Showing results: 76 - 90 of 254 items found.
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8002 -
April Instrument
25C, hysteresis eliminated. To within 10 MHz of the final frequency. Normal switching mode, SSB phase noise will be degraded in the fast switching mode.
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SLC Series -
Noise eXtended Technologies S.A.S.
The SLC is a very affordable single or dual clock 7 GHz synthesizer that exhibits outstanding phase noise and jitter performance in a very small package.
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Precise Time and Frequency, Inc.
The ptf 4220A is an Ultra Low Noise Disciplined Frequency Standard with rubidium and OCXO clean-up oscillator.The instrument contains a high performance rubidium module, with an extended life design, and very low aging rate, with high quality OCXO o/p for low phase noise.
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Bonn Hungary Electronics Ltd.
*Low or very low phase noise versions*Low spurious*Compact size*Built in high stability reference*Single or dual outputs*Low consumption version
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Brandywine Communications
Brandywine offers a wide range of high quality, state of the art signal timing distribution amplifiers, all with very low phase noise. These precision timing signal distribution amplifiers offer a variety of time and frequency signals and interface formats including IRIG A, IRIG B, Have Quick, 1PPS, as well as low phase noise reference frequencies. All of our distribution amplifiers feature dual inputs with automatic failover and multiple independently buffered outputs.
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8006 -
April Instrument
Normal switching mode, SSB phase noise will be degraded in the fast mode. 5 digit BCD, 1 latch control line, 25 pin female, D type connector
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8007 -
April Instrument
Normal switching mode, SSB phase noise will be degraded in the fast mode. 5 digit BCD, 1 latch control line, 25 pin female, D type connector
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8005 -
April Instrument
5 digit BCD, 1 latch control line, 25 pin female, D type connector. Normal switching mode, SSB phase noise will be degraded in the fast mode.
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SR510 -
Stanford Research Systems, Inc.
The SR510 and SR530 are analog lock-in amplifiers which can measure AC signals as small as nanovolts in the presence of much larger noise levels. Both the single phase SR510 and the dual phase SR530 have low-noise voltage and current inputs, high dynamic reserve, two stages of time constants, and an internal oscillator.
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Insight Product Company
Pulsed injection locked amplifier incorporates IMPATT diode, ferrite input/output isolators, circulators, and pulse modulator. Only DC power supply, RF input signal, and external trigger signal are required to operate amplifier. Output phase noise parameters are very close to the noise parameters of the input RF signal.
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Smiths Interconnect
Offering synthesizer architectures supporting operating frequencies from 0.1 to 40 GHz. Our direct analog and digital designs feature fast switching speed of less than 100 nanoseconds and ultra-low phase noise. Our wideband indirect synthesizer designs support your requirements for smaller size and lower power consumption and offer typical switching speed of less than 500 microseconds. Composite architecture designs (Direct and Indirect Synthesis) are also available to optimize phase noise, switching speed, size and power consumption.
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Analog Devices Inc.
Analog Devices’ leading PLL synthesizer family includes single and dual PLLs, as well as fractional-N and integer-N, and highly integrated PLLs with VCOs. They feature best-in-class performance, phase noise, and integration.
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GDX Series 3.5” x 2.5” x 0.6” -
EM Research, Inc.
*Connectorized Package *1 PPS Input from GPS Receiver *Up to Four Fixed-Frequency RF Outputs *Optional Loss of Lock Output *Optional Holdover Alarm Output *Low Phase Noise
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Analog Devices Inc.
Analog Devices’ leading PLL synthesizer family includes single and dual PLLs, as well as fractional-N and integer-N, and highly integrated PLLs with VCOs. They feature best-in-class performance, phase noise, and integration.
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Analog Devices Inc.
Analog Devices’ leading microsynthesizer family includes single PLLs, as well as fractional-N PLLs, integer-N PLLs, and highly integrated PLLs with VCOs. They feature best-in-class performance, phase noise, and integration.