The model 1250A Frequency Response Analyzer (FRA) delivers accurate measurement of gain and phase. The device under test is stimulated by a sinewave and the response analyzed at one, two or more points in the system. These responses are then correlated with the stimulus to determine the amplitude and phase relative to the generator. The ratio of the two measured signals can then be used to provide the system transfer function.

This process rejects all harmonics and, by increasing the integration time, even signals which are buried in noise can be measured accurately.

The 300 V range on the 1250A is particularly useful for making measurements on fuel cell stacks and high voltage batteries, used in hybrid vehicles and residential power supplies. Key product features include:-

• AC amplitude range - 10 mV to 10 V, for power supply testing
• Analyzer range 30 mV - 300 V, i.e. suitable for ATS (Automated Test Systems), power station vibration testing
• Noise rejection capability
• Synchronizer option enabling generator and carrier signals to be locked in terms of frequency / phase
• Ability to analyze non-linear systems
• Front panel or software (Visual Basic) control
• Modulator / demodulator card option for interfacing to AC carrier systems

Electrochemistry
Measurement of impedance has become an important tool in the study of electrochemical/biological phenomena and material properties.

The 1250A together with a potentiostat such as the model 1287A, can be used in a wide range of applications, including:-

• Corrosion and inhibitor studies
• Analysis of organic and inorganic coatings and films
• Research into solid electrolytes for oxygen sensors/fuel cells
• Development of novel anode/cathode materials and electrolytes
• Bioanalytical research into plant/soil properties

Materials Testing
When combined with a 1296 Dielectric Interface and temperature test equipment the 1250A can be used to test a wide range of materials, such as:-

• Supercapacitor/battery/fuel cell materials
• Charge transport in semiconductors, organic crystals, ceramics etc.
• Analysis of chemical reactions, polymerization and curing processes
• Novel gas and liquid sensors
• Characterization of ferro/piezoelectric and semiconductor materials

Control Systems
A standard use for a FRA is to generate a signal which is connected to a signal converter (this may take many forms; e.g. hydraulic, pneumatic or electrical), which forces controlled movement to take place (e.g. displacement transducers used in aerodynamic tests). These are placed on the system under test and the output signal fed back to the FRA via a sensor, enabling the system to be characterized. Typical uses include:-

• Automated test systems
• Power supply testing
• Aircraft instrumentation/system controls
• Aerodynamic tests - study of applied forces to wing structures
• Car shock absorbers
• Weapons guidance systems
• Rocket propulsion and vectoring technology

Synchronizer
The synchronizer option enables the generator to be locked to a rotating /  reciprocating component, and measurements can then be made relative to this. Applications include turbine analysis - using harmonics to enable crack detection.

Modulator / Demodulator
This optional card allows the user to superimpose an external modulator signal onto the 1250 generator signal which acts as a carrier. This modulation signal can then be demodulated through the analyzer inputs. Applications include telecommunications and automated test systems.

If computer-only operation is required, consider the model 1250B

Specifications