Difference between revisions of "AC adaptor"
From Sega Retro
Ghopeless0 (talk | contribs) |
m (→SA-150) |
||
(30 intermediate revisions by 13 users not shown) | |||
Line 4: | Line 4: | ||
Most modern homes are linked to a power grid, and offer power from electrical sockets. An AC adaptor takes some of that power and gives it to an electrical device, e.g. a [[Sega Mega Drive]]. Electrical standards vary between countries but a Sega Mega Drive typically requires only a certain amount regardless of origin, thus one role of the AC adaptor is to only allow a certain amount of power through. | Most modern homes are linked to a power grid, and offer power from electrical sockets. An AC adaptor takes some of that power and gives it to an electrical device, e.g. a [[Sega Mega Drive]]. Electrical standards vary between countries but a Sega Mega Drive typically requires only a certain amount regardless of origin, thus one role of the AC adaptor is to only allow a certain amount of power through. | ||
− | It is called an ''AC'' adaptor as it converts [[wikipedia:alternating current|alternating current]] (AC) into [[wikipedia:direct current|direct current]] (DC). | + | It is called an ''AC'' adaptor as it converts [[wikipedia:alternating current|alternating current]] (AC) into [[wikipedia:direct current|direct current]] (DC). An alternating current is used to help electrical impulses travel long distances but is useless in electrical equipment and thus needs converting. When travelling large distances, voltages (measured in volts, V) are kept high while currents (measured in amps, A) are kept low. This is not appropriate for home use. Though the science behind AC adaptors can be confusing for those not familiar with the laws of physics, the short description is that an AC adaptor gives a console life without destroying the internal components. |
− | AC adaptors are a necessary evil - they are often big and | + | AC adaptors are a necessary evil - they are often big, heavy and cumbersome, and are prone to becoming hot after long periods of use. There are three "types" of AC adaptors in terms of design: |
− | + | * Adaptors whose components are centred around the plug | |
+ | * "Brick-in-line" adaptors where the components are somewhere along with the lead | ||
+ | * Internal adaptors, where the components are stored within the device itself. | ||
− | + | [[Sega]] chose to ignore the middle option for home consoles, leading to much frustration in the early 1990s when the company was releasing systems almost annually. | |
− | + | Prior to the [[Sega Saturn]], AC adaptors were built into the plug, with their size often obstructing surrounding sockets in the process (and possibly even putting a strain on the wall). For one console (say, the Mega Drive) this is inconvenient but manageable. However, if someone wishes to purchase a [[Sega Mega-CD]] and [[Sega 32X]], which each requiring their own similarly-designed power supply, problems can arise. In response, Sega released the [[Sega Power Strip]] in North America. The Sega Saturn and [[Sega Dreamcast]] have their AC adaptor within the console itself, meaning more ventilation is needed to keep the system cool. | |
+ | |||
+ | Some adaptors are interchangeable without causing harm, but there are official standards in terms of voltage, current or even connectors. Just because a power lead looks as if it fits the connector size, this doesn't mean it is acceptably safe for all systems. All Sega consoles have their electrical requirements printed somewhere on the unit, and most power supplies have similar information printed on them. Some issues are not as obvious—you cannot use a Mega Drive model 1 power supply with a model 2 for example, but you can use it on a Model 1 Sega Mega-CD. | ||
