AN-806 Data Transmission Lines and Their Characteristics (Rev. A)

... wavelengths (highest frequencies) to be used in analysis of the model. Within these limits, as differentials are taken, the section length will approach zero and the model should exhibit the same (or at least very similar) characteristics as the actual distributed parameter transmission line. The mo ...

DATA SHEET TDA8010M; TDA8010AM Low power mixers/oscillators for satellite tuners

... The TDA8010M; TDA8010AM are integrated circuits that perform the mixer/oscillator function in satellite tuners. The devices include a gain controlled IF amplifier that can directly drive two single-ended SAW filters or a differential SAW filter using a three function switchable output. They contain ...

MAX9150 Low-Jitter, 10-Port LVDS Repeater Ordering Information Typical Application Circuit

... Termination resistors should match the differential characteristic impedance of the transmission line. Since the MAX9150 has current-steering devices, an output voltage will not be generated without a termination resistor. Output voltage levels are dependent upon the value of the total termination r ...

MAX2690 Low-Noise, 2.5GHz Downconverter Mixer _______________General Description

... inductors to set a terminating impedance. The part’s conversion gain has been specified with the resistors in place (using the output network on the MAX2690 EV kit), accounting for a 3dB loss due to the resistors. Therefore, it is possible to achieve an increase in gain with a properly designed matc ...

A Single-Stage 1500 W Amplifier for 160 / 80 / 40 Meters

... the heat sink. Although I have not tried this amplifier on 40 meters, other amateurs have constructed 40meter amplifiers using these FETs. The input capacitance of the FET gates is about 3000 pF each (resulting in an extremely low-impedance circuit), it is impractical to connect the gate drive with ...

ATE Contact Test thru analog Switch - IC

Menouni - CERN Indico

... small voltage signal from the TIA so that it reaches the voltage swing required by the clock and data recovery circuit. To meet the overall design goals, there are several design considerations. First of all, given the sensitivity requirement of the overall receiver (to accommodate a photo-detector ...

Model 1800 Manual

... impedance metal microelectrodes. It can be used in a number of research or teaching applications requiring extracellular neurophysiological recording from excitable tissue, such as nerve, muscle (EMG), EEG, EKG, and ERG recordings. The instrument is not intended for clinical measurements using human ...

Chapter 1 - Introduction to Electronics

... Figure 1.19 (a) Small-signal circuit model for a bipolar junction transistor (BJT). (b) The BJT connected as an amplifier with the emitter as a common terminal between input and output (called a common-emitter amplifier). (c) An alternative small-signal circuit model for the BJT. ...

Data Sheet - Mini Circuits

FXWA9306 Dual Bi-Directional I C-Bus® and SMBus Voltage- Level Translator

... both pins pulled to HIGH side VPU(D) through a pull-up resistor (typically 200kΩ). This allows VCCB to regulate the OE input. A filter capacitor on VCCB is recommended. The I2C-bus master output can be totem-pole or open2 drain (pull-up resistors may be required) and the I C-bus device output can be ...

1998 Strategic Communications Plan

...  DO NOT have vias between bypass caps and active device – Visualize the high frequency current flow !!!  Ensure Bypass caps are on same layer as active component for best results.  Route vias into the bypass caps and then into the active component. ...

Low Cost Instrumentation Amplifier AD622 FEATURES

... Large Input Voltages at Large Gains When operating at high gain, large differential input voltages may cause more than 6 mA of current to flow into the inputs. This condition occurs when the maximum differential voltage exceeds the following critical voltage: VCRITICAL = (400 + RG) × (6 mA) This is ...

1.6- to 3.6-volt BTL speaker driver reference

... gain of 2 dB and 5 dB, respectively. Since the gain is greater than 1, a gain mismatch will exist between the non-inverted and inverted output signals. In the case of the TPA6102A2 with 5 dB of gain, this configuration could cause some large voltage swings across the load with an additional gain of ...

Chapter 6 - An

... bypass capacitor, C2, if the amplifier must operate over a frequency range from 200 Hz to 10 kHz., (c) Calculate the base-to-collector voltage gain of the amplifier (without and with C2) if there is no load resistor, (d) If a load resistor of 5kΩ is added at Vout, calculate the voltage gain (include ...

