2SK33720TL/IH Datasheet ABSOLUTE MAXIMUM RATINGS (TA = 250C) Drain to Source Voltage (VGs = 0 V) VDSS 60 Gate to Source Voltage (VDS = 0 V) VGSS +20 Drain Current (DC) (Tc = 25aC) ID(DC) +84 Drain Current (pulse) Notei ID(pulse) +336 Total Power Dissipation (Tc = 25aC) PT1 146 Total Power Dissipation (TA = 25aC) PT2 1.5 ChanneITemperature Tcr, 150 Storage Temperature Tstg -55 to +150 Single Avalanche Energy Note2 EAS 245 Repetitive Avalanche Current Note3 IAR 49.5 epetitive Avalanche Energy Note3 EAR 245 2SK33720TL/IH Price| VCE =1 V | | | | | | | | | f = 1.5 GHz | | | | | | | | | | | | | | | | | | | | | | | | | | Ga | | | | | | | | | | | | > | j | | | | | | | | | | | j | | | | | | | | | | NF | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | |
2SK33720TL/IH on stock There are two components of the dark signal from the SB series. These are due to: (1) spatial variations in the switch- ing transients coupled into the video line through the clocks and intemal multiplex switches, and (2) the integrated dark current. A portion of the switching transient effect will be spatially random and a portion will have the periodicity of the clocks. The latter portion can be minimized by matching the clock amplitudes and rise and fall times and by good circuit layout to minimize capacitance between clocks and video lines. The peak-to-peak fixed pattern due to all switching transient effects should be less than l% of the saturated | Characteristics | Symbol | Test Condition | Min | Typ. | Max | Unit | | Collector cut-off current | ICBO | VCB = -150 V, IE = 0 | | | -lO | pA | | Emitter cut-off current | IEBO | VEB = -6 V, lc = 0 | | | -lO | pA | | Collector-emitter breakdown voltage | V (BR) CEO | lc = -10 rTiA, lB = 0 | -150 | | | V | | DC current gain | hFE (Note) | VCE = -5 V, lC = -200 mA | 60 | | 320 | | | Collector-emitter saturation voltage | VCE (sat) | lc = -500 mA, lB = -50 mA | | | -1.5 | V | | Base-emitter voltage | VBE | VCE = -5 V, lC = -5 mA | -0.5 | | -0.8 | V | | Transition frequency | fT | VCE = -5 V, lC = -200 mA | 15 | 50 | | MHz | | Collector output capacitance | Cob | VCB = -10 V, IE = 0, f = 1 MHz | | | 35 | pF | | | | | | | |
| Symbol | Parameter | Test Conditions | Min | Typ. | Max | Unit | | V | Output Voltage | Tj= 25 0C | 8.82 | 9 | 9.18 | v | | V | Output Voltage | lo = 5 mA t0 350 mA Vi = 11.5 t0 24 V | 8.64 | 9 | 9.36 | V | | | Line Regulation | lo = 200 mA Tj = 25 0C Vi = 11.5 t0 25 V Vi = 12 t0 25 V | | | 100 30 | mV mV | | | Load Regulation | 10 = 5 t0 500 mA Tj = 25 0C 10 = 5 t0 200 mA Tj = 25 0C | | | 180 90 | mV mV | | Id | Quiescent Current | Tj= 25 0C | | | 6 | mA | | Cld | Quiescent Current Change | lo = 5 t0 350 mA | | | 0.5 | mA | | ad | Quiescent Current Change | lo = 200 mA Vi = 11.5 t0 25 V | | | 0.8 | mA | | V 7- | Output Voltage Drift | 10=5 mA | | -0.5 | | mV/OC | | eN | Output Noise Voltage | B = 10Hz t0 100KHz Tj = 25 0C | | 52 | | | | SVR | Supply Voltage Rejection | lo = 300 mA f = 120 Hz Tj = 25 0C Vi = 12.5 t0 23 V | 56 | | | dB | | Vd | Dropout Voltage | Tj= 25 0C | | 2 | | v | | l | Short Circuit Current | Tj = 25 0C Vi = 35 V | | 250 | | mA | | lscp | Short Circuit Peack Current | Tj= 25 0C | | 700 | | mA | | | | | | | |
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