The Effect of Voltage Fluctuations on the Single Event Transient
... latches with inverters between each latch ...
... latches with inverters between each latch ...
Tachometer Simulator - tachograf
... the MTCO 1324. Concerning the vehicle electrical system the TSU 1391 works similar to the MTCO 1324 and governs all necessary data to achieve a correct display of speed, power and time. As result the vehicle electrical system can be completed cost efficiently. Alternatively the TSU 1391 works togeth ...
... the MTCO 1324. Concerning the vehicle electrical system the TSU 1391 works similar to the MTCO 1324 and governs all necessary data to achieve a correct display of speed, power and time. As result the vehicle electrical system can be completed cost efficiently. Alternatively the TSU 1391 works togeth ...
lab 1 – active filters
... 4. Apply the power and measure the Voltages at the two amplifier inputs and its output; all should be at 0 Volts. Correct the circuit if necessary. 5. Set the signal generator amplitude to 1 V peak-to-peak. (Note: the generator output level meter is calibrated only when the unit is driving 50 . The ...
... 4. Apply the power and measure the Voltages at the two amplifier inputs and its output; all should be at 0 Volts. Correct the circuit if necessary. 5. Set the signal generator amplitude to 1 V peak-to-peak. (Note: the generator output level meter is calibrated only when the unit is driving 50 . The ...
LEB2001paper - Boston University
... The Wilkinson cell operates under the control of a gategenerator which consists of all-differential logic cells. It is thus highly immune to substrate coupling and can operate in real time without corrupting the analog signals. The main purpose of the Wilkinson ADC is to provide data which can be us ...
... The Wilkinson cell operates under the control of a gategenerator which consists of all-differential logic cells. It is thus highly immune to substrate coupling and can operate in real time without corrupting the analog signals. The main purpose of the Wilkinson ADC is to provide data which can be us ...
Voltage Controlled Oscillator
... technological parameters, and conduct for each random set the complete analog simulation. Each point in the X axis corresponds to one simulation, with a specific set of parameters. There is no correlation between adjacent points, because of the random nature of each simulation conditions. We observe ...
... technological parameters, and conduct for each random set the complete analog simulation. Each point in the X axis corresponds to one simulation, with a specific set of parameters. There is no correlation between adjacent points, because of the random nature of each simulation conditions. We observe ...
Electronics Manual
... The digital multimeter, DMM, (Figure 1.2) is a versatile instrument, which may be used to measure DC and AC voltages, currents and resistance. It complements the oscilloscope and must always be used when accurate (i.e. better than 5%) measurements are required. When used to measure voltage the DMM h ...
... The digital multimeter, DMM, (Figure 1.2) is a versatile instrument, which may be used to measure DC and AC voltages, currents and resistance. It complements the oscilloscope and must always be used when accurate (i.e. better than 5%) measurements are required. When used to measure voltage the DMM h ...
Optical Link ASICs for LHC Upgrades K.K. Gan
... was purely electrical while the second setup involved a PIN diode so that we could decouple the electrical and optical degradations. In both setups, the decoded data were transmitted to the control room using 20 m of coax. In the first setup, 40 Mb/s BPM signals were ...
... was purely electrical while the second setup involved a PIN diode so that we could decouple the electrical and optical degradations. In both setups, the decoded data were transmitted to the control room using 20 m of coax. In the first setup, 40 Mb/s BPM signals were ...
exam_01_solution_ake..
... In order to effectively and quickly write the waveform in terms of singularity functions, break it up into pieces and write an equation for each piece. The r(t) represents a ramp. The 2 in front of it is the slope of the ramp, 1/0.5. A positive slope is represented by a positive constant and in cont ...
... In order to effectively and quickly write the waveform in terms of singularity functions, break it up into pieces and write an equation for each piece. The r(t) represents a ramp. The 2 in front of it is the slope of the ramp, 1/0.5. A positive slope is represented by a positive constant and in cont ...
Article - CERN Indico
... characterized by a threshold spread better than 2% with an offset of about 2.2 mV rms over the entire threshold range. A monostable follows the discriminator stage allowing a variable output pulse ranging between 200 ns and 1 µs, but eventually this range could be increased tuning an external resist ...
