![ADC10321 ADC10321 10-Bit, 20MSPS, 98mW A/D Converter with Internal Sample and... Literature Number: SNAS028E](http://s1.studyres.com/store/data/007811390_1-46d5848a47ee5e9e8317e3ab393a42ab-300x300.png)
HMC959LC3 - uri=media.digikey
... The HMC959LC3 is a Divide-by-4 w/Reset designed to support clock frequencies as high as 26 GHz. During normal operation, with the reset pin not asserted, the output toggles from its prior state on the positive edge of the clock. This results in a divide-byfour function of the clock input. Asserting ...
... The HMC959LC3 is a Divide-by-4 w/Reset designed to support clock frequencies as high as 26 GHz. During normal operation, with the reset pin not asserted, the output toggles from its prior state on the positive edge of the clock. This results in a divide-byfour function of the clock input. Asserting ...
Profil 930-940 and TGV Analogue clocks instructions
... searching for incoming signals. The LED blinks every 3 seconds. To force the clock to search again, shunt the two pins (P) for more than 4 seconds or remove the batteries and insert them again after 10 seconds. If the reception is poor, increase the transmission power or install a DHF ...
... searching for incoming signals. The LED blinks every 3 seconds. To force the clock to search again, shunt the two pins (P) for more than 4 seconds or remove the batteries and insert them again after 10 seconds. If the reception is poor, increase the transmission power or install a DHF ...
60x36 Poster Template - Picosecond Timing Project
... a design of a large area detector with pico-second resolution for relativistic particles. The picosecond Time-of-Flight electronics system consists of a custom ASIC and several commercial chips with a MCP photo-detector that is designed to measure the arrival time of charged particles with a design ...
... a design of a large area detector with pico-second resolution for relativistic particles. The picosecond Time-of-Flight electronics system consists of a custom ASIC and several commercial chips with a MCP photo-detector that is designed to measure the arrival time of charged particles with a design ...
PICA chip technical specification
... state of the art CHICSi readout chip that for the first time integrates low level and fast digital signal processing on the same chip. Using novel approaches and state of the art integrated circuit processing the PICA chip can perform all the functions of a an entire crate NIM of electronics from pr ...
... state of the art CHICSi readout chip that for the first time integrates low level and fast digital signal processing on the same chip. Using novel approaches and state of the art integrated circuit processing the PICA chip can perform all the functions of a an entire crate NIM of electronics from pr ...
PCM1702 数据资料 dataSheet 下载
... by dual balanced current segments to ensure perfect tracking under all conditions. By interleaving the individual bits of each DAC and employing precise laser trimming of resistors, the highly accurate match required between DACs is achieved. This new, complementary linear or advanced sign magnitude ...
... by dual balanced current segments to ensure perfect tracking under all conditions. By interleaving the individual bits of each DAC and employing precise laser trimming of resistors, the highly accurate match required between DACs is achieved. This new, complementary linear or advanced sign magnitude ...
MAX1011 Low-Power, 90Msps, 6-Bit ADC General Description Features
... The entire board needs good DC bypassing for both analog and digital supplies. Place the power-supply bypass capacitors close to where the power is routed onto the board, i.e., close to the connector. 10µF electrolytic capacitors with low-ESR ratings are recommended. For best effective bits performa ...
... The entire board needs good DC bypassing for both analog and digital supplies. Place the power-supply bypass capacitors close to where the power is routed onto the board, i.e., close to the connector. 10µF electrolytic capacitors with low-ESR ratings are recommended. For best effective bits performa ...
the instruction manual
... should remain off after test flights). The ideal way to deploy a short antenna is to let it trail freely underneath the model aircraft. Never run it horizontally, either along the fuselage or in the wing. ...
... should remain off after test flights). The ideal way to deploy a short antenna is to let it trail freely underneath the model aircraft. Never run it horizontally, either along the fuselage or in the wing. ...
High Performance Wide Bandwidth Accelerometer ADXL001 Preliminary Technical Data
... If the power supply contains high frequency spikes, they may be demodulated and interpreted as acceleration signals. A signal appears at the difference between the noise frequency and the demodulator frequency. If the power supply noise is 100 Hz away from the demodulator clock, there will be an out ...
... If the power supply contains high frequency spikes, they may be demodulated and interpreted as acceleration signals. A signal appears at the difference between the noise frequency and the demodulator frequency. If the power supply noise is 100 Hz away from the demodulator clock, there will be an out ...
Time-to-digital converter
![](https://commons.wikimedia.org/wiki/Special:FilePath/CMOS_TW_OSC_000.png?width=300)
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.