Keysight (Agilent) N9340B CALIBRATION and Keysight (Agilent) N9340B 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 Keysight (Agilent) N9340B Calibration, onsite calibration may be available. We specialize in quick turnaround times and we can handle expedited deliveries upon request.

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   Keysight (Agilent) N9340B   Description / Specification:    
Keysight (Agilent) N9340B 3 GHz Handheld RF Spectrum Analyzer

The Agilent N9340B handheld spectrum analyzer (HSA) puts the speed and performance of spectrum analysis in the hands of your field engineers. It provides powerful features for field applications. Plus, the HSA’s superior performance gives you confidence in field test results while the optimized user interface enhances field productivity. A superior combination of low displayed average noise level (DANL) and single sideband (SSB) phase noise coupled with a narrow resolution bandwidth (RBW) means your signal measurements are more reliable and you will have more confidence in your test results. The N9340B’s low DANL and SSB phase noise helps you detect very low-level signals (spurs or noise) which are close to the carrier. The DANL is –124 dBm, or –144 dBm with the optional preamplifier (30 Hz RBW, 10 MHz < fc <= 1.5 GHz). The optional preamplifier adds 20 dB gain for improved analyzer sensitivity. The N9340B includes spectrogramas a standard feature. The scrolling three-dimensional display is noted for its ability to track the frequency and power behavior over the time, particularly intermittent signals. Specifications. Frequency range: 100 kHz to 3 GHz (tunable to 9 kHz), AC coupled. Internal 10 MHz frequency reference accuracy Aging rate: ± 1 ppm / year. Frequency readout accuracy with marker (Start, stop, center, marker) Marker resolution: ( frequency span ) / ( number of sweep points – 1). Uncertainty: ± ( frequency indication × frequency reference uncertainty +1% × span + 20% × resolution bandwidth + marker resolution +1 Hz). Frequency span Range: 0 Hz (zero span), 1 kHz to 3 GHz. Frequency span Resolution: 1 Hz. Resolution bandwidth (RBW) – 3 dB bandwidth: 30 Hz to 1 MHz, 1-3-10 sequence. Measurement range Displayed average noise level (DANL): to +20 dBm. Input attenuator range: 0 to51 dB, in 1 dB steps. Maximum safe input level Average continuous power: +33 dBm, 3 minutes maximum, 50 VDC maximum. Sweep time Range: 10 ms to 1000 s (Span >=1 kHz), 6 µs to 200 s (Span = 0 Hz ( zero span )). Connector and impedance: Type - N female, 50 ohm. Display: 6.5 inch ( 170 mm ) TFT color display. Options. -INM, Extended spectrogram monitoring. -XDM, Low frequency performance enhancement and xDSL measurement capability. -IBC, low frequency performance enhancement and AM/FM In-Band On-Channel IBOCMeasurement. -PA3, 3 GHz preamplifier. -TG3, 3 GHz tracking generator. -1TC, Hard transit case. -1DN, Automotive 12 V DC charger. -AMA, AM/FM modulation analysis. -DMA, ASK/FSK modulation analysis. -TAD, Adaptor Type-N(m) 50 Ohm to Type-N (f) 75 Ohm DC to 1 GHz


Standard Calibration $400.00 *
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*This is a Web introductory price for one calibration of the Keysight (Agilent) N9340B. 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.

Adjacent Channel Power
Adjacent Channel Power is the power from a modulated communications channel that leaks into an adjacent channel. This leakage is usually specified as a ratio to the power in the main channel, but is sometimes an absolute power.

Fall Time
Fall time is the time required for the amplitude of a pulse to decrease (fall) from a specified value (usually 90 percent of the peak value exclusive of overshoot or undershoot) to another specified value (usually 10 percent of the maximum value exclusive of overshoot or undershoot).

Overshoot is the distortion that follows a major transition; the difference between the peak power point and the pulse-top amplitude computed as a percentage of the pulse-top amplitude.

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