In the circuit above, the transistor has 8 = 80 and exhibits Ve=0.7V atle=4mA. The circuit...
The transistor in the circuit below has ?-100 and Vci(sat) OV. You may use the constant voltage model with VE 0.7V if the base emitter junction is forward biased. A variable DC source is attached to input VIN. Find the operating mode (cutoff, active, or saturation), the collector node voltage VC, and the collector current IC for each of the following cases: (a) VIN 0V (b) VIN = 1.2V (c) VIN 6.0v (d) VIN 12.0V 1 K IC VC 10K...
Problem 2 (15 points) In the circuit below, the transistor has B=50 and VEB = 0.7V. Find the values of VB, VE, and Vc, and verify that the transistor is operating in the active mode. What is the largest value that Rc can have while the transistor remains in the active mode? +3V SR 3222 Vio R: 20 ks OV -
Question 2: a) Find the value of Vgs? b) If the threshold voltage of the NMOS 0.7V, identify the region of operation for the MOSFET (i.e. Triode Saturation or Cutoff) v,= 10V SATE e) Write the formula to calculate Current (ID) for the circuit in Figure 1 Fig. 1 Question 3: a) Find the value of Vgs* b) If the threshold voltage of the NMOS 0.7V, identify the region of operation for the MOSFET (i.e. Triode, Saturation or Cutoff) c)...
+15V (10) The circuit at right detects a person walking through a dark room at night and turns on a light bulb so that the person can see. The circuit uses an infrared (ir) detector that outputs just over 5V when it detects the heat from a person walking past. TheR1 infrared detector outputs 2V when there is no person +15V +15V bulb present. R3 15V ir detector The diode in the circuit above is there so that no negative...
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Question 2: Th is question relates to diodes and transistor amplifiers The following question relates to the diode circuit in Figure 2a below. if t E- SV, and the diode was a Red LED, determine; (i) the voltage across the diode, Vo (ii) the value of resistor R, that will give a current, 1 4mA (ii) the current, I, if E--5V (a) he voltage source Figure 2a 8 marks] er amplifier circuit shown...
IX With reference to the transistor amplifier shown in Figure QB4 below d For the bipolar transistor circuit of Figure QB4 the following DC bias conditions were measured: VB made. 1.6 V and VBE =0.6 V. Detemine the value for RA, stating any assumptions e) Using these same conditions, calculate the current in Re and deduce the current in Rc, stating any assumptions made. Hence find the voltage across Rc and explain whether this voltage is suitable for this amplifier...
1. Consider NMOS transistor in the circuit that has u.Cox = 0.4 mA/V?, W/L = 25, and V.=0.4V. (20 pts) (a) Find the value of Vas that results in saturation mode operation with a lp current of 0.1 mA. Neglect the Early effect. (2.5 pts) +1.5 V in BRD (b) Find the value of Rp that results in a de drain voltage of 0.5V. (2.5 pts) = = = (e) Find gw and r, at the de operating point specified...
Consider the circuit shown below. Write a short analysis of whether or not it will work as designed. If you think that it won't work, discuss what changes you would make to the circuit to fix the problem(s). The curve of drain current versus gate to source voltage, Vos for the MOSFET is given for your reference on the next page. The maximum Drain to Source voltage of the MOSFET is 300 Volts and the maximum drain current is 5...
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5. Each transistor in the following circuit has B = 150. Find the emitter currents lei, le, les and the voltage values of V3, V4, V5, V6, and V7.(4 points each ) (Total 32 points) Given R1 = 8.2 k12, R2 = 8.2 k-2, R3 = 4.7 k12, R=2.7k 2, Rs = 2.2 k12, and Ro = 1.2 k12. +5V ste R.
im currently doing an assignment where i must design a two stage
bipolar transistor, i just need the calculations and values for
each component and then i can run simulated experiments and
complete my work
here is the schematic
the transistor used is the BC846B
the supply voltage is 15 v
the collector currents 1 (ICq1) = 1.5mA
the collector current 2 (ICq2) = 7.5 mA
output voltage swing= max
frequency response = 50- 20 khz
i must calculate the...