Stax/Stax SRM-353X Info
... The SRM-353X energiser (amplifier) was created to ensure the very best performance when partnered with a STAX electrostatic Earspeaker. For the SRM-353X, only the highest-quality audio grade parts were chosen to optimise the amplifiers circuit and deliver the widest frequency response possible. SRM- ...
... The SRM-353X energiser (amplifier) was created to ensure the very best performance when partnered with a STAX electrostatic Earspeaker. For the SRM-353X, only the highest-quality audio grade parts were chosen to optimise the amplifiers circuit and deliver the widest frequency response possible. SRM- ...
DA-Z250D Digital Power Amplifier
... TOA DA-Z250D is a 2-channel digital power amplifier that delivers excellent performance at high efficiency. With the Class D amplifier employed, high power efficiency is achieved and less heat is dissipated. Furthermore, it allows a reduction in size and weight. DA-Z250D is ideal for professional so ...
... TOA DA-Z250D is a 2-channel digital power amplifier that delivers excellent performance at high efficiency. With the Class D amplifier employed, high power efficiency is achieved and less heat is dissipated. Furthermore, it allows a reduction in size and weight. DA-Z250D is ideal for professional so ...
Spec sheet
... The Hafler TA1100 & TA1600 (Trans*Amp) are two channel, two rack height, convection-cooled (No Fans), MOSFET (Metal Oxide Semiconductor Field Effect Transistor) power amplifiers. Both amps are suitable for various applications such as: Instrument amplification, DJ, Monitoring, Live Sound Reinforceme ...
... The Hafler TA1100 & TA1600 (Trans*Amp) are two channel, two rack height, convection-cooled (No Fans), MOSFET (Metal Oxide Semiconductor Field Effect Transistor) power amplifiers. Both amps are suitable for various applications such as: Instrument amplification, DJ, Monitoring, Live Sound Reinforceme ...
HFAM - 26 - Photonic Solutions
... 8 Channel GHz Wide Band Amplifier with Overload Detection for PMTs or MCPs ...
... 8 Channel GHz Wide Band Amplifier with Overload Detection for PMTs or MCPs ...
EL6413 Catalog Description
... transistors, biasing, and temperature compensation techniques. Physics, models, and biasing for field-effect transistors. General treatment of nonlinear controlled sources. High frequency models. Single and multistage broadband small signal amplifiers. Harmonic distortion analysis of amplifiers. Emi ...
... transistors, biasing, and temperature compensation techniques. Physics, models, and biasing for field-effect transistors. General treatment of nonlinear controlled sources. High frequency models. Single and multistage broadband small signal amplifiers. Harmonic distortion analysis of amplifiers. Emi ...
UcD400
... Although Hypex UcD modules are based on very efficient Class-D technology, additional cooling is a must. Mounting the modules on a sheet of aluminium will provide enough cooling for use under normal conditions. When the module is used in a closed case, provide enough airflow by means of ventilation ...
... Although Hypex UcD modules are based on very efficient Class-D technology, additional cooling is a must. Mounting the modules on a sheet of aluminium will provide enough cooling for use under normal conditions. When the module is used in a closed case, provide enough airflow by means of ventilation ...
Electronic Circuits and Devices: ELEE 3455
... Assume that the speaker needs 20[V]pp to deliver clear acoustical output. Design an equivalent circuit for an amplifier that would deliver this output when connected between the pick-up and the speaker. E2.2. An amplifier has been connected as shown below, with a signal source and a load connected. ...
... Assume that the speaker needs 20[V]pp to deliver clear acoustical output. Design an equivalent circuit for an amplifier that would deliver this output when connected between the pick-up and the speaker. E2.2. An amplifier has been connected as shown below, with a signal source and a load connected. ...
Slide 1
... • Notice that a negative voltage is used as the input to produce a positive output voltage • The gain is the output divided by the input ...
... • Notice that a negative voltage is used as the input to produce a positive output voltage • The gain is the output divided by the input ...
JF BAI ENGINEERING 3C2 ELECTRICITY AND MAGNETISM
... A MOS transistor has fabrication technology parameters µ nCOX = 50µAV-2, VT = 0.5V and λ=0V-1. The manufacturing process allows a minimum dimension of 0.5µm and all dimensions must be integer multiples of this. A simple common-source amplifier is to operate with a load resistance of 100kΩ and a bias ...
