05 May 2012 MGB Tachometer Circuit (please report errors to Terry
... As drawn, the circuit is a simple, common emitter transistor configuration. Note that in the quiescent state, both the base and emitter of transistor Q1 will tend to the same voltage (12v). This biases the transistor OFF and no current flows. When the ignition points close, the full ignition coil cu ...
... As drawn, the circuit is a simple, common emitter transistor configuration. Note that in the quiescent state, both the base and emitter of transistor Q1 will tend to the same voltage (12v). This biases the transistor OFF and no current flows. When the ignition points close, the full ignition coil cu ...
A Single-Chip Dual-Mode CW/Pulse Electron Paramagnetic
... RF power absorbed by the sample. The absorbed power varies with the B0 field and this absorption line shape reveals paramagnetic properties of the sample. In order to reduce the effect of low-frequency noise (1/f), B0 is modulated and the reflected power is measured at the modulation frequency. In p ...
... RF power absorbed by the sample. The absorbed power varies with the B0 field and this absorption line shape reveals paramagnetic properties of the sample. In order to reduce the effect of low-frequency noise (1/f), B0 is modulated and the reflected power is measured at the modulation frequency. In p ...
The Time-Resolved Fluorescence Techniques
... For typical lifetimes in the range of hundreds of picoseconds to hundreds of nanoseconds megahertz frequencies are used. These are usually obtained with electrooptical (EO) modulators and the upper limit is currently 350MHz in commercial systems based on arc lamps. One problem is a significant inten ...
... For typical lifetimes in the range of hundreds of picoseconds to hundreds of nanoseconds megahertz frequencies are used. These are usually obtained with electrooptical (EO) modulators and the upper limit is currently 350MHz in commercial systems based on arc lamps. One problem is a significant inten ...
DOC
... Input current: 150 nA max. over temperature Offset current: 20 nA max. over temperature Differential input voltage range: ±30V Power consumption: 135 mW at ±15V ...
... Input current: 150 nA max. over temperature Offset current: 20 nA max. over temperature Differential input voltage range: ±30V Power consumption: 135 mW at ±15V ...
PWM-C Pulse Width Modulation to Current Transducers
... diagram. If the input is from a Unitary Controller Triac (Triac to ground), remove resistor R10 and diode D2 as shown on diagram.If the input is from a Universal MicroRegulator or I/SITE I/O Controller Triac, remove resistor R10 only. PWM-C1 and PWM-C2 input full range time is user selectable betwee ...
... diagram. If the input is from a Unitary Controller Triac (Triac to ground), remove resistor R10 and diode D2 as shown on diagram.If the input is from a Universal MicroRegulator or I/SITE I/O Controller Triac, remove resistor R10 only. PWM-C1 and PWM-C2 input full range time is user selectable betwee ...
TDR2000/2 Cable Fault Locator
... this instrument could cause interference with other equipment connected to the same supply. To reduce this interference, select the lowest voltage and narrowest width pulse as consistent with accurate measurement. During immunity tests there may be self-recovering loss of function (i.e. Performance ...
... this instrument could cause interference with other equipment connected to the same supply. To reduce this interference, select the lowest voltage and narrowest width pulse as consistent with accurate measurement. During immunity tests there may be self-recovering loss of function (i.e. Performance ...
sppcx7450-rev3Current 6-20-08b.pub
... current pulses variable from 20A to 150A, pulse widths variable from 15µS to 5mS, with rise times and fall times of 5µS to 1mS, and pulse repetition frequencies variable from single shot to 5 KHz with duty cycles limited by total power dissipation. A microprocessor-controlled front-panel and RS-232 ...
... current pulses variable from 20A to 150A, pulse widths variable from 15µS to 5mS, with rise times and fall times of 5µS to 1mS, and pulse repetition frequencies variable from single shot to 5 KHz with duty cycles limited by total power dissipation. A microprocessor-controlled front-panel and RS-232 ...
Lab 7
... variable delay from the first half of the chip and a defined output pulse width from the second half of the chip. We will use the astable from Exercise 2 again as the clock to control the frequency of operation of this circuit. Concept Question 4 – For the 74123, the output pulse width for a capacit ...
... variable delay from the first half of the chip and a defined output pulse width from the second half of the chip. We will use the astable from Exercise 2 again as the clock to control the frequency of operation of this circuit. Concept Question 4 – For the 74123, the output pulse width for a capacit ...
Implementation of an Economical and Compact Single
... DEIC420 driver from 18 V supply. The energy efficiency could be increased by minimizing the pulse width and achieved either by increasing the pulse amplitude or pulse repetition rate for biological applications. The pulse width could be varied by adjusting the feedback resistor from 500Ω to 100kΩ to ...
... DEIC420 driver from 18 V supply. The energy efficiency could be increased by minimizing the pulse width and achieved either by increasing the pulse amplitude or pulse repetition rate for biological applications. The pulse width could be varied by adjusting the feedback resistor from 500Ω to 100kΩ to ...
pscc-schFINAL
... is usually based on procedures employing the FFT. This approach is computationally efficient and produces reasonable results for a large class of signal processes. However, there are several performance limitations of the FFT. The most prominent limitation is that of frequency resolution, i.e. the a ...
