Power Distribution: Difference between revisions

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{{Warning|DRAFT (WORK IN PROGRESS ARTICLE - PLEASE DO NOT RELY ON THE INFORMATION BELOW UNTIL MARKED AS COMPLETED)}}
{{Warning|DRAFT (WORK IN PROGRESS ARTICLE - PLEASE DO NOT RELY ON THE INFORMATION BELOW UNTIL MARKED AS COMPLETED)}}


One aspect of retro-gaming setups that that is sometimes downplayed is power distribution. Almost all mainstream video-game consoles from the Magnavox Odyssey in the first generation, to the PlayStation 5 and Xbox Series X, make use of a type of AC/DC power supply, and the process of safely setting up a power distribution setup for multiple consoles can get quite complex. The purpose of this article is lay out how power flows through an electrical system, provide simple explanations of some of the technical language involved, and provide useful advice to users of original retro-gaming hardware.
One aspect of retro-gaming setups that that is sometimes downplayed is power distribution. Almost all mainstream video-game consoles from the Magnavox Odyssey in the first generation, to the PlayStation 5 and Xbox Series X, make use of a type of AC/DC power supply, and the process of safely setting up a power distribution network for multiple consoles can get quite complex. The purpose of this article is lay out how power flows through an electrical system, provide simple explanations of some of the technical language involved, and provide useful advice to users of original retro-gaming hardware.


==Explanation of Terms==
==Explanation of Terms==
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|align="left"| Voltage
|align="left"| Voltage
|align="left"| Voltage is the force that push electrons (tiny negatively-charged subatomic particles) through a circuit to produce electricity.
|align="left"| Voltage is the force that push electrons (tiny negatively-charged subatomic particles) through a circuit to produce electricity.
|align="left"| Generally speaking, the "Voltage" figure on the power supply should match the voltage expected by the [[Comparison_of_Power_Supplies|console]], as closely as possible.  
|align="left"| Generally speaking, the "Voltage" figure on the power supply should match the voltage expected by the [[Comparison_of_Power_Supplies|console]], as closely as possible, although there are [[Comparison_of_Power_Supplies|exceptions]] to this rule.  
|-
|-
|align="left"| Circuit
|align="left"| Circuit
Line 28: Line 28:
|align="left"| Alternating Current (AC)
|align="left"| Alternating Current (AC)
|align="left"| Alternating Current is different from Direct Current because electrons are flowing back and forth between two points. When the electrons change directions, the voltage drops. This type of current reuses electrons.  
|align="left"| Alternating Current is different from Direct Current because electrons are flowing back and forth between two points. When the electrons change directions, the voltage drops. This type of current reuses electrons.  
|align="left"| Alternating Current is useful for powering large things over long distances (for example, hospitals, offices, and homes as some larger appliances such as fridges and dishwashers).
|align="left"| Alternating Current is useful for powering large things over long distances (for example, hospitals, offices, and homes as well as some larger appliances such as fridges and dishwashers).
|-
|-
|align="left"| AC/DC Adapter  
|align="left"| AC/DC Adapter  
|align="left"| AD/DC adapters are devices that transform an AC input into a DC output, and optimizes that output for use with consumer electronics, including gaming consoles.  
|align="left"| AD/DC adapters are devices that transform an AC input into a DC output, and optimizes that output for use with consumer electronics, including gaming consoles.  
|align="left"| The vast majority of home video game consoles ever produced use some kind of AC/DC adapter to supply the power that they need.  
|align="left"| The vast majority of home video game consoles ever produced use some kind of AC/DC adapter to supply the power that they need, and deciding what kind of equipment the console requires to power itself is an important step to using it safely.  
|-
|-
|align="left"| Amperage
|align="left"| Amperage
|align="left"| -
|align="left"| -
|align="left"| As amperage refers to potential current (and the device will only draw as much as required) - the A (or the mA) figure may be higher than what the console requires to operate, but should not be lower.
|align="left"| As amperage refers to potential current (and the device will only draw as much as required) - the A (or the mA) figure given on an AC/DC adapter may be higher than what the console [[Comparison_of_Power_Supplies|requires to operate]], but should not be lower.
|-
|align="left"| Wattage
|align="left"| -
|align="left"| -
|-
|-
|align="left"| Polarity
|align="left"| Polarity
|align="left"| In physics, polarity describes an attribute that can usually have two values. For example, an electric charge has a polarity of either positive or negative. A voltage has a polarity, in that it could be positive or negative (with respect to some other voltage, such as the one at the other end of a battery or electric circuit).
|align="left"| The console should always match the power supply. If for example, the power supply being used is center positive, and the polarity [[Comparison_of_Power_Supplies|expected by the console]] is center negative, this could result in damage to the console.
|-
|align="left"| Connector
|align="left"| -
|align="left"| -
|-
|align="left"| External Brick
|align="left"| -
|align="left"| -
|-
|align="left"| Internal Power Supply
|align="left"| -
|align="left"| -
|align="left"| -
|align="left"| -
|-
|-
|align="left"| Connector
|align="left"| [https://www.iec.ch/world-plugs World Plug Types]
|align="left"| -
|align="left"| -
|-
|align="left"| Power Strip
|align="left"| -
|align="left"| -
|-
|align="left"| Power Distribution Unit
|align="left"| -
|align="left"| -
|-
|align="left"| Step-Down Transformer
|align="left"| -
|align="left"| -
|align="left"| -
|align="left"| -
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==Getting Setup==
==Getting Setup==
TBC

