SILICON EPITAXIAL PLANAR TYPE ULTRA HIGH SPEED SWITCHING APPLICATION. e Small Package HN1D01FU Unit in mm Low Forward Voltage > VE (3)=0.92V (Typ.) 2.140.1 e Fast Reverse Recovery Time : typ=1.6ns(Typ.) 1.25+0.1 Small Total Capacitance : Cp=2.2pF (Typ.) | rm] w 1 ' 6 MAXIMUM RATINGS (Ta = 25C) #) HS a a 33 S| Sj ef 2 5 o CHARACTERISTIC SYMBOL | RATING | UNIT te ot 3 4 Maximum (Peak) Reverse Voltage VRM 85 Vv , 8 Reverse Voltage VR 80 Vv | 4 Maximum (Peak) Forward Current IrM 300* mA 3 4 4 Average Forward Current Ip 100* mA a Surge Current (10ms) Irsm 2* A Power Dissipation P 200 mW 1. CATHODE ida s Junction Temperature Tj 125 C e ANODE 2 je! ps Storage Temperature Tsty 55~125 C 4. CATHODE 3 +444 5. CATHODE * :This is the Maximum Ratings of single diode (Q1 or Q2 6. ANODE or Q3 or Q4). In the case of using Unit 1 and Unit 2 independently or JEDEC _ simultaneously, the Maximum Ratings per diode is 75% ELAJ _ of the single diode one. TOSHIBA 1-2T1B ELECTRICAL CHARACTERISTICS (Q1, Q2, Q3, Q4 COMMON, Ta = 25C) Weight : 6.8mg CHARACTERISTIC SYMBOL TEST CONDITION MIN, | TYP. | MAX. | UNIT VF) | Ip=1mA [oe] Forward Voltage VF(2) | Ip=10mA | 0.74] v VF(3) Ip=100mA | 0.92 | 1.20 TR (1) VR=30V _ _ 0.1 A Reverse Current TR (2) Vp=80V _ _ 05 | Total Capacitance Cp VR=0, f=1MHz _ 2.2 4.0 | pF Reverse Recovery Time ter Ip=10mA (Fig. 1) _ 1.6 4.0 | ns PIN ASSIGNMENT (TOP VIEW) Marking poy Unit 2! 6 5 4 ' 6A 5g an} fH og | | [4h Q3a] AD | [Qi Q2: | 10 20 103 | Oo oO OG Unit 1 a 1 2 8 1263 HN1DO1FU Fig. 1 REVERSE RECOVERY TIME (t,;) TEST CIRCUIT INPUT WAVEFORM OUTPUT WAVEFORM 0.01lxF DUT F Ip=10mA | 0 OSCILLOSCOPE | 50ns PULSE GENERATOR ter (Rout=500) Ql, Q2, Q3, Q4 COMMON Ql, Q2, Q3, Q4 COMMON Ip VF IR - VR 3 4 = 3 & 5 Ta=100C 5 FI 5 a @ 2 2 5 5 8 3 2 B > & ig 2 = Q Q.2 0.4 0.6 0.8 1.0 1.2 0 20 40 60 80 FORWARD VOLTAGE VF (V) REVERSE VOLTAGE Vp (V) Ql, Q2, Q3, Q@4 COMMON Ql, Q2, Q3, Q@4 COMMON CT - VR ter IF TOTAL CAPACITANCE Cry (pF) REVERSE RECOVERY TIME t,, (ns) 0.3 1 3 10 30 100 0.3 1 3 10 30 100 REVERSE VOLTAGE VR () FORWARD CURRENT Ip (mA) 1264