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Supplier: RFMW
Description: The RF2051 is a very wideband RF frequency conversion chip with integrated local oscillator (LO) generation and a pair of RF mixers. The RF synthesizer includes an integrated fractional-N phase locked loop with voltage controlled oscillators (VCOs) and dividers to produce a
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Supplier: RFMW
Description: The RF2052 is a very wideband RF frequency conversion chip with integrated local oscillator (LO) generation and an RF mixer. The RF synthesizer includes an integrated fractional-N phase locked loop with voltage controlled oscillators (VCOs) and dividers to produce a low-phase
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Supplier: Richardson RFPD
Description: The ADMV1013 is a wideband, microwave upconverter optimized for point to point microwave radio designs operating in the 24 GHz to 44 GHz radio frequency (RF) range. The upconverter offers two modes of frequency translation. The device is capable of direct
- Conversion Gain: 21 dB
- Converter Type: Upconverter / Downconverter
- Form Factor: Other
- Input Frequency Range: 24000 to 44000 MHz
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Supplier: Infineon Technologies AG
Description: minimizing the external BOM. Thanks to the integrated MOSFET, the support of a wider input voltage range is possible and snubber circuitry can be optimized further to enhance the efficiency/standby performance of the converter. Available in the DIP-7 package, the
- Configuration / Function: Flyback Converter
- IC Package Type: Other
- Operating Temperature: -40 to 129 C
- Output Power: 15 watts
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Supplier: Analog Devices, Inc.
Description: Product Details The LTC3124 is a dual-phase, synchronous step-up DC/DC converter with true output disconnect and inrush current limiting capable of providing output voltages up to 15V. Dual-phase operation significantly reduces peak inductor and capacitor ripple currents,
- IC Package Type: Other
- Operating Temperature: -40 to 125 C
- Regulator Category: Switching Regulator
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Supplier: Analog Devices, Inc.
Description: Product Details The ADL6010 is a versatile, broadband envelope detector covering the microwave spectrum. It provides state-of-the-art accuracy with very low power consumption (8 mW) in a simple, easy to use 6-lead format. The output is a baseband voltage proportional to
- Frequency Range: 500 to 43500 MHz
- IC Package Type: Other
- Operating Temperature: -55 to 125 C
- Pin Count: 6
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Supplier: ValueTronics International, Inc.
Description: technology. Covering the frequency range from 1 Hz to 110 kHz, with precise 3 digit frequency tuning, the 4402B produces a virtually “distortion-free” (<0.0005%) sinewave for measuring A/D converter accuracy, audio preamplifier and power amplifier harmonic distortion.
- Device Type: Generator
- Generator Type: Function, Signal
- Maximum Frequency Range: 0.1100 MHz
- Minimum Frequency Range: 0.1100 MHz
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Supplier: Analog Devices, Inc.
Description: ; LO for RF mixers, a clock source for high-frequency data-converters, or a tunable reference source for ultra-low spurious applications. Additional features of the HMC833LP6GE include RF output power control from 0 to 9 dB (3 dB steps), output Mute function, and a delta-sigma
- Features / Standards: RoHS Compliant
- Operating Temperature: -40 to 85 C
- Output Frequency: 25 to 6000 MHz
- Package / Form Factor: QFN
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Supplier: ValueTronics International, Inc.
Description: (absolute humidity 1 g/m3 to 29 g/m3, non-condensation) The NF Corp SA-600 Series is a wideband current amplifier (current to voltage converter) with a high gain and wide frequency band. The SA-606F2 operates stably for the added input capacitance despite a wide
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Supplier: ValueTronics International, Inc.
Description: (absolute humidity 1 g/m3 to 29 g/m3, non-condensation) The NF Corp SA-600 Series is a wideband current amplifier (current to voltage converter) with a high gain and wide frequency band. The SA-607F2 operates stably for the added input capacitance despite a wide
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Supplier: ValueTronics International, Inc.