... A MOS transistor has fabrication technology parameters µ nCOX = 50µAV-2, VT = 0.5V and λ=0V-1. The manufacturing process allows a minimum dimension of 0.5µm and all dimensions must be integer multiples of this. A simple common-source amplifier is to operate with a load resistance of 100kΩ and a bias ...
Single Stage Transistor Amplifiers Introduction
... relation between VCE and IC linear so that it can be represented by a straight line on the output characteristics. ...
... relation between VCE and IC linear so that it can be represented by a straight line on the output characteristics. ...
Quiz #03 ID#: Name:
... 1. Draw the equivalent circuit of an OPA and list the characteristics of the ideal Op Amp. (10 points) ...
... 1. Draw the equivalent circuit of an OPA and list the characteristics of the ideal Op Amp. (10 points) ...
Operational Amplifiers IDEAL OPERATIONAL AMPLIFIERS
... AMPLIFIERS Under the ideal-opamp assumption, the non- inverting amplifier is an ideal voltage amplifier having infinite input resistance and zero output resistance. ...
... AMPLIFIERS Under the ideal-opamp assumption, the non- inverting amplifier is an ideal voltage amplifier having infinite input resistance and zero output resistance. ...
7782 AMPLIFIER AE Techron
... f Over 4,000 watts peak output; 2858 watts rms into a 2 ohm load f 40 mSec pulses of up to 150 amperes peak into a 1 ohm load f Can be connected (up to four units) in series or parallel with other 7782 amplifiers. f Utilizes Bi-LevelTM Smart Power supply, able to generate both high voltage & high cu ...
... f Over 4,000 watts peak output; 2858 watts rms into a 2 ohm load f 40 mSec pulses of up to 150 amperes peak into a 1 ohm load f Can be connected (up to four units) in series or parallel with other 7782 amplifiers. f Utilizes Bi-LevelTM Smart Power supply, able to generate both high voltage & high cu ...
ETEE3212 Spring 2008 Test
... an op amp with an input offset voltage of 3 mV and with output saturation levels of + 10V. Hint: Assume RF >> Ro and that Go, Rcm and Ri are much larger than either RA or RF. a. What is (approximately) the peak sine-wave input signal that can be applied without the output clipping? b. If the effect ...
... an op amp with an input offset voltage of 3 mV and with output saturation levels of + 10V. Hint: Assume RF >> Ro and that Go, Rcm and Ri are much larger than either RA or RF. a. What is (approximately) the peak sine-wave input signal that can be applied without the output clipping? b. If the effect ...
Amplifier
An amplifier, electronic amplifier or (informally) amp is an electronic device that increases the power of a signal.It does this by taking energy from a power supply and controlling the output to match the input signal shape but with a larger amplitude. In this sense, an amplifier modulates the output of the power supply to make the output signal stronger than the input signal. An amplifier is effectively the opposite of an attenuator: while an amplifier provides gain, an attenuator provides loss.An amplifier can either be a separate piece of equipment or an electrical circuit within another device. The ability to amplify is fundamental to modern electronics, and amplifiers are extremely widely used in almost all electronic equipment. The types of amplifiers can be categorized in different ways. One is by the frequency of the electronic signal being amplified; audio amplifiers amplify signals in the audio (sound) range of less than 20 kHz, RF amplifiers amplify frequencies in the radio frequency range between 20 kHz and 300 GHz. Another is which quantity, voltage or current is being amplified; amplifiers can be divided into voltage amplifiers, current amplifiers, transconductance amplifiers, and transresistance amplifiers. A further distinction is whether the output is a linear or nonlinear representation of the input. Amplifiers can also be categorized by their physical placement in the signal chain.The first practical electronic device that amplified was the Audion (triode) vacuum tube, invented in 1906 by Lee De Forest, which led to the first amplifiers. The terms ""amplifier"" and ""amplification"" (from the Latin amplificare, 'to enlarge or expand') were first used for this new capability around 1915 when triodes became widespread. For the next 50 years, vacuum tubes were the only devices that could amplify. All amplifiers used them until the 1960s, when transistors appeared. Most amplifiers today use transistors, though tube amplifiers are still produced.