doc - Rutgers Engineering

ch06

... Analog VCO physics are beyond the scope of this text, so it will suffice to just state that devices satisfying (6.8) are readily available in a variety of frequency ranges. When the input signal ek in discrete time is digital, the VCO can also be implemented with a look-up table and adder according ...

HKUST Institutional Repository - Hong Kong University of Science

... K.N. Leung, C.H. Lo, P.K.T. Mok, Y.Y. Mai, W.Y. Leung and M.J. Chan The design of a temperature-compensated CMOS ring oscillator is introduced. The concept is to make use of a linear, positively or negatively temperature-sloped supply voltage to power-up the ring oscillator. Experimental results sho ...

Ch14

... 14.3 Series Resonance (6) Example 3 A series-connected circuit has R = 4 Ω and L = 25 mH. a. Calculate the value of C that will produce a quality factor of 50. b. Find ω1 and ω2, and B. c. Determine the average power dissipated at ω = ωo, ω1, ω2. Take Vm= 100V. ...

CMY 210 GaAs MMIC

Electronic Laser Phase Noise Reduction

... linewidth reduction schemes using feedback [1] and feedforward architectures [2] have been demonstrated, a chipbased solution leveraging the integration for power and size reduction has not been demonstrated to this date. In this paper, modern RF techniques and architectures are used to integrate th ...

Controlling the Motor

... End of Period) • If Change Flag is set, motor is changing directions • Decreases reference signal frequency until motor is no longer spinning ...

Frequency response: Resonance, Bandwidth, Q factor

Low Noise Wide Tuning Range Quadrature Ring Oscillator for Multi

A 0.6 mW/Gb/s, 6.4–7.2 Gb/s Serial Link Receiver Using Local

Datasheet

... Package Bottom must be connected to RF/DC ground. ...

RF2057 HIGH PERFORMANCE WIDEBAND RF PLL/VCO WITH Features

... LO Leakage in dBm at Mixer Output ...

Slide 1

... What is the voltage across the resistor? VR = 50A x 2Ω = 100V What is the voltage across the capacitor? VC = 50A x –j5Ω = 250-90˚V What is the voltage across the inductor? VL = 50A x j5Ω = 25090˚V Kirchoff’s Voltage Law still holds Although it seems like there is no VT = VR + VC + VL voltage left ...

an266 vcxo tuning slope (kv), stability, and absolute

Lecture 1 - Rabie Ramadan

Loop Currents [pdf]

... around a loop current equals the sum of the voltage sources in the same direction around the loop. These laws may be used to find the current flow through any branch of a network of loop currents. For example, consider the simple circuit in Figure 1. ...

PA1DSP - Why NOT to use the NE602

Experiment 3 - Department of Electrical and Electronics Engineering

A 0.18um CMOS Dual-Band UWB Transceiver

... high band of 6 to 10GHz for two reasons. Firstly, to avoid the strong interference from other communication systems operating in the low band (e.g., WiMAX), some countries already considered to extend UWB to the high band and leave the low band as an option. Secondly, this could further improve tran ...

ICL7135 Datasheet

... microprocessors. There are 5 negative going STROBE pulses that occur in the center of each of the digit drive pulses and occur once and only once for each measurement cycle starting 101 clock pulses after the end of the full measurement cycle. Digit 5 (MSD) goes high at the end of the measurement cy ...

Supplementary Materials

... FIG.3S. The S domain equivalent circuit is used to analyze the time-domain response of the high-pass filter. (a) In time domain schematic, the output of inverter Ua1 (Ub1) in figure 2 is replaced by the switch S. The initial conditions for Cvar and the output, y(t), are 0V and 5V. (b) In the equival ...

DOC

The text of the original article (Word 2000 format)

... potentials of around 100mV. For SWRs of around 10 (a 5 ohm load on the test circuit) only about 150mV peak will be applied to D6. For accurate calculation, it is very important to have linear detection. Even with germanium diodes, the bottom end of the detector characteristic is very non-linear and ...

A Ground Loop Primer - Wilkerson Instrument

ELS - 102 - NIT Arunachal Pradesh

... IEEE Circuits Magazine IEEE Spectrum Electronics for you EDN Electronic Design Electropages ...

< 1 ... 193 194 195 196 197 198 199 200 201 ... 241 >

Phase-locked loop

A phase-locked loop or phase lock loop (PLL) is a control system that generates an output signal whose phase is related to the phase of an input signal. While there are several differing types, it is easy to initially visualize as an electronic circuit consisting of a variable frequency oscillator and a phase detector. The oscillator generates a periodic signal. The phase detector compares the phase of that signal with the phase of the input periodic signal and adjusts the oscillator to keep the phases matched. Bringing the output signal back toward the input signal for comparison is called a feedback loop since the output is ""fed back"" toward the input forming a loop.Keeping the input and output phase in lock step also implies keeping the input and output frequencies the same. Consequently, in addition to synchronizing signals, a phase-locked loop can track an input frequency, or it can generate a frequency that is a multiple of the input frequency. These properties are used for computer clock synchronization, demodulation, and frequency synthesis.Phase-locked loops are widely employed in radio, telecommunications, computers and other electronic applications. They can be used to demodulate a signal, recover a signal from a noisy communication channel, generate a stable frequency at multiples of an input frequency (frequency synthesis), or distribute precisely timed clock pulses in digital logic circuits such as microprocessors. Since a single integrated circuit can provide a complete phase-locked-loop building block, the technique is widely used in modern electronic devices, with output frequencies from a fraction of a hertz up to many gigahertz.

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Phase-locked loop