http://www.idc-com.co.jp GAU205S-15252 universal gate drive prototype board feature >built in the isolated dc- dc converter for gate drive >output peak current is +/-5a(max) >electrical isolatio n voltage is 2500vrms (for 1 minute) >two way power supply system for drivers and input signal (vd=15v , vin=5v) >cmos compatible input interface recommended igbt modules mitsubishi nfh series igbt modules vces = 600v series ~ 400a class vces = 1200v series ~ 400a class vces = 600v series ~ 200a class vces = 1200v series ~ 200a class mitsubishi nf series igbt modules vces = 600v series ~ 600a class vces = 1200v series ~ 400a class size : 65 x 95 x 34t gate driver : vla513-01r dc-dc converter : vla106-15242
http://www.idc-com.co.jp block diagram control circuit constant voltage circuit amp control circuit constant voltage circuit vin in2 vd gnd in1 g1 e1 g2 e2 amp 300 ohm 300 ohm vz = 8.2v vz = 8.2v
http://www.idc-com.co.jp maximum ratings ma 90 gate average current (per one circuit) gate drive current idrive -25 ~ 85 no condensation allowable storage temperature tstg -10 ~ 70 no condensation allowable operating temperature topr vrms 2500 sine wave voltage 60hz, for 1min isolation voltage viso a 5 iolp a -5 pulse width 2us output peak current iohp v -1 ~+7 applied between vin ? in1,2 50% duty cycle , pulse width 1ms input signal voltage vi v 18 dc supply voltage vd unit ratings conditions parameter symbol electrical characteristics us 0.5 0.2 - iih = 10ma ?h-l? propagation time tphl 0.5 -6.5 16.5 - 60 14 5.25 18 0.2 -8.0 15 - - 10 5 15 max typ us - iih = 10ma ?l-h? propagation time tplh v -9.6 - minus bias voltage vol v 13.5 - plus bias voltage voh ohm 2 recommended range gate resistance rg khz - recommended range switching frequency f ma 9.5 recommended range ?h? input signal current iih v 4.75 recommended range pull-up voltage on input side vin v 12 recommended range supply voltage vd min unit limits conditions parameter symbol unless otherwise noted, ta=25c ( unless otherwise noted, ta=25c, vd=15v)
http://www.idc-com.co.jp g1 8 9 10 11 3 2 1 hic1 hic2 6 7 8 rg ** dz1 dz2 cn1 8 9 10 11 3 2 1 hic3 hic4 6 7 8dz3dz4 cn2 e1 g2 e2 c1 c2 c4 c5 1 2 1 2 c3 c6 cn3 vin in1 in2 vd gnd rg ** hic1,3 vla513-01r isahaya hic2,4 vla106-15242 isahaya dz1,2,3,4 vz=18v,500mw rg gate resistor cn1,2 b2b-xh-a jst cn3 b7b-xh-a jst c1,2,4,5 220uf,35v low impedance c3,6 100uf,50v low impedance inner circuit **) gate resistor is not instal led at the time of shipment. please solder the chosen resistor. nc nc
http://www.idc-com.co.jp application example g1 8 9 10 11 3 2 1 hic1 hic2 6 7 8 rg dz1 dz2 cn1 8 9 10 11 3 2 1 hic3 hic4 6 7 8dz3dz4 cn2 e1 g2 e2 c1 c2 c4 c5 1 2 1 2 c3 c6 cn3 vin in1 in2 vd gnd rg hc04 etc. input signal 15v 5v **open-collector(drain) type is not recommended.
http://www.idc-com.co.jp precation (1) confirmation of gate average current the maximum rating of output current c apacity per one circuit of the gate power supply built-in this product is 100ma. and the steady-state consumption current of the gate driver is about 10ma. therefore the gate average current must be less than 90ma. please calculate the gate average current by the following expression. idrive = (q1 lq2l ) x idrive : gate average current q1 : gate charge on plus bias (please read it from data sheet of igbt) q2 : gate charge on minus bias (please read it from data sheet of igbt) f : switching frequency (2) electric power setting of gate resistance at the time of the choice of gate resist ance, please choose the resistance which can permit the electric power by the following calculation. pd = idrive x 24 pd : total allowable power loss of gate resistance idrive : gate average current 24 : total output voltage of gate power supply
http://www.idc-com.co.jp dc-dc converter vla106-15242 gate driver vla513-01r connector gate resistor (this part is not installed at the time of shipment) screw hole 3.5 part arrangement & size 65mm 95mm 3.75mm 3.75mm connector
|