BOONTON 51012(4C) CALIBRATION and BOONTON 51012(4C) REPAIR
 
A calibration by Custom-Cal is performed by engineers with extensive OEM experience. We have the expertise and the necessary standards to perform the BOONTON 51012(4C) Calibration, onsite calibration may be available. We specialize in quick turnaround times and we can handle expedited deliveries upon request.

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   BOONTON 51012(4C) (51012-4C)   Description / Specification:    
BOONTON 51012(4C) 1 GHz Dual Diode Sensor

The Boonton 51012-4C 1 GHz Dual Diode Sensor is constructed using balanced diode detectors. This dual diode configuration offers increased sensitivity and harmonic suppression when compared to a single diode sensor. For use with Models 4731, 4732, 4231A, 4232A, 4300, 4531, 4532, 5231, 5232, 5731, 5732. Specifications. Frequency Range: 100 kHz to 1 GHz. Dynamic Range: -60 to +20 dBm. Overload Rating Peak Power: 1 W for 1µs. Overload Rating CW Power: 300 mW. Maximum SWR: 100 kHz to 1 GHz, 1.18. Drift (typ.) 1 Hour: 150 pW. Noise RMS (typical): 65 pW. Impedance: 75 ohm. RF Connector: Type N (M).



 

Standard Calibration $285.00 *
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*This is a Web introductory price for one calibration of the BOONTON 51012(4C). Price does not in most cases include measurement performance data. Pricing does include NIST traceable calibration and issue of a calibration certificate and calibration label. Pricing may vary slightly due to volume and location of laboratory supporting calibration. Volume pricing may apply. On-site fees may apply depending on logistics, location and volume of work to be completed during the visit.


Related RF Terms and Definitions. For a complete list go to our  Terms and Definitions Page.

dBm
dBm (sometimes dBmW) is an abbreviation for the power ratio in decibels (dB) of the measured power referenced to one milliwatt (mW). Zero dBm equals one milliwatt. A 3 dB increase represents roughly doubling the power, a 3 dB decrease, the power is reduced by about one half.

Noise Figure
Noise Figure the ratio of the signal-to-noise power ratio at the input to the signal-to-noise power ratio at the output.

Standing Wave Ratio (SWR)
Standing wave ratio (SWR) is the ratio of the amplitude of a partial standing wave at an antinode (maximum) to the amplitude at an adjacent node (minimum).

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