Problem #4 Using 2N2222A, design a transistor amplifier with a gain of greater than 1000; show...
Problem #4
Using 2N2222A, design a transistor amplifier with a gain of greater than 1000; show that your circuit has no distortions of the initial periodic signal; use time domain I(t) simulation and a signal generator for input.
Homework Answers
Given that:
Gain=1000
Here we are designing transistor amplifier circuit as given ,
Finally we have to find RE value here
Add Answer to:
Problem #4
Using 2N2222A, design a transistor amplifier with a gain of
greater than 1000; show...
Small-Signal Mid- Band Voltage Gain (Range) Transistors Amplifier Confiaurations +2) to (+5 P-JFET Common Gate By referring to a specific transistor datasheet, design a single stage amplifier circuit...
Small-Signal Mid- Band Voltage Gain (Range) Transistors Amplifier Confiaurations +2) to (+5 P-JFET Common Gate By referring to a specific transistor datasheet, design a single stage amplifier circuit with the following specifications. Include in your design, (i) the amplifier circuit, (ii) DC & AC equivalent circuits, (ii) DC & AC analysis and (iv) frequency response. State your assumptions, if any.
Small-Signal Mid- Band Voltage Gain (Range) Transistors Amplifier Confiaurations +2) to (+5 P-JFET Common Gate By referring to a specific...
***PERFORM IN MULTISIM OR I WILL THUMBS DOWN C. DESIGN PROBLEM - X10 AMPLIFIER Choosing the...
***PERFORM IN MULTISIM OR I WILL THUMBS DOWN
C. DESIGN PROBLEM - X10 AMPLIFIER Choosing the appropriate one of the two circuits above, design an amplifier that has a voltage amplification factor of +10 (i.e., the output signal should be 10 times larger than the input signal, and also be in-phase with the input signal). You may use any values for your resistors, but avoid values greater than 100k2. 12.
Laboratory 2: Transistor circuit characteristics A. Objectives: 1. To study the basic characteris...
Laboratory 2: Transistor circuit characteristics A. Objectives: 1. To study the basic characteristics of a transistor circuit. 2. To study the bias circuit of a transistor circuit. B. Apparatus: 1. DC Power supply 2. Experimental boards and corresponding components 3. Electronic calculator (prepared by students) 4. Digital camera (prepared by students for photo taking of the experimental results) 5. Laptop computer with the software PicoScope 6 and Microsoft Word installed. 6. PicoScope PC Oscilloscope and its accessories. 7. Digital multi-meter....
5.8 a) Design an inverting amplifier with a gain of 4. Use an ideal op amp,...
5.8 a) Design an inverting amplifier with a gain of 4. Use an ideal op amp, a resistor in the feedback path, and 12 V power supplies. b) Using your design from part (a), determine the range of input voltages that will keep the op amp in its linear operating region. c) Suppose you wish to amplify a 2 V signal, using your design from part (a) with a variable feedback resistor. What is the largest value of feedback resistance...
Problem Consider a voltage amplifier having a frequency response of the low-pass STC 1ype with a de gain of 60 dB a...
Problem Consider a voltage amplifier having a frequency response of the low-pass STC 1ype with a de gain of 60 dB and a 3-dB frequency of 1000 Hz Find the gain in dB at f- 10 Hz, 10kHz, 100 kHz, and 1 MHz Problem For the circuit shown below first, evalusteand the coresponding comer froquency. Second evalmt and the corresponding comer froquency. At the end caloulate overall transfer function T(w)= and reurite it in the standard fom ( and draw...
Design a CE amplifier using a Darlington transistor pair with a combined VoE = 1.2V (Combined)...
Design a CE amplifier using a Darlington transistor pair with a combined VoE = 1.2V (Combined) as shown in the circuit below. Use Vcc = 20V, RE-200f, R.- 5k2, Ay -120 V/V and Ai-200 A/A. Assume ideal capacitors and determine: a. R1, 2 and Rin b. Input de power required 25000 and 2 Vcc R. R2 Vout Vin R1
ercise 2 Part One: Verify the operation modes of various transistor configurations fask 2.1.1: atermine the...
ercise 2 Part One: Verify the operation modes of various transistor configurations fask 2.1.1: atermine the input resistance, output resistance, small-signal voltage gain and low-frequency cut-off of the circuits in Figure 2.2, given that gm 3mS for the circuit on the left and 24mS for the circuit on the right. You may assume that CS has been chosen so that its impedance is 'small' at the frequencies of interest. Use simulation to verify your solution. V DD 15 V Voo-12...
