HP 11852B 50-ohm to 75-ohm minimum loss pad

(continued)

 

Connectors

50-ohm type-N (f) to

 

75-ohm type-N (m)

 

standard Option 004,

 

50-ohm type-N (m) to

 

75-ohm type-N (f)

Dimensions

14-mm D x 70-mm L

 

(0.56 in x 2.75 in)

Weight

Net 0.1 kg (0.316 lb)

50-ohm accessory kits

The HP 11853A 50-ohm type-N and the HP 11854A 50-ohm BNC accessory kits provide the RF compo- nents generally required when using either the HP 85046A, 85047A or 11850C with the HP 8753ES Option 011 when measuring devices having 50-ohm type-N or BNC connectors. These kits are supplied with a storage case.

HP 11853A 50-ohm type-N accessory kit

Includes

HP part number

Type-N (f) short

HP 11511A

Type-N (m) short

HP 11512A

Type-N (m) to N (m) adapter

1250-1475

Type-N (f) to N (f) adapter

1250-1472

HP 11854A 50-ohm BNC accessory kit

Includes

HP part number

Type-N (m) to BNC female adapter

1250-1476

Type-N (m) to BNC male adapter

1250-1473

Type-N (f) to BNC male adapter

1250-1477

Type-N (f) to BNC female adapter

1250-1474

BNC (m) short

1250-0929

75-ohm accessory kits

The HP 11855A 75-ohm type-N and the HP 11856A 75-ohm BNC accessory kits provide the RF compo- nents generally required when using either the

HP 85046B or the HP 11850D power splitter with the HP 8753ES Option 011 when measuring devices having 75-ohm type-N or BNC connectors. These kits are sup- plied with a storage case.

HP 11855A 75-ohm type-N accessory kit

Includes

HP part number

Type-N (f) short

1250-1531

Type-N (m) short

1250-1530

Type-N (m) to N (m) adapter

1250-1528

Type-N (f) to N (f) adapter

1250-1529

Type-N (m) termination

1250-1532

HP 11856A 75-ohm BNC accessory kit

Includes

HP part number

Type-N (m) to BNC (f) adapter

1250-1535

Type-N (m) to BNC (m) adapter 1250-1533

Type-N (f) to BNC (m) adapter

1250-1534

Type-N (f) to BNC (f) adapter

1250-1536

BNC (m) short

1250-0929

BNC (m) termination

11652-60010

RF limiter

Externally attaches to one or both ports of the analyz- er. Provides protection against potential high-power transients from external devices.

Specifications

HP 11930A 7-mm RF limiter

Frequency range DC to 6 GHz

Nominal insertion loss

DC to 3 GHz

1.0 dB

3 GHz to 6 GHz

1.5 dB

Return loss

 

DC to 3 GHz

22 dB

3 GHz to 6 GHz

20 dB

Maximum input power

3W

Maximum DC

30 V, 350 mA

HP 11930B 50-ohm type-N RF limiter2

Frequency range 5 MHz to 6 GHz

Nominal insertion loss

5

MHz to 3 GHz

1.0 dB1

3

GHz to 6 GHz

1.5 dB

Return loss

 

5

MHz to 3 GHz

21 dB1

3

GHz to 6 GHz

17 dB

Maximum input power

3W

HP 85024A high-frequency probe

Two probes may be powered directly from the front panel of the HP 8753ET/ES. Refer to technical specifications, HP literature #5954-8393, for more information.

Specifications

Input capacitance (at 500 MHz)

<0.7 pF (nominal)

Input resistance

1 Megohm (nominal)

Bandwidth

300 kHz to 3 GHz

Gain (at 500 MHz)

0 dB ±1 dB

Frequency response

 

300 kHz to 1 GHz

±1 dB

1 GHz to 3 GHz

+2, -3 dB

Input voltage for < 1 dB compression

 

0.3 V

Supplement characteristics

 

Noise figure

 

<100 MHz

< 50 dB

100 MHz to 3 GHz

< 25 dB

Includes

HP part/model number

Type-N (m) adapter

HP 11880A

10:1 divider

HP 11881A

Spare 12 mil probes

85024-20012

2.5-inch ground lead

01223-61302

Hook tip

HP 10229

Spanner tip

5060-0549

Probe tip nut driver

8710-1806

1.

Return loss and insertion loss limited below 16 MHz by series capacitor.

 

2.

Internal bias tees cannot be used with this limiter.

27

 

 

 

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HP 8753ET manual Ohm accessory kits, RF limiter, HP 85024A high-frequency probe

8753ET specifications

The HP 8753ET is a sophisticated vector network analyzer designed to meet the demands of RF and microwave engineering applications. This instrument is renowned for its ability to provide high-performance measurements in a compact form factor, making it a favorite among engineers and technicians alike.

One of the main features of the HP 8753ET is its ability to perform a wide array of network analysis functions. It supports S-parameter measurements, allowing for the characterization of the linearity and performance of RF circuits. With the ability to measure reflection, transmission, and impedance characteristics, users can gain deep insights into their device under test (DUT).

An essential aspect of the HP 8753ET is its frequency range capability. It typically covers frequencies from 300 kHz to 6 GHz, which is ideal for a vast range of applications, including telecommunications, radar, and electronic warfare.

The HP 8753ET is equipped with advanced analysis features such as time-domain reflectometry (TDR) and gating capabilities. This enables engineers to identify and analyze impedance mismatches and faults over a defined time window, helping to troubleshoot and optimize RF systems effectively.

Another notable technology integrated into the HP 8753ET is its user-friendly interface that combines an easy-to-navigate display with direct access to measurement functions. This minimizes the learning curve for new users while enhancing productivity for experienced professionals.

The analyzer also supports various calibration techniques, ensuring accurate and repeatable measurements. The built-in calibration kits help improve the reliability of the results while compensating for any systematic errors associated with the test setup.

Additional characteristics of the HP 8753ET include its capability for both single-port and two-port measurements. This versatility allows users to conduct a complete array of S-parameter measurements with confidence.

Furthermore, the HP 8753ET features a storage function that allows users to save and recall measurement setups and results. This capability streamlines workflows and provides easy access to historical data for review or further analysis.

Ultimately, the HP 8753ET stands out as an essential tool for engineers in the RF and microwave domain. Its combination of high-performance measurement capabilities, an intuitive interface, and flexibility makes it a preferred choice for anyone seeking reliable and thorough network analysis in their testing and development projects.