Circuits
... circuits: One is known as a series circuit which has only one path for the electrons to flow through. ...
... circuits: One is known as a series circuit which has only one path for the electrons to flow through. ...
digital communication trainers
... Built in fixed power supplies of +12V,-12V ,+ 5V Variable AF generator 20Hz to 150Hz Clock generator with fixed frequency of 10KHz Data output with LED variations Variable DC voltage – 5V to +5V ADC 800 IC, 74 LS 165 IC are used in modulation 74 LS 164 IC, 74 LS 374 IC (buffer) , DAC 800IC & LPF are ...
... Built in fixed power supplies of +12V,-12V ,+ 5V Variable AF generator 20Hz to 150Hz Clock generator with fixed frequency of 10KHz Data output with LED variations Variable DC voltage – 5V to +5V ADC 800 IC, 74 LS 165 IC are used in modulation 74 LS 164 IC, 74 LS 374 IC (buffer) , DAC 800IC & LPF are ...
Document
... represents an infinitely long cylindrical conductor carrying a current i spread uniformly over its cross section and a cylindrical conducting shell around it with a current i flowing in the opposite direction. The second i is uniformly spread over the cross section of the shell. Find magnetic field ...
... represents an infinitely long cylindrical conductor carrying a current i spread uniformly over its cross section and a cylindrical conducting shell around it with a current i flowing in the opposite direction. The second i is uniformly spread over the cross section of the shell. Find magnetic field ...
Build Your Own Optical Heart
... C2 immediately begins to discharge back toward zero, but it doesn’t do so linearly. Instead, R6, R7, and Q7 synthesize a composite exponential curve V3 (Fig. 2) that, from 285 (210 bpm) to 1250 ms (48 bpm), is a good approximation (within 5%) of the reciprocal relationship between pulse period and p ...
... C2 immediately begins to discharge back toward zero, but it doesn’t do so linearly. Instead, R6, R7, and Q7 synthesize a composite exponential curve V3 (Fig. 2) that, from 285 (210 bpm) to 1250 ms (48 bpm), is a good approximation (within 5%) of the reciprocal relationship between pulse period and p ...
Question Bank
... (d) To boost the magnitude of high frequency components 81. The advantage of pulse modulation is (a) The transmitted power can be concentrated into short bursts (b) The time intervals between pulses can be filled with sample values from other meassage (c) Pulse wave may contain appreciable D.C. and ...
... (d) To boost the magnitude of high frequency components 81. The advantage of pulse modulation is (a) The transmitted power can be concentrated into short bursts (b) The time intervals between pulses can be filled with sample values from other meassage (c) Pulse wave may contain appreciable D.C. and ...
5023.AFE4300 FAQ
... definite relation between them and hence they can start with different phase relations between them which is dependent on how the divider starts (for example for div by 2, 2 phases are possible, div by 4, 4 phases are possible and so on). So though sqrt(I^2 + Q^2) will be same, individual I and Q me ...
... definite relation between them and hence they can start with different phase relations between them which is dependent on how the divider starts (for example for div by 2, 2 phases are possible, div by 4, 4 phases are possible and so on). So though sqrt(I^2 + Q^2) will be same, individual I and Q me ...
Ring Resonator Gyroscope
... counter clockwise (CCW) propagating waves in the ring resonator using a single laser source In OptiSPICE phase delay elements can be used to change the phase of an optical signal using a voltage node In this Ring Resonator Gyroscope design, phase delay elements are used to introduce a linear increas ...
... counter clockwise (CCW) propagating waves in the ring resonator using a single laser source In OptiSPICE phase delay elements can be used to change the phase of an optical signal using a voltage node In this Ring Resonator Gyroscope design, phase delay elements are used to introduce a linear increas ...
Simple and Robust Equivalent Circuit of Real Transformer
... [1], as it follows from Fig. 1. The curves are shifted in order to see details. The equivalent circuit model in Fig. 2 is based on the same idea. The harmonics sources of frequencies ωo, 2ωo, 3ωo, ... nωo and of the same voltage Uo and zero phase constant have inner impedance Ẑ i derived for comple ...
... [1], as it follows from Fig. 1. The curves are shifted in order to see details. The equivalent circuit model in Fig. 2 is based on the same idea. The harmonics sources of frequencies ωo, 2ωo, 3ωo, ... nωo and of the same voltage Uo and zero phase constant have inner impedance Ẑ i derived for comple ...
1 - Maths and Science at Al Siraat
... 7 Does more current take the easy or hard path in a circuit? ...
... 7 Does more current take the easy or hard path in a circuit? ...
May 1998 An Optimized, Low Distortion, Lower Power ADSL Line
... shown in the table. For ADSL upstream applications, a 100kHz single-tone sine wave was used to evaluate the line driver’s harmonic distortion performance as a function of amplifier quiescent current control. In each of the three cases, the output signal was attenuated to obtain maximum sensitivity f ...
... shown in the table. For ADSL upstream applications, a 100kHz single-tone sine wave was used to evaluate the line driver’s harmonic distortion performance as a function of amplifier quiescent current control. In each of the three cases, the output signal was attenuated to obtain maximum sensitivity f ...
introduction - University of Toronto Physics
... 3. Do the same as in 2., observing V and VL for the L-R circuit, for a value of R between 100 and 1.0 k, and using the coil provided. (L for this coil is between 30 mH and 300 mH.) From the observed time constant, estimate the inductance of the coil. (Note that in part 3., the coil is not a pure ...
... 3. Do the same as in 2., observing V and VL for the L-R circuit, for a value of R between 100 and 1.0 k, and using the coil provided. (L for this coil is between 30 mH and 300 mH.) From the observed time constant, estimate the inductance of the coil. (Note that in part 3., the coil is not a pure ...
Wires and Devices - WSU EECS - Washington State University
... Inductance can only be defined for a closed current loop The inductance of the loop is proportional to the area of the loop At low frequency resistive impedance dominates ...
... Inductance can only be defined for a closed current loop The inductance of the loop is proportional to the area of the loop At low frequency resistive impedance dominates ...
introduction to transmission lines
... 1- Assume the load is 100 + j50 connected to a 50 ohm line. Find coefficient of reflection (mag, & angle) and SWR. Is it matched well? 2- For a 50 ohm lossless transmission line terminated in a load impedance ZL=100 + j50 ohm, determine the fraction of the average incident power reflected by the loa ...
... 1- Assume the load is 100 + j50 connected to a 50 ohm line. Find coefficient of reflection (mag, & angle) and SWR. Is it matched well? 2- For a 50 ohm lossless transmission line terminated in a load impedance ZL=100 + j50 ohm, determine the fraction of the average incident power reflected by the loa ...
learning outcomes
... bigger amplitude than the input signal. State the function of each of the three major components needed to amplify speech (microphone, amplifier, loudspeaker) Define voltage gain of an amplifier in terms of input and output voltages. Calculate the voltage gain using: voltage gain = output voltage in ...
... bigger amplitude than the input signal. State the function of each of the three major components needed to amplify speech (microphone, amplifier, loudspeaker) Define voltage gain of an amplifier in terms of input and output voltages. Calculate the voltage gain using: voltage gain = output voltage in ...