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- 06:12, 10 April 2011 diff hist -2 Lab 17 RS →4.) Plot I_D -vs- V_{GS} (30 pnts)
- 06:11, 10 April 2011 diff hist 0 N File:L17 id vs vgs 21.png current
- 06:11, 10 April 2011 diff hist 0 N File:Table21.png current
- 06:07, 10 April 2011 diff hist +2 Lab 17 RS
- 06:07, 10 April 2011 diff hist 0 N File:L17 id vs vgs 20.png current
- 06:06, 10 April 2011 diff hist -2 Lab 17 RS →4.) Plot I_D -vs- V_{GS} (30 pnts)
- 06:06, 10 April 2011 diff hist 0 N File:L17 id vs vgs 02.png current
- 06:05, 10 April 2011 diff hist +117 Lab 17 RS
- 06:04, 10 April 2011 diff hist 0 N File:L17 id vs vgs 01.png current
- 06:02, 10 April 2011 diff hist +190 Lab 17 RS →4.) Plot I_D -vs- V_{GS} (30 pnts)
- 06:02, 10 April 2011 diff hist 0 N File:Table20.png current
- 05:29, 10 April 2011 diff hist -1 Lab 17 RS →3.) Plot measurements of I_D -vs- V_{DS} by varying V_{dd} for \left | V_{GS}\right | = 0, 0.5, 1.0, 1.5 V. (40 pnts)
- 05:28, 10 April 2011 diff hist +40 Lab 17 RS
- 05:28, 10 April 2011 diff hist 0 N File:L17 id vs vgs.png current
- 05:25, 10 April 2011 diff hist +140 Lab 17 RS →3.) Plot measurements of I_D -vs- V_{DS} by varying V_{dd} for \left | V_{GS}\right | = 0, 0.5, 1.0, 1.5 V. (40 pnts)
- 05:22, 10 April 2011 diff hist +1 Lab 17 RS
- 05:21, 10 April 2011 diff hist -1 Lab 17 RS →3.) Plot measurements of I_D -vs- V_{DS} by varying V_{dd} for \left | V_{GS}\right | = 0, 0.5, 1.0, 1.5 V. (40 pnts)
- 05:21, 10 April 2011 diff hist 0 Lab 17 RS →3.) Plot measurements of I_D -vs- V_{DS} by varying V_{dd} for \left | V_{GS}\right | = 0, 0.5, 1.0, 1.5 V. (40 pnts)
- 05:21, 10 April 2011 diff hist -211 Lab 17 RS →3.) Plot measurements of I_D -vs- V_{DS} by varying V_{dd} for \left | V_{GS}\right | = 0, 0.5, 1.0, 1.5 V. (40 pnts)
- 05:20, 10 April 2011 diff hist +99 Lab 17 RS →3.) Plot measurements of I_D -vs- V_{DS} by varying V_{dd} for \left | V_{GS}\right | = 0, 0.5, 1.0, 1.5 V. (40 pnts)
- 05:18, 10 April 2011 diff hist +258 Lab 17 RS
- 05:15, 10 April 2011 diff hist 0 N File:Table04.png current
- 05:15, 10 April 2011 diff hist 0 N File:Table03.png current
- 05:15, 10 April 2011 diff hist 0 N File:Table02.png current
- 05:14, 10 April 2011 diff hist 0 N File:Table01.png current
- 04:47, 10 April 2011 diff hist +10 Lab 17 RS
- 04:46, 10 April 2011 diff hist +233 Lab 17 RS
- 04:43, 10 April 2011 diff hist +279 Lab 17 RS
- 04:37, 10 April 2011 diff hist +25 Lab 17 RS
- 18:16, 8 April 2011 diff hist 0 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in near ZERO resistance (ie short). Check with measurement.(10 pnts) current
- 18:15, 8 April 2011 diff hist 0 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in infinite resistance. Check with measurement.(10 pnts)
- 18:15, 8 April 2011 diff hist 0 Lab 14 RS →Sketch the AC equivalent circuit of the common emitter amplifier.(10 pnts)
- 18:12, 8 April 2011 diff hist -3 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in near ZERO resistance (ie short). Check with measurement.(10 pnts)
- 18:11, 8 April 2011 diff hist -3 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in infinite resistance. Check with measurement.(10 pnts)
- 18:11, 8 April 2011 diff hist 0 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in infinite resistance. Check with measurement.(10 pnts)
- 18:09, 8 April 2011 diff hist -14 Lab 14 RS →Measure A_v and R_{in} as a function of frequency with C_E removed.(10 pnts)
- 18:00, 8 April 2011 diff hist 0 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in near ZERO resistance (ie short). Check with measurement.(10 pnts)
- 17:59, 8 April 2011 diff hist 0 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in infinite resistance. Check with measurement.(10 pnts)
- 17:59, 8 April 2011 diff hist 0 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in near ZERO resistance (ie short). Check with measurement.(10 pnts)
- 17:58, 8 April 2011 diff hist -4 Lab 14 RS
- 17:57, 8 April 2011 diff hist 0 Lab 14 RS
- 17:57, 8 April 2011 diff hist +21 Lab 14 RS →What would be a good operating point an an npn common emitter amplifier used to amplify negative pulses?(10 pnts)
- 17:56, 8 April 2011 diff hist 0 Lab 14 RS →Output impedance R_{out} measurements and comparing with theory
- 17:55, 8 April 2011 diff hist 0 Lab 14 RS →Measure the voltage gain A_{\nu} as a function of frequency and compare to the theoretical value.(10 pnts)
- 17:55, 8 April 2011 diff hist 0 Lab 14 RS →Measure the voltage gain A_{\nu} as a function of frequency and compare to the theoretical value.(10 pnts)
- 17:54, 8 April 2011 diff hist +17 Lab 14 RS
- 17:54, 8 April 2011 diff hist +25 Lab 14 RS
- 17:52, 8 April 2011 diff hist 0 Lab 14 RS →Sketch the AC equivalent circuit of the common emitter amplifier.(10 pnts)
- 17:52, 8 April 2011 diff hist 0 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in near ZERO resistance (ie short). Check with measurement.(10 pnts)
- 17:51, 8 April 2011 diff hist 0 Lab 14 RS →What will the values of V_C, V_E , and I_C be if the transistor burns out resulting in infinite resistance. Check with measurement.(10 pnts)