8-Bit, 250 MSPS 3.3 V A/D Converter AD9480
... includes an internal reference and track-and-hold circuit. The user only provides a 3.3 V power supply and a differential encode clock. No external reference or driver components are required for many applications. The digital outputs are LVDS (ANSI 644) compatible with an option of twos complement ...
... includes an internal reference and track-and-hold circuit. The user only provides a 3.3 V power supply and a differential encode clock. No external reference or driver components are required for many applications. The digital outputs are LVDS (ANSI 644) compatible with an option of twos complement ...
1. Using spice, draw the voltage-current graph by changing Vgs from
... 1. Using spice, draw the voltage-current graph by changing Vgs from 1v to 5v, and Vds from 0v to 5v. * COE360-Quiz#3 (Q1) W=2u L=1u: * Current-Voltage Characteristics of an NMOS transistor m1 2 1 0 0 nfet W=2u L=1u ...
... 1. Using spice, draw the voltage-current graph by changing Vgs from 1v to 5v, and Vds from 0v to 5v. * COE360-Quiz#3 (Q1) W=2u L=1u: * Current-Voltage Characteristics of an NMOS transistor m1 2 1 0 0 nfet W=2u L=1u ...
DN495 - Simple Energy-Tripped Circuit Breaker with Automatic Delayed Retry
... is controlled by the current sourced by the SET pin, which programs an internal oscillator frequency, while the bias voltage on the DIV pin selects a frequency divide ratio. The LT1783 op amp circuit takes the output voltage from the current sense amplifier and adjusts the SET pin current, thereby m ...
... is controlled by the current sourced by the SET pin, which programs an internal oscillator frequency, while the bias voltage on the DIV pin selects a frequency divide ratio. The LT1783 op amp circuit takes the output voltage from the current sense amplifier and adjusts the SET pin current, thereby m ...
Data Sheet 85098-0003 -- Clock System
... under the corrective control of a GE Model 24A715 or 24A715M Master Time/Program Clock. The 24CC10 can also operate under the corrective control of a StarCall®, StarCare™ or MCS350 master clock. The 24CC10 is powered by a separate 10 to 24Vac or 10 to 15Vdc power source. The 24CC10 has five operatin ...
... under the corrective control of a GE Model 24A715 or 24A715M Master Time/Program Clock. The 24CC10 can also operate under the corrective control of a StarCall®, StarCare™ or MCS350 master clock. The 24CC10 is powered by a separate 10 to 24Vac or 10 to 15Vdc power source. The 24CC10 has five operatin ...
Generating of short pulses with high amplitudes by using of
... Relevant for the pulse width is the voltage at the negative input of U4B. With K5 one can decide if the pulse width should be determined manual via R27 or via a digital-to-analogue converter (which is connected to the SPI-Bus) from the PC. The repetition rate is controlled by a separate module U1 wh ...
... Relevant for the pulse width is the voltage at the negative input of U4B. With K5 one can decide if the pulse width should be determined manual via R27 or via a digital-to-analogue converter (which is connected to the SPI-Bus) from the PC. The repetition rate is controlled by a separate module U1 wh ...
ADS5542 数据资料 dataSheet 下载
... Analog input common-mode current (per input) Source impedance = 50 Ω ...
... Analog input common-mode current (per input) Source impedance = 50 Ω ...
AD420 数据手册DataSheet 下载
... each data word is “framed” by a START (0) bit and a STOP (1) bit. The data timing is with respect to the rising edge of the CLOCK at the center of each bit cell. Bit cells are 16 clocks long, and the first cell (the START bit) begins at the first clock following the leading (falling) edge of the STA ...
... each data word is “framed” by a START (0) bit and a STOP (1) bit. The data timing is with respect to the rising edge of the CLOCK at the center of each bit cell. Bit cells are 16 clocks long, and the first cell (the START bit) begins at the first clock following the leading (falling) edge of the STA ...
Pulse width and laser power settings and operation
... be narrower than that. Particulars lasers have variable pulse duration ranging from <350 ps to around 4 ns. In many cases even shorter pulses than nominal can be obtained by driving the laser to the edge (for threshold setting see next section), but the user should pay attention in this case on time ...
... be narrower than that. Particulars lasers have variable pulse duration ranging from <350 ps to around 4 ns. In many cases even shorter pulses than nominal can be obtained by driving the laser to the edge (for threshold setting see next section), but the user should pay attention in this case on time ...
SWITCHED CAPACITOR FILTER DESIGN SIMULATION capacitor
... c. By fixing the values of R's and C's , figure (12) represent the case when Fc=50 Fo , the result is good filter frequency response, we can note the phase fluctuation is exactly at cut-off frequency. d. Figure (13) represent the case when Fc=100 Fo , so the result is very good ,because the cut-off ...
... c. By fixing the values of R's and C's , figure (12) represent the case when Fc=50 Fo , the result is good filter frequency response, we can note the phase fluctuation is exactly at cut-off frequency. d. Figure (13) represent the case when Fc=100 Fo , so the result is very good ,because the cut-off ...
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.