... is usually based on procedures employing the FFT. This approach is computationally efficient and produces reasonable results for a large class of signal processes. However, there are several performance limitations of the FFT. The most prominent limitation is that of frequency resolution, i.e. the a ...
Towards a Portuguese participation in the European Spallation
... - Effectiveness of droop compensation system to be proven in large average power and repetition rate applications; - High voltage (up-to ~100kV) IGBT assembly technology is single source and patented. ...
... - Effectiveness of droop compensation system to be proven in large average power and repetition rate applications; - High voltage (up-to ~100kV) IGBT assembly technology is single source and patented. ...
Linearity - The University of Texas at Austin
... • Digital sinusoidal modulation in digital signaling • Analog sinusoidal modulation in carrier circuits for upconversion to radio frequencies (RF) Error Correction ...
... • Digital sinusoidal modulation in digital signaling • Analog sinusoidal modulation in carrier circuits for upconversion to radio frequencies (RF) Error Correction ...
AN1882 The NE568A as a wideband FM modulator
... the NE568A modulator. The modulator output signal is now monitored with a spectrum analyzer as shown in the setup diagram below (Figure 6). The input signal amplitude is increased from zero amplitude upward until the 70MHz carrier spectral line begins to fall (see Figure 7). As the amplitude is care ...
... the NE568A modulator. The modulator output signal is now monitored with a spectrum analyzer as shown in the setup diagram below (Figure 6). The input signal amplitude is increased from zero amplitude upward until the 70MHz carrier spectral line begins to fall (see Figure 7). As the amplitude is care ...
dp series insertion impeller meters
... DP SERIES INSERTION IMPELLER METERS DP Insertion Impeller Meters are cost effective stainless steel flowmeters for measuring the flow of water, fuel and other low viscosity liquids in pipe sizes 1 ½" to 100" (40 mm to 2500mm). Insertion flow meters are installed with the metering head 1/8th into the ...
... DP SERIES INSERTION IMPELLER METERS DP Insertion Impeller Meters are cost effective stainless steel flowmeters for measuring the flow of water, fuel and other low viscosity liquids in pipe sizes 1 ½" to 100" (40 mm to 2500mm). Insertion flow meters are installed with the metering head 1/8th into the ...
ABSTRACT transmission line aspects of windings yields attenuation and
... the signal levels are relatively low. The spectrum covers the range from 100kHz to 35 MHz. is low, the high frequency content is even easier to lose in the dc component. The frequency domain characteristics of a pulse stream can be calculated using standard Fourier transforms [6]. Alternatively, s ...
... the signal levels are relatively low. The spectrum covers the range from 100kHz to 35 MHz. is low, the high frequency content is even easier to lose in the dc component. The frequency domain characteristics of a pulse stream can be calculated using standard Fourier transforms [6]. Alternatively, s ...
RLC Circuits Note
... comparing the response at the bottom of the notch with the response at low or high frequency. Why doesn’t the response go to zero at the bottom of the notch? Asymptotic notation A filter can be described by its asymptotic frequency dependence. Although the transfer function may be a complicated comp ...
... comparing the response at the bottom of the notch with the response at low or high frequency. Why doesn’t the response go to zero at the bottom of the notch? Asymptotic notation A filter can be described by its asymptotic frequency dependence. Although the transfer function may be a complicated comp ...
572A Amplifier
... unipolar outputs with optimum signal-tonoise ratios over a wide range of time constants. The instrument also provides a bipolar output for timing and gating applications. Any dc drift in an amplifier output causes spectrum broadening. The excellent dc stability of the Model 572A eliminates spectrum ...
... unipolar outputs with optimum signal-tonoise ratios over a wide range of time constants. The instrument also provides a bipolar output for timing and gating applications. Any dc drift in an amplifier output causes spectrum broadening. The excellent dc stability of the Model 572A eliminates spectrum ...
RLC Circuits Note
... comparing the response at the bottom of the notch with the response at low or high frequency. Why doesn’t the response go to zero at the bottom of the notch? Asymptotic notation A filter can be described by its asymptotic frequency dependence. Although the transfer function may be a complicated comp ...
... comparing the response at the bottom of the notch with the response at low or high frequency. Why doesn’t the response go to zero at the bottom of the notch? Asymptotic notation A filter can be described by its asymptotic frequency dependence. Although the transfer function may be a complicated comp ...
Chirp compression
The chirp pulse compression process transforms a long duration frequency-coded pulse into a narrow pulse of greatly increased amplitude. It is a technique used in radar and sonar systems because it is a method whereby a narrow pulse with high peak power can be derived from a long duration pulse with low peak power. Furthermore, the process offers good range resolution because the half-power beam width of the compressed pulse is consistent with the system bandwidth.The basics of the method for radar applications were developed in the late 1940s and early 1950s, but it was not until 1960, following declassification of the subject matter, that a detailed article on the topic appeared the public domain. Thereafter, the number of published articles grew quickly, as demonstrated by the comprehensive selection of papers to be found in a compilation by Barton.Briefly, the basic pulse compression properties can be related as follows. For a chirp waveform that sweeps over a frequency range F1 to F2 in a time period T, the nominal bandwidth of the pulse is B, where B = F2 – F1, and the pulse has a time-bandwidth product of T×B . Following pulse compression, a narrow pulse of duration τ is obtained, where τ ≈ 1/B, together with a peak voltage amplification of √(T×B).