Showing results: 61 - 75 of 150 items found.
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Tabor Electronics Ltd.
Power amplifiers are a must in applications requiring both complex signals as well as high voltage throughput. However, this is uncommon in high performance instrumentation, therefore an external amplification device must be used. In these cases, a high voltage amplifier is used to increase the size of a signal by some factor.
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NF Corp.
low noise wideband current amplifiers (current to voltage converter) with a high gain and wide frequency band.CA261F2 and CA-461F2 are low noise voltage amplifiers which realize high precision signal processing and high density mounting by using single-in-line package which has six-surface strict shield.
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Analog Devices Inc.
A difference amplifier is a special purpose amplifier designed to measure differential signals, otherwise known as a subtractor. A key feature of a difference amplifier is its ability to remove unwanted common mode signals, known as common mode rejection (CMR). Unlike most types of amplifiers, difference amplifiers are typically able to measure voltages beyond the supply rails, and are used in applications where large dc or ac common-mode voltages are present. They are ideal for current and voltage monitoring. Analog Devices offers a range of difference amplifiers, optimized for low distortion, low power, or high voltage performance.
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Advanced Energy
Use Trek high voltage amplifiers to drive piezoelectric elements and piezoelectric (ferroelectric) material poling.
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33502A -
Keysight Technologies
The Keysight 33502A is a dual-channel, high voltage output amplifier. It has an isolated analog front end with up to 50 Vpp (25 V) output voltage range. It is also a very low-distortion amplifier with < 0.01% @ 10 kHz and 40 Vpp. The 33502A is designed to work as a companion for function generators to offer low-distortion, higher voltage outputs.
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PAS 9717/AO-SMT -
Precision Analog Systems Co.
The PAS 9717/AO-SMT provides eight high power analog output channels with sixteen-bit resolution on a 6U VME card. Each channel consists of a high speed Digital to Analog Converter, (DAC), followed by a high power operational amplifier. The output amplifiers are capable of supplying 50 mAmps of current, and will accept power supply voltages up to +/- 100 Volts. The total power dissipated by the amplifiers must be considered for each application to determine if the amplifier will drive the load.
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Texas Instruments
TI offers the industry's most comprehensive high speed amplifier portfolio with the widest bandwidth and best in class distortion, precision and power consumption across a broad range of supply voltages. Our industry leading FDA's, DVGA's, TIA's and General purpose amplifiers coupled with the reliability and longevity of our parts makes TI the ideal supplier of high speed amplifiers.
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PIV270 -
Ponovo Power Co., Ltd.
PONOVO POWER's PIV270 Power Amplifier is equipped with feature of high power, large current, high voltage, high precision, high speed etc. It can meet different application on power and precision requirements.
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LNAM-B -
Magnicon GmbH
Fully differential ultra-low-noise voltage amplifier module (LNAM) with selected bipolar rf transistors at the input stage. The amplifier exhibits ultra-low voltage noise, very high speed, and good dc precision. 50 Ohm input termination realized by negative feedback allows for the lowest possible noise temperature.
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Advanced Energy
Advanced Energy's Trek high voltage power amplifiers employ unique and proprietary circuitry. Benefit from closed-loop amplifier systems that feature exceptional DC stability and excellent wideband performance characteristics. And thanks to all-solid-state designs, our amplifiers are protected from output short circuits and overvoltages.
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Manta Test Systems
Choose from Doble’s F6300e and F6350e External Amplifiers for your specific protection testing needs and requirements. These amplifiers are useful in high power protection testing applications when you need additional current and/or voltage sources, for critical high burden relay testing, as well as system modeling.
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AD8488 -
Analog Devices Inc.
Analog Devices’ charge integrator amplifiers convert the charge acquired by X-ray or photodiode detectors to a voltage. The channels are composed of CMOS transistors, using typical high input impedance CMOS gates. The integrators generate charge dependent voltages using a range of selectable capacitance values that accommodate a broad range of input charge values. The integrators are followed by single-ended input to differential output voltage amplifiers where offset and low frequency noise voltages are subtracted from the input voltages.
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Analog Devices Inc.
Analog Devices RF amplifiers are designed utilizing the company’s leading amplifier and RF IC expertise. Our extensive family of single-ended input/output, fixed-gain amplifiers can be used from dc to microwave and include gain blocks, low noise amplifiers, intermediate frequency amplifiers, driver amplifiers, and differential amplifiers. These devices offer high linearity, low noise figures, and various fixed-gain options, as well as low power consumption; they are all fully specified over frequency, temperature, and supply voltage for use in a variety of applications.
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Analog Devices Inc.
Analog Devices RF amplifiers are designed utilizing the company’s leading amplifier and RF IC expertise. Our extensive family of single-ended input/output, fixed-gain amplifiers can be used from dc to microwave and include gain blocks, low noise amplifiers, intermediate frequency amplifiers, driver amplifiers, and differential amplifiers. These devices offer high linearity, low noise figures, and various fixed-gain options, as well as low power consumption; they are all fully specified over frequency, temperature, and supply voltage for use in a variety of applications.
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Analog Devices Inc.
Analog Devices RF amplifiers are designed utilizing the company’s leading amplifier and RF IC expertise. Our extensive family of single-ended input/output, fixed-gain amplifiers can be used from dc to microwave and include low noise amplifiers, gain blocks, intermediate frequency amplifiers, driver amplifiers, and differential amplifiers. These devices offer high linearity, low noise figures, and various fixed-gain options, as well as low power consumption; they are all fully specified over frequency, temperature, and supply voltage for use in a variety of applications.