VOD +15 V DD Simulated transducer RA R > 10 ks2 IN W R 5.6 k92 • R, 3.9 k 32 RA + 2N5458 1.0 M92 R2 620 82 WWW :Rs 180 1
Posted: Tue Apr 26, 2022 3:21 pm
- Vod 15 V Dd Simulated Transducer Ra R 10 Ks2 In W R 5 6 K92 R 3 9 K 32 Ra 2n5458 1 0 M92 R2 620 82 Www Rs 180 1 1 (40.47 KiB) Viewed 30 times
- Vod 15 V Dd Simulated Transducer Ra R 10 Ks2 In W R 5 6 K92 R 3 9 K 32 Ra 2n5458 1 0 M92 R2 620 82 Www Rs 180 1 2 (59.73 KiB) Viewed 30 times
VOD +15 V DD Simulated transducer RA R > 10 ks2 IN W R 5.6 k92 • R, 3.9 k 32 RA + 2N5458 1.0 M92 R2 620 82 WWW :Rs 180 12
VG VRD VS 0.309 0.193 0.0969 0 -0.0969 -0.193 -0.309 -0.406 -0.503 -0.638 -0.812 -0.85 -1.08 8.1 7.47 6.96 6.45 5.95 5.47 4.91 4.46 4.02 3.43 2.72 2.57 1.75 0.55 0.5 0.47 0.43 0.4 0.37 0.33 0.29 0.27 0.23 0.18 0.17 0.11 1) Calculate values of VGS and ID and plot the transfer curve (using a program like Excel is allowed and encouraged, but not required). Is your curve non-linear? 2) Knowing the equation for ID: 2 Vos 19 = lys (1 VGSOFF Use two points on the graph to get two equations, two unknowns and solve for IDSS and VGSOFF 3) Compare these values to the data sheet for the 2N5458 that you used in the lab. What is the expected range? Are your values within the expected range?