User contributions
Jump to navigation
Jump to search
- 03:02, 22 March 2011 diff hist 0 Lab 13 RS
- 03:01, 22 March 2011 diff hist 0 Lab 13 RS
- 02:58, 22 March 2011 diff hist +213 Lab 13 RS →Transistor circuit
- 22:41, 21 March 2011 diff hist +2 Lab 14 RS
- 22:41, 21 March 2011 diff hist 0 Lab 14 RS →Measure the voltage gain A_v as a function of frequency and compare to the theoretical value.(10 pnts)
- 22:40, 21 March 2011 diff hist +34 Lab 14 RS →Measure the voltage gain A_v as a function of frequency and compare to the theoretical value.(10 pnts)
- 22:40, 21 March 2011 diff hist 0 N File:Table gain.png current
- 21:34, 21 March 2011 diff hist +1 Lab 14 RS
- 21:32, 21 March 2011 diff hist -3 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 21:31, 21 March 2011 diff hist +7 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 21:30, 21 March 2011 diff hist +2 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 21:30, 21 March 2011 diff hist +193 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 21:26, 21 March 2011 diff hist +566 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 21:17, 21 March 2011 diff hist 0 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 21:16, 21 March 2011 diff hist -799 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 21:07, 21 March 2011 diff hist +7 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 21:06, 21 March 2011 diff hist +228 Lab 14 RS
- 20:59, 21 March 2011 diff hist +1 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 20:58, 21 March 2011 diff hist +23 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 20:57, 21 March 2011 diff hist +165 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 20:54, 21 March 2011 diff hist +1 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 20:53, 21 March 2011 diff hist 0 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 20:53, 21 March 2011 diff hist 0 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 20:53, 21 March 2011 diff hist +3 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 20:52, 21 March 2011 diff hist +200 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 20:39, 21 March 2011 diff hist -28 Lab 14 RS →Draw a load line using the I_{C} -vs- I_{EC} from the previous lab 13. Record the value of h_{FE} or \beta.
- 20:38, 21 March 2011 diff hist +19 Lab 14 RS →Draw a load line using the I_{C} -vs- I_{EC} from the previous lab 13. Record the value of h_{FE} or \beta.
- 20:38, 21 March 2011 diff hist 0 N File:Load Line 5mA.png current
- 20:30, 21 March 2011 diff hist +1 Lab 14 RS →Calculate all the R and C values to use in the circuit such that
- 20:30, 21 March 2011 diff hist -158 Lab 14 RS →Calculate all the R and C values to use in the circuit such that
- 03:01, 21 March 2011 diff hist -48 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 02:51, 21 March 2011 diff hist 0 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 02:49, 21 March 2011 diff hist -65 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 02:44, 21 March 2011 diff hist -96 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 02:41, 21 March 2011 diff hist -6 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 02:40, 21 March 2011 diff hist -92 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 02:39, 21 March 2011 diff hist +1 Lab 14 RS →Draw a load line using the I_{C} -vs- I_{EC} from the previous lab 13. Record the value of h_{FE} or \beta.
- 06:38, 20 March 2011 diff hist +1 Lab 14 RS
- 06:38, 20 March 2011 diff hist +3 Lab 14 RS →Calculate all the R and C values to use in the circuit such that
- 06:37, 20 March 2011 diff hist +3 Lab 14 RS →Calculate all the R and C values to use in the circuit such that
- 06:37, 20 March 2011 diff hist -1 Lab 14 RS →Calculate all the R and C values to use in the circuit such that
- 06:36, 20 March 2011 diff hist 0 Lab 14 RS →Draw a load line using the I_{C} -vs- I_{EC} from the previous lab 13. Record the value of h_{FE} or \beta.
- 06:28, 20 March 2011 diff hist +6 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 06:27, 20 March 2011 diff hist -1 Lab 14 RS →Set a DC operating point I^{\prime}_C so it will amplify the input pulse given to you. Some of you will have sinusoidal pulses others will have positive or negative only pulses.
- 06:25, 20 March 2011 diff hist 0 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 06:24, 20 March 2011 diff hist +1 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 06:23, 20 March 2011 diff hist +43 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 06:21, 20 March 2011 diff hist +96 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 06:16, 20 March 2011 diff hist +5 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)
- 06:15, 20 March 2011 diff hist +18 Lab 14 RS →Measure all DC voltages in the circuit and compare with the predicted values.(10 pnts)