i have prob wif this question. can refer to this web https://www.answerbag.com/q_view/484268for the full question. if u need more info, just post reply here. thank you very much
Design:
a Junction Field Effect Transistor (JFET) amplifier that meets the required specifications. Required Specifications: Voltage Gain: > 10 Input Resistance: >100 k? Load Resistance: 100 k? Supply Voltage: 30 V Output Voltage Swing: > 1
i have prob wif this question. can refer to this web https://www.answerbag.com/q_view/484268 for the full question. if u need more info, just post reply here. thank you very much
I will be the simplest Jfet amplifier circuit I have ever seen. Very, very simple. Extremely simple.
Didn't your teacher teach about it?
Doesn't the text book explain it?
Doesn't Google explain it?
Maybe little school kids should be banned from here.
hi zack,
When I said post the details, thats to the Thread not as PM to me..
Copy of your PM. JFET DESIGN
Project Description:
Design a Junction Field Effect Transistor (JFET) amplifier that meets the required
specifications. Heavy emphasis is placed on the theory and comparison with simulation
results.
Required Specifications:
Voltage Gain: > 10
Input Resistance: >100 kΩ
Load Resistance: 100 kΩ
Supply Voltage: 30 V
Output Voltage Swing: > 10 V peak-to-peak
Operating Frequency: 1 kHz
Design Procedure:
1. Select a suitable JFET.
2. Design the amplifier by hand. Using the datasheet values,
(i) Choose a value for ID(max) for the case of IDSS(max) and VP(max)
(ii) For the case of IDSS(min) and VP(min), choose ID(min) to be 80% - 90% of
ID(max)
(iii) Perform hand-analysis to find the required biasing resistors and coupling/
bypass capacitors
(iv) Analyse the voltage gain and output voltage swing for the two extreme
cases (IDSS(max) - VP(max), and IDSS(min) - VP(min)). If the required
specifications cannot be met, go back to step (i), choose a new value for
ID(max) and repeat the design process.
3. Using PSPICE software, simulate the amplifier performance. Make computer printout of the schematic diagram, with DC voltages and currents at every node indicated. Also produce a plot of input and output voltage waveforms at 1 kHz, with the amplitude of the sinewave signal source set to a value that gives maximum voltage swing at the load resistor without noticeable distortion.
4. Compare the hand analysis and the simulated results. The PSPICE transistor model uses fixed values of IDSS and VP. The simulation results will not match the hand analysis but they should fall in between the two extreme cases.
Note:
1. DC voltage and current values can be obtained by enabling bias voltage display and bias current display in the schematic window.
2. By checking "Detailed Bias Pt." option in the transient analysis setup, gm can be viewed in the simulation output file (*.OUT).
3. Av can be obtained by dividing output voltage at RL by its corresponding input voltage Vi
This is Zack's thread for his homework, not yours.
We want Zack to post his design then we will help him if he has something wrong.
Then we want to see your design and we will help you if you have something wrong.