Bias Resistor Transistor

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SEMICONDUCTOR TECHNICAL DATA DTC ~ 8 DTC ~ / /7 DTC / Bias Resistor Transistor NPN Silicon Surface Mount Transistor with Monolithic Bias Resistor Network This new series of digital transistors is designed to replace a single device and its external resistor bias network. The BRT (Bias Resistor Transistor) contains a single transistor with a monolithic bias network resistor. The BRT eliminates these individual components by integrating them into a single device. The use of a BRT can reduce both system cost and board space. The device is housed in the SOT- package which is designed for low power surface mount applications. SOT (TO 6AB) Simplifies Circuit Design Reduces Board Space and Component Count The SOT- package can be soldered using wave or reflow. The modified gull-winged leads absorb thermal stress during soldering eliminating the possibility of damage to the die. PIN BASE (INPUT) R R PIN COLLECTOR (OUTPUT) PIN EMITTER (GROUND) MAXIMUM RATINGS (T A = unless otherwise noted) Rating Symbol Value Unit Collector-Base Voltage V CBO Vdc Collector-Emitter Voltage V CEO Vdc Collector Current I C madc Total Power Dissipation @ T A = (Note.) Derate above P D 6. mw C/W DEVICE MARKING AND RESISTOR VALUES DTC Device Marking R(K) R(K) A8J.7.7 Shipping /Tape & Reel DTC A8A DTC A8B DTC A8C 7 7 DTC A8M. 7 DTC6 A8K.7 7 DTC7 A8D 7 DTC8 A8L 7 DTC A8F.7 DTC A8E DTC A8U /Tape & Reel /Tape & Reel /Tape & Reel /Tape & Reel /Tape & Reel /Tape & Reel /Tape & Reel /Tape & Reel /Tape & Reel /Tape & Reel DTC A8T 7 /Tape & Reel DTC7 A8H.. DTC A8G.. DTC A8R.. Device mounted on a FR- glass epoxy printed circuit board using the minimum recommended footprint. /Tape & Reel /Tape & Reel /Tape & Reel 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / THERMAL CHARACTERISTICS Rating Symbol Value Unit Thermal Resistance Junction-to-Ambient (Note.) R θja 8 C/W Operating and Storage Temperature Range T J, T stg to + C Maximum Temperature for Soldering Purposes, Time in Solder Bath T L 6 C Sec ELECTRICAL CHARACTERISTICS (T A = unless otherwise noted) OFF CHARACTERISTICS Characteristic Symbol Min Typ Max Unit Collector-Base Cutoff Current (V CB = V, I E = ) I CBO nadc Collector-Emitter Cutoff Current (V CE = V, I B = ) I CEO nadc Emitter-Base Cutoff Current (V EB = 6. V, I C =) DTC I EBO. DTC. DTC. DTC. DTC. DTC6.8 DTC7. DTC8. DTC.9 DTC.9 DTC. DTC. DTC7. DTC. DTC. Collector-Base Breakdown Voltage (I C = µa, I E = ) V (BR)CBO Vdc Collector-Emitter Breakdown Voltage (Note.), (I C =. ma, I B = ) V (BR)CEO Vdc ON CHARACTERISTICS DC Current Gain (V CE = V, I C =.ma) Collector-Emitter Saturation Voltage (I C = ma, I B =. ma) (I C = ma, I B = ma) DTC7 / DTC (I C = ma, I B = ma) DTC / DTC / DTC6 / DTC8 / DTC / DTC / DTC / DTC DTC h FE DTC 6 DTC 6 DTC 8 DTC 8 DTC6 8 DTC7 8 DTC8 8 DTC 6 DTC 6 DTC 6 DTC 6 DTC7 8. DTC.. DTC 6 madc V CE(sat). Vdc. Pulse Test: Pulse Width < µs, Duty Cycle <.%. 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / ELECTRICAL CHARACTERISTICS (T A = unless otherwise noted) ON CHARACTERISTICS (Note.) Output Voltage (on) (V CC =. V, V B =.V, R L =.KΩ) (V CC =. V, V B =.V, R L =.KΩ) (V CC =. V, V B =.V, R L =.KΩ) Input Resistor Characteristic Symbol Min Typ Max Unit Output Voltage (off) (V CC =. V, V B =.V, R L =.KΩ) (V CC =. V, V B =.V, R L =.KΩ) DTC (V CC =. V, V B =.V, R L =.KΩ) DTC DTC6 DTC DTC DTC V OL. DTC. DTC. DTC. DTC6. DTC7. DTC8. DTC. DTC. DTC7. DTC. DTC. DTC. DTC DTC. Vdc V OH.9 Vdc Resistor Ratio DTC / DTC / DTC7 R/R.8. DTC / DTC / DTC.8. DTC.8.7 DTC6.. DTC7.7. DTC8.8.7 DTC / DTC / DTC DTC / DTC. Pulse Test: Pulse Width < µs, Duty Cycle <.%. DTC R..7 6. DTC 7. DTC. 8.6 DTC.9 7 6. DTC...86 DTC6..7 6. DTC7 7. DTC8. 8.6 DTC..7 6. DTC 7. DTC 7 DTC.9 7 6. DTC7...9 DTC.7.. DTC...88...6.8..6 KΩ 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / DTC I C /I B = V CE = V VCE(sat), MAXIMUM COLLECTOR VOLTAGE (VOLTS).. T A = hfe, DC CURRENT GAIN T A =. 8 6 8 7 Figure. V CE(sat) vs. I C Figure. DC Current Gain Cob, CAPACITANCE (pf) 6 f = MHz IE = A TA = IC, COLLECTOR CURRENT (ma). TA = V O = V 6. 6 V IN, INPUT VOLTAGE (VOLTS) 8 Figure. Output Capacitance Figure. Output Current vs. Input Voltage VIN, INPUT VOLTAGE (VOLTS) V O =. V T A =. Figure 6. Output Voltage vs. Input Current 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / DTC PD, POWER DISSIPATION (MILLIWATTS) R θja = 6/W T A, AMBIENT TEMPERATURE ( C) Figure. Derating Curve VCE(sat), MAXIMUM COLLECTOR VOLTAGE (VOLTS).. I C /I B =. 6 8 Figure. V CE(sat) vs. I C T A = hfe, DC CURRENT GAIN (NORMALIZED) V CE = V T A = Cob, CAPACITANCE (pf) f = MHz l E = A T A = Figure. DC Current Gain Figure. Output Capcitance.. T A = V O = V VIN, INPUT VOLTAGE (VOLTS) V O =. V T A =. 6 7 8 9 V IN, INPUT VOLTAGE (VOLTS) Figure. Output Current vs. Input Voltage. Figure 6. Input Voltage vs. Output Current 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / DTC VCE(sat), MAXIMUM COLLECTOR VOLTAGE (VOLTS)... I C /I B = T A = 6 8 hfe, DC CURRENT GAIN (NORMALIZED) V CE = V T A = Figure 7. V CE(sat) vs. I C Figure 8. DC Current Gain Cob, CAPACITANCE (pf) f = MHz l E = A T A =... T A = V O = V 6 8 V IN, INPUT VOLTAGE (VOLTS) Figure 9. Output Capacitance Figure. Output Current vs. Input Voltage VIN, INPUT VOLTAGE (VOLTS) V O =. V T A =. Figure. Input Voltage vs. Output Current 8. 8. 8 Revision No : 6/6

