Technical
Riker power supplies offer current and voltage control as standard and are universally applicable as generic DC sources. Extra control and measurement features can be added to suit specialised applications, and the conversion process itself can be modified to extend the range of output options.
Riker’s bespoke multi-kA injection systems combine efficient integrated HFPC topology with precision control in hand-portable modules that provide an ideal basis for testing and process-equipment alike.
Simple testing can reveal significant dysfunction; inter-specimen comparisons highlight familial behaviour characteristics and indicate defects or incipient faults.
TESTING AND CALIBRATION
Measuring response over a series of tests quantifies confidence in protection accuracy and stability. Riker provides multi-kA DC testing and calibration throughout the UK and covers all major DC railways and metros plus the manufacture and application of Circuit Breakers in nuclear power, industrial engineering and motor drives. Riker’s testing and calibration services also cover performance and endurance testing for components, conductors, connectors and equipment of all relevant types.
Riker provides multi-kA DC testing and calibration throughout the UK and covers all major DC railways and metros plus the manufacture and application of Circuit Breakers in nuclear power, industrial engineering and motor drives.
ANALYSIS, MODELLING, STATISTICS & CONSULTANCY
Riker takes pride in detailed thermal and electrical performance analyses and modelling which provide valuable insights for new designs and existing applications alike.
Statistical analysis across a series of tests quantifies confidence in both measurement precision and performance prognosis; Riker can help define the level of testing required for defined reliability.
Riker is always pleased to offer specific advice or testing, tailored to your requirements.
TESTING, ANALYSIS AND PROGNOSIS
Precision testing and calibration provide accurate measurements of a component or system under its measured conditions; the quality of data-harvest underpins reliable prognoses for future performance of your systems.