ANRITSU MS4622B CALIBRATION and ANRITSU MS4622B 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 ANRITSU MS4622B Calibration, onsite calibration may be available. We specialize in quick turnaround times and we can handle expedited deliveries upon request.

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   ANRITSU MS4622B   Description / Specification:   Spec Sheet 
ANRITSU MS4622B 3 GHz Vector Network Measurement System

The Anritsu MS4622B 3 GHz, 2-Port Vector Network Measurement System (VNMS) for passive, active, and frequency translating devices. This powerful S-parameter configuration offers the performance, ease-of-use and versatility of a vector network analyzer (VNA) with integrated options that allow 3-Port, Noise Figure, Harmonic, Frequency Translating Group Delay and Intermodulation Distortion (IMD) measurements. The 3-port configuration includes mixed-mode S-parameters, arbitrary impedance and powerful embedding/ de-embedding routines. True 2 and 3-Port Calibrations, mixed-Mode S-Parameters, Arbitrary Impedance. Specifications. Frequency Range: 10 MHz to 3 GHz. Source Power Range (No Options): +10 to –85 dBm. Level Accuracy: ±1 dB. Sweep Range: 20 dB Minimum. Harmonics: –30 dBc. Stability: <5 ppm / year. Receiver Average Noise, 10 Hz <3 GHz: –115 dBm. Receiver 0.1 dB Compression: +7 dBm. Receiver Maximum Input: +27 dBm. Receiver Damage Level: +30 dBm. System Dynamic Range (Terminated): 125 dB (10 to 3000 MHz). High Level Noise: <0.008 dB rms (10 to 3000 MHz). IF Bandwidth Range: 10 Hz, 30 Hz, 100 Hz, 300 Hz, 1 kHz, 3 kHz, 10 kHz, and 30 kHz. Data Points: 1, 3, 15, 51, 101, 201, 401, 801, and 1601; Arbitrarily use Discrete Fill for 2 to 1601 points. Impedance: 50 Ohms. Frequency Resolution: 1 Hz. Power Output Range: +10 to –85 dBm (2-Ports No Options), +10 to –85 dBm (3-Ports Without Noise Figure), +7 to –85 dBm (2, 3 or 4-Ports Add Noise Figure). Power Control Range: >20 dB. The minimum absolute level for power sweep is -15 dBm while the maximum power output for a unit is typically +10 dBm, depending upon configuration. Power Level Accuracy: ±1 dB to 6 GHz, ±1.5 dB to 9 GHz (no flat power calibration applied; full-band frequency sweep at -15 dBm, 0 dBm, and maximum rated power). Sweep Type: Linear, CW, Marker, or N-Discrete point sweep. Liquid Crystal Display: A Color 8.4" Thin Film Transistor (TFT) LCD display. Options. 1: Rack Mount Kit. 1A: Rack Mount Kit for use with System Console. 2: Time (Distance) Domain Measurement Capability. 3A: Second Internal Source, Third Test Port. 4: Noise Figure, 50 MHz to 3 GHz. 5: Frequency Translation Group Delay. 6: Third Test Port Without Second Internal Source. 7: Transmission and Reflection Step Attenuator. 8: Harmonic Measurements. 13: Intermodulation Distortion (IMD). 15: Internal 500 MB Hard Drive.



 

Standard Calibration $700.00 *
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*This is a Web introductory price for one calibration of the ANRITSU MS4622B. 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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