Voltage regulation
In electrical engineering, particularly power engineering, voltage regulation is a measure of change in the voltage magnitude between the sending and receiving end of a component, such as a transmission or distribution line. Voltage regulation describes the ability of a system to provide near constant voltage over a wide range of load conditions. The term may refer to a passive property that results in more or less voltage drop under various load conditions, or to the active intervention with devices for the specific purpose of adjusting voltage.
Electrical power systems
In electrical power systems it is a dimensionless quantity defined at the receiving end of a transmission line as:
where Vnl is voltage at no load and Vfl is voltage at full load. A smaller value of Voltage Regulation is usually beneficial.
The Voltage Regulation formula could be visualized with the following: "Consider power being delivered to a load such that the voltage at the load is the load's rated voltage VRated, if then the load disappears, the voltage at the point of the load will rise to Vnl."
Sometimes, the term voltage regulation is used to describe processes by which the quantity VR is reduced, especially concerning special circuits and devices for this purpose (see below).
Electronic power supply parameters
The quality of a system's voltage regulation is described by three main parameters:
| Parameter | Symbol | Description |
|---|---|---|
| Line regulation | Sv | Measure of the ability to maintain a constant output voltage, regardless of changes to the input voltage |
| Load regulation | Ro | Measure of the ability to maintain a constant output voltage, regardless of the size of the system's load |
| Temperature dependence | ST | Measure of the ability to maintain a constant output voltage, regardless of variations in temperature of electrical components within the system, especially semiconductor based devices. |
Distribution feeder regulation
Electric utilities aim to provide service to customers at a specific voltage level, for example, 220V or 240V. However, due to Kirchhoff's Laws, the voltage magnitude and thus the service voltage to customers will in fact vary along the length of a conductor such as a distribution feeder (see Electric power distribution). Depending on law and local practice, actual service voltage within a tolerance band such as ±5% or ±10% may be considered acceptable. In order to maintain voltage within tolerance under changing load conditions, various types of devices are traditionally employed:[2]
• a load tap changer (LTC) at the substation transformer, which changes the turns ratio in response to load current and thereby adjusts the voltage supplied at the sending end of the feeder;
• voltage regulators, which are essentially transformers with tap changers to adjust the voltage along the feeder, so as to compensate for the voltage drop over distance; and
• capacitors, which reduce the voltage drop along the feeder by reducing current flow to loads consuming reactive power.
A new generation of devices for voltage regulation based on solid-state technology are in the early commercialization stages.[3]
Distribution regulation involves a "regulation point": the point at which the equipment tries to maintain constant voltage. Customers further than this point observe an expected effect: higher voltage at light load, and lower voltage at high load. Customers closer than this point experience the opposite effect: higher voltage at high load, and lower voltage at light load.
References
- ↑ Gönen, Turan (2012). Electrical machines with MATLAB(R). CRC Press. p. 337. ISBN 978-1-43-987799-9.
- ↑ von Meier, Alexandra (2006). Electric Power Systems: A Conceptual Introduction. Wiley-IEEE. pp. 184–188. ISBN 0471178594.
- ↑ "Greentechmedia article on voltage-correcting grid sensor". Retrieved May 4, 2013.