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2. Consider a class B BJT output stage with a square wave output voltage of amplitude Vo across a...
7, (15 pts) Draw the circuit for the complementary BJT class B output stage. For ±10...
7, (15 pts) Draw the circuit for the complementary BJT class B output stage. For ±10 V power supplies and a 10-Ω load resistance, what is the maximum sine-wave output power available? What supply power corresponds? What is the power-conversion efficiency in this case? (Neglect the effects of VbE and VcEsat.)
12.12 Consider the complementary-BJT class B output stage and neglect the effects of finite Vgf and...
12.12 Consider the complementary-BJT class B output stage and neglect the effects of finite Vgf and VCEstFor t10-V power supplies and an 8-S2 load resistance, what is the maximum sine-wave output power available? What supply power corresponds? What is the power-conversion efficiency? For output signals of half this amplitude, find the output power, the supply power, and the power-conversion efficiency
Page 1. (a) Prove that if the voltage across a resistor Ri is a sine wave with amplitude Vcc, then the average power dissipated during one cycle is given by Vec/2R (b) A Class B BJT output stage...
Page 1. (a) Prove that if the voltage across a resistor Ri is a sine wave with amplitude Vcc, then the average power dissipated during one cycle is given by Vec/2R (b) A Class B BJT output stage is shown in Fig. I. Assume that Vout(t) = Vcc. sin wt; Voe >> VCE(oat); and . Also ignore any crossover distortion effects due to the deddband in the voltage transfer characteristic. Sketch the waveforms for lci(t), Ic2(t) and It(t). (c) Find...
. Consider the class-A output stage shown below, the input signal is a square wave. Assume...
. Consider the class-A output stage shown below, the input signal is a square wave. Assume VCE, sat ~ 0, and Vce>0.7V, and T2 = 27, Τι Vo Ri 0.5Vcc T2 (A) Find the average power efficiency (express as functions of Ri, Vo and D) (B) If RL = 8Ω, and Ve.-12V, find the best l value to maximize power efficiency while not to cut the signal
1. (a) Prove that if the voltage across a resistor RL is a sine wave with...
1. (a) Prove that if the voltage across a resistor RL is a sine wave with amplitude Vcc, then the average power dissipated during one cycle is given by Vc/2RL (b) A Class B BJT output stage is shown in Fig. 1. Assume that Vout (t)-Vcc sinwt; Voc >> VCE(sat); and ß - oo. Also ignore any crossover distortion effects due to the deadband in the voltage transfer characteristic. Sketch the waveforms for Ici (t), Ic2(t), and IL(t) (c) Find...
a) What is "power-conversion efficiency' of an output stage? Comparo the class-A and class-B amplifier output...
a) What is "power-conversion efficiency' of an output stage? Comparo the class-A and class-B amplifier output stages with rospect to their power-conversion officiencies. b) Assume that an emitter follower 9, is used as a class-A output stago, with the constant current supplied by another transistor 2. (as in Figure Q.4.a). Let Vcc=16V, 1 =100mA, and R=10002. If the output voltage is an 4-V-peak sinusoid, find the power conversion efficiency. VC Figure Q.4.a c) Explain the crossover distortion in a class-B...
2. Design an idealized class B output stage, as shown in Figure 2, to deliver an...
2. Design an idealized class B output stage, as shown in Figure 2, to deliver an average of 25 W to an 82 speaker. The peak output voltage must be no larger than 80 percent of supply voltages Vcc. Determine: a) The required value of Voc b) The peak current in each transistor c) The power conversion efficiency V+ On Vo ap RL Figure 2
It is required to design a class B output stage to deliver an average power of 20 W to an 8-Ω loa...
It is required to design a class B output stage to deliver an average power of 20 W to an 8-Ω load. The power supply is to be selected such that Vcc is about 5 V greater than the peak output voltage. This avoids transistor saturation and the associated nonlinear distortion, and allows for including short-circuit protection circuitry. (The latter will be discussed in Section 12.6.) Determine the supply voltage required the peak current drawn from each supply, the total...
The last stage of operational Amplifier is a power amplifier. Class B is a good choice...
The last stage of operational Amplifier is a power amplifier. Class B is a good choice for the power amplifier. However, class B suffer from crossover distortion. Several methods are used to correct this non linearity as was discussed in the lecture (class AB). One of this method is the use of VBE multiplier. Design the output of an operational amplifier using class AB that employ VBE multiplier. For temperature stability RE can be used for the NPN and PNP...