DTC ~ 8, DTC ~ / / 7, DTC / DTC VCE(sat), MAXIMUM COLLECTOR VOLTAGE (VOLTS). I C /I B = T A =. 6 8 hfe, DC CURRENT GAIN (NORMALIZED) V CE = V T A = Figure. V CE(sat) vs. I C Figure. DC Current Gain Cob, CAPACITANCE (pf).8.6.. f = MHz l E = A T A = IC, COLLECTOR CURRENT (ma) T A =.. V O = V. 6 8 V IN, INPUT VOLTAGE (VOLTS) Figure. Output Capacitance Figure. Output Current vs. Input Voltage VIN, INPUT VOLTAGE (VOLTS) V O =. V T A =. Figure 6. Input Voltage vs. Output Current 8. 8. 8 Revision No : 7/6

DTC ~ 8, DTC ~ / /7, DTC / DTC6 VCE(sat), MAXIMUM COLLECTOR VOLTAGE (VOLTS).. I C /I B = T A = hfe, DC CURRENT GAIN T A = V CE = V. 7 7 7 Figure 7. V CE(sat) vs. I C Figure 8. DC Current Gain Cob, CAPACITANCE (pf).... f = MHz I E = A T A = IC, COLLECTOR CURRENT (ma).. 6 T A = V O = V 6 V IN, INPUT VOLTAGE (VOLTS) 8 Figure 9. Output Capacitance Figure. Output Current vs. Input Voltage V O =. V VIN, INPUT VOLTAGE (VOLTS) T A =. 6 8 Figure. Input Voltage vs. Output Current 8. 8. 8 Revision No : 8/6

