Setting Up the System

Setting the GPIB Address

5.1 Setting the GPIB Address

To set the GPIB address of the attenuator

1.Press SYST.

2.Edit the value for ADDRESS using the Modify keys.

Resetting the GPIB Address

To reset ADDRESS, press and hold SYST until the value resets (this takes approximately two seconds).

ADDRESS resets to 28.

5.2Selecting the Wavelength Calibration and Its Function

The attenuation at any point on the filter is wavelength dependent. This dependence is measured and stored in the instrument, and is used, with the value for the wavelength entered by the user to compensate for the dependence. This is the wavelength calibration data.

As well as the wavelength calibration data measured for and stored in your instrument in the factory, there is space reserved in memory for a set of your own user calibration data.

There are two choices concerning the use of wavelength calibration data.

Whether or not the data should be used to position the filter to compensate for wavelength dependence.

Whether the factory-made wavelength calibration data is used, or the data entered by the user.

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Agilent Technologies 8156A manual Setting the Gpib Address, Resetting the Gpib Address

8156A specifications

Agilent Technologies 8156A is a high-performance optical source offering advanced capabilities for testing and characterizing optical systems. Specifically designed for applications in telecommunications and data communications, the 8156A stands out due to its precision, versatility, and reliability, making it an essential tool for engineers and researchers in the telecommunications industry.

One of the main features of the 8156A is its ability to generate a stable, accurate, and tunable optical signal. This optical source operates across a wide wavelength range, typically from 1260 nm to 1675 nm, covering key regions used in fiber optics. The tunable laser module is particularly beneficial for applications requiring the testing of fiber optic components, systems, and networks, enabling users to specify any wavelength within this range.

The device employs advanced technologies, including distributed feedback (DFB) laser technology, offering low noise and high output power while ensuring minimal phase and frequency jitter. This results in precise measurements that are crucial for evaluating the performance of optical devices. The 8156A also features a built-in optical power meter, allowing for seamless integration and real-time monitoring of optical power levels during testing.

Another significant characteristic of the 8156A is its user-friendly interface, which includes easy-to-read displays and intuitive controls. This design simplifies operation, allowing users to set up tests quickly and efficiently. Additionally, it provides various output options, including single-mode and multi-mode fiber interface compatibility, expanding its usability across different applications.

The 8156A is equipped to handle numerous protocols and systems, including passive optical networks (PON), optical transport networks (OTN), and traditional wavelength-division multiplexing (WDM) technologies. Its agility in adapting to various protocols enhances its role in research and development settings.

Moreover, the device offers a range of automation features, enabling users to script complex measurement sequences, making it an adaptable solution for both laboratory and field environments. Combined with its robust build quality, the Agilent Technologies 8156A optical source not only ensures reliable operation but also provides a long service life, making it a valuable investment for any optical testing application.