![Silicon PIN Diodes as Particle Flux Monitors for the MERIT Experiment](http://s1.studyres.com/store/data/004869131_1-fd2c2ea08dda5f834d9dc52671d5fa0b-300x300.png)
NCN5193NGEVB NCN5193NG Evaluation Board User's Manual •
... as a series regulator’s current draw will vary with the output current, whereas a shunt regulator is dimensioned on the maximum current draw and will always draw the same current. Large capacitors on the in- and output of the voltage regulator increase the reference stability. The CDREF reference vo ...
... as a series regulator’s current draw will vary with the output current, whereas a shunt regulator is dimensioned on the maximum current draw and will always draw the same current. Large capacitors on the in- and output of the voltage regulator increase the reference stability. The CDREF reference vo ...
On-Chip Techniques for Electromagnetic Interference (EMI)
... Where k is proportionality constant that depend on chip material and other factors, A is loop area, I is amount of current flowing and f is frequency of the signal by which EMI is created [3]. Internal EMI disrupts the normal functionality of any electronic device. For example, EMI causes skin effec ...
... Where k is proportionality constant that depend on chip material and other factors, A is loop area, I is amount of current flowing and f is frequency of the signal by which EMI is created [3]. Internal EMI disrupts the normal functionality of any electronic device. For example, EMI causes skin effec ...
g Accelerometers ADXL193 i
... The fixed fingers in the forcing cells are normally kept at the same potential as that of the movable frame. When the self-test digital input is activated, the voltage on the fixed fingers on one side of the moving plate in the forcing cells is changed. This creates an attractive electrostatic force ...
... The fixed fingers in the forcing cells are normally kept at the same potential as that of the movable frame. When the self-test digital input is activated, the voltage on the fixed fingers on one side of the moving plate in the forcing cells is changed. This creates an attractive electrostatic force ...
Document on creating a seismograph.
... the forces involved. Since it is more or less solid state, piezo may be suitable for other mechanical construction as well, particularly a vertical mounted arm. Or a series in 2 or 3 dimensions on the same arm. For this project, I'd like to experiment with the last two methods: capacitance and piezo ...
... the forces involved. Since it is more or less solid state, piezo may be suitable for other mechanical construction as well, particularly a vertical mounted arm. Or a series in 2 or 3 dimensions on the same arm. For this project, I'd like to experiment with the last two methods: capacitance and piezo ...
PPTX
... • Attribute PHASE_SHIFT = integer (– 255 to +255) Specifies shift in increments of the 1/256 of the clock period Phase shift remains constant across temperature and voltage ...
... • Attribute PHASE_SHIFT = integer (– 255 to +255) Specifies shift in increments of the 1/256 of the clock period Phase shift remains constant across temperature and voltage ...
pptx - UCSD VLSI CAD Laboratory
... • The proposed Markov chain model is verified on four different SC application circuits ...
... • The proposed Markov chain model is verified on four different SC application circuits ...
A Novel Switched Capacitor Frequency Tuning Technique
... closer matching to the desired transfer function is expected. The main drawback of this method is the complexity of the schemes and the large silicon area needed. The circuit proposed in this paper uses the Gm/C tuning technique. This method is basically based on designing an extra transconductor in ...
... closer matching to the desired transfer function is expected. The main drawback of this method is the complexity of the schemes and the large silicon area needed. The circuit proposed in this paper uses the Gm/C tuning technique. This method is basically based on designing an extra transconductor in ...
Frequency response of feedback amplifiers
... • One important thing to note is that the initial input Xin is not needed, as in real circuits noise and transient signals associated with circuit turning on can always provide an initial signal that grows in amplitude as it propagates around the loop (assuming loop gain is larger than unity). ...
... • One important thing to note is that the initial input Xin is not needed, as in real circuits noise and transient signals associated with circuit turning on can always provide an initial signal that grows in amplitude as it propagates around the loop (assuming loop gain is larger than unity). ...
C7-2 56Gb/s PAM4 and NRZ SerDes Transceivers in 40nm CMOS
... input data goes through a static divided-by-2 circuit to slow down the high-speed data by a factor of 2. The data transitions are still preserved but split into two interleaved paths. By doing so we have earned at least twice as much time to create a pulse, considerably relaxing the timing requireme ...
... input data goes through a static divided-by-2 circuit to slow down the high-speed data by a factor of 2. The data transitions are still preserved but split into two interleaved paths. By doing so we have earned at least twice as much time to create a pulse, considerably relaxing the timing requireme ...
A Bio-inspired Ultra-Energy-Efficient Analog-to-Digital Converter for Biomedical Applications
... different patterns for bits of precision. Since neurons are extremely efficient at pattern recognition, a neuronally inspired A/D architecture has the potential to be very energy efficient; the 22 billion neurons of the brain consume near 14.6 W of power [6], with the average neuron consuming approx ...
... different patterns for bits of precision. Since neurons are extremely efficient at pattern recognition, a neuronally inspired A/D architecture has the potential to be very energy efficient; the 22 billion neurons of the brain consume near 14.6 W of power [6], with the average neuron consuming approx ...
305-261/262 Measurement Laboratory
... 305-261/262 Measurement Laboratory Experiment 1 Instrumentation Overview Notes for the student During this experiment you will be measuring a DC voltage and different A.C. voltages using an oscilloscope and a DMM (Digital Multi-Meter). While a DC voltage is only defined by its amplitude, the interes ...
... 305-261/262 Measurement Laboratory Experiment 1 Instrumentation Overview Notes for the student During this experiment you will be measuring a DC voltage and different A.C. voltages using an oscilloscope and a DMM (Digital Multi-Meter). While a DC voltage is only defined by its amplitude, the interes ...
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.