4. Show that the current transfer ratio is equal to: CE2 REFV for the basic BJT Current Mirror sh...
HELP with finding 8 and 9 2. IC temperature sensor The emitter-base voltage VEB of a PNP bipolar junction transistor (BJT) with its base and collector shorted (figure 1(a)) can be expressed by VEB (kT/q) In(Ic/Is), in which Is is the saturation current of the emitter-base junction (a) (3 pts) Choose any statement below that correctly describe the effect of temperature on the property of the BIT under a constant 1c as shown in figure 1(a).18_.(one or more than one...
miz 22 - Apr 14, 2020 Vo=8V on't forget units! For the npn BJT circuit at right, calculate the base current is, collector current ic, emitter current is, and the collector-emitter voltage Vce. The forward current gain for the transistor is Br = 150. κι ΚΩ Vana_MW kr R, 100 k92 VRO i ic= 14702 _ VCE Vcc=6 V 32.2 k 2 R 120 k92 For the npn BJT circuit at right, calculate the value of Br so that the...
draw a base biased circuit and refered to question 5 and complete table. please draw the fixed bias diagram circuit and follow throught step on the next question. Figure 1. Bipolar junction transistor under base bias/fixed bias 5. In the circuit drawn in Figure 1, label the components with the following values: Base voltage, Collector voltage10V Base resistance Collector resistance Base - emitter voltage 2.7 k2 0.7 V 160 6. Connect the circuit drawn in Figure 1 on the breadboard....
Question 11 In Figure 1 and 2 the current gain is B = 120. For each figure determine the collector current (Ic), and the collector emitter voltage (Vce). If the circuit is in saturation make Vce = 0.2V. If the base-emitter junction is foward biased then Vb = 0.7V. VCE VRRE 0.2 V you (2) W VRB SR 1.4 V
please choose one of the answer choices above. Must show all work, thank you Question 4 CIRCUIT B2 (2.5 Marks) +Vcc Rc IRC Vic RB Ів Vc VB VE RE IE FIG.4: CIRCUIT B2 Statement: Sketching relevant output (Vc-Ic) characteristics decide on Q-point coordinates and DC load-line details: That is, determine DC operating conditions of the NPN-BJT/Si circuit of Fig.4 (denoting the type Circuit B2). Assume the following: Vcc= 24 volt; Rc = 5.0 k; RE = 1000 ohm; RB...
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...
please choose one of the answer choices above. Must show all work, thank you Question 2 CIRCUIT A2 (2.5 Marks) + Ver Rc Ic с IR Fig. 2: CIRCUIT A.2 Statement: Sketching relevant output (Vc-Ic) characteristics decide on Q-point coordinates and DC load-line details: That is, determine DC operating conditions of the NPN-BJT/Si circuit of Fig.2 (denoting the type Circuit A2). Assume the following: Vcc= 24 volt; Rc = 5.0 k; RB = 1500 k and B = 125. Required...
please choose one of the answer choices above. Must show all work, thank you Question 1 CIRCUIT A.1 (2.5 Marks) + Vcc RB IB Rc Vc VB Fig. 1: CIRCUIT A.1 Statement: Sketching relevant output (Vc-Ic) characteristics decide on Q-point coordinates and DC load-line details: That is, determine DC operating conditions of the NPN-BJT/Si circuit of Fig.1 (denoting the type Circuit A1). Assume the following: Vcc= 12 volt; Rc = 3.6 k; RB = 500 k and a = 0.9....
ASAP! Question 1 [Soalan 1] (a) Describe the condition when a npn BJT transistor operates in saturation condition and what are the terminal currents and voltages conditions during saturation. [Terangkan keadaan bila satu transistor BJT npn beroperasi dalam keadaan tepu dan apakah keadaan arus dan voltan terminal semasa tepu. ] (20 Marks/Markah) (b) Consider the BJT transistor circuit in Figure 1. If Bpc = 100 and VBE = 0.65V, calculate: [Pertimbangkan litar transistor BJT dalam Rajah 1. Jika Bpc =...
8. Find a) base current is , b) collector current ic and c) voltage between collector and emitter VCE Vcc=4.6V VCC RB=200k R WWW RRC=lk B=100 n-p-n BJT