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SV06AC104KAA Datasheet

TEST CONDITIONS VD=Rated VDRM, VRRM, Tj=250C VD=Rated VDRM, VRRM, Tj=llOoC VD=12V, RL=100Q, QUAD l, Tj=250C VD=12V, RL=lOOfl, QUAD II, Tj=250C VD=12V, RL=100Q, QUAD lIl, Tj=250C VD=12V, RL=100Q, QUAD IV, Tj=25'C VD=12V, RL=lOOfl, QUAD l, Tj= -400C VD=12V, RL=100Q, QUAD lI, Tj= -400C VD=12V, RL=100Q, QUAD lIl, Tj= -400C VD=12V, RL=100Q, QUAD IV, Tj= -400C VD=12V, IT=1.OA, Tj=250C VD=12V, IT=1.OA, Tj= -400C VD=12V, RL=100Q, Tj=250C, QUAD l, lI VD=12V, RL=100Q, Tj= -400C, ClUAD l, ITM=6.OA ITM=14A, IGT=lOOmA VD= Rated VDRM, ITM=5.7A, Tj=850C
SV06AC104KAA Price

Characteristic		Symbol	Test Condition		Min	Typ.	Max	Unit
Gate leakage current		IGES	VCF = +10 V, VCF = 0				+500	nA
Collector cut-off current		ICES	VCE = 1200 V, VGE = 0				2 0	mA
Gate-emitter cut-off voltage		VGE (OFF)	VCE = 5 V, lC = 150 mA		4 0		7 0	V
			lc = 150 A,	Tc= 25aC		3 0	4 0	V
Collector-emitter saturation voltage		VCE (sat)	VGE =15 V	Tc= 1250C		3 6		V
Input capacitance		Cies	VCE = 10 V, VGE = 0, f= 1 MHz			12800		pF
	Turn-on delay time	td (on)				O05
	Rise time	tr				O05
	Turn-on time	ton	Inductive load			O10
Switching time	Turn-off delay time	td (off)	Vcc = 600 V, lc = 150A VGE = +15 V, RG = 5.6Q			O55		US
	Fall time	tf				O05	0.15
	Turn-off time	toff				O60
Forward voltage		VF	IF = 150 A, VGE = 0			2 4	3 5	V
Reverse recovery time		trr	IF = 150 A, VGE = -10 V, di/dt = 700 /VUs			0 1		US
			Transistor stage				O14
Thermal resistance		Rth O-c)	Diode stage				O28	oc/w
	Turn-on	Eon	Inductive load			15
Switching loss	Turn-off	Eoff	Vcc = 600 V, lc = 150 A VGE = +15 V, RG = 5.6Q Tc = 1250C			12		mJ

SV06AC104KAA on stock

The output characteristics of the circuit in Figure 3 are those of a nearly ideal voltage source in series with 70I Thus, for a load current of -10mA and a supply voltage of +5V, the output voltage would be - 4.3V. The dynamic output impedance of the TC1044S is due, primarily, to capacitive reactance of the charge transfer capacitor (Ci). Since this capacitor is connected to the output for only l/2 0f the cycle, the equation is:

Supply Voltage : 3.0 V t0 3.6 V Operating Temperature : -20 0C to +85 0C Input Voltage Amplitude : 0.3 V t0 2.7 V Input Rising Time : 10 ns Input Falling Time : 10 ns Input Evaluation Level : 2.0 V / 0.8 V Output Evaluation Level : 2.0 V / 0.8 V Output Impedance : 50 pF

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