Agilent Technologies 8510C manual Source options, Accessories

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Agilent E7350A single-connection single-sweep network analyzer system (2 to 110 GHz)

The E7350A is a complete system configured with an 8510C, a 20 GHz and 50 GHz synthesizer, two 110 GHz S-parameter test heads, and a millimeter test set controller. The instruments are integrated in the system rack, the system is fully tested, and a complete system verification is performed prior to shipment from Agilent. Installation is included at no additional charge. The E7350A system does not include calibration kits or test port cable sets.

System components include: 8510C network analyzer E7352A millimeter subsystem 83621B synthesizer 83651B synthesizer

System rack

Calibration kits and test port cables are not included and must be ordered separately.

Test set options

E7340A-STDStandard configuration

E7340A-005Add (45 MHz to 2 GHz) low frequency extension

E7340A-006Add RF pass thru (provides coupled output of 50 GHz source for additional test set(s). Additional test set(s) must have Option 001 installed)

E7340A-056Low frequency extension and RF pass through

Features

8510C-010Add time domain

Voltage options

E7340A-115110/120 V line voltage operation

E7340A-230220/240 V line voltage operation

Extended service options are available.

Agilent 85107B network analyzer system (45 MHz to 50 GHz)

The 85107B is a complete system configured with a 50 GHz synthesizer, 50 GHz S-parameter test set, and 2.4 mm measurement accessories. The instru- ments are integrated in the system rack, the system is fully tested, and a complete system verification is performed prior to shipment from the factory. Installation is included at no additional charge.

System components include: 8510C network analyzer

8517B test set with Option 002 (deleted step attenuators and bias tees) 83651B synthesizer

85056A calibration kit

85133F cable set

85043C rack

Test set options

85107B-STDStandard configuration

85107B-005Add attenuators and bias network (not compatible with 85107B-STD)

85107B-007High power and high dynamic range configuration (requires 85107B-005)

Source options

85107B-51BStandard 50 GHz synthesized sweeper, no front panel

85107B-50B50 GHz synthesized source with front panel

85107B-50L50 GHz CW synthesized source with front panel

Features

8510C-010Add time domain

Voltage options

85107B-115110/120 V line voltage operation

85107B-230220/240 V line voltage operation

Accessories

85107B-0022.4mm calibration kit and cables

85107B-0013.5mm calibration kit and cables

85107B-E33Do not include 2.4mm kit and cables (not compatible with 85107B-002)

Extended service options are available.

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Contents Complete systems FeaturesMHz to 110 GHz Test set optionsAccessories Source optionsFrequency range select one Test set attenuation optionsCalibration kit options select one Frequency range select one 85108A-STD 2 20 GHz System components 85105A millimeter-wave test set controller Millimeter-wave test sets and controllersSources 83623L synthesized sweeper 45 MHz to 20 GHz forMeasurement accessories Common options for RF sourcesCalibration kits 85052C 045 toVerification kits Test port cables and adaptersFor Agilent 85110L test sets Mm rugged test port connectors Test configuration accessories System upgrades Upgrades for 85107B and 85109CUpgrades for 8510C Instrument and firmware upgrades Upgrades for 8510AUpgrades for 8510B Time domain upgradeTest set upgrades Miscellaneous compatibility upgradesRelated Agilent literature Agilent Email Updates
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Manual 41 pages 24.69 Kb

8510C specifications

Agilent Technologies 8510C is a sophisticated network analyzer renowned for its high performance and precision in measuring small signals. Renowned in the electronic test and measurement industry, the 8510C is particularly suited for applications in microwave and RF engineering. This versatile instrument excels in characterizing both passive and active devices, making it indispensable for engineers working on circuit design, antenna measurement, and RF component testing.

One of the main features of the 8510C is its frequency coverage, which spans from 10 MHz to 50 GHz, allowing users to test a wide range of devices and components. This broad frequency range enables the analyzer to address various applications involving microwave frequencies, such as satellite communications and radar systems. Additionally, the device provides exceptional dynamic range, enabling accurate measurements of weak signals alongside more robust signals, a critical feature for today’s complex systems.

The 8510C utilizes state-of-the-art frequency synthesis technology, which enhances its signal stability and allows for precise frequency sweeps. It employs direct signal sampling techniques to improve measurement accuracy and reduce noise, providing engineers with reliable data to support their designs. The instrument boasts a high-resolution display that aids in visualizing S-parameter measurements, enhancing the analysis of transmission and reflection characteristics of devices under test.

Another prominent characteristic of the 8510C is its ability to perform automated measurements, greatly improving productivity in the lab. The device supports multiple measurement formats, including time domain and frequency domain measurements, broadening its application range. Additionally, it can be integrated with other Agilent instruments, offering seamless interconnectivity and advanced measurement capabilities.

The intuitive user interface simplifies operation, allowing engineers to focus on measurement tasks rather than navigating complex controls. The 8510C is compatible with several software packages, including Agilent’s ADS (Advanced Design System), facilitating comprehensive data analysis and modeling.

In summary, the Agilent Technologies 8510C is a cutting-edge network analyzer characterized by its extensive frequency coverage, remarkable dynamic range, accurate measurements, and user-friendly interface. This instrument empowers engineers to achieve high levels of precision and efficiency in their testing processes, making it a cornerstone in the field of RF and microwave engineering.