Module Title: Electrical Science 2 - CIT
... b. A battery of 50 cells connected in series is charged through a fixed resistor from a constant 120 V supply. At the beginning of the charge, the e.m.f per cell is 1.9 V and the charging current is 4 A. When charging is almost complete, the e.m.f. per cell has risen to 2.2 V. Each cell has an inter ...
... b. A battery of 50 cells connected in series is charged through a fixed resistor from a constant 120 V supply. At the beginning of the charge, the e.m.f per cell is 1.9 V and the charging current is 4 A. When charging is almost complete, the e.m.f. per cell has risen to 2.2 V. Each cell has an inter ...
DC1164 - High Speed ADC Signal Source Evaluation Kit Quick Start
... use to demonstrate high speed ADCs. Each assembly will include a 70.56MHz crystal which can be used with any high speed ADC as a clean signal source. Functionally, the DC1164 uses a crystal oscillator as a precision clock source. The output of the crystal is then directed through a signal chain whic ...
... use to demonstrate high speed ADCs. Each assembly will include a 70.56MHz crystal which can be used with any high speed ADC as a clean signal source. Functionally, the DC1164 uses a crystal oscillator as a precision clock source. The output of the crystal is then directed through a signal chain whic ...
EEEE 482 Lab0_Rev2015_1 - RIT
... (1) a minimum value for magnitude of voltage gain: 20 22 24 26 28 30 [V/V] ( 10%); (note that the actual gain is negative in a common-emitter amplifier — i.e., –20 V/V, etc.); (2) a power supply voltage value: 14 15 16 [V]. The required minimum output swing specification (peak-to-peak amplitude) i ...
... (1) a minimum value for magnitude of voltage gain: 20 22 24 26 28 30 [V/V] ( 10%); (note that the actual gain is negative in a common-emitter amplifier — i.e., –20 V/V, etc.); (2) a power supply voltage value: 14 15 16 [V]. The required minimum output swing specification (peak-to-peak amplitude) i ...
Preliminary Work
... iii. The midband gain in the ratio of the two amplitudes. b. Measure the frequency response of your circuit. i. Adjust the frequency of the function generator until you find the lower frequency corner of your circuit. This is where the ‘gain’ is 3 dB lower than it was at the midband frequency. Since ...
... iii. The midband gain in the ratio of the two amplitudes. b. Measure the frequency response of your circuit. i. Adjust the frequency of the function generator until you find the lower frequency corner of your circuit. This is where the ‘gain’ is 3 dB lower than it was at the midband frequency. Since ...
LM348 pdf
... positive. For input voltages which greatly exceed the maximum supply voltages, either differentially or common-mode, resistors should be placed in series with the inputs to limit the current. Like the LM741, these amplifiers can easily drive a 100 pF capacitive load throughout the entire dynamic out ...
... positive. For input voltages which greatly exceed the maximum supply voltages, either differentially or common-mode, resistors should be placed in series with the inputs to limit the current. Like the LM741, these amplifiers can easily drive a 100 pF capacitive load throughout the entire dynamic out ...
6114.Output pulses after applying power through FETs
... Here is the schematic of my circuit. With your suggestion, I tested to see if the LM5113 is burned. The figure below showed the waveforms at the output of the gate drive ...
... Here is the schematic of my circuit. With your suggestion, I tested to see if the LM5113 is burned. The figure below showed the waveforms at the output of the gate drive ...
new push-pull tube amplifiers - Next-Tube
... This article deals with the practical side of making new amplifiers, using the new inventions and new toroidal output transformer technologies. However, new ideas are always founded on concepts and theories. I don't wish to deal with those theories now, but refer you to the extensive audio-engineeri ...
... This article deals with the practical side of making new amplifiers, using the new inventions and new toroidal output transformer technologies. However, new ideas are always founded on concepts and theories. I don't wish to deal with those theories now, but refer you to the extensive audio-engineeri ...
Slide 1
... The FM Transmitter project was meant to create a device that allowed the output of a personal music device to be utilized by a car or home stereo. While a fully functional device was not sucessfullly implemented, the groups technical knowledge was expanded and its project management skills refined. ...
