Showing results: 16 - 30 of 179 items found.
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Hilkar
Smoothing Reactors are serially connected reactors inserted in DC systems to reduce harmonic currents and transient over currents and/or current ripples in DC systems.
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DPS16 -
APPLICOS
The DPS16 is a dual-channel power supply with very low output noise and no ripple. The output current can be up to 200 mA and has a programmable current limit. The 4 wire capability provides an excellent load regulation. Because the DPS16 is a fully linear design the output noise is exceptionally low while there are no ripple components as usually seen with switched mode designs. The unit has voltage and current read back on both channels with 16-bit resolution.
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TOMSAD
*16 hours at full load*Low ripple and noise*Automatic switching CV / CC*Aluminum heat sink*Displays 3 or 4 digit depending on the model
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TOMSAD
*16 hours at full load*Low ripple and noise*Automatic switching CV / CC*Aluminum heat sink*Displays 3 or 4 digit depending on the model
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FIL1 -
Lifasa - International Capacitors, SA
FIL condensers are specially designed for use in direct current sources and their functions are to filter the alternating output ripple and protect the line from instantaneous peaks and surges of tension.
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Renesas Electronics Corp.
Renesas offers dual channel synchronous-buck PWM controllers featuring our Robust Ripple Regulator (R3) technology that deliver truly superior dynamic response to input voltage and output load transients.
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PHV Series -
TDK-Lambda Corp.
*High efficiency > 90%*Ultra low 0.01% peak-peak output ripple*Protected against short circuits and arcs*CE Mark, EN61010 safety compliant*19" rack mount*Three year warranty
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GECC 3000 / 1500 -
Altanova Group
The DC voltage power supply models GECC3000 and GECC 1500 are designed for supplying the DC voltage and current for testing any type of system which requires an high-power, ripple free DC power supply
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UEP6021 -
W-IE-NE-R, Plein & Baus GmbH
The UEP 6021 Power Supply is a very high density, high sophisticated microprocessor controlled modular power unit. It is designed in WIENER "Low-Noise-Cavity-VHF-switching technology" which features extremely low ripple and noise (PARD).
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PW-4033 -
PINTEK Electronics
*4 digits, 4 display*Tracking operation*Low Ripple & Noise: ≦0.4mVrms*High Resolation Read out: 10mv/1mA*10 Turn VR for Voltage and current Setting*Triple output: 0-30V/0-3AX2 ,5V Fixed/0-3A
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NGE100B -
Rohde & Schwarz GmbH & Co. KG
The R&S®NGE100B DC Power supply series consists of robust, high-performance, affordable instruments. They offer high efficiency combined with low ripple plus a variety of comfort functions that are not usually found in this class of power supplies.
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D1 International
Low Cost Single Dual and Triple outputs Isolated Outputs Low Ripple, Regulated Outputs Standard packages and pin outs Custom Designs availableNew Miniature V3 Series features HighVoltage Isolation, SIP and DIP packages
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Carl E. Holmes Company
Variable DC power supplies are AC to DC power supplies with a variable DC output. The output can be varied with an SCR controller. The AC input power can be single-phase or three phases. With single-phase AC input, the DC output ripple is very high (50%). With three-phase AC input, the DC output ripple is low (5%). This would be a key benefit for selecting three-phase AC input instead of a single phase.
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Intepro Systems
Intepro Systems offers a wide selection of Auto-Ranging programmable DC Power Supplies. Each DC Power Supply are MOS-FET based, resulting in a high performance power stage that offers high speed slew rates and low output ripple.
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Allegro MicroSystems
Minimize noise and vibration in your stepper motor designs with our QuietStepTM adaptive stepper motor drivers. We offer a complete lineup of stepper motor drivers for office automation, industrial, and automotive applications. Our advanced QuietStepTM solutions use proprietary algorithms to reduce torque ripple and current distortion. To minimize ripple current for the various operating conditions, QuietStepTM adaptive stepper motor drivers perform on-the-fly adjustments to the amount of fast decay during a pulse-width modulation (PWM) cycle. This adaptive feature improves system performance, reduces audible motor noise and vibration, and increases step accuracy.