Keysight (Agilent) N9344C CALIBRATION and Keysight (Agilent) N9344C 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) N9344C 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) N9344C   Description / Specification:    
Keysight (Agilent) N9344C 20 GHz Handheld Spectrum Analyzer

The Keysight N9344C 20 GHz 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.
Specifications.

Frequency.
Range: 1 MHz to 20 GHz (usable to 9 kHz, Option BB1).

Frequency span.
Range: 0 Hz (zero span), 100 Hz to 20 GHz.
Resolution: 1 Hz.
Accuracy: ± (0.22% ×span + span/(sweep point −1)), nominal.

Sweep time.
Range: 2 ms to 1000 s (Span ≥ 100 Hz), 600 ns to 200 s (Span = 0 Hz(zero span)).
Mode: Continuous, Single.
Trigger Source: Free run, video, external, RF burst.

Resolution bandwidth (RBW).
Range (−3 dB bandwidth): 10 Hz to 3 MHz in 1-3-10 sequence.
Accuracy: ± 5%, RBW = 10 Hz to 1 MHz (Nominal), ± 10%, RBW = 3 MHz.

Measurement range.
1 to 500 MHz: Displayed average noise level (DANL) to +10 dBm, Preamp off.
500 MHz to 20 GHz: Displayed average noise level (DANL) to +20 dBm, Preamp off.
Input attenuator range: 0 to 50 dB, in 5 dB steps.

Maximum safe input level.
Average continuous power: +30 dBm, 3 minutes maximum.
DC voltage: ± 50 VDC maximum.

Displayed average noise level (DANL) Preamp on, Normalized to 1 Hz.
  1 to 10 MHz: −140 dBm, −156 dBm typical.
  10 MHz to 3 GHz: −150 dBm, −154 dBm typical.
  3 to 6 GHz: −145 dBm, −150 dBm typical.
  6 to 13 GHz: −151 dBm, −155 dBm typical.
  13 to 16 GHz: −149 dBm, −153 dBm typical.
  16 to 18 GHz: −147 dBm, −151 dBm typical.
  18 to 20 GHz: −137 dBm, −142 dBm typical.

Options.
N9344C-AMA, AM/FM Modulation Analysis.
N9344C-DMA, ASK/FSK Modulation Analysis.
N9344C-EMC, EMI filters and quasi-peak detector.
N9344C-GPS, Built-in GPS Receiver, with Built-in GPS Antenna.
N9344C-P20, Preamplifier, 20 GHz.
N9344C-PWM, USB Average Power Sensor Support.
N9344C-PWP, USB Peak and Average Power Sensor Support (U2020/U2040 X-Series).
N9344C-SCN, Channel Scanner.
N9344C-SEC, Security Features.
N9344C-SIM, Spectrum Monitor with Spectrogram Record and Playback.
N9344C-TG7, Tracking Generator, 7 GHz.
N9344C-TMG, Time-Gated Spectrum Analysis.
N9344C-TPN, Task Planner for Test Automation.



 

Standard Calibration $625.00 *
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*This is a Web introductory price for one calibration of the Keysight (Agilent) N9344C. 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.

Available Gain
Available Gain is the ratio, at a specific frequency, of power available from the output to the power in from the source.

Frequency Span
Frequency Span specifies the range between the start and stop frequencies, also referred to as bandwidth

Peak Envelope Power
Peak envelope power is the maximum value of the envelope power. Envelope power is measured by making the averaging time much less than 1/fm where fm is the maximum frequency component of the modulation waveform. The averaging time is therefore limited on both ends: (1) it must be small compared to the period of the highest modulation frequency, and (2) it must be large enough to be many RF cycles long.

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