Design a boost converter power stage to the following specification: Input voltage Output voltage: Output voltage...
Design a boost converter power stage to the following specification: Input voltage Output voltage: Output voltage ripple:max 20mV Load power: Switching frequency: 15kHz 110-125V 300V 1.5kW Calculate: (i) Maximum duty cycle (ii) Minimum duty cycle (iii) Average diode current (iv) Assuming the Rds(on) of the MOSFET is 0.01 Ω, and the diode forward voltage is 0.8V, calculate the approximate efficiency of the circuit. 2. A switching power supply shown in the circuit below has its switch driven by a signal...
7, (15 pts) Draw the circuit for the complementary BJT class B output stage. For ±10 V power supplies and a 10-Ω load resistance, what is the maximum sine-wave output power available? What supply power corresponds? What is the power-conversion efficiency in this case? (Neglect the effects of VbE and VcEsat.)
12.12 Consider the complementary-BJT class B output stage and neglect the effects of finite Vgf and VCEstFor t10-V power supplies and an 8-S2 load resistance, what is the maximum sine-wave output power available? What supply power corresponds? What is the power-conversion efficiency? For output signals of half this amplitude, find the output power, the supply power, and the power-conversion efficiency
Page 1. (a) Prove that if the voltage across a resistor Ri is a sine wave with amplitude Vcc, then the average power dissipated during one cycle is given by Vec/2R (b) A Class B BJT output stage is shown in Fig. I. Assume that Vout(t) = Vcc. sin wt; Voe >> VCE(oat); and . Also ignore any crossover distortion effects due to the deddband in the voltage transfer characteristic. Sketch the waveforms for lci(t), Ic2(t) and It(t). (c) Find...
. Consider the class-A output stage shown below, the input signal is a square wave. Assume VCE, sat ~ 0, and Vce>0.7V, and T2 = 27, Τι Vo Ri 0.5Vcc T2 (A) Find the average power efficiency (express as functions of Ri, Vo and D) (B) If RL = 8Ω, and Ve.-12V, find the best l value to maximize power efficiency while not to cut the signal
1. (a) Prove that if the voltage across a resistor RL is a sine wave with amplitude Vcc, then the average power dissipated during one cycle is given by Vc/2RL (b) A Class B BJT output stage is shown in Fig. 1. Assume that Vout (t)-Vcc sinwt; Voc >> VCE(sat); and ß - oo. Also ignore any crossover distortion effects due to the deadband in the voltage transfer characteristic. Sketch the waveforms for Ici (t), Ic2(t), and IL(t) (c) Find...
a) What is "power-conversion efficiency' of an output stage? Comparo the class-A and class-B amplifier output stages with rospect to their power-conversion officiencies. b) Assume that an emitter follower 9, is used as a class-A output stago, with the constant current supplied by another transistor 2. (as in Figure Q.4.a). Let Vcc=16V, 1 =100mA, and R=10002. If the output voltage is an 4-V-peak sinusoid, find the power conversion efficiency. VC Figure Q.4.a c) Explain the crossover distortion in a class-B...
2. Design an idealized class B output stage, as shown in Figure 2, to deliver an average of 25 W to an 82 speaker. The peak output voltage must be no larger than 80 percent of supply voltages Vcc. Determine: a) The required value of Voc b) The peak current in each transistor c) The power conversion efficiency V+ On Vo ap RL Figure 2
It is required to design a class B output stage to deliver an average power of 20 W to an 8-Ω load. The power supply is to be selected such that Vcc is about 5 V greater than the peak output voltage. This avoids transistor saturation and the associated nonlinear distortion, and allows for including short-circuit protection circuitry. (The latter will be discussed in Section 12.6.) Determine the supply voltage required the peak current drawn from each supply, the total...
Design a boost converter power stage to the following specification: Input voltage Output voltage: Output voltage ripple:max 20mV Load power: Switching frequency: 15kHz 110-125V 300V 1.5kW Calculate: (i) Maximum duty cycle (ii) Minimum duty cycle (iii) Average diode current (iv) Assuming the Rds(on) of the MOSFET is 0.01 Ω, and the diode forward voltage is 0.8V, calculate the approximate efficiency of the circuit. 2. A switching power supply shown in the circuit below has its switch driven by a signal...
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