Exponential Carrier Wave Modulation
... Circuits: (a) analog and (b) digital phase comparator circuit Note that for (a) output is proportional to – input signal phase difference – input signal amplitudes (unintended AM thus harmful) In (b) AM effects are compensated and response is more linear ...
... Circuits: (a) analog and (b) digital phase comparator circuit Note that for (a) output is proportional to – input signal phase difference – input signal amplitudes (unintended AM thus harmful) In (b) AM effects are compensated and response is more linear ...
Lab1 - Ece.umd.edu
... the oscilloscope. The color LCD display has a grid that is used to quantify the signal. There are 8 horizontal divisions for voltage and 10 vertical divisions for time. Scales for the traces are given above the main display. Below the grid is a text region where you can modify the display by pressin ...
... the oscilloscope. The color LCD display has a grid that is used to quantify the signal. There are 8 horizontal divisions for voltage and 10 vertical divisions for time. Scales for the traces are given above the main display. Below the grid is a text region where you can modify the display by pressin ...
A 25 GHz Quadrature Voltage Controlled Ring Oscillator in 0.12 µ
... Multi Gigabit-per-second wireless data rates are possible in high frequency millimeterwave bands [1,2]. Advanced Silicon Germanium (SiGe) and CMOS technologies which offer high frequency operation can now be used for developing applications in the millimeterwave bands. Applications for these frequen ...
... Multi Gigabit-per-second wireless data rates are possible in high frequency millimeterwave bands [1,2]. Advanced Silicon Germanium (SiGe) and CMOS technologies which offer high frequency operation can now be used for developing applications in the millimeterwave bands. Applications for these frequen ...
IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE)
... Design of programmable gain linear pulse amplifier based on energy spectrum analysis and significantly broadened the frequency range of the amplifier. After two stage amplification of the signal has certain amplitude, the influence of the working points can be avoided by using the resistance capaci ...
... Design of programmable gain linear pulse amplifier based on energy spectrum analysis and significantly broadened the frequency range of the amplifier. After two stage amplification of the signal has certain amplitude, the influence of the working points can be avoided by using the resistance capaci ...
User Manual CFG280 11 MHz Function Generator 070-8559-03
... Reference This section describes several advanced functions of the CFG280 Function Generator. The variety of swept and modulated signals available from the function generator make it especially useful for such applications as testing servo-system or amplifier response, distortion, and stability. It ...
... Reference This section describes several advanced functions of the CFG280 Function Generator. The variety of swept and modulated signals available from the function generator make it especially useful for such applications as testing servo-system or amplifier response, distortion, and stability. It ...
Modulation Techniques - Al
... More than two frequencies (M frequencies) are used More bandwidth efficient compared to BFSK More susceptible to noise compared to BFSK MFSK signal: si (t ) A cos( 2f i t ), ...
... More than two frequencies (M frequencies) are used More bandwidth efficient compared to BFSK More susceptible to noise compared to BFSK MFSK signal: si (t ) A cos( 2f i t ), ...
EXPERIMENT 3. SINGLE TUNED AMPLIFIERS Introduction
... 1. Construct the circuit of Figure 11. Set the input to 200 mV peak-to-peak. a. Find the center frequency f0 b. Find and plot magnitude- and phase-frequency responses in steps of 100 Hz beginning from f0-5 kHz up to f0+5 kHz by using VEE program you designed in the preliminary work. 2. Construct the ...
... 1. Construct the circuit of Figure 11. Set the input to 200 mV peak-to-peak. a. Find the center frequency f0 b. Find and plot magnitude- and phase-frequency responses in steps of 100 Hz beginning from f0-5 kHz up to f0+5 kHz by using VEE program you designed in the preliminary work. 2. Construct the ...
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.