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Abbreviation for second.
Power supplies play an essential role in the safety of most electronic systems. They are the interface between the dangerous voltages of the mains supply and the low voltages used in the user/equipment interface. Because of this, many safety standards focus on the power supply as the item to ensure safe operation.
Complies with the various safety requirements of the product or power supply.
See Safety Ground.
Internationally recognised safe voltage level which can be touched by a user.
IEC define it as “voltage which does not exceed 50Vac or 120V ripple-free dc between conductors, or between any conductor and earth, in a circuit which is isolated from the supply mains by such means as a safety isolating transformer”. However, different safety standards have different names and values for "safe voltage" and some of the most common standards are as follows :
IEC60950-1 - 42.4 V pk or 60Vdc (SELV)
IEC61010-1 - 33 Vac or 46.7V pk or 70Vdc (not called SELV - called LIMIT VOLTAGES FOR ACCESSIBLE PARTS)
IEC60601-1 Ed 2 - 25Vac or 60Vdc (SELV)
IEC60601-1 Ed 3 - Same as IEC60950-1. (not called SELV though, it is just described as VOLTAGE LIMITS FOR CERTAIN ACCESSIBLE PARTS)
IEC62368-1 - 30Vac or 42.4 V pk or 60Vdc (called ES1)
A conductive path from a chassis, panel or case to earth to help prevent injury or damage to personnel and equipment.
Abbreviation for Short Circuit Current.
A diode that exhibits a low forward voltage drop and fast recovery time relative to a standard silicon diode.
Abbreviation for Silicon-Controlled Rectifier.
A circuit which has no direct connection to a primary circuit and derives its power from a transformer, converter or equivalent isolation device, or from a battery.
An output of a switching power supply (PSU) that is not sensed by the control loop. See also Semi-regulated Output.
A coil that receives energy from the primary winding by mutual induction and delivers energy to the load.
Abbreviation for Safety Extra Low Voltage.
A subjective term indicating partial regulation (usually applies to secondary outputs of a Multiple Output Power Supply). Typically with semi-regulated outputs, the Cross Regulation specification is poor (or not specified at all), the Load Regulation specification is poor (for example, if a power supply can provide more than 1A and the specification is +/-5% or worse then this is likely to be a semi-regulated output). Power supplies with semi-regulated outputs often have a Minimum Load requirement on at least one of the outputs. Semi-regulated outputs may well be acceptable for most applications, however, some things to be aware of and consider before using a semi-regulated output:-
If you have a variable load on the power supply then all semi-regulated outputs will have transients on the output at the same frequency as the load variations.
If the load on a semi-reg o/p is removed (or reduced) then the output will increase. On some power supplies, this can be as much as 30% or more!!!
If you use remote sense on the main (usually fully regulated) output, then all semi-regulated outputs could vary by a similar amount (depending on exact design). For example, with a 3V channel 1, if you have 0.5V of remote sense correction then the output of a 12V semi-regulated supply could vary by up to 2V !!
Great care and consideration needs to be paid to ensure that these effects (and possibly others) will not cause any problems. It is also useful to know if the power supply you are considering using has semi-reg outputs as this is often not shown in product datasheets (although by checking the Cross Regulation, Load Regulation or Total Regulation specification, it should be possible to deduce this).
The connection which allows the power supply control loop to see the voltage present at the load. See also Remote Sensing.
See Sense Return.
The return connection which allows the control loop to see the voltage present at the load. See also Remote Sensing.
See Sense Return.
Forcing the order of turn on (and/or occasionally off) of individual outputs of a Multiple Output Power Supply (PSU).
Connecting two or more power supplies (+ve of PSU 1 to -ve of PSU 2 and so on) to increase the output voltage (which will simply be the sum of all output voltages). This is only possible with isolated outputs and particular care needs to be paid to short circuit currents. It is better to only series connect outputs which have the same or similar output currents. The maximum output current will be the lowest of each of the series connected power supplies. For example. Connecting a 24V / 10A power supply in series with a 12V / 20A power supply will provide 36V / 10A (the sum of 24V and 12V for the output voltage and the lowest of 20A and 10A or the output current). Care needs to be taken when connecting outputs in series to ensure that the output isolation to ground is not exceeded.
See Linear Regulation.
The accuracy to which the outputs of a power supply are set. For example, if a 12V power supply has a setting accuracy of 1% then the output voltage range could be 11.88 – 12.12 V.
The range over which the value of the stabilised output quantity may be adjusted. Usually applies to output voltage. See also Adjustment Range.
The time for a power supply (PSU) to stabilise within specifications after an excursion outside the input/output design parameters.
