Solutions #3
... v1 HtL = 0.1 cosH20 p tL + 20 sinH120 p tL and v2 HtL = -0.1 cosH20 p tL + 20 sinH120 p tL Find expressions for the common-mode signal and the differential signal. ü Solution: The common-mode signal is given by ...
... v1 HtL = 0.1 cosH20 p tL + 20 sinH120 p tL and v2 HtL = -0.1 cosH20 p tL + 20 sinH120 p tL Find expressions for the common-mode signal and the differential signal. ü Solution: The common-mode signal is given by ...
Capacitor Self-Resonance
... b) the circuit gain magnitude = (Zfeedback/Zinput) = (RF/XC) = (RF/(1/(2πf C)) = (2πf RF C), so as frequency increases, gain increases. This makes the circuit very susceptible to noise, which contains many high frequencies, and also makes it unable to accurately differentiate waveforms rich in harmo ...
... b) the circuit gain magnitude = (Zfeedback/Zinput) = (RF/XC) = (RF/(1/(2πf C)) = (2πf RF C), so as frequency increases, gain increases. This makes the circuit very susceptible to noise, which contains many high frequencies, and also makes it unable to accurately differentiate waveforms rich in harmo ...
PI3EQX7742
... a switch fabric, over cable, or to extend the signals across other distant data pathways on the user’s platform. The integrated equalization circuitry provides flexibility with signal integrity of the signal before the ReDriver. A low-level input signal detection and output squelch function is provi ...
... a switch fabric, over cable, or to extend the signals across other distant data pathways on the user’s platform. The integrated equalization circuitry provides flexibility with signal integrity of the signal before the ReDriver. A low-level input signal detection and output squelch function is provi ...
EI010 405 Electronic Instrumentation
... To equip the students to apply all types of common electrical and electronic instruments with the knowledge about the construction and working of the instruments. To provide the details of various electronic instruments which are used to measure current, voltage, power, energy, resistance, capacitan ...
... To equip the students to apply all types of common electrical and electronic instruments with the knowledge about the construction and working of the instruments. To provide the details of various electronic instruments which are used to measure current, voltage, power, energy, resistance, capacitan ...
Experiment 6: Rectifiers
... Because the earth of both the oscilloscope and Function Generator are not isolated, scope measurements for the circuits of Figures 2.2 and 2.3 are not possible using the known conventional techniques. Thus, the scope has to be set up to function in differential mode. A consequence of this set up is ...
... Because the earth of both the oscilloscope and Function Generator are not isolated, scope measurements for the circuits of Figures 2.2 and 2.3 are not possible using the known conventional techniques. Thus, the scope has to be set up to function in differential mode. A consequence of this set up is ...
S-72
... voltage without noise is –s for bit ‘0’ and +s for bit ‘1’ b) Calculate by giving formulas the SNR values in dB’s when the error probability is 10 6 c) By using the same error probability as in the b), calculate by giving formulas the SNR values in dB’s when the white Gaussian is added to the signa ...
... voltage without noise is –s for bit ‘0’ and +s for bit ‘1’ b) Calculate by giving formulas the SNR values in dB’s when the error probability is 10 6 c) By using the same error probability as in the b), calculate by giving formulas the SNR values in dB’s when the white Gaussian is added to the signa ...
Chapter 3.
... 7. An AM radio transmitter operating on 3.9 MHz is modulated by frequencies up to 4 kHz. What are the maximum upper and lower side frequencies? What is the total bandwidth of the AM signal? 9. How much power appears in one sideband of an AM signal of a 5-kW transmitter modulated by 80%? 10. What is ...
... 7. An AM radio transmitter operating on 3.9 MHz is modulated by frequencies up to 4 kHz. What are the maximum upper and lower side frequencies? What is the total bandwidth of the AM signal? 9. How much power appears in one sideband of an AM signal of a 5-kW transmitter modulated by 80%? 10. What is ...
- Catalyst
... a) The conversion to decibels would be 20Log(Vout/Vin) = 20Log(2.83/1) = 9.036dB b) Vth is applied to the base and Rth is the effective resistance at this point. Vth/Rth will determine how much current available to the base. In this case, Rth = R2||R6. Vth is determined by Vcc*(R6/(R6+R2)) = Vth. c) ...
