...V, I E = -15 mA I C = -15 mA, I <font color='#ff0000'>bfont> = -1 mA I C = -15 mA, I <font color='#ff0000'>bfont> = -1 mA VC<font color='#ff0000'>bfont> = -10 V, IE = 0, f = 1 MHz VCE = -3 V, I C = -15 mA VCC = -10.3 V I C = 10 I<font color='#ff0000'>bfont>1 = -10 I <font color='#ff0000'>bfont>2 = -10 mA VCC = -10 V, I C =-17 mA I<font color='#ff0000'>bfont>1 = -1mA, I <font color='#ff0000'>bfont>2 = -12 mA
-150 -- -150 --...
...8 mA -6 mA -4 mA -2 mA
IC I <font color='#ff0000'>bfont>
-1.2 VCE = -10 V TC = 25C
Collector power dissipation PC (W)
-1.0
-1.0
Collector current IC (...f = 200 MHz TC = 25C 160
Co<font color='#ff0000'>bfont> VC<font color='#ff0000'>bfont>
Collector output capacitance C (pf) (Common <font color='#ff0000'>bfont>ase, input open c...
... V, I C = -2 mA I C = -10 mA, I <font color='#ff0000'>bfont> = -1 mA VCE = -12 V, I C = -2 mA VC<font color='#ff0000'>bfont> = -25 V, IE = 0, f = 1 MHz VCE = -6 V, f = 10 Hz I C = -50 A Rg = 50 k f = 1 kHz
Typ -- -- -- -- -- -- -- 120 1.8 --
-90 -- --
DC current tarnsfer ratio hfE1* h...
Power Device - Power Transistors - Others<<font color='#ff0000'>bfont>r>Silicon PNP epitaxial planar type (for low-frequency power amplification Complementary)<<font color='#ff0000'>bfont>r>
... V, I C = -2 mA I C = -10 mA, I <font color='#ff0000'>bfont> = -1 mA VCE = -12 V, I C = -2 mA VC<font color='#ff0000'>bfont> = -25 V, IE = 0, f = 1 MHz VCE = -6 V, I C = -50 A Rg = 50 k, f = 1 kHz
Min -90 -- --
Typ -- -- -- -- -- -- 120 1.8 2
-120 -- -- -- 250 -- -- -- -- -- 120 1.8 2...
...
V V MHz pf
I C = -1 A, I <font color='#ff0000'>bfont> = -0.1 A (Pulse test) I C = -1 A, I <font color='#ff0000'>bfont> = -0.1 A (Pulse test) VCE = -2 V, I C = -10 mA VC<font color='#ff0000'>bfont> = -10 V, IE = 0, f = 1 MHz
1. The 2S<font color='#ff0000'>bfont>1001 is grouped <font color='#ff0000'>bfont>y hfE as follows. <font color='#ff0000'>bfont>H 100 to 200 <font color='#ff0000'>bfont>J 160 to 320
2
2S<font color='#ff0000'>bfont>100...
...
V V MHz pf
I C = -1 A, I <font color='#ff0000'>bfont> = -0.1 A (Pulse test) I C = -1 A, I <font color='#ff0000'>bfont> = -0.1 A (Pulse test) VCE = -2 V, I C = -10 mA (Pulse test) VC<font color='#ff0000'>bfont> = -10 V, IE = 0, f = 1 MHz
1. The 2S<font color='#ff0000'>bfont>1002 is grouped <font color='#ff0000'>bfont>y hfE as follows. CH 100 to 200 CJ 160 to 320
...
...
V V MHz pf
I C = -500 mA, I <font color='#ff0000'>bfont> = -50 mA (Pulse test) VCE = -5 V, IC = -150 mA VCE = -5 V, IC = -150 mA VC<font color='#ff0000'>bfont> = -10 V, IE = 0, f = 1 MHz
1. The 2S<font color='#ff0000'>bfont>1025 is grouped <font color='#ff0000'>bfont>y hfE1 as follows. DH 60 to 120 DJ 100 to 200 DK 160 to 320
2
2S<font color='#ff0000'>bfont>10...