The time it is possible to store a power supply under specified conditions and still retain the ability to operate to specification.
A potentially dangerous situation in which current can pass through a person or animal.
A direct connection that provides a virtually zero resistance path for current.
The initial value of the current obtained from a power supply in a circuit of negligible resistance.
A protective feature that limits the output current of a power supply (PSU) to prevent damage to the power supply. Care must be taken to ensure that connecting leads and any PCB tracks are designed to allow for the maximum current possible from the power supply (or supply additional protection circuitry / fusing for protection).
Shorting the output to ensure that the short circuit current is within its specified limits.
A linear regulator in which the control element (usually a Zener Diode) is in parallel with the load, and in series with an impedance, to achieve constant voltage across the load.
Abbreviation for System International d’Unites.
Abbreviation for Silicon Carbide.
The common return or reference point for analogue signals.
SiC Schottky diodes have essentially no reverse recovery current, and the minimal amount of capacitive current present in turn-off is independent from temperature, forward current, and di/dt. This results in virtually no switching losses for the rectifier and substantially lessens switching losses in the switch. The use of silicon carbide diodes in the pfc circuit (as in TDK-Lambda's NV-Power range of power supplies) can offer around 4% efficiency improvement.
A four layer (PNPN) junction device which controls current flow. Conduction is initiated by the application of a gate current. Conduction will continue until the current is reduced to some minimum value.
A wave form of a single frequency alternating current whose displacement is the sine of an angle proportional to time or distance.
The one point in a system that connects multiple grounds and returns. Also known as star ground or star point ground.
Industry standard footprint for dc-dc converters. Dimensions are 33mm x 22.9mm (1.3in x 0.9in). See also Full Brick, Half Brick, Quarter Brick, Eighth Brick. TDK-Lambda's iSA range of dc/dc converters are industry leading examples of sixteenth bricks.
A power supply (PSU) which uses the reference in another power supply (PSU), the master, as its reference. See Master Slave Operation.
The maximum rate of change a power supply (PSU) output can produce when subjected to a large step response or specified step change.
Abbreviation for Surface Mount Devices.
Abbreviation for Switched Mode Power Supply.
A network used to reduce the rate of rise of voltage and hence overshoot voltage in switching applications.
Controlled turn on to reduce Inrush Current.
Joining metal surfaces by fusion of a metal alloy such as tin, silver and copper (SnAgCu). It forms a joint of low Resistance. Previously, solders with a high lead content were commonplace but have since been largely replaced by lead-free solders (to comply with the RoHS Directive).
Originally meaning circuits which do not contain vacuum tubes (valves) but has come increasingly to mean circuits with no moving parts.
A switch with no moving parts.
Abbreviation for Standby Power Supply.
The amount of change in an output parameter (with all other factors constant) as a function of time after a specified warm-up period.
A standard for sizing wire diameters and for measuring sheet-metal thicknesses. Note that SWG is used mainly in the UK and is different from the thicknesses/diameters associated with AWG numbers. Also called Imperial Standard Wire Gauge.
A mechanical support, either conducting or insulating, used to support a wire, device or PCB away from the mounting surface.
See Single Point Ground.
See Single Point Ground.
See Start-Up Time.
The time delay between applying ac (or a remote “on”) and the time at which the outputs are within specification.
Logic signals that indicate normal or abnormal conditions of operation, including:-
See Shelf Life.
An independent Insulation provided in addition to the basic insulation to protect against electric shock in case of mechanical rupture or electrical breakdown of the basic insulation. Used together with Basic Insulation provides Double Insulation.
A type of component which is intended to be mounted directly upon the surface of a printed circuit board.
Abbreviation for Standard Wire Gauge.
A device which supplies electrical energy to a load using switching technology. SMPS are used as replacements for linear supplies when higher efficiency, smaller size or lighter weight are required. 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.
The rate at which the dc voltage is switched in a converter or power supply (PSU). In power factor corrected PSUs, there will be two switching frequencies, the boost converter switching frequency and the forward converter switching frequency. Additionally, some power supplies may have additional converters with their own switching frequencies (for example buck regulators).
A voltage regulator which operates by rapidly switching the current into the load to stabilise the output voltage. They are inherently more efficient (up to 90% and above), smaller and lighter than linear regulators but are most complicated. See Linear Regulation.
A rectification scheme in a switched mode power supply (PSU) in which a FET or bipolar transistor is substituted for the rectifier diode to improve efficiency.
The International System of Units comprise of Base Units and Derived Units. https://www.bipm.org/en/measurement-units/