HP 8753ET CW time sweep only, KHz to 6 GHz, To -25 dBm, 30 dBc, 20 kHz, Ms automatic, Ms manual

Page 11

Test port input characteristics (continued)

External source mode1

(CW time sweep only)

Frequency range

300 kHz to 6 GHz

R-channel input requirements (typical)

Power level

0 to -25 dBm

Spectral purity

 

Maximum

<-30 dBc

spurious input

 

Residual FM

<20 kHz

Typical settling

500 ms (automatic)

time

 

 

50 ms (manual)

Frequency readout

0.1% (automatic)

accuracy

 

Input frequency accuracy requirement2

Manual

-0.5 to 5 MHz

Accuracy

(see magnitude and phase

 

characteristics)

Magnitude characteristics

Dynamic accuracy

(10 Hz IF BW)

(300 kHz to 3GHz)

(3 to 6GHz)

Display resolution

0.001 dB/division

Marker resolution3

0.001 dB

Trace noise

 

(+5 dBm at test-port, ratio measurement, 3 kHz BW)

300 kHz to 3 GHz

< 0.006 dB rms

3 GHz to 6 GHz

< 0.010 dB rms

Reference level

 

Range

±500 dB

Resolution

0.001 dB

Stability2

 

30 kHz to 3 GHz

0.02 dB/ ˚C

3 GHz to 6 GHz

0.04 dB/ ˚C

Phase characteristics

(10 Hz IF BW)

Dynamic accuracy

Range

±180˚

(300 kHz to 3GHz)

 

(3 to 6GHz)

Display resolution

0.01˚/ division

Marker resolution3

0.01˚

Trace noise

 

(+5 dBm at test-port, ratio measurement, 3 kHz BW)

300 kHz to 3 GHz

< 0.038˚ rms

3 GHz to 6 GHz

< 0.070˚ rms

Reference level

 

Range

-180˚ to +180˚

Resolution

0.01˚

Stability

 

30 kHz to 3 GHz

0.05˚/ ˚C

3 GHz to 6 GHz

0.20˚/ ˚C

Polar characteristics

 

Range

10 x 10-12to 1000 units

 

full scale

Reference

±500 units

1.See the HP 8753ES descriptions and options for a functional description. Measurement accuracy is dependent on the stability of the input signal.

2.Typical performance.

3.Marker resolution for magnitude; phase and delay is dependent upon measured value. Resolution is limited to five digits.

11

Image 11
Contents Specifications Table of contents Measurement uncertainty Measurement port characteristicsDefinitions and test conditions Dynamic rangeNetwork analyzer HP 8753ES System performance summariesHP 8753ES 50-ohm systems Mm test portsCalibration kit HP 85032B Test-port cables HP 11857D Type-N test portsFrequency range Calibration kit HP 85033D Test-port cables HP 11857DCalibration kit HP 85036B Test-port cables HP 11857B HP 8753ES 75-ohm systemsNetwork analyzer Calibration kit HP 85039B Test-port cables HP 11857B Type-F test portsKHz to 16 MHz 100 dB MHz to 3 GHz 110 dB GHz to 6 GHz 105 dB Measurement port characteristicsTest port input characteristics HP 8753ES specificationsTest-port output characteristics7 KHz to 6 GHz CharacteristicsPhase characteristics CW time sweep onlyTest port input characteristics Option HP 8753ES Option 011 specificationsTest port output characteristics CW time sweep only KHz to 3 GHz To -35 dBm GHz to 6 GHz To -30 dBm20 kHz FrequencyOption 006 300 kHz to 6 GHz HP 8753ET specificationsTest-port output characteristics KHz to 3 GHz±180˚ Test-port input characteristicsMagnitude characteristics ±500 dBSource control HP 8753ET/ES supplemental characteristicsGroup delay characteristics MeasurementDisplay control Data accuracy enhancementData averaging System capabilities Trace functionsStorage Data hardcopyThis stimulus is also used to measure low-pass devices Remote programmingTest sequences Time-domain OptionGeneral characteristics Options HP 85046A/B S-parameter test sets Test set specifications for OptionHP 85046A/B Specifications +30 dBm SpecificationsHP 85047A S-parameter test set +20 dBmAccessories HP 11906C 7-16 to 7-mm adapter kit HP 85039B type-F calibration kit SpecificationsHP 85038 family of calibration kits HP 11906B 7-16 to 50-Ohm type-N adapter kitTest-port return cables Verification kitsHP 85024A high-frequency probe Ohm accessory kitsRF limiter HP 8347A RF amplifier DimensionsWeight

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.