transient response


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transient response

[′tranch·ənt ri′späns]
(physics)
The behavior of a system following a sudden change in its input.
References in periodicals archive ?
com)-- The TS250 is ideal for many test and measurement applications such as LDO and amplifier PSRR test, battery simulator, op-amp CMRR measurement, high-frequency electromagnetic coil driver, general function generator amplifier, transient response test, four-quadrant power supply, lab power amplifier and more.
The devices are designed to provide a wide 5V to 40V input voltage range while providing excellent transient response and output accuracy over the entire voltage range using Exar's proprietary emulated current mode Constant On-Time (COT) control loop.
Different techniques have been used in order to improve the transient response of this type of power supplies.
The 44 papers on reducing the mesh in engineering analysis cover acoustic problems, advanced meshless methods, the boundary knot method, dual boundary element techniques, fracture and crack propagation, fundamental solutions methods, heat transfer, hybrid methods, integration techniques, multipole boundary element methods, structural problems, transient response methods, and advanced numerical solvers.
Benefiting from Micrel s proprietary HyperLight Load technology, the ICs provide ultra-fast transient response for today s most demanding applications including set-top boxes, core and I/O voltages for FPGAs, CPLDs, ASICs, GPS/navigation systems, PC cards, automotive instrumentation and general purpose point-of-load (POL) DC-to-DC conversions.
Fast load transient response with suppressed output voltage fluctuations.
This transient response normally leads to removal of harmful agents and to healing of the damaged tissues.
The PowerTech PVX engine models deliver similar power, transient response, peak torque and fuel economy as the Tier 3/Stage III A engine models they replace.
About 25 pages of appendices cover analysis for current, torque, and transient response of the SR motor; circuit design and fabrication of a power electronic controller for an SR motor using MOSFETS; and Pohl's method for predicting the air-gap.
Response times on the order of seconds are commonly reported for thin-film capacitive sensors, which are typically based on the transient response of those sensors in still (zero velocity), constant temperature air.
The MIC23250 utilizes a proprietary switching method called "Hyper Light Load(TM)" that achieves high efficiency, very low output ripple, and fast transient response while using very small output capacitors.
The measured response of the sensors in this setup includes the combined effects of the wheel and sensor transient response characteristics.

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