SEMICONDUCTOR KRA316E~KRA322E TECHNICAL DATA EPITAXIAL PLANAR PNP TRANSISTOR SWITCHING APPLICATION. INTERFACE CIRCUIT AND DRIVER CIRCUIT APPLICATION E FEATURES B With Built-in Bias Resistors. Simplify Circuit Design. D H G A 2 Reduce a Quantity of Parts and Manufacturing Process. C 3 1 DIM A B D E G H J EQUIVALENT CIRCUIT IN R1 TYPE NO. R1(k ) KRA316E 1 10 KRA317E 2.2 2.2 KRA318E 2.2 10 KRA319E 4.7 10 KRA320E 10 4.7 KRA321E 47 10 KRA322E 100 100 R2(k COMMON(+) MAXIMUM RATING (Ta=25 ) 1. EMITTER 3. COLLECTOR ESM ) CHARACTERISTIC Output Voltage KRA316E Input Voltage 322E RATING UNIT VO -50 V -10, 5 KRA317E -12, 10 KRA318E -12, 5 VI KRA319E -20, 7 KRA320E -30, 10 KRA321E -40, 15 KRA322E -40, 10 Power Dissipation KRA316E Junction Temperature SYMBOL KRA316E Output Current 322E Storage Temperature Range -100 mA PD 100 mW Tj 150 Tstg -55 150 Marking 2002. 7. 9 V IO MARK SPEC MARK 0.50 _ 0.05 0.13 + 2. BASE R2 TYPE 0.27+0.10/-0.05 _ 0.10 1.60 + _ 0.10 1.00 + J C OUT MILLIMETERS _ 0.10 1.60 + _ 0.10 0.85 + _ 0.10 0.70 + Type Name KRA316E KRA317E KRA318E KRA319E KRA320E KRA321E KRA322E P2 P4 P5 Revision No : 1 P6 P7 P8 P9 1/6 KRA316E~KRA322E ELECTRICAL CHARACTERISTICS (Ta=25 ) CHARACTERISTIC Output Cut-off Current DC Current Gain Output Voltage Input Voltage (ON) Input Voltage (OFF) Transition Frequency Input Current SYMBOL KRA316E 322E IO(OFF) TEST CONDITION VO=-50V, VI=0 MIN. TYP. MAX. UNIT - - -500 nA KRA316E VO=-5V, IO=-5mA 33 - - KRA317E VO=-5V, IO=-20mA 20 - - KRA318E VO=-5V, IO=-10mA 33 - - VO=-5V, IO=-10mA 30 - - KRA320E VO=-5V, IO=-10mA 24 - - KRA321E VO=-5V, IO=-5mA 33 - - KRA322E VO=-5V, IO=-5mA 62 - - KRA316E IO=-10mA, II=-0.5mA - - -0.3 KRA317E IO=-10mA, II=-0.5mA - -0.1 -0.3 KRA318E IO=-10mA, II=-0.5mA - - -0.3 IO=-10mA, II=-0.5mA - -0.1 -0.3 KRA320E IO=-10mA, II=-0.5mA - -0.1 -0.3 KRA321E IO=-10mA, II=-0.5mA - -0.1 -0.3 KRA322E IO=-5mA, II=-0.25mA - -0.1 -0.3 KRA316E VO=-0.3V, IO=-20mA - -0.98 -3 KRA317E VO=-0.3V, IO=-20mA - -1.83 -3 KRA318E VO=-0.3V, IO=-20mA - -1.22 -3 VO=-0.3V, IO=-20mA - -1.76 -2.5 KRA320E VO=-0.3V, IO=-2mA - -2 -3 KRA321E VO=-0.3V, IO=-2mA - -3.9 -5 KRA322E VO=-0.3V, IO=-1mA - -1.64 -3 KRA316E -0.3 -0.63 - KRA317E -0.5 -1.15 - KRA318E -0.3 -0.67 - -0.3 -0.82 - KRA320E -0.8 -1.68 - KRA321E -1 -3.09 - KRA322E -0.5 -1.17 - - 250 - KRA316E - - -7.2 KRA317E - - -3.8 KRA318E - - -3.8 - - -1.8 KRA320E - - -0.88 KRA321E - - -0.16 KRA322E - - -0.15 KRA319E KRA319E KRA319E KRA319E KRA316E 322E KRA319E GI VO(ON) VI(ON) VI(OFF) f T* II VCC=-5V, IO=-100 A VO=-10V, IO=-5mA VI=-5V V V V MHz mA Note : * Characteristic of Transistor Only. 2002. 7. 9 Revision No : 1 2/6 KRA316E~KRA322E -50 -30 OUTPUT CURRENT I O (mA) -10 Ta=25 C Ta=-25 C -1 -0.5 -0.3 -0.1 VO =-0.2V -0.3 -1 Ta=100 C -1 -0.5 -0.3 I O - V I(OFF) Ta=-25 C C Ta=25 C -500 -100 -50 VO =-5V -30 0 -0.2 -0.4 -0.6 -0.8 -1.0 -1.2 -500 -300 -100 -50 VO =-5V -30 -1.4 0 GI - IO 100 C 100 Ta= 25 C Ta= 100 25 C Ta=- 50 30 VO =-5V 10 -1 -3 -10 -30 OUTPUT CURRENT I O (mA) 2002. 7. 