ADS823, ADS826: 10-Bit, 60MHz Sampling Analog-To
... Using the OPA680 on a single +5V supply, its ideal commonmode point is at +2.5V, which coincides with the recommended common-mode input level for the ADS823 and ADS826, thus obviating the need of a coupling capacitor between the amplifier and the converter. Even though the OPA680 has an AC gain of + ...
... Using the OPA680 on a single +5V supply, its ideal commonmode point is at +2.5V, which coincides with the recommended common-mode input level for the ADS823 and ADS826, thus obviating the need of a coupling capacitor between the amplifier and the converter. Even though the OPA680 has an AC gain of + ...
Pulse and Pulse Processing
... Analog to Digital Conversion – Hybrid technology Use Flash ADC for coarse conversion : 8 out of 13 bits Successive approximation or Wilkinson type ADC for fine resolution Limited range, short conversion time 256 channels with 100 MHz clock – 2.6 s Result: 13 bit conversion in 4 s with excellen ...
... Analog to Digital Conversion – Hybrid technology Use Flash ADC for coarse conversion : 8 out of 13 bits Successive approximation or Wilkinson type ADC for fine resolution Limited range, short conversion time 256 channels with 100 MHz clock – 2.6 s Result: 13 bit conversion in 4 s with excellen ...
Si5110 - Silicon Labs
... The Si5110 is a complete low-power transceiver for high-speed serial communication systems operating between OC-48 and 2.7 Gbps. The receive path consists of a fully-integrated limiting amplifier, clock and data recovery unit (CDR), and 1:4 deserializer. The transmit path combines a low-jitter clock ...
... The Si5110 is a complete low-power transceiver for high-speed serial communication systems operating between OC-48 and 2.7 Gbps. The receive path consists of a fully-integrated limiting amplifier, clock and data recovery unit (CDR), and 1:4 deserializer. The transmit path combines a low-jitter clock ...
Si5110 Data Sheet -- SiPHY OC-48/STM
... The Si5110 is a complete low-power transceiver for high-speed serial communication systems operating between OC-48 and 2.7 Gbps. The receive path consists of a fully-integrated limiting amplifier, clock and data recovery unit (CDR), and 1:4 deserializer. The transmit path combines a low-jitter clock ...
... The Si5110 is a complete low-power transceiver for high-speed serial communication systems operating between OC-48 and 2.7 Gbps. The receive path consists of a fully-integrated limiting amplifier, clock and data recovery unit (CDR), and 1:4 deserializer. The transmit path combines a low-jitter clock ...
Saclay_Timing_JFG_8_1_07 - Indico
... - Cable has shorter group delay, and even higher bandwidth, may pick-up noise - Micro-coax makes a come-back ...
... - Cable has shorter group delay, and even higher bandwidth, may pick-up noise - Micro-coax makes a come-back ...
Panel-Card - Technical Reference
... module as well as a universal Linux CPU card. It can be used where restricted energy and space requirements play a role. It comes in different sizes and variations, but the connector keeps the same, likewise the center of the LCD/TFT. Thus one baseboard can carry different Panel-Cards, easily adopti ...
... module as well as a universal Linux CPU card. It can be used where restricted energy and space requirements play a role. It comes in different sizes and variations, but the connector keeps the same, likewise the center of the LCD/TFT. Thus one baseboard can carry different Panel-Cards, easily adopti ...
VSP2270 数据资料 dataSheet 下载
... The buffered CCD output is capacitively coupled to the VSP2270 device. The input clamp restores the dc component of the input signal that was lost with the ac-coupling and establishes the desired dc bias point for the CDS. Figure 1 also shows a simplified block diagram of the input clamp. The input ...
... The buffered CCD output is capacitively coupled to the VSP2270 device. The input clamp restores the dc component of the input signal that was lost with the ac-coupling and establishes the desired dc bias point for the CDS. Figure 1 also shows a simplified block diagram of the input clamp. The input ...
IOSR Journal of VLSI and Signal Processing (IOSR-JVSP)
... data input of that latch or flipflop. Here, we focus on rising-edge-triggered flip-flopbased designs – however, the presented techniques are applicable for falling-edge-triggered flip-flops and latches as well. The monitoring circuit block is based on the concept of stability checking during the gua ...