Part a and b Design a BJT differential amplifier to provide an output voltage of Vod-0.5...
Part a and b
Design a BJT differential amplifier to provide an output voltage of Vod-0.5 V when the input differential voltage Vid-5 mV. Assume ?-100 and use a current source of mA and Vcc-5 V. Design the amplifier circuit assuming that the transistor currents are equal Design the amplifier circuit without making the assumption of part a. Model your BJT differential amplifier design using LTspice and verify the bias point and gain of the amplifier. Use an ideal current...
P3. Using the circuit below to design the inverting amplifier having a gain of -10 and...
P3. Using the circuit below to design the inverting amplifier having a gain of -10 and input resistance of 100 kΩ. Give the values of R1. 2 do
Design an amplifier with a gain of 10 that is to operate from a single positive...
Design an amplifier with a gain of 10 that is to operate from a single positive voltage source and deliver 2 volts peak to a 1K load at 1 KHz. The input resistance of the amplifier must be greater than 100 K and the low frequency response is to go down to 5 hz with no more than 3 dB signal loss. question1 “What is a reasonable power supply voltage?” according to the statement above here is some example i...
Small-Signal Mid- Band Voltage Gain (Range) Transistors Amplifier Confiaurations +2) to (+5 P-JFET Common Gate By referring to a specific transistor datasheet, design a single stage amplifier circuit with the following specifications. Include in your design, (i) the amplifier circuit, (ii) DC & AC equivalent circuits, (ii) DC & AC analysis and (iv) frequency response. State your assumptions, if any.
Small-Signal Mid- Band Voltage Gain (Range) Transistors Amplifier Confiaurations +2) to (+5 P-JFET Common Gate By referring to a specific...
***PERFORM IN MULTISIM OR I WILL THUMBS DOWN
C. DESIGN PROBLEM - X10 AMPLIFIER Choosing the appropriate one of the two circuits above, design an amplifier that has a voltage amplification factor of +10 (i.e., the output signal should be 10 times larger than the input signal, and also be in-phase with the input signal). You may use any values for your resistors, but avoid values greater than 100k2. 12.
Laboratory 2: Transistor circuit characteristics A. Objectives: 1. To study the basic characteristics of a transistor circuit. 2. To study the bias circuit of a transistor circuit. B. Apparatus: 1. DC Power supply 2. Experimental boards and corresponding components 3. Electronic calculator (prepared by students) 4. Digital camera (prepared by students for photo taking of the experimental results) 5. Laptop computer with the software PicoScope 6 and Microsoft Word installed. 6. PicoScope PC Oscilloscope and its accessories. 7. Digital multi-meter....
Problem Consider a voltage amplifier having a frequency response of the low-pass STC 1ype with a de gain of 60 dB and a 3-dB frequency of 1000 Hz Find the gain in dB at f- 10 Hz, 10kHz, 100 kHz, and 1 MHz Problem For the circuit shown below first, evalusteand the coresponding comer froquency. Second evalmt and the corresponding comer froquency. At the end caloulate overall transfer function T(w)= and reurite it in the standard fom ( and draw...
Design a CE amplifier using a Darlington transistor pair with a combined VoE = 1.2V (Combined) as shown in the circuit below. Use Vcc = 20V, RE-200f, R.- 5k2, Ay -120 V/V and Ai-200 A/A. Assume ideal capacitors and determine: a. R1, 2 and Rin b. Input de power required 25000 and 2 Vcc R. R2 Vout Vin R1
ercise 2 Part One: Verify the operation modes of various transistor configurations fask 2.1.1: atermine the input resistance, output resistance, small-signal voltage gain and low-frequency cut-off of the circuits in Figure 2.2, given that gm 3mS for the circuit on the left and 24mS for the circuit on the right. You may assume that CS has been chosen so that its impedance is 'small' at the frequencies of interest. Use simulation to verify your solution. V DD 15 V Voo-12...
Part a and b
Design a BJT differential amplifier to provide an output voltage of Vod-0.5 V when the input differential voltage Vid-5 mV. Assume ?-100 and use a current source of mA and Vcc-5 V. Design the amplifier circuit assuming that the transistor currents are equal Design the amplifier circuit without making the assumption of part a. Model your BJT differential amplifier design using LTspice and verify the bias point and gain of the amplifier. Use an ideal current...
P3. Using the circuit below to design the inverting amplifier having a gain of -10 and input resistance of 100 kΩ. Give the values of R1. 2 do
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