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The abbreviation for Power.
1) when 2 or more power supply outputs (of the same voltage) are connected together, +ve to +ve and -ve to -ve to increase the total output current (whilst maintaining the output voltage). Care should be taken to ensure that the power supply is suitable for parallel connection as some units will not operate well or may be destroyed by operating in this manner. Additionally, some power supplies need diodes connected in series with their outputs to operate correctly in parallel, check the operation/installation manual for details.
2) The connection of components or circuits in a shunt configuration.
Network of resistors, a capacitor and an inductor connected as shown below.
Term to describe power sources that may be connected in Parallel.
Acronym for Periodic and Random Deviation.
Abbreviation for Printed Circuit Board.
Maximum value of a waveform.
The measured value of a waveform from peak in a positive direction to peak in a negative direction.
The sum of all ripple and noise components measured over a specified bandwidth and stated, unless otherwise specified, in peak-to-peak values.
SI prefix multiplier. Multiplies by 1015. So 100 PHz = 100 x 1015 Hz. Written as 'peta'. Abbreviated to 'P'.
A filter consisting of two line-to-line capacitors and a series inductance in a π configuration used to attenuate noise and ripple.
SI prefix multiplier. Multiplies by 10-12. So 100 pF = 100 x 10-12 F. Written as 'pico'. Abbreviated to 'p'.
Positive terminal of a circuit, circuit element or power source.
POLA alliance members develop and market new plug-in modules with the same functionality and form factors as those provided by other members of the POLA alliance.
Abbreviation for Point of Load Converters.
Abbreviation for Point of Load Alliance
The most positive of the two output conductors of a power supply (PSU).
The use of a secondary regulator on a power supply (PSU) output to improve line/load regulation and to attenuate ripple and noise.
Abbreviation for potentiometer.
(Electrical Potential Difference) – the voltage between two points causing a current to flow in a circuit.
A component with an adjustable resistance (an adjustable or variable resistor).
An insulating material for encapsulating one or more circuit elements.
1) the rate of doing work, measured in watts.
A rigorous test which is designed to apply controlled strenuous test conditions to an assembled power supply, ensuring that any defects present are identified and resolved before delivery to the customer. Typically, the power cycle will operate the power supply at elevated temperature into a full load, simulating worst case conditions. The power is then turned on and off repeatedly at both high and low line input levels. It has been shown that this type of test is much more effective at discovering latent defects than the traditional burn-in procedure. See also Burn In.
The ratio of the power available from a power source to its volume. E.g. watts/inch³.
A technique to counteract the effect caused by loads that have a power factor below 1 (less than 100%). Power factor correction is necessary as it increases the efficiency of power transmission. A low power factor load increases losses in the transmission lines. Passive PFC uses an inductor to pass current at the supply frequency (usually 50Hz or 60Hz) with additional capacitors to bring the power factor close to 1. Active PFC usually employs a Boost Converter between the bridge rectifier and the reservoir capacitors to maintain the power factor close to 1. Active PFC usually provides wide range input to the power supply.
A Status Signal from a power supply (PSU) that provides advance notice that the output voltage is about to fall out of specifications due to loss of line.
See Power Fail Signal.
A field effect transistor specifically designed for high current/power applications.
A Status Signal from a power supply (PSU) that power is within predetermined specifications.
Power available at the output terminals of a power supply based on the manufacturer’s specifications.
A device that provides electrical power, including a power supply (PSU), battery, generator, etc.
See Status Signals.
A device which supplies electrical energy to a load. Typical application of power supplies include to convert raw input power (can be either ac or dc) to a controlled or stabilised voltage and/or current for the operation of electronic equipment. Often used to convert between hazardous voltages available from wall sockets (usually 110Vac or 230Vac) to voltages which can be used by electronic equipment (CPU's, motors, telephones, etc.).
There are many types of different power supplies including Linear Supplies, Switched Mode Power Supplies, DC-DC converters, Programmable Power Supplies. Lambda is able to supply many different types of power supplies to meet your requirements from only a few watts up to 60kwatts.
A length of flexible cord provided with an attachment plug at one end. See also Cord Set.
The driven coil in a transformer.
An insulating substrate with conductive (usually copper) tracks connecting components. The PCB is used to both support and interconnect components. PCBs are made of many materials including resin impregnated paper (often called FR-2), fibreglass (FR-4), various plastics (more commonly used for high power RF circuits), ceramic or metal (usually aluminium – see IMS). PCBs can have one or more layers of copper tracks and the different layers are connected with Vias. Additional layers make the PCB cost more but have benefits (such as improving the EMC performance, improving heat conduction and reducing size).
A power supply (PSU) with an output (or outputs) controlled by an applied voltage, current, resistance or digital code. Lambda's ZUP and Genesys are examples of digitally, remote programmable power supplies (available with output powers from 200W up to 60kW). Lambda's Vega range is available with remote programmable output modules.
The control of a power supply (PSU) parameter, such as output voltage or Current, by means of a control element or signal (This is either done with digital control [by Communications Port] or analogue control [with resistance or voltage input to the programming pins on the power supply]).
A power supply’s ability to respond to a command to change its output setting from one level to another. It can be measured in terms of a programming time constant and a slewing rate.
Time between the start of a programmed event and arrival within a specified range of the final value. Unless otherwise specified, 95% of the desired change should be used.
A step rise, a level, and a step fall of voltage or current. Characteristics of a pulse are: rise time, duration (or dwell time) and fall time.
A non-continuous discharge.
Regulation of the output voltage of a switched mode power supply (SMPS) by varying the duration, but not the frequency, of the pulses that drive the power switch.
An circuit performing Pulse-Width Modulation.