R L Rload Cload Figure 12.1 Procedure 1 Build the circuit of figure 12.1 using R-1 kv and L- 10 mH, but leaving off the load components. Replace the generator with a s0 v resistor and determine the effective source impedance at 10 kHz using the impedance meter. Record this value in Table 12.1, including both magnitude and phase. Determine the load impedance which should achieve maximum power transfer according to the theorem and record in Table 12.1. Finally, determine values for Rini and Cuito achieve this load impedance and record in Table 12.1, also copying the resistance value to the first Rai entry of Table 12.2.

Transcribed Image Text:

R Rload E Cload Figure 12.1 Procedure 1 Build the circuit of figure 12.1 using R=1 kv and L= 10 mH, but leaving off the load components. Replace the generator with a s0 v resistor and determine the effective source impedance at 10 kHz using the impedance meter. Record this value in Table 12.1, including both magnitude and phase. Determine the load impedance which should achieve maximum power transfer according to the theorem and record in Table 12.1. Finally, determine values for Rn and Cm to achieve this load impedance and record in Table 12.1, also copying the resistance value to the first Rai entry of Table 12.2. Testing Riood 2 Replace the s0 v resistor with the generator. Insert the decade resistance box in the position of Rnd and set it to the vahlue calculated in Table 12.1. For Ci, use the value calculated in Table 12.1. Use multiple capacitors if necessary to achieve a close value. Set the generator to 10 volts peak at 10kHz, making sure that the amplitude is measured on the oscilloscope with the generator loaded by the circuit. Make sure that the Bandwidth Limit of the oscilloscope is engaged for the channel. This will reduce the signal noise and make for more accurate readings.