+ | |||
+ | Consoles are often built around the country's electrical standards, so a Dreamcast from the United States is designed to work with a North American 120V, 60Hz electrical supply. A Dreamcast from the United Kingdom is designed for 230-240V, 50Hz; using a UK AC adaptor on a North American Dreamcast will destroy it if one does not use a step-down converter. Plug standards also differ between countries—the UK's [https://www.iec.ch/world-plugs type G plug] will not fit in a US type A/B socket, so some sort of converter will be needed regardless (likewise for the television signal - the US uses NTSC, the UK uses PAL-I). | ||
==AC Adaptors== | ==AC Adaptors== | ||
− | Note this list is incomplete. When dealing with power supplies it is advised that you check the label(s) to make sure the numbers match up. | + | Note this list is incomplete. When dealing with power supplies, it is advised that you check the label(s) to make sure the numbers match up. |
+ | |||
+ | ===SC-3000=== | ||
+ | AC Adaptor for [[SC-3000]] by [[John Sands Electronics]]. | ||
+ | <gallery> | ||
+ | John Sands Electronics AC Adaptor SC3000 AU Label.jpg | ||
+ | </gallery> | ||
===3025=== | ===3025=== | ||
− | Intended for the [[Sega Master System]], but will also function on a model 1 [[Sega Mega Drive]]. | + | Intended for the [[Sega Master System]], but will also function on a model 1 [[Sega Mega Drive]] and [[Sega Game Gear]]. |
<gallery widths="80"> | <gallery widths="80"> | ||
− | + | ACAdaptor 3025.jpg|3025 | |
− | + | ACAdaptor 3025 alt.jpg|3025 (alt) | |
− | + | ACAdaptor 3025-1.jpg|3025-1 | |
− | + | ACAdaptor 3025-03.jpg|3025-03 | |
+ | ACAdaptor 3025-18.jpg|3025-18 | ||
</gallery> | </gallery> | ||
===3084=== | ===3084=== | ||
− | + | UK Mega Drive 1. | |
<gallery widths="80"> | <gallery widths="80"> | ||
File:ACAdaptor 3084.jpg|3084 | File:ACAdaptor 3084.jpg|3084 | ||
+ | </gallery> | ||
+ | |||
+ | ===1601=== | ||
+ | AC Adaptor for Sega Mega Drive ASIA PAL-B (VE) 1601-07 | ||
+ | <gallery widths="80"> | ||
+ | File:Pal-B_(VE)_1601-07.jpg|1601-07 | ||
</gallery> | </gallery> | ||
Line 35: | Line 54: | ||
1602s were built for the [[Sega Mega Drive]] (model 1) and both versions of the [[Sega Mega-CD]]. They will also function with a [[Sega Master System]]. | 1602s were built for the [[Sega Mega Drive]] (model 1) and both versions of the [[Sega Mega-CD]]. They will also function with a [[Sega Master System]]. | ||
<gallery widths="80"> | <gallery widths="80"> | ||
− | + | ACAdaptor 1602.jpg|1602 | |
− | + | ACAdaptor 1602-1.jpg|1602-1 | |
− | + | ACAdaptor_1602-2.jpg|1602-2 | |
− | + | ACAdaptor 1602-3.jpg|1602-3 | |
− | + | ACAdaptor 1602-03.jpg|1602-03 | |
− | + | ACAdaptor 1602-05.jpg|1602-05 | |
− | + | ACAdaptor 1602-18.jpg|1602-18 | |
+ | ACAdaptor 1602-18 alt.jpg|1602-18; alt | ||
</gallery> | </gallery> | ||
===MK-1636=== | ===MK-1636=== | ||
− | + | MK-1636s (230V, 50 Hz) power the [[Sega Mega Drive]] (model 2) and [[Sega 32X]]. They can also be used with the [[Sega Game Gear]] and [[Sega Nomad]]. | |
<gallery widths="80"> | <gallery widths="80"> | ||
− | + | ACAdaptor MK-1636-03.jpg|MK-1636-03 | |
− | + | ACAdaptor MK-1636-03 alt.jpg|MK-1636-03 (alt) | |
− | + | ACAdaptor MK-1636-05.jpg|MK-1636-05 | |
− | + | ACAdaptor MK-1636-05 alt.jpg|MK-1636-05 (alt) | |
+ | ACAdaptor MK-1636-18.jpg|MK-1636-18 | ||
+ | ACAdaptor MK-1636-18 alt.jpg|MK-1636-18 (alt) | ||
</gallery> | </gallery> | ||
===MK-2103=== | ===MK-2103=== | ||
