Slow Control - ALICE TPC Front End Electronics
... Read all the parameters of the board (temp, voltages, currents, counters …) ALTRO Test mode ALTRO Readout optimization Error flags Interrupt assertion ...
... Read all the parameters of the board (temp, voltages, currents, counters …) ALTRO Test mode ALTRO Readout optimization Error flags Interrupt assertion ...
Kelvin Coaxial Probes
... A Kelvin probe is a coaxial contact probe with two electrically insulated measuring circuits. The typical 4-wire-methode is based on a constant current, flowing through the test resistance and the measurement of the resulting drop in voltage, which is directly proportional to the resistance value. A ...
... A Kelvin probe is a coaxial contact probe with two electrically insulated measuring circuits. The typical 4-wire-methode is based on a constant current, flowing through the test resistance and the measurement of the resulting drop in voltage, which is directly proportional to the resistance value. A ...
document
... the delay of the in-pixel delay line is globally controlled to cope for temperature and voltage supply variations. In our measurements, performed in photon-starved mode, we found that intra-die process variations were too insignicant to require a more complex calibration system. Though, in situatio ...
... the delay of the in-pixel delay line is globally controlled to cope for temperature and voltage supply variations. In our measurements, performed in photon-starved mode, we found that intra-die process variations were too insignicant to require a more complex calibration system. Though, in situatio ...
unit 8 - WordPress.com
... RS f-f o/p is high the ckt o/p is high and the transistor is off then the capacitor charges through R to Vcc. This process will repeat. ...
... RS f-f o/p is high the ckt o/p is high and the transistor is off then the capacitor charges through R to Vcc. This process will repeat. ...
laboratory equipment - Electrical and Computer Engineering
... more, the 100 MHz range is selected, and by pressing the Freq button for the third time the 1300 MHz gets selected. Connect the SYNC OUT output of the TENMA 72-7650 function generator to the input of the MS6100 Multi-Function Timer. Adjust the TENMA 72-7650 frequency selector to 1 kHz. Now adjust th ...
... more, the 100 MHz range is selected, and by pressing the Freq button for the third time the 1300 MHz gets selected. Connect the SYNC OUT output of the TENMA 72-7650 function generator to the input of the MS6100 Multi-Function Timer. Adjust the TENMA 72-7650 frequency selector to 1 kHz. Now adjust th ...
precision microfluidic oscillators for on
... 1.A precision pneumatic oscillator which provides timing signals for integrated microfluidic digital logic circuits 2.The design is based on the classical ring oscillator circuit and requires only a vacuum supply for power 3.Integrate pneumatic and fluidic circuits to create an autonomously driven p ...
... 1.A precision pneumatic oscillator which provides timing signals for integrated microfluidic digital logic circuits 2.The design is based on the classical ring oscillator circuit and requires only a vacuum supply for power 3.Integrate pneumatic and fluidic circuits to create an autonomously driven p ...
RADAR BY HUGH LUPO
... This system transmits a MODULATED FREQUENCY for 1 ms. Long increasing in frequency. For example it will start its transmitted signal at 9.400 GHz and stop at 9.410 GHz. The receiver is sweeping the same frequencies and listening for return signal in the Selected band. The receiver is a wide band rec ...
... This system transmits a MODULATED FREQUENCY for 1 ms. Long increasing in frequency. For example it will start its transmitted signal at 9.400 GHz and stop at 9.410 GHz. The receiver is sweeping the same frequencies and listening for return signal in the Selected band. The receiver is a wide band rec ...
Physical Implementation - Inst.eecs.berkeley.edu
... found. Thus, we have achieved a “correct-by-design” k-distribution methodology. It is based Spring 2009 on our design erience and measurements from a series of increasingly , complex server microprocessors. This method results high-quality global clock without having to use dback or adjustment circu ...
... found. Thus, we have achieved a “correct-by-design” k-distribution methodology. It is based Spring 2009 on our design erience and measurements from a series of increasingly , complex server microprocessors. This method results high-quality global clock without having to use dback or adjustment circu ...
Speed Checker for Highways
... as SE/NE 555 timer. This IC is a monolithic timing circuit that can produce accurate and highly stable time delays or oscillation. Like other commonly used op-amps, this IC is also very much reliable, easy to use and ...
... as SE/NE 555 timer. This IC is a monolithic timing circuit that can produce accurate and highly stable time delays or oscillation. Like other commonly used op-amps, this IC is also very much reliable, easy to use and ...
Template For Examination Papers
... b) From the state diagram in part (a), develop a state table and hence derive the required minimised flip-flop input equations for a design that uses flip-flops of your choice. State all assumptions made. ...
... b) From the state diagram in part (a), develop a state table and hence derive the required minimised flip-flop input equations for a design that uses flip-flops of your choice. State all assumptions made. ...
Data Sheet - Asahi Kasei Microdevices
... support, or other hazard related device or systemNote2), and AKEMD assumes no responsibility for such use, except for the use approved with the express written consent by Representative Director of AKEMD. As used here: Note1) A critical component is one whose failure to function or perform may reaso ...
... support, or other hazard related device or systemNote2), and AKEMD assumes no responsibility for such use, except for the use approved with the express written consent by Representative Director of AKEMD. As used here: Note1) A critical component is one whose failure to function or perform may reaso ...
AN2760
... example, 13, 16, 16.8, 19.2, 26, 3.6, 38.4 and 52 MHz are all accepted by WLAN, Bluetooth, and FM radio. Different modules recommend different master clock frequencies and those recommended values are not always the same. For example, 19.2 MHz is recommended for Bluetooth by some chip vendors while ...
... example, 13, 16, 16.8, 19.2, 26, 3.6, 38.4 and 52 MHz are all accepted by WLAN, Bluetooth, and FM radio. Different modules recommend different master clock frequencies and those recommended values are not always the same. For example, 19.2 MHz is recommended for Bluetooth by some chip vendors while ...
UCC3895 CD Output Asymmetric Duty Cycle
... and conditions of sale supplied at the time of order acknowledgment. TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty. Testing and other quality control techniques are used to the extent TI deems necessary ...
... and conditions of sale supplied at the time of order acknowledgment. TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty. Testing and other quality control techniques are used to the extent TI deems necessary ...
DAC
... The comparator compares VAX with the analog input VA. As long as VAX < VA, the comparator output stays HIGH. When VAX exceeds VA by at least an amount equal to VT, the comparator output goes LOW ad stop modifying the register number. The control logic activates the end-of-conversion signal, EOC. ...
... The comparator compares VAX with the analog input VA. As long as VAX < VA, the comparator output stays HIGH. When VAX exceeds VA by at least an amount equal to VT, the comparator output goes LOW ad stop modifying the register number. The control logic activates the end-of-conversion signal, EOC. ...
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.