Direct Current (DC) Power: definition and applications

Direct Current (DC) Power refers to the unidirectional flow of electrons and is the form of power that is most commonly produced by sources such as solar cells and batteries.

What is power?

Power can be defined as the rate of energy consumed in a unit time. The unit of measurement of power is Watt, after the famous eighteenth century scientist, James Watt who invented the steam engine. In mechanical systems, power is known as mechanical power and is a combination of forces and movement. In electrical systems, electrical power is the rate of flow of electrical energy past a given point in a closed circuit. For our applications we will only consider the electrical power.

Alternating and direct current

Electrical power can be classified as AC Power or DC Power depending upon the direction of the flow of energy. Here AC stands for Alternating Current and DC stands for Direct Current. Power which is a result of current flowing in alternating direction is termed as AC Power and one which is a result of current flowing in only one direction is called DC Power.

Direct current waveform

In DC (Direct current) circuits, the flow of electrical charge (or in other words, electrons) is unidirectional and unlike AC Current, it does not periodically reverses its direction. The typical waveform of alternating current is a pure sine wave as shown in the figure below.

Norned DC cable between Norway and The Netherlands Source: Wikipedia

What are common DC applications?

This form of power is most commonly produced by sources such as solar cells, batteries, and thermocouples. DC power is widely used in low voltage applications such as charging batteries, automotive applications, aircraft applications and other low voltage, low current applications. All solar panels nowadays produce DC power. Common applications with DC power in the PV industry are portable solar systems and other off-grid appliances. Not using a solar inverter to convert DC to AC will keep the costs down for such systems.

Advantages and Disadvantages DC current

Nowadays for electric power distribution alternating current is mostly used, as it has significant advantages over direct current in transmission and transforming. One of the biggest advantages of DC power is its ability to be used in special applications. Whenever AC power transmission is not practically feasible or possible over long distances, DC power is used. One such application are sub-sea high voltage DC transmission lines. Here, the electricity is produced in AC form, converted to DC at a switching/ terminal station, transmitted by a subsea network of cables, re-converted to AC by another terminal station and finally delivered to customers.

Norned Direct Current cableNorned DC cable between Norway and The Netherlands Source: Wikipedia

Sub-Sea DC Transmission Lines

Many such lines are functional to date. Some notable examples are:

  • Baltic Cable Link
    • Between: Sweden and Germany
    • Length: 250 km
  • NorNed Cable Link
    • Between: Norway and Netherlands
    • Length: 580 km
  • Basslink
    • Between: Australian mainland and Tasmania
    • Length: 290 km

A big disadvantage of these High Voltage Transmissions is the higher cost of building terminal stations and switching yards. The parts used need quite a lot of maintenance, which is expensive, and have limited overloading capacity as well.

Laxmikant Vishnu Desai
By

Laxmikant Vishnu Desai

on 01 Feb 2019

Thanks

Saleem Merchant
By

Saleem Merchant

on 15 May 2018

Lost to understand, despite of very low cost due to energy-efficient, why it does not frequently use in homes, specially where source of energy is solar power.

BinaSenapati
By

BinaSenapati

on 29 Jul 2021

Same decided

Abdullah Saeed
By

Abdullah Saeed

on 16 Mar 2022

Because it is direct and they may causes to damage our fuse

Brendan
By

Brendan

on 11 Apr 2018

Because it is direct, hence Direct Current (DC)

Paramjit
By

Paramjit

on 30 Jan 2018

Driver in put DC 440v then drive output ......in 3pase ?

shahid shafi
By

shahid shafi

on 04 Jun 2017

Why a.c has name as a.c ??? Its reason is based on the fact of direction ... In USA the alternating current has frequency of 60Hertz which means the the coil rotates 60Times and in each rotation/Rearly revolution the direction of current changes 120 times... But Why D.C...has Name As d.c

Mr Stride
By

Mr Stride

on 25 Jan 2022

I agree I also have vacanies at overton grange school sutton surrey Come down to overton grange school and I will give you the appliacation and it is easy.From Mr Keith Stride (headteacher of overton grange school) overton grange school stanley road sutton surrey

pabitra sarkar
By

pabitra sarkar

on 20 Mar 2017

I like it

R. N. Karmaker
By

R. N. Karmaker

on 07 Sep 2021

The document is very much knowledgeable

Indra
By

Indra

on 18 Dec 2021

" rel="nofollow" target="_blank">https://technitab.in/power-distribution/dc-power-supply-in-medium-voltage-electrical-distribution-system/"> This is exactly what I was looking for. Thanks for Sharing. For a DC power supply to be considered reliable, it must deliver voltages and currents that are stable and precise, with all types of loads in mind: resistive, inductive, low impedance, high impedance, stable, or variable. The majority of DC power supplies include built-in measurement circuits which measure both current and voltage.

Mr Stride
By

Mr Stride

on 25 Jan 2022

Everyone, hi I have lots of vacancies at overton grange school, so please pop by at overton grange school by tomorrow at 3.05pm and I will hand you the applcation as I won't be able to talk to your during school day as I have a meeting. Car parking is free and you can park in our car park thanks Mr Keith Stirde

ace online
Akash
By

Akash

on 26 Apr 2022

Application no.

Samuel N.
By

Samuel N.

on 20 Apr 2023

what is the difference btn Dc curent and voltage Current?and how to get enouth current when you have voltage?thanks

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