For the circuit shown below, let B = 100 and VBE = 0.7 V. (a) Find...
(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 1.5V - 5V
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...
Q. 3. Design a transistor biasing circuit as shown below. Assume B = 100, Ica = 10 mA, VE = Vcc/3, VceQ = Vcc /3 and VBE = 0.7 V. RTH = 0.1 (1 + B)RE . Also find the power rating of all resistors. (25) > +15V R2 Rc Vio R1 RE
Design a transistor biasing circuit as shown below. Assume ß = 100, Ice = 10 mA, VE = Vcc/3, VCEQ = Vcc/3 and VBE = 0.7 V. RTH = 0.1 (1 + BRE. Also find the power rating of all resistors. +15V R2 Rc V 10 R1 RE
Q. 3. Design a transistor biasing circuit as shown below. Assume ß = 100, lco = 10 mA, VE = Vcc/3, VCEQ = Vcc/3 and VBE = 0.7 V. RTH = 0.1 (1 + B)RE . Also find the power rating of all resistors. +15V R2 Rc V10 R1 RE
(13 points) For the transistor in the circuit shown below, VBE(on) = 0.7 V, Vce(sat) = 0.2 V, and B = 100. Determine the value of the collector current. +5 V R=1.2 ko R =33 k2 -5 V
An npn transistor is employed in a common-base amplifier. 4 p 100, VBE 0.7 V. +-5V 2Ks2 Vo 5ΚΩ 4.3KM -5V in It is known that the device is biased to have Ig of 1 mA. Determine the transconductance of the transistor. (10 points) (a) (b) Draw the small-signal equivalent circuit employing the T- model. (10 points)
An npn transistor is employed in a common-base amplifier. 4 p 100, VBE 0.7 V. +-5V 2Ks2 Vo 5ΚΩ 4.3KM -5V in It...
20) Given the circuit shown at right, Calculate VTH and RTH. B) C) D) VTH-10 V, RTH-50 ? Vrh,-6.7 V,Rm,-150 ? VTH,-5.0 V, RTH-50 ? 50? 100 ? 20 VS 100 ? -T 50 ? t ht the Thevenin voltage is
(2) a) Determine the Thévenin equivalent circuit (Rth and Vtw) of the circuit shown below as seen by terminals a-b. 1 k w oa 35k 320k 25 mA 45 kn 50 V .b RTH (5 pts) VTH (15 pts) b) Determine the max power Pmax to a load R that will be connected to terminals a-b. (10 pts)
For the BJT circuit shown below, assume that the current gain is B = 100 and the forward voltage V,= 0.7 V. (1) Please find is, ic, ie, VBE and VCE (2) Decide the operation mode of this BJT. 4V B 40k W