... a) The conversion to decibels would be 20Log(Vout/Vin) = 20Log(2.83/1) = 9.036dB b) Vth is applied to the base and Rth is the effective resistance at this point. Vth/Rth will determine how much current available to the base. In this case, Rth = R2||R6. Vth is determined by Vcc*(R6/(R6+R2)) = Vth. c) ...
DT1_Assgn1_Solution 33KB Jan 26 2016 06:53:02 AM
... quantities that are often the inputs and outputs that are being monitored, operated on, and controlled by a system. Digital signals are often an approximation of the analog data (like voice or video) that is obtained through a process called quantisation. The digital representation is never the exac ...
... quantities that are often the inputs and outputs that are being monitored, operated on, and controlled by a system. Digital signals are often an approximation of the analog data (like voice or video) that is obtained through a process called quantisation. The digital representation is never the exac ...
AC CIRCUITS : RC CIRCUIT 1. Aim 1. To study current voltage
... by a AC power supply in form of a Function Generator. As the applies signal is sinusoidal the current in each element is also sinusoidal, but are not in phase.A series combination of a resistor R and capacitor C if connected to AC source of angular frequency and RMS voltage V, the RMS current flowin ...
... by a AC power supply in form of a Function Generator. As the applies signal is sinusoidal the current in each element is also sinusoidal, but are not in phase.A series combination of a resistor R and capacitor C if connected to AC source of angular frequency and RMS voltage V, the RMS current flowin ...
Featuring the Agilent 54600B Digital Oscilloscope
... OSCILLOSCOPES Featuring the Agilent 54600B Digital Oscilloscope ...
... OSCILLOSCOPES Featuring the Agilent 54600B Digital Oscilloscope ...
Cathode Ray Oscilloscope
... hot metal surface in vacuum Cathode rays = electrons moving at high speeds ...
... hot metal surface in vacuum Cathode rays = electrons moving at high speeds ...
What hap- pens inside a micro- phone once a sensor detects a
... other devices or to audible levels requires an amplifier. An amplifier is a device that makes a weak signal stronger. The output signal from the amplifier contains the same frequency features as the input signal. That is why the sound you hear from the speaker is the same as the sound you make on or ...
... other devices or to audible levels requires an amplifier. An amplifier is a device that makes a weak signal stronger. The output signal from the amplifier contains the same frequency features as the input signal. That is why the sound you hear from the speaker is the same as the sound you make on or ...
First Year Lab Introductory Electronics
... Other Notes • Cal – ‘Calibrated’ – Change from the calibrated position to make arbitrary sized wave ‘fit’ between grid lines to aid measurement ...
... Other Notes • Cal – ‘Calibrated’ – Change from the calibrated position to make arbitrary sized wave ‘fit’ between grid lines to aid measurement ...
PWM power amplifier (MPA2504) 1. Features (for outside view, see
... Speed regulation and control of DC motor; inductive load of drive; C-D welding controller. 3. Description Model MPA2504 PWM power amplifier adopts DC pulse width modulation (PWM) technology with strong functions, its circuit includes two parts: signal processing and power amplification. In this devi ...
... Speed regulation and control of DC motor; inductive load of drive; C-D welding controller. 3. Description Model MPA2504 PWM power amplifier adopts DC pulse width modulation (PWM) technology with strong functions, its circuit includes two parts: signal processing and power amplification. In this devi ...
Lab-in-a-Box
... 3. Simulate the RL circuit in Figure 1(a) of the text in PSpice. Use an AC Sweep to plot the frequency response of the circuit from 1.0 Hz to 10 kHz. Make a printout of this graph, or copy and paste it into your electronic laboratory notebook. 4. Using the Trace feature in PSpice, use the cursors to ...
... 3. Simulate the RL circuit in Figure 1(a) of the text in PSpice. Use an AC Sweep to plot the frequency response of the circuit from 1.0 Hz to 10 kHz. Make a printout of this graph, or copy and paste it into your electronic laboratory notebook. 4. Using the Trace feature in PSpice, use the cursors to ...
Oscilloscope history
This article discusses the history and development of oscilloscope technology.