Latest revision as of 11:46, 26 May 2022

Exclamation-triangle-fill.svgDRAFT (WORK IN PROGRESS ARTICLE - PLEASE DO NOT RELY ON THE INFORMATION BELOW UNTIL MARKED AS COMPLETED)


One aspect of retro-gaming setups that that is sometimes downplayed is power distribution. Almost all mainstream video-game consoles from the Magnavox Odyssey in the first generation, to the PlayStation 5 and Xbox Series X, make use of a type of AC/DC power supply, and the process of safely setting up a power distribution network for multiple consoles can get quite complex. The purpose of this article is lay out how power flows through an electrical system, provide simple explanations of some of the technical language involved, and provide useful advice to users of original retro-gaming hardware.

Explanation of Terms

Term Definition Use in Retro-Gaming context
Voltage Voltage is the force that push electrons (tiny negatively-charged subatomic particles) through a circuit to produce electricity. Generally speaking, the "Voltage" figure on the power supply should match the voltage expected by the console, as closely as possible, although there are exceptions to this rule.
Circuit A circuit is the path between two points in which electricity flows. At the beginning of a circuit, electricity has a certain amount of force. It also has a certain amount of force at the end of the circuit. The difference between these two amounts is the voltage (measured in "volts").
Current Current is the act of the electrons flowing through the circuit. Each electron pushes the one in front of it, creating a continuous current. The higher the voltage, the faster the current. -
Direct Current (DC) Direct Current happens when electrons flow in only one direction. When the source runs out of electrons, there will no longer be an electrical current. Most things use batteries, such as toys, phones and video game consoles use Direct Current.
Alternating Current (AC) Alternating Current is different from Direct Current because electrons are flowing back and forth between two points. When the electrons change directions, the voltage drops. This type of current reuses electrons. Alternating Current is useful for powering large things over long distances (for example, hospitals, offices, and homes as well as some larger appliances such as fridges and dishwashers).
AC/DC Adapter AD/DC adapters are devices that transform an AC input into a DC output, and optimizes that output for use with consumer electronics, including gaming consoles. The vast majority of home video game consoles ever produced use some kind of AC/DC adapter to supply the power that they need, and deciding what kind of equipment the console requires to power itself is an important step to using it safely.
Amperage - As amperage refers to potential current (and the device will only draw as much as required) - the A (or the mA) figure given on an AC/DC adapter may be higher than what the console requires to operate, but should not be lower.
Wattage - -
Polarity In physics, polarity describes an attribute that can usually have two values. For example, an electric charge has a polarity of either positive or negative. A voltage has a polarity, in that it could be positive or negative (with respect to some other voltage, such as the one at the other end of a battery or electric circuit). The console should always match the power supply. If for example, the power supply being used is center positive, and the polarity expected by the console is center negative, this could result in damage to the console.
Connector - -
External Brick - -
Internal Power Supply - -
World Plug Types - -
Power Strip - -
Power Distribution Unit - -
Step-Down Transformer - -

Getting Setup

TBC