9 Revision No : 1 -0.5 -1.5 -1.0 -2.0 -2.5 -3.0 INPUT OFF VOLTAGE V I(OFF) (V) DC CURRENT GAIN G I DC CURRENT GAIN G I 200 -10 -1k INPUT OFF VOLTAGE V I(OFF) (V) KRA316E -3 I O - V I(OFF) KRA317E C -1k -300 -1 Ta=100 OUTPUT CURRENT I O (µA) -3k Ta=100 OUTPUT CURRENT I O (µA) -3k -0.3 INPUT ON VOLTAGE V I(ON) (V) INPUT ON VOLTAGE V I(ON) (V) KRA316E VO =-0.2V -0.1 -0.1 -10 -3 Ta=25 C Ta=-25 C C Ta=100 C -10 -5 -3 Ta=-25 -5 -3 -100 -50 -30 I O - V I(ON) KRA317E Ta=25 C OUTPUT CURRENT IO (mA) -100 I O - V I(ON) KRA316E GI - IO KRA317E 50 30 00 =1 Ta C Ta=25 C Ta=-25 C 10 5 VO =-5V 2 -100 -1 -3 -10 -30 -100 OUTPUT CURRENT I O (mA) 3/6 KRA316E~KRA322E -100 -50 -30 Ta=25 C Ta=-25 C Ta=100 C -1 VO =-0.2V -0.3 -1 -3 -10 -10 Ta=25 C Ta=-25 C -5 -3 Ta=100 C -1 -0.5 -0.3 -0.1 VO =-0.2V -0.3 I O - V I(OFF) Ta=-25 C C -100 Ta=25 C -500 -50 VO =-5V -30 0 -0.2 -0.6 -0.4 -0.8 -1.0 -1.2 -1k -500 -300 0 C -1k -300 -100 -50 -30 -0.2 -1.4 INPUT OFF VOLTAGE V I(OFF) (V) 200 DC CURRENT GAIN G I DC CURRENT GAIN G I 200 100 00 =1 Ta 50 30 C Ta=25 C Ta=-25 C VO =-5V 10 -1 -3 -10 -30 OUTPUT CURRENT I O (mA) 2002. 7. 9 Revision No : 1 VO =-5V -0.4 -0.6 -0.8 -1.0 -1.2 -1.4 -1.6 -1.8 INPUT OFF VOLTAGE V I(OFF) (V) GI - IO KRA318E -10 I O - V I(OFF) KRA319E Ta=10 OUTPUT CURRENT I O (µA) -3k Ta=100 OUTPUT CURRENT I O (µA) -3k -3 INPUT ON VOLTAGE V I(ON) (V) INPUT ON VOLTAGE V I(ON) (V) KRA318E -1 C -0.5 -0.3 -0.1 -50 -30 Ta=-25 C -5 -3 I O - V I(ON) KRA319E Ta=25 -10 OUTPUT CURRENT IO (mA) OUTPUT CURRENT IO (mA) -100 I O - V I(ON) KRA318E GI - IO KRA319E 100 0 10 = Ta 50 30 C Ta=25 C Ta=-25 C VO =-5V 10 -100 -1 -3 -10 -30 -100 OUTPUT CURRENT I O (mA) 4/6 KRA316E~KRA322E -30 -50 -30 OUTPUT CURRENT IO (mA) -10 Ta=25 C Ta=-25 C Ta=100 C -1 VO =-0.2V -1 -3 Ta=25 C -3 Ta=-25 C Ta=100 C -1 -0.5 VO =-0.2V -0.3 -1 -10 I O - V I(OFF) -1k Ta=2 5 C Ta=25 C -500 -300 -100 -50 VO =-5V -30 -0.8 -1.2 -1.6 -2.0 -2.4 -500 -300 -100 -50 -30 -1.0 -2.8 GI - IO DC CURRENT GAIN G I DC CURRENT GAIN G I 200 100 50 00 1 a= T C Ta=25 C Ta=-25 C 10 5 0.5 VO =-5V 1 3 10 30 OUTPUT CURRENT I O (mA) 2002. 7. 9 Revision No : 1 VO =-5V -3.0 -2.0 -4.0 -5.0 -6.0 INPUT OFF VOLTAGE V I(OFF) (V) KRA320E 30 -30 -1k INPUT OFF VOLTAGE V I(OFF) (V) 300 -10 I O - V I(OFF) KRA321E Ta= 100 C OUTPUT CURRENT I O (µA) -3k Ta=1 00 C OUTPUT CURRENT I O (µA) -3k -5 INPUT ON VOLTAGE V I(ON) (V) INPUT ON VOLTAGE V I(ON) (V) KRA320E -3 5 C -0.3 -5 Ta=-2 -0.5 -0.3 -0.1 -10 5 C -5 -3 I O - V I(ON) KRA321E Ta=2 OUTPUT CURRENT IO (mA) -100 I O - V I(ON) KRA320E 100 GI - IO KRA321E 100 50 0 10 = Ta 30 C Ta=25 C Ta=-25 C VO =-5V 10 -1 -3 -10 -30 -100 OUTPUT CURRENT I O (mA) 5/6 KRA316E~KRA322E OUTPUT CURRENT IO (mA) -100 I O - V I(ON) KRA322E -50 -30 -10 Ta=25 C Ta=-25 C -5 -3 Ta=100 C -1 -0.5 -0.3 -0.1 VO =-0.2V -0.3 -1 -3 -10 -30 -100 INPUT ON VOLTAGE V I(ON) (V) 25 C 5 =- =2 Ta =1 -300 Ta 00 C -500 C -1k Ta OUTPUT CURRENT I O (µA) -3k I O - V I(OFF) KRA322E -100 -50 -30 -0.6 VO =-5V -0.8 -1.0 -1.2 -1.4 -1.6 -1.8 -2.0 INPUT OFF VOLTAGE V I(OFF) (V) GI - IO DC CURRENT GAIN G I 1k KRA322E 500 300 00 C Ta=1 Ta=25 C Ta=-25 C 100 50 VO =-5V 20 -1 -3 -10 -30 -100 OUTPUT CURRENT I O (mA) 2002. 7. 9 Revision No : 1 6/6