... The FM Transmitter project was meant to create a device that allowed the output of a personal music device to be utilized by a car or home stereo. While a fully functional device was not sucessfullly implemented, the groups technical knowledge was expanded and its project management skills refined. ...
Electronics Letters
... where fMHzis the frequency in MHz, R is the distance, d is the diameter of the collimated region, and CF is a correction factor for the field distribution in the collimated region. The distance R is required as the response of the CAR is independent of distance along its radiation axis within the co ...
... where fMHzis the frequency in MHz, R is the distance, d is the diameter of the collimated region, and CF is a correction factor for the field distribution in the collimated region. The distance R is required as the response of the CAR is independent of distance along its radiation axis within the co ...
Short circuit behavior of REpower WTG - pes-psrc
... Short circuit behavior of REpower WTG To have a better understanding of the short circuit behavior of REpower WTG this paper will explain the WTG’s short-circuit characteristics and give a guide to the necessary consequences for modeling the machines behavior in case of IEC 909 calculations. 1. Gene ...
... Short circuit behavior of REpower WTG To have a better understanding of the short circuit behavior of REpower WTG this paper will explain the WTG’s short-circuit characteristics and give a guide to the necessary consequences for modeling the machines behavior in case of IEC 909 calculations. 1. Gene ...
Digital Data, Digital Signal
... where signal strength falls off with distance depends on medium received signal strength must be: ...
... where signal strength falls off with distance depends on medium received signal strength must be: ...
Amplifiers | Packages
... Amplifiers | Performance • Gain Blocks - Frequency Range: 1 MHz to 18 GHz - RF/IF drivers and LO buffer amps in Integrated Microwave Assemblies (IMAs) - Transistor die - extended operating temperature range, -55oC to +125oC - Power feedback below 1.5 GHz - high reverse isolation reducing load sensi ...
... Amplifiers | Performance • Gain Blocks - Frequency Range: 1 MHz to 18 GHz - RF/IF drivers and LO buffer amps in Integrated Microwave Assemblies (IMAs) - Transistor die - extended operating temperature range, -55oC to +125oC - Power feedback below 1.5 GHz - high reverse isolation reducing load sensi ...
2744.Hardware Pace Det Summary
... Window Comparator • The Differentiator output signal will idle within the window when PACE is not present • When PACE appears, the output of the differentiator circuit will toggle, forcing the voltage outside the limits of the window comparator – The output to pulse low. – That low pulse must be la ...
... Window Comparator • The Differentiator output signal will idle within the window when PACE is not present • When PACE appears, the output of the differentiator circuit will toggle, forcing the voltage outside the limits of the window comparator – The output to pulse low. – That low pulse must be la ...
2744.Hardware Pace Det Summary
... Window Comparator • The Differentiator output signal will idle within the window when PACE is not present • When PACE appears, the output of the differentiator circuit will toggle, forcing the voltage outside the limits of the window comparator – The output to pulse low. – That low pulse must be la ...
... Window Comparator • The Differentiator output signal will idle within the window when PACE is not present • When PACE appears, the output of the differentiator circuit will toggle, forcing the voltage outside the limits of the window comparator – The output to pulse low. – That low pulse must be la ...
Regenerative circuit
The regenerative circuit (or regen) allows an electronic signal to be amplified many times by the same active device. It consists of an amplifying vacuum tube or transistor with its output connected to its input through a feedback loop, providing positive feedback. This circuit was widely used in radio receivers, called regenerative receivers, between 1915 and World War II. The regenerative receiver was invented in 1912 and patented in 1914 by American electrical engineer Edwin Armstrong when he was an undergraduate at Columbia University. Due partly to its tendency to radiate interference, by the 1930s the regenerative receiver was superseded by other receiver designs, the TRF and superheterodyne receivers and became obsolete, but regeneration (now called positive feedback) is widely used in other areas of electronics, such as in oscillators and active filters. A receiver circuit that used regeneration in a more complicated way to achieve even higher amplification, the superregenerative receiver, was invented by Armstrong in 1922. It was never widely used in general receivers, but due to its small parts count is used in a few specialized low data rate applications, such as garage door openers, wireless networking devices, walkie-talkies and toys.