TEST

MODEL

RECORD

68287B/68387B

4-13 FM Calibration (68287B/68387B with Firmware Version 1.01 to 2.10)

Procedure Step

Step Completion

1.

FM Meter Calibration (calterm 123)

______________

2.

FM Offset Balance Calibration (calterm 126)

______________

3.

External FM Wide Sensitivity Calibration (calterm 124)

______________

4.

External FM Narrow Sensitivity Calibration (calterm 125)

______________

5.

Internal FM Wide Sensitivity Calibration (calterm 143)

______________

6.

Internal FM Narrow Sensitivity Calibration (calterm 144)

______________

7.

Store the Calibration Data

______________

4-13 FM Calibration (68287B with Firmware Version 2.18 and above;

 

 

68387B with Firmware Version 2.20 and above)

 

 

 

Procedure Step

Step Completion

1.

FM Meter Calibration (calterm 123)

______________

2.

FM Variable Gain Linearity Calibration (calterm 148)

______________

3.

External Unlocked Wide FM Mode Sensitivity Calibration (calterm 124)

______________

4.

Internal Unlocked Wide FM Mode Sensitivity Calibration (calterm 143)

______________

5.

External Locked, Locked Low-Noise, and Unlocked Narrow FM Mode Sensitivity

 

 

Calibration (calterm 125)

______________

6.

Internal Locked, Locked Low-Noise, and Unlocked Narrow FM Mode Sensitivity

 

 

Calibration (calterm 144)

______________

7.

FM Rear Panel Input Gain Calibration (calterm 154)

______________

8.

Store the Calibration Data

______________

682XXB/683XXB MM

A-241

Page 479
Image 479
Anritsu manual 682XXB/683XXB MM 241, FM Calibration 68287B/68387B with Firmware Version 1.01 to

682XXB, 683XXB specifications

The Anritsu 683XXB and 682XXB series are advanced vector network analyzers (VNAs) renowned for their precision and versatility in characterizing RF and microwave components. Designed for engineers and technicians involved in the development, manufacturing, and testing of high-frequency devices, these analyzers offer state-of-the-art technology that ensures optimal performance in various applications.

One of the hallmark features of the Anritsu 683XXB and 682XXB is their high dynamic range, which allows for accurate measurements of small reflection and transmission coefficients, essential for assessing the performance of complex RF structures. With frequency coverage extending from DC to 70 GHz, these analyzers cater to a broad spectrum of applications, making them suitable for industries such as telecommunications, aerospace, and automotive.

The user-friendly interface of the Anritsu VNAs is complemented by a high-resolution display, which facilitates easy navigation through measurement setups and results. The analyzers feature multiple measurement modes, including S-parameter measurements, time-domain analysis, and noise figure measurements, providing engineers with comprehensive tools for device characterization.

Both the 683XXB and 682XXB implement advanced calibration techniques, including automated calibration and error correction methods, to enhance measurement accuracy. These methods significantly reduce the uncertainties associated with test setups, enabling reliable performance evaluations of components like filters, amplifiers, and antennas.

Anritsu’s proprietary technologies, such as the VectorStar and ShockLine series integration, further empower the 683XXB and 682XXB models. These technologies enable high-throughput testing and improved measurement stability, addressing the needs of modern production environments that demand rapid turnaround times without sacrificing precision.

Additionally, the analyzers come equipped with various connectivity options, including USB, LAN, and GPIB, ensuring seamless integration into automated test systems. This adaptability enhances the analyzers' utility in both laboratory settings and field operations.

In conclusion, the Anritsu 683XXB and 682XXB series vector network analyzers represent the pinnacle of RF and microwave testing technology. With their unmatched precision, comprehensive measurement capabilities, and advanced calibration techniques, these instruments are indispensable tools for professionals striving to push the boundaries of high-frequency device performance and reliability.