− | MK-2103s power the [[Sega Mega Drive]] (model 2) and [[Sega 32X]]. They can also be used with the [[Sega Game Gear]] and [[Sega Nomad]]. | + | MK-2103s (120V, 60 Hz) power the [[Sega Mega Drive]] (model 2) and [[Sega 32X]]. They can also be used with the [[Sega Game Gear]] and [[Sega Nomad]]. |
<gallery widths="80"> | <gallery widths="80"> | ||
− | + | ACAdaptor 2103 MadeinJapan.jpg|MK-2103 (Made in Japan) | |
− | + | ACAdaptor 2103 alt.jpg|MK-2103 (Made in China) | |
− | File:ACAdaptor 2103 | + | File:ACAdaptor 2103 MadeInTaiwan.JPG|MK-2103 (Made in Taiwan) |
− | File:ACAdaptor MK-2103.jpg|MK-2103 (alt) | + | File:ACAdaptor MK-2103.jpg|MK-2103 (Made in China; alt) |
+ | ACAdaptor 2103 alt2.jpg|MK-2103 (Made in Taiwan; alt) | ||
+ | File:ACAdaptor 2103-1.jpg|2103-1 | ||
File:ACAdaptor 2103-22.jpg|2103-22 | File:ACAdaptor 2103-22.jpg|2103-22 | ||
</gallery> | </gallery> | ||
Line 76: | Line 100: | ||
===SA-150=== | ===SA-150=== | ||
− | Built for Japanese [[SG-1000]] | + | Built for the Japanese [[SG-1000]] and also included with the [[SC-3000]], [[SG-1000 II]], [[Sega Mark III]] and the Japanese [[Sega Master System]]. It can also be used with the '''Japanese''' [[Sega Game Gear]], which uses the same tip negative DC connector as those consoles. |
<gallery widths="80"> | <gallery widths="80"> | ||
</gallery> | </gallery> | ||
===SA-160=== | ===SA-160=== | ||
+ | They can also be used with the '''Japanese''' [[Sega Game Gear]] (Japanese version is using minus center and positive outer plug type) | ||
<gallery widths="80"> | <gallery widths="80"> | ||
</gallery> | </gallery> | ||
Line 86: | Line 111: | ||
===SA-160A=== | ===SA-160A=== | ||
Built for [[Sega Mega Drive]] 1 | Built for [[Sega Mega Drive]] 1 | ||
+ | They can also be used with the '''Japanese''' [[Sega Game Gear]] (Japanese version is using minus center and positive outer plug type) | ||
<gallery widths="80"> | <gallery widths="80"> | ||
− | File: | + | File:SA160A.JPG |
</gallery> | </gallery> | ||
Line 111: | Line 137: | ||
</gallery> | </gallery> | ||
− | ==Physical | + | ==Magazine articles== |
+ | {{mainArticle|{{PAGENAME}}/Magazine articles}} | ||
+ | |||
+ | ==Physical scans== | ||
{{Scanbox | {{Scanbox | ||
− | | console= | + | | console= |
− | | region=JP | + | | region=JP (SA-190) |
| front=ACAdaptor SA-190 MD JP Box Front.jpg | | front=ACAdaptor SA-190 MD JP Box Front.jpg | ||
+ | | back=ACAdaptor MD2 JP Box Back SA-190.jpg | ||
+ | | spinemissing=yes | ||
+ | | square=yes | ||
+ | }} | ||
+ | {{Scanbox | ||
+ | | console= | ||
+ | | region=US (Mega Drive (1)) | ||
+ | | front= | ||
+ | | back= | ||
+ | | spinemissing= | ||
+ | | square=yes | ||
+ | }} | ||
+ | {{Scanbox | ||
+ | | console= | ||
+ | | region=US (Mega Drive (2)) | ||
+ | | front= | ||
+ | | back= | ||
+ | | spinemissing= | ||
+ | | square=yes | ||
+ | }} | ||
+ | {{Scanbox | ||
+ | | console= | ||
+ | | region=US (Genesis 3) | ||
+ | | front= | ||
+ | | back= | ||
+ | | spinemissing= | ||
+ | | square=yes | ||
+ | }} | ||
+ | {{Scanbox | ||
+ | | console= | ||
+ | | region=US (Game Gear) | ||
+ | | front= | ||
| back= | | back= | ||
| spinemissing= | | spinemissing= | ||
| square=yes | | square=yes | ||
− | }}{{Scanbox | + | }} |
− | | console= | + | {{Scanbox |
− | | region=US | + | | console= |
+ | | region=US (Game Gear; newer) | ||
| front=ACAdaptor GG US Box Front.jpg | | front=ACAdaptor GG US Box Front.jpg | ||
| back= | | back= | ||
| spinemissing= | | spinemissing= | ||
| square=yes | | square=yes | ||
− | }}{{Scanbox | + | }} |
− | | console= | + | {{Scanbox |
− | | region=EU | + | | console= |
+ | | region=US (Mega-CD) | ||
+ | | front= | ||
+ | | back= | ||
+ | | spinemissing= | ||
+ | | square=yes | ||
+ | }} | ||
+ | {{Scanbox | ||
+ | | console= | ||
+ | | region=US (Universal) | ||
+ | | front= | ||
+ | | back= | ||
+