Harmonic Distortion

... 5. Derive expressions for gain, input resistance and output resistance of voltage shunt Feedback amplifier with the help of neat diagram. For the opamp based inverting amplifier circuit shown in Fig.Q5(b) find input impedance given that transimpedance, input impedance and output impedance of opamp a ...

a 750 MHz, 3.8 mA 10 ns Switching Multiplexers AD8180/AD8182*

... than about 1 inch). These should be designed with a characteristic impedance of 50 Ω or 75 Ω and be properly terminated at the end using surface mount components. Careful layout is imperative to minimize crosstalk. Guards (ground or supply traces) must be run between all signal traces to limit direc ...

1. The common source amplifier with resistive load

... dominant pole (fp=BW) and the unity gain bandwidth GBW. Notice the presence of the parasitic right half plane zero caused by the Miller effect and compare the measurements with the values found in hand calculations; The Bode diagrams corresponding to the amplifier are obtained by running an .AC anal ...

Pi Speaker Alignment Theory

... value. But to connect a loudspeaker rated at 150 watts Peak-to-Peak to an amplifier rated at 100 watts will probably result in damage to the loudspeaker with the amplifier at half its rated output. Phase shifts are differences in time between two components of an audio signal. For example, when a sn ...

Basics

... . The transfer function of a system submitted to a current perturbation is the impedance . There are two ways to show impedance data : Bode and Nyquist . It is easy to switch from one representation to the other. . Impedance data can be interpreted using EC-Lab Z Sim and Z Fit. . Electrical circuits ...

Agilent 33220A Function Generator Tutorial

... • Pulse: A voltage pulse is sent periodically. The pulse width can be tuned separately from the period (the time interval between repeated pulses). The peak value of the pulse can also be set. • Noise: Simulation of voltage noise. • Arb: Create your own waveform. ...

Datasheet - Microchip

... High bandwidth output transitions Internal 75KΩ input pull-down resistors Available in 20-pin SOIC package ...

Logs and Decibels

... dBm Power Formula: 10 log (p1/.001W) dBW Power Formula: 10 log (p1/1W) Voltage: dBu (0 dBu = .775 volts) not referenced to any load - chosen for historical reasons which is the voltage you get with 1mW in a 600 ohm load. dBu Voltage Formula: 20 log (E1/.775V) dBV Voltage Formula: 20 log (E1/1V) ...

TL081 OpAmp - U.C.C. Physics Department

... will not change the phase of the output; however, if both inputs exceed the limit, the output of the amplifier will be forced to a high state. The amplifier will operate with a common-mode input voltage equal to the positive supply; however, the gain bandwidth and slew rate may be decreased in this ...

Impedance Simulator for Testing of Instruments for Bioimpedance

... to inject the current and the resulting voltage drop is picked up across the inner pair of electrodes. In some situations, 3-electrode configuration may be used, with one electrode being common to current and voltage electrode pair. In some other situations, one pair of electrodes is used as current ...

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Scattering parameters

Scattering parameters or S-parameters (the elements of a scattering matrix or S-matrix) describe the electrical behavior of linear electrical networks when undergoing various steady state stimuli by electrical signals.The parameters are useful for electrical engineering, electronics engineering, and communication systems design, and especially for microwave engineering.The S-parameters are members of a family of similar parameters, other examples being: Y-parameters, Z-parameters, H-parameters, T-parameters or ABCD-parameters. They differ from these, in the sense that S-parameters do not use open or short circuit conditions to characterize a linear electrical network; instead, matched loads are used. These terminations are much easier to use at high signal frequencies than open-circuit and short-circuit terminations. Moreover, the quantities are measured in terms of power.Many electrical properties of networks of components (inductors, capacitors, resistors) may be expressed using S-parameters, such as gain, return loss, voltage standing wave ratio (VSWR), reflection coefficient and amplifier stability. The term 'scattering' is more common to optical engineering than RF engineering, referring to the effect observed when a plane electromagnetic wave is incident on an obstruction or passes across dissimilar dielectric media. In the context of S-parameters, scattering refers to the way in which the traveling currents and voltages in a transmission line are affected when they meet a discontinuity caused by the insertion of a network into the transmission line. This is equivalent to the wave meeting an impedance differing from the line's characteristic impedance.Although applicable at any frequency, S-parameters are mostly used for networks operating at radio frequency (RF) and microwave frequencies where signal power and energy considerations are more easily quantified than currents and voltages. S-parameters change with the measurement frequency, so frequency must be specified for any S-parameter measurements stated, in addition to the characteristic impedance or system impedance.S-parameters are readily represented in matrix form and obey the rules of matrix algebra.

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Scattering parameters