By applying a base current of 50μA to the transistor of the figure and a voltage of 5V through Rc. Calculate the βcd of the transistor
By applying a base current of 50μA to the transistor of the figure and a voltage...
1) Calculate the value of the base current
IB. (in μA)
2) Calculate the value of the base collector current
IC. (In mA)
3) Calculate the value of the collector-emitter voltage
VCE. (In V)
Required information In the circuit below: RB = 820 kN, Vcc = 12 V, RC = 3 kN2, and Bdc = 100. Note: The transistor is silicon. Vcc w Rc Re Bdc
1. For the transistor circuit shown in figure 1, what is: a. Vce when VIN = OV? b. What minimum value of IB is required to saturate the transistor if Boc is 200? c. Calculate the maximum value of Rs when Vin = 5V. VCC 10V RC 1.0 K RB Q1 VIN=0V 15C02MH-TLE GND Figure
*5. Design a BJT transistor drive circuit like the one shown Figure 10-7 (Hart's text) with an initial peak base current, IB,-8 1B2, where 1B2 denotes the minimum base current required to drive the transistor to saturation. Assume a collector load resistance, Rc-8 Ω, collector supply voltage Vs = 30 V, large signal current of the transistor, hFE-min. 10, max. 20), VBE(on)-0.8 V, and the input is periodic pulse waveform (0 to 6) V, with a duty cycle, D-0.5. Also,...
Find IC and VEC for the
pnp transistor circuit in Figure 5–15.
EE +10 V R, 10 kΩ RE 1.0 kΩ 4) βpc = 150 Rc 8 RI 22 ΚΩ 2.2 kΩ FIGURE 5-15
ECE 3424 Student Name & ID: An npn transistor having 1s = 10-"A and B = 100 is connected as follows: The emitter is grounded, the base is fed with a constant-current source supplying a dc current of 10 u A, and the collector is connected to a 5-V dc supply via a resistance Rc of 3 k12. Assuming that the transistor is operating in the active mode, find VBE and Vce. Use these values to verify active-mode operation. Replace...
1) Plot base current of a npn transistor versus base-emitter voltage 2) Plot Gate current of a MOSFET transistor versus gate-source voltage
Figure 3 Transistor amplifire circuit with source Vs and load R b) For the BJT switching circuit shown in Figure 4, i) Calculate the value of Ra so that the transistor is operating in saturation when switched on if the value of Rc is 3.9 kn. ii) What will the output voltage be for the applied input signal voltage shown if Vcet IS 0.2V? 5 V Re o V 5 V B 100 OV Figure 4 BUT switching circuit with...
Q.2. (a) Determine the region of operation for the following transistor when B = 100 and Ves = 0.7 V. Also find I and V. (10) I + 5 V -15 V 1K 1K V 0 (b) For the circuit shown below, let B = 100 and VBE = 0.7 V. (a) Find VTH and RTH for the base circuit. (b) Determine Ice and VcEO + 5V +15V 500 ΚΩ 50 ΚΩ + 3V 500 ΚΩ 70 ΚΩ 5 ΚΩ...
*5. Design a BJT transistor drive circuit like the one shown Figure 10-7 (Hart's text) with an initial peak base current, IB,-8 1B2, where 1B2 denotes the minimum base current required to drive the transistor to saturation. Assume a collector load resistance, Rc-8 Ω, collector supply voltage Vs = 30 V, large signal current of the transistor, hFE-min. 10, max. 20), VBE(on)-0.8 V, and the input is periodic pulse waveform (0 to 6) V, with a duty cycle, D-0.5. Also,...
answer i-iv please
The NPN transistor in the circuit shown haes B-60 Assuming that the BJT is operating in the deep saturation mode ie. VCEsat-02y and VBE-07V ßforced-10. Question 3: 20% p-60) Assuming that the BJT is operating in the deep Rg i) Calculate collector current, Ic. (4%) ii) Calculate voltage VBB and base current,IB(6%) iii) If we keep VBB and Rc the same, i.e. at 1k2, what is the minimum value of RB to restore the transistor beta to...