SWITCHED CAPACITOR CIRCUITS
... Variations in the input signal size cause variations in RON, causing distortion in the sampled signal Both the amplitude and phase vary – which one causes distortion? ...
... Variations in the input signal size cause variations in RON, causing distortion in the sampled signal Both the amplitude and phase vary – which one causes distortion? ...
Ensuring Power integrity
... Basic digital applications routed on a 2 layer board with the auto-router function of the board design tool. Only one 100 nF decoupling capacitor for all the application. ...
... Basic digital applications routed on a 2 layer board with the auto-router function of the board design tool. Only one 100 nF decoupling capacitor for all the application. ...
User`s Guide
... 1.Turning on the instrument: Press the power key on the front panel to turn on the power. After displaying “WELCOME” for 2 seconds and model number such as “PROTEK 9340” for 1 second in flashing manner. The instrument will enter into “standard waveforms” function state according the turning-on setti ...
... 1.Turning on the instrument: Press the power key on the front panel to turn on the power. After displaying “WELCOME” for 2 seconds and model number such as “PROTEK 9340” for 1 second in flashing manner. The instrument will enter into “standard waveforms” function state according the turning-on setti ...
Detection of Stator Short Circuit Faults in Three-Phase
... Fig. 1 shows the schematic diagram of the different types of stator winding problems except open-circuit of the stator coil which is out of scope of this paper. Several studies [5, 6, 9, 10, 11, 12, 19, 20] report that depending on the type of shorts, and condition of motor (age, working condition, ...
... Fig. 1 shows the schematic diagram of the different types of stator winding problems except open-circuit of the stator coil which is out of scope of this paper. Several studies [5, 6, 9, 10, 11, 12, 19, 20] report that depending on the type of shorts, and condition of motor (age, working condition, ...
A Digitally Controlled Oscillator System for SAW
... study. The DCO is part of a single-chip fully compliant quad-band GSM transceiver realized in a 90-nm digital CMOS process. By operating the DCO at a 4 GSM low-band frequency followed by and frequency dividers, the requirement of on-chip inductor the amount of gate oxide stress are relaxed. It was f ...
... study. The DCO is part of a single-chip fully compliant quad-band GSM transceiver realized in a 90-nm digital CMOS process. By operating the DCO at a 4 GSM low-band frequency followed by and frequency dividers, the requirement of on-chip inductor the amount of gate oxide stress are relaxed. It was f ...
LTC1264 - High Speed, Quad Universal Filter Building Block
... or noise performance of a particular filter design implemented with an LTC1264, the final output of the filter should be buffered with a wideband noninverting high slew rate amplifier (Figure 3). ...
... or noise performance of a particular filter design implemented with an LTC1264, the final output of the filter should be buffered with a wideband noninverting high slew rate amplifier (Figure 3). ...
Component Testing Using an Oscilloscope with - Techni-Tool
... oscilloscope input, with a “tee” off to the component, also referred to as the device under test (DUT). For better time-resolution measurements of cables, you can use the TRIGGER OUTPUT as an alternative output instead of the waveform generator output (discussed later in this application note). For ...
... oscilloscope input, with a “tee” off to the component, also referred to as the device under test (DUT). For better time-resolution measurements of cables, you can use the TRIGGER OUTPUT as an alternative output instead of the waveform generator output (discussed later in this application note). For ...
LTC6990 - TimerBlox: Voltage Controlled Silicon Oscillator
... are the property of their respective owners. Protected by U.S. Patents, including 6342817, ...
... are the property of their respective owners. Protected by U.S. Patents, including 6342817, ...
MAX5075 Push-Pull FET Driver with Integrated Oscillator and Clock Output General Description
... The MAX5075 is a +4.5V to +15V push-pull, current-fed topology driver subsystem with an integrated oscillator for use in 48V module power supplies. The MAX5075 features a programmable, accurate integrated oscillator with a synchronizing clock output that can be used to synchronize an external PWM st ...
... The MAX5075 is a +4.5V to +15V push-pull, current-fed topology driver subsystem with an integrated oscillator for use in 48V module power supplies. The MAX5075 features a programmable, accurate integrated oscillator with a synchronizing clock output that can be used to synchronize an external PWM st ...
Square-wave excitation of a linear oscillator
... sinusoidal driving force rather extensively (see, for example, Berkeley Physics Course [1], [2], [3]). The general case of a periodic but non-sinusoidal excitation of a linear oscillator is usually only mentioned with a reference to the principle of superposition and an expansion of an arbitrary per ...
... sinusoidal driving force rather extensively (see, for example, Berkeley Physics Course [1], [2], [3]). The general case of a periodic but non-sinusoidal excitation of a linear oscillator is usually only mentioned with a reference to the principle of superposition and an expansion of an arbitrary per ...
he low-frequency oscilloscope goes plug in ignal generation and
... or triggered operation is readily accomplished from the front panel. In addition, the 26G1 can be internally triggered by the rate generator which is an integral part of the unit . The trigger and gate levels, both input and output, are compatible with logic levels used in most DTL and TTL logic dev ...
... or triggered operation is readily accomplished from the front panel. In addition, the 26G1 can be internally triggered by the rate generator which is an integral part of the unit . The trigger and gate levels, both input and output, are compatible with logic levels used in most DTL and TTL logic dev ...
Chirp spectrum
The spectrum of a chirp pulse describes its characteristics in terms of its frequency components. This frequency-domain representation is an alternative to the more familiar time-domain waveform, and the two versions are mathematically related by the Fourier transform. The spectrum is of particular interest when pulses are subject to signal processing. For example, when a chirp pulse is compressed by its matched filter, the resulting waveform contains not only a main narrow pulse but, also, a variety of unwanted artifacts many of which are directly attributable to features in the chirp's spectral characteristics. The simplest way to derive the spectrum of a chirp, now computers are widely available, is to sample the time-domain waveform at a frequency well above the Nyquist limit and call up an FFT algorithm to obtain the desired result. As this approach was not an option for the early designers, they resorted to analytic analysis, where possible, or to graphical or approximation methods, otherwise. These early methods still remain helpful, however, as they give additional insight into the behavior and properties of chirps.