.1998 MITSUBISHI GATE DRIVER FOR GCT THYRISTOR GU-C40 High Power Inverter Use CHARACTERISTICS Symbol +VC –VC – f ton min toff min tfd trd diG/dt IGM tw IG diGQ/dt Dmax Ta Rth Parameter Power supply (+) Power supply (–) Control signal Frequency Turn-on minimum Turn-off minimum Delay time of on gate current Delay time of off gate current Critical rate of rise of on gate current Peak on gate current Width of on high gate current On gate current Critical rate of rise of off gate current Maximum duty Temperature Thermal resistance (Junction to Fin) Test conditions DC power supply 10A DC power supply 6A Optical fiber data link Receiver: HFBR-2522 (HP) 1500Arms Duty 50% Protection is 28µs min and 32µs max. Protection is 44µs min and 52µs max. (Note 1, 3) (Note 2, 3) Min 4.5 19 — — 28 44 7 5 100 — 5 10 — — –10 — Limits Typ 5.0 20 — — 30 50 8 6 — 200 — — 6000 — — — Max 5.5 21 — 500 32 52 9 7 — — — — — 50 +60 0.012 Unit V V — Hz µs µs µs µs A/µs A µs A A/µs % °C °C/W (Note 4) (Note 5) VRG = 20V GU-C40 and FGC4000BX-90DS (Note 6) Note 1. In case of DC power supply which has no current control, please be careful that rush current (peak value 140A, width 2ms) flows at the turn on of power supply in 1m cable for power supply. 2. In case of DC power supply which has no current control, please be careful that rush current (peak value 140A, width 2ms) flows at the turn on of power supply in 1m cable for power supply. 3. Main current condition of GCT Thyristor is 1500Arms and duty 50%. 4. If input turn-on signal is shorter than ton (min) protection operates and turn on width is 28µs min and 32µs max. 5. If turn-on signal is input during toff (min) protection operates and turn off width is 44µs min and 52µs max. 6. If GU-C40 and FGC4000BX-90DS are used together, Rth (j-f) is becomes 0.012 °C/W. (Only FGC4000BX-90DS is used. Rth(j-f) becomes 0.011 °C/W) Aug.1998 MITSUBISHI GATE DRIVER FOR GCT THYRISTOR GU-C40 High Power Inverter Use WAVEFORM Fig. 1 Connection instruction for the gate driver diG/dt (10%~90%) 90% IGM IG 9 pin connector tfd tw trd IGQ GCT Thyristor GATE DRIVER receiver(blue) CONTROL SIGNAL ton T=1/f transmitter(NOTE 1) (HFBR-1522) Control signal +5V – toff not connected (Normal: on Fail: off) CONNECTION INSTRUCTION FOR THE GATE DRIVER Connection instruction for the gate driver refer to Fig. 1. optical fiber cable (NOTE 1) OUTLINE DRAWING Refer to Fig. 2 9 pin connector and cable (VHR-9N) (NOTE 1) (NOTE 2) Installation of GCT Thyristor GCT Thyristor is put on the gate driver to coincide with the holes each other and covered by gate attachment at the ring gate of GCT Thyristor. By screwing at each hole, GCT Thyristor is installed on the gate driver. 1 2 3 4 5 6 7 8 9 Please twist the plus and minus power supply cables. NOTE 1 Please prepare these parts beforehand. NOTE 2 A cross section of power supply cable is 0.75mm2 or 0.83mm2 and twist the plus and minus cable. The power supply cable is shorter than 2m and lower inductance. Aug.1998