This walk-through will show how to create an RF amplifier. After you complete this topic, you will be able to:
To follow along, continue with the design from the previous topic or use the provided materials.
If materials were not downloaded at the beginning of the walk-through, files for this lesson can be accessed through the materials tab above.
Open in New WindowStep 1: Click and drag a box around the contents of the circuit to select everything. Hold CTRL on the keyboard and click V1 and Q1 to deselect the components.
Step 2: Press Delete on the keyboard.
Step 3: Click and drag Q1 to move it further to the right. Click and drag V1 to move it further to the left and down.
Step 4: Double-click the value of V1.
Step 5: Enter a value of 15V and click OK.
Step 6: Select Place > PSpice Part > Resistor from the menu.
Step 7: Click to place the resistors in the schematic as shown above. When finished, right-click and select End Mode.
Step 8: Change the values for each resistor to the numbers shown above.
Note: To change this, double-click the value. Enter the desired value and click OK.
Step 9: Select Place > PSpice Part > Capacitor from the menu.
Step 10: Click to place the capacitors in the schematic as shown above. When finished, right-click and select End Mode.
Step 11: Change the values for each capacitor to the numbers shown above.
Note: To change this, double-click the value. Enter the desired value and click OK.
Step 12: Select Place > PSpice Part > PSpice Ground from the menu.
Step 13: Click to place the grounds. When finished, right-click and select End Mode.
Note: Generic discrete parts can be placed from Place > PSpice Part > Discrete.
Step 14: Select Place > Component from the menu.
Step 15: Select PSpice from the Categories.
Step 16: Enter 1N4148 into the Search Here field at the top of the table. Click the Search icon.
Note: This will return all components containing “1N4148” in the name or description.
Step 17: Select the first instance of the 1N4148, right-click and select Place.
Step 18: Click to place the diode on the schematic. Right-click and select End Mode.
Step 19: Back in the Unified CIS tab, enter 2N3905 into the Search Here field.
Step 20: Select the first occurrence of the symbol, right-click, and select Place.
Step 21: Click to place the transistor in the schematic. Right-click and select End Mode when finished.
Step 22: Select Place > PSpice Part > Modeling Application from the menu.
Step 23: Expand Sources and select Independent Sources.
Step 24: Select the Sine tab.
Step 25: Enter 5m for the amplitude and 1MEG for the frequency. Click Place.
Step 26: Click to place the source in the schematic.
Step 27: Select a ground symbol in the schematic and copy it with CTRL-C on the keyboard.
Step 28: Use CTRL-V to paste and click to place a ground symbol at the negative terminal of the source.
Step 29: Select Place > Wire from the menu, the Wire button from the toolbar, or press W on the keyboard.
Step 30: Click to begin drawing a wire and click again to finish. Wire the schematic as shown above.
Step 31: Draw short wires at the terminals of V1 and at the top of the circuit.
Step 32: Select Place > Net Alias from the menu, the Net Alias button from the toolbar, or press N on the keyboard.
Step 33: Enter VCC for the alias and click OK.
Step 34: Click to place the alias on the short wires at the positive terminal of V1 and the circuit.
Note: This will connect the nets electrically.
Step 35: Right-click and select Edit Properties or press N on the keyboard.
Step 36: Change the alias to VIN and click OK.
Step 37: Click to place the alias at the positive terminal of sine source V2.
Step 38: Right-click and select Edit Properties or press N on the keyboard.
Step 39: Change the alias to VOUT and click OK.
Step 40: Click to place the alias at the output of the circuit. When finished, right-click and select End Mode.
Note: The VIN and VOUT net aliases will make it easier to keep track of simulation traces.
Step 41: Select PSpice > Edit Simulation Profile from the menu.
Step 42: Change the Run To Time to 10u and the Maximum Step Size to 1n. Click OK.
Step 43: Select the Voltage/Level Marker button from the toolbar.
Step 44: Click to place probes at VIN and VOUT to measure the amplifier input and output. When finished, right-click and select End Mode.
Step 45: Select PSpice > Run from the menu to run.
Note: This will run the transient simulation defined in a previous walk-through.
Step 46: View the simulation results.
Note: The output sine wave is amplified, as expected.