Description: The 8010H01 is a 4 GHz TWT Amplifier from Hughes Electronics. Amplify RF and Microwave signals to measure, test, and design circuits. Applications include radio communications, cellphones, EMI testing, and much more. Additional Features: Frequency Range: 2-4 GHz
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reference and SYSREF signals. The pulse retimer feature simplifies the system design by allowing the widely distributed SYSREF to only meet the slower reference frequency timing versus the much more stringent output clock timing. Serial peripheral interface (SPI) selectable current-mode logic (CML)/low-voltage (read more)
Browse RF and Microwave Connectors Datasheets for DigiKey -
digital down converter (DDC) and multiple numerically controlled oscillators (NCOs) • Envisioned applications demand a small form factor, single channel design If you wish to read more, please click on the following link to download the complete paper here. (read more)
Browse Digital-to-Analog Converter (DAC) Chips Datasheets for Teledyne e2v Semiconductors -
The BAL-0032SSG is the industry’s only broadband SMT balun that delivers optimal phase and amplitude balance up to 32 GHz. With less than 5° of phase imbalance across the entire band, the balun provides an optimized interface for next-generation high speed data converters used in direct conversion receivers, digital beamforming, and other high-performance solutions. (read more)
Browse Data Baluns Datasheets for Marki Microwave, Inc. -
Converter Frequency to Wavelength Converter (read more)
Browse RF Filters and Microwave Filters Datasheets for Marki Microwave, Inc. -
here, opening microwave RF systems to future innovation. Such an approach can be particularly advantageous in phased array systems. Combining high sampling bandwidths extending into the Ka-band with decreasing power consumption and improved size means modern data converters are already poised (read more)
Browse Microprocessor Chips (MPU) Datasheets for Teledyne e2v Semiconductors -
excellent choice for analog to digital converters, digital to analog converters, samplers, balanced receivers, mixers, clock distribution, and general signal integrity applications. Our BAL series of 1:2 transmission line transformer baluns offer superior amplitude balance, phase (read more)
Browse Data Baluns Datasheets for Marki Microwave, Inc. -
sizes and in complex ferrite designs. Exxelia's E7000 series is a Ba-Mg-Ta based material that combines an ultra-high Q-factor and the possibility to get different temperature coefficients upon request. E7000 features the highest performance requested for space use in the frequency range from 5 to 32 (read more)
Browse EMI Filters and RFI Filters Datasheets for New Yorker Electronics Co., Inc.
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Quantum Physics Exploring Gravity in the Outer Solar System: The Sagas
Project
…frequencies of these latter two lasers are controlled by mixing the optical beat signal (in the range of 8.5 to 9.2 GHz) with the microwave reference at 9.1 GHz, via frequency to voltage converter (FVC) or phase lock…
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High signal to noise ratio THz spectroscopy with ASOPS and signal processing schemes for mapping and controlling molecular and bulk relaxation processes
The difference in repetition rate (∆f ≈ 20 kHz) is obtained using a microwave mixer and sent to an AD650 (Analog Devices) frequency to voltage converter (100 kHz full scale with 0.005% linearity) which provides an output between 0 and…
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A Josephson-array calculable-waveform generator
Each junction behaves as a frequency - to - voltage converter generating a dc voltage that is strictly proportional to an input microwave frequency.
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The elimination of error of measurement of substance flow speed by the accounting of variation of its electrophysical parameters
Flowmeter consist of microwave reference oscillator MWO, directional couplers DC1 and DC2, phase shifter PS, phase detector PD, voltage adder SUM, mixer MIX, selective-limiting amplifier SLA, frequency - to - voltage converter FVC, analog-to-digital converter ADC and antennas A1, A2…
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A 10 V programmable Josephson voltage standard circuit with a maximum output voltage
of 20 V
Josephson voltage standards are based on the ac Josephson effect, in which a microwave field of frequency f produces quantized voltages V = nf/KJ−90, where n … the Josephson constant; namely, the Josephson junction is used as a frequency - to - voltage converter [1]. .
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Development and metrological applications of Josephson arrays at PTB
For the representation of the unit of voltage, equation (2) describes a perfect frequency to voltage converter . .... Microwaves with frequencies in the GHz range can be referenced to an atomic clock and finely tuned, locked and reproduced to the level of a few parts in 1011 or better.
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CR4 - Thread: All The Stupid Things
Next in Forum: Don't Microwave the Coffee Man! .... You might be interested in: Analog-to-Digital Converter (ADC) Chips, Digital-to-Analog Converters, Frequency - to - Voltage Converter Chips .
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Impingement Identification in a High Speed Diesel Engine Using Piston Surface Temperature Measurements
The transmitted signal is received by an antenna mounted in the engine block, which passes the high frequency signal to a bench-top microwave receiver. .... The receiver demodulates the data to a square wave, and a frequency - to - voltage converter demodulates the square wave to reproduce the thermocouple signal.
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Lasers frequency stabilization, channel identification, state of polarization, and their interaction in multichannel coherent optical systems
Other authors proposing overtone based systems do not use a squaring device, so they need a microwave PLL to lock and recognize the FM modulation around the carrier. .... Meanwhile with the squaring device, it is just necessary an active bandpass filter to reject high order harmonics and a simple frequency - to - voltage converter which sends the information to the microprocessor.
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A laser setup for rubidium cooling dedicated to space applications
The beat note at m12 = 3.284 GHz is then amplified and mixed with a reference signal, given by a microwave synthesizer at m = 1.562 GHz doubled in frequency. .... The resulting signal frequency at 8 MHz is divided by 16 and sent to a frequency - to - voltage converter (FVC, AD650) which derives an error signal proportional to the frequency difference between the two lasers.