DTC ~ 8, DTC ~ / /7, DTC / DTC7 VCE(sat), MAXIMUM COLLECTOR VOLTAGE (VOLTS).. I C /I B = T A =. 6 8 hfe, DC CURRENT GAIN (NORMALIZED) V CE = 6 8 6 7 8 9 T A = Figure 7. VCE(sat) vs. IC Figure 8. DC Current Gain Cob, CAPACITANCE (pf).... f = MHz l E = A T A = IC, COLLECTOR CURRENT (ma) T A = V O = V 6 8 Figure 9. Output Capacitance 6 8 V IN, INPUT VOLTAGE (VOLTS) Figure. Output Current vs. Input Voltage V O =. V T A = VIN, INPUT VOLTAGE (VOLTS). Figure. Input Voltage vs. Output Current 8. 8. 8 Revision No : 9/6

DTC ~ 8, DTC ~ / /7, DTC / DTC V CE(sat), COLLECTOR VOLTAGE (VOLTS)... I C /I B = - h FE, DC CURRENT GAIN T A = - V CE = V Figure 7. V CE(sat) versus I C Figure 8. DC Current Gain C ob, CAPACITANCE (pf)..... f = MHz I E = V T A =.. T A = - V O = V. V in, INPUT VOLTAGE (VOLTS) 6 7 8 9 Figure 9. Output Capacitance Figure. Output Current versus Input Voltage V in, INPUT VOLTAGE (VOLTS) T A = - V O =. V. Figure. Input Voltage versus Output Current 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / DTC V CE(sat), COLLECTOR VOLTAGE (VOLTS)... I C /I B = - h FE, DC CURRENT GAIN T A = - V CE = V Figure. V CE(sat) versus I C Figure. DC Current Gain. C ob, CAPACITANCE (pf).... f = MHz I E = V T A =.. T A = - V O = V. V in, INPUT VOLTAGE (VOLTS) 6 7 8 9 Figure. Output Capacitance Figure. Output Current versus Input Voltage V in, INPUT VOLTAGE (VOLTS) T A = - V O =. V. Figure 6. Input Voltage versus Output Current 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / DTC7 V CE(sat), COLLECTOR VOLTAGE (VOLTS)... I C /I B = - h FE, DC CURRENT GAIN T A = - V CE = V Figure 7. V CE(sat) versus I C Figure 8. DC Current Gain. C ob, CAPACITANCE (pf).... f = MHz I E = V T A =.. T A = - V O = V. 6 7 8 9 V in, INPUT VOLTAGE (VOLTS) Figure 9. Output Capacitance Figure. Output Current versus Input Voltage V in, INPUT VOLTAGE (VOLTS) T A = - V O =. V. Figure. Input Voltage versus Output Current 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / DTC8 INPUT VOLTAGE : VI(on) (V) m m Ta= C C m µ µ µ m m m m m m m OUTPUT CURRENT : IO (A) VO=.V Fig. Input voltage vs. output current (ON characteristics) OUTPUT CURRENT : Io (A) m m m m µ µ µ µ µ µ µ VCC=V Ta= C C µ µ...... INPUT VOLTAGE : VI(off) (V) Fig. Output current vs. input voltage (OFF characteristics) DC CURRENT GAIN : GI k Ta= C C VO=V µ µ µ m m m m m m m OUTPUT CURRENT : IO (A) Fig. DC current gain vs. output current OUTPUT VOLTAGE : VO(on) (V) m m m m m m m Ta= C C lo/li= m m µ µ µ m m m m m m m OUTPUT CURRENT : IO (A) Fig. Output voltage vs. output current 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / DTC V CE(sat), COLLECTOR VOLTAGE (VOLTS) I C /I B =... - h FE, DC CURRENT GAIN T A = - V CE = V Figure. V CE(sat) versus I C Figure. DC Current Gain C ob, CAPACITANCE (pf)..... f = MHz I E = V T A =.. T A = - V O = V. 6 7 8 9 V in, INPUT VOLTAGE (VOLTS) Figure. Output Capacitance Figure. Output Current versus Input Voltage V in, INPUT VOLTAGE (VOLTS) T A = - V O =. V. Figure 6. Input Voltage versus Output Current 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / TYPICAL APPLICATIONS FOR NPN BRTs µ Figure. Level Shifter: Connects or Volt Circuits to Logic Figure. Open Collector Inverter: Inverts the Input Signal Figure. Inexpensive, Unregulated Current Source 8. 8. 8 Revision No : /6

DTC ~ 8, DTC ~ / /7, DTC / SOT- V D A L G H B C S K J NOTES:. DIMENSIONING AND TOLERANCING PER ANSI Y.M, 98.. CONTROLLING DIMENSION: INCH. DIM A B C D G H J K L S V INCHES MIN MAX..97.7......7.87....7..8...8.9.77.6 MILLIMETERS MIN MAX.8....89..7..78....8.77..69.89...6..6.7.9.7.9.79...9..8 inches mm 8. 8. 8 Revision No : 6/6

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