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Exploring the Architectures
of Network Analyzers

Application Note 1287-2

                              Table of Contents




                                                         Page

                              Introduction                   2
                              Network Analyzer Architecture  2
                              Coupling Signals               3
                              Directional Bridges            6
                              Network Analyzer Detection     6
                              Comparing Dynamic Range        8
                              The Spectrum
                                Analyzer Alternative         9
                              The Test Set                   9
                              Other Considerations          10
                                                                                              2




Introduction                 Network analyzers have become one of the most important measurement
                             tools for characterizing the performance of high-frequency components and
                             devices. A modern vector network analyzer can measure a component's
                             magnitude, phase, and group delay, show port impedances on a Smith
                             chart, and, with time-domain capability, show the distance from a test
                             port to an impedance mismatch or circuit fault. Understanding a network
                             analyzer's capabilities and operation can help an operator derive optimum
                             performance from the instrument.

                             Hewlett-Packard Company offers an extensive line of RF and microwave
                             network analyzers for applications from DC to 110 GHz. These analyzers
                             are available with a variety of test sets and calibration kits and can
                             be equipped with such options as time-domain capability for making
                             distance-to-fault evaluations in transmission lines. The company also
                             supplies linear and nonlinear computer-aided-engineering (CAE) software
                             tools such as the HP EEsof Microwave Design System (MDS) and
                             Series IV Suite, useful in creating device and component models based
                             on vector network analyzer measurements.



Network Analyzer             Network analyzers differ in form and function from another tool
Architecture                 commonly used to characterize communications systems and components,
                             the spectrum analyzer (Figure 1). Spectrum analyzers measure unknown
                             external signals. In contrast, network analyzers utilize synthesized-
                             frequency sources to provide a known test stimulus that can sweep across
                             a range of frequencies or power levels. Network analyzers also can perform
                             ratioed measurements (including phase), which require multiple receivers.
                             These measurements cannot be performed with a spectrum analyzer,
                             even when it is complemented by a tracking generator.

                             Spectrum analyzers are generally employed to measure signal
                             characteristics such as carrier level, sidebands, harmonics, and phase
                             noise. They are usually configured as a single-channel receiver without a
                             source. These instruments have a wide range of IF bandwidths available
                             in order to analyze diverse types of signals and are often used with
                             external sources for nonlinear stimulus/response testing. When combined
                             with a tracking generator, spectrum analyzers can be used for scalar
                             component testing to show magnitude versus frequency information
                             but not phase information.

           Figure 1.
           Differences
           between Network
                                    Amplitude Ratio




                                                                                                                                  8563A




           and Spectrum
                                                                                                  Power




           Analyzers
                                                                               Measures                                    Measures
                                                                                known                                      unknown
                                                                                signal                                      signals
                                                           Frequency                                      Frequency


                                   Network analyzers:                                       Spectrum analyzers:
                                                      measure components, devices,           measure signal amplitude characteristics
                                                      circuits, sub-assemblies               (carrier level, sidebands, harmonics, etc.)
                                                      contain source and receiver            can demodulate (& measure) complex signals
                                                      display ratioed amplitude and phase    are receivers only (single channel)
                                                      (frequency or power sweeps)            can be used for scalar component test (no
                                                      offer advanced error correction        phase) with tracking gen. or ext. source(s)
                                                                            3




                             Network analyzers can provide a wealth of knowledge about a device
                             under test (DUT), including its magnitude, phase, and group-delay
                             response. To accomplish this, a network analyzer must provide a source
                             for stimulus, signal-separation devices, receivers for signal detection, and
                             display/processing circuitry for reviewing results (Figure 2). The source is
                             usually a built-in phase-locked (synthesized) voltage-controlled oscillator.

                             Signal-separation hardware allows measurements of a portion of the
                             incident signal to provide a reference for ratio measurements, and it
                             separates the incident (forward) and reflected (reverse) signals present
                             at the input of the DUT. Hardware for this purpose includes power
                             dividers (which are resistive and broadband, but have high insertion
                             loss), directional couplers (which have low loss but are usually limited
                             in bandwidth), and directional bridges (which are useful for measuring
                             reflected signals over a broad bandwidth, but may also have
                             significant loss).

           Figure 2.
           Generalized                                     Incident                    Transmitted
           Network                                                          DUT
           Analyzer Block
           Diagram                            SOURCE            Reflected



                                                                        SIGNAL
                                                                      SEPARATION

                                                INCIDENT    REFLECTED           TRANSMITTED
                                                  (R)          (A)                 (B)



                                                                RECEIVER / DETECTOR



                                                                 PROCESSOR / DISPLAY




Coupling Signals             Directional couplers are useful for measuring both the incident and
                             reflected signals present at the input of the DUT. Directional couplers
                             consist of a "through" path, and a "coupled" path that diverts a small
                             amount of the power traveling along the through path (Figure 3). The
                             amount of coupled power is determined by the coupling factor:

                             Coupling factor (in dB) = 



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