Agilent Technologies 8510XF manual Vector network analyzer VNA overview, Source, Signal separation

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Vector network analyzer (VNA) overview

Vector network analyzer (VNA) overview

Vector network analyzer (VNA) measurement systems are used to fully characterize the linear behavior of two port devices or networks. Device characteristics include the magnitude and phase data of the transmission or reflection parameters that are required to determine complex impedance, both resistive and reactive components, shown in Figure 1. A network’s behavior is linear when (1) a linear change in the input results in a linear change in the output, and (2) the output, resulting from multiple input signals, is the same as the sum of the outputs resulting from independent input signals. Some examples of linear networks are filters, amplifiers, cables and isolators.

A network analyzer measurement system can be divided into four major parts shown in Figure 2:

1.A signal source providing the incident signal

2.Signal separation devices to separate the incident, reflected and trans- mitted signals, and then down converts the microwave signals to a lower intermediate (IF) signal

3.A receiver to attain the IF signal and down convert it to DC

4.A signal processor and display section that processes the data and displays information on a CRT

Incident

DUT

 

Transmitted

Reflected

 

Reflection

Transmission

(Reflected/incident):

(Transmitted/incident):

Input SWR

Gain/loss

Return loss

Isolation

Input/output impedance

Insertion phase

Reflection coefficient

Group delay

S-Parameters S11 , S22

S-Parameters S21, S12

Figure 1. Device characterization

Incident

 

DUT

Source

Reflected

 

Transmitted

Signal separation

Incident

Reflected Transmitted

Receiver/Detector

Processor/Display

Figure 2. Network analyzer configuration

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Contents 85107B, 45 MHz to 50 GHz in coax Agilent Upgrade Guide for the Vector Network Analyzeron-wafer configuration Product NoteTable of Contents Receiver/Detector Processor/Display Signal separationVector network analyzer VNA overview Sourceanalyzer 8510 VNA = systemSignal 8510Receiver/detector networkTable 1. Hardware revision and measurement capability Agilent 8510 family of productsAgilent 8510 network analyzer Figure 4. 8510 family of system solutions8510C Agilent 8510 Firmware upgrade kitsFigure 5. 8510 firmware upgrade kits Table 2. Firmware revision and measurement capabilityTable 3. Family of test sets Test SetsSources Table 4. 8510-dedicated sourcesTable 5. 8360 general purpose synthesizers 85103E Upgrade considerationsUpgrading individual components Upgrading theFigure 7. 8510 to 8530 upgrade paths 8510C8530A 8530A microwave receiver and 8510CAdding time domain capabilities Test set upgradesExpanding measurement capabilities Adding pulse capabilities Option+ OR Upgrading systemsFigure 8. 8510 family of system solutions 3. What source do I need? System upgrades4. What measurement accessories do I need? 2. What test set do I need?Upgrades for 85107B, 85109C 85107B 45 MHz to 50 GHz current system Examples of upgrade pathsMeasurement accessories Upgrade to 85106D waveguide system to operate in V-bandCalibration kits Device under test Verification kitsTest port cables and adapters Configuration A Network analyzer test setFor 8517B Test sets 2.4 mm rugged test port connectors Configuration B Network analyzer test set Cable set Device under testFor 8514B/8515A/85110A test sets 3.5 mm rugged test port connectors For 85110L Test sets 7 mm rugged test port connectorsProduct notes Related literaturePub. number Product overviewsOur Promise Agilent Technologies’ Test and Measurement Support, ServicesFor more information on the 8510 VNA visit and Assistance