... data input of that latch or flipflop. Here, we focus on rising-edge-triggered flip-flopbased designs – however, the presented techniques are applicable for falling-edge-triggered flip-flops and latches as well. The monitoring circuit block is based on the concept of stability checking during the gua ...
LM1889 TV Video Modulator
... 7, 8 and 9. The signal inputs (pins 12, 13) to both modulators are common, but removing the power supply from an RF oscillator tank circuit will also disable that modulator. As with the chrominance modulators, it is the offset between the two signal input pins that determines the level of RF carrier ...
... 7, 8 and 9. The signal inputs (pins 12, 13) to both modulators are common, but removing the power supply from an RF oscillator tank circuit will also disable that modulator. As with the chrominance modulators, it is the offset between the two signal input pins that determines the level of RF carrier ...
Project report
... However, it is important for the flip-flop devices to maintain their state while they are in the sleep mode and retrieve it after coming out of the sleep state. For this, a special data retention circuitry is required. This circuitry should be such that it does not increase the leakage during the sl ...
... However, it is important for the flip-flop devices to maintain their state while they are in the sleep mode and retrieve it after coming out of the sleep state. For this, a special data retention circuitry is required. This circuitry should be such that it does not increase the leakage during the sl ...
PANIMALAR ENGINEERING COLLEGE
... The above figures show the 555 timer connected as an astable multivibrator and its model graph Initially, when the output is high : Capacitor C starts charging toward Vcc through RA & RB. However, as soon as voltage across the capacitor equals 2/3 Vcc. Upper comparator triggers the FF & output swit ...
... The above figures show the 555 timer connected as an astable multivibrator and its model graph Initially, when the output is high : Capacitor C starts charging toward Vcc through RA & RB. However, as soon as voltage across the capacitor equals 2/3 Vcc. Upper comparator triggers the FF & output swit ...
LTC1264 - High Speed, Quad Universal Filter Building Block
... order switched-capacitor filter building blocks designed for center frequencies up to 250kHz. Each building block, together with three to five resistors, can provide 2nd order functions like lowpass, highpass, bandpass and notch. The center frequency of each 2nd order section is tuned via an externa ...
... order switched-capacitor filter building blocks designed for center frequencies up to 250kHz. Each building block, together with three to five resistors, can provide 2nd order functions like lowpass, highpass, bandpass and notch. The center frequency of each 2nd order section is tuned via an externa ...
October 1st Circuits - Chapter 28
... Circuits (Figs. 28-9a, 28-9b) "− i1 R1 − i2 R2 − i1 R4 = 0 ...
... Circuits (Figs. 28-9a, 28-9b) "− i1 R1 − i2 R2 − i1 R4 = 0 ...
AD7894 数据手册DataSheet下载
... The AD7894 is tested using two input frequencies. In this case, the second and third order terms are of different significance. The second order terms are usually distanced in frequency from the original sine waves, while the third order terms are usually at a frequency close to the input frequencie ...
... The AD7894 is tested using two input frequencies. In this case, the second and third order terms are of different significance. The second order terms are usually distanced in frequency from the original sine waves, while the third order terms are usually at a frequency close to the input frequencie ...
DIGITAL ELECTRONICS LECTURE NOTES
... happened last century. Without this discovery we wouldn't have televisions, computers, space rocket, CD players, etc. Unfortunately it's also one of the hardest areas to understand in electronics. The reason that makes metals such good conductors is that they have lots of electrons which are so loos ...
... happened last century. Without this discovery we wouldn't have televisions, computers, space rocket, CD players, etc. Unfortunately it's also one of the hardest areas to understand in electronics. The reason that makes metals such good conductors is that they have lots of electrons which are so loos ...
LTC1164-8 - Ultra-Selective, Low Power 8th
... recommended. Using a switching power supply will lower the signal-to-noise ratio of the filter. The power supply during power-up should have a slew rate of less than 1V/μs. ...
... recommended. Using a switching power supply will lower the signal-to-noise ratio of the filter. The power supply during power-up should have a slew rate of less than 1V/μs. ...
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.