... characterized by a threshold spread better than 2% with an offset of about 2.2 mV rms over the entire threshold range. A monostable follows the discriminator stage allowing a variable output pulse ranging between 200 ns and 1 µs, but eventually this range could be increased tuning an external resist ...
Lecture1_26.09.2013
... are related—the propagation delay is mostly determined by the speed at which a given amount of energy can be stored on the gate capacitors. • The product of power consumption and propagation delay is generally a constant. This product is called the power-delay product (or PDP) and can be considered ...
... are related—the propagation delay is mostly determined by the speed at which a given amount of energy can be stored on the gate capacitors. • The product of power consumption and propagation delay is generally a constant. This product is called the power-delay product (or PDP) and can be considered ...
Design of a Restartable Clock Generator for Use in GALS SoCs
... presented in the literature, the pausible clock is implemented using a delay-based circuit or ring oscillator. Pausible clocks are often discussed in the relevant literature; for example, in [Tra:91], [Dob:99], [Ami:07], [Yun:99], [Gür:06], and [Bei:08]. In the scheme proposed in this research, the ...
... presented in the literature, the pausible clock is implemented using a delay-based circuit or ring oscillator. Pausible clocks are often discussed in the relevant literature; for example, in [Tra:91], [Dob:99], [Ami:07], [Yun:99], [Gür:06], and [Bei:08]. In the scheme proposed in this research, the ...
Measuring Metastability Sandeep Mandarapu
... time of around very few ns, we were not able to make the data change in that window. As a result of that we could not see any metastability behavior using FPGA’s. Even if the data is having a delay of +/- 7ns, we could not see any metastability behavior at the ...
... time of around very few ns, we were not able to make the data change in that window. As a result of that we could not see any metastability behavior using FPGA’s. Even if the data is having a delay of +/- 7ns, we could not see any metastability behavior at the ...
PDTech DELTAMAXX TM Digital Loss Factor/Capacitance Analyzer and
... the coupling capacitor internally. PD measurement does not require external shunts or additional components, that is, coupling impedance, pre-amplifier, signal processing, and digitising all takes place in the measuring unit. This technique allows the PDTech DELTAMAXX unit to be placed in the direct ...
... the coupling capacitor internally. PD measurement does not require external shunts or additional components, that is, coupling impedance, pre-amplifier, signal processing, and digitising all takes place in the measuring unit. This technique allows the PDTech DELTAMAXX unit to be placed in the direct ...
ON DELAY | INLINE (SERIES CONNECTION)
... – 10,230 seconds. Programming is accomplished through the use of a 10-position DIP-switch. Each position is marked with a binary time increment. The required delay is selected by moving the switch of each increment to the ON position and adding their corresponding values (see examples below). This m ...
... – 10,230 seconds. Programming is accomplished through the use of a 10-position DIP-switch. Each position is marked with a binary time increment. The required delay is selected by moving the switch of each increment to the ON position and adding their corresponding values (see examples below). This m ...
A Switch is Pressed, So W hat??? Debouncing Light Dependent
... Use charge-redistribution technique ...
... Use charge-redistribution technique ...
Solution First 4B/5B block coding increases the bit rate to.
... HDB3 substitutes four consecutive zeros with 000V or B00V depending on the number of nonzero pulses after the last substitution. ...
... HDB3 substitutes four consecutive zeros with 000V or B00V depending on the number of nonzero pulses after the last substitution. ...
Time-to-digital converter
In electronic instrumentation and signal processing, a time to digital converter (abbreviated TDC) is a device for recognizing events and providing a digital representation of the time they occurred. For example, a TDC might output the time of arrival for each incoming pulse. Some applications wish to measure the time interval between two events rather than some notion of an absolute time.In electronics time-to-digital converters (TDCs) or time digitizers are devices commonly used to measure a time interval and convert it into digital (binary) output. In some cases interpolating TDCs are also called time counters (TCs).TDCs are used in many different applications, where the time interval between two signal pulses (start and stop pulse) should be determined. Measurement is started and stopped, when either the rising or the falling edge of a signal pulse crosses a set threshold. These requirements are fulfilled in many physical experiments, like time-of-flight and lifetime measurements in atomic and high energy physics, experiments that involve laser ranging and electronic research involving the testing of integrated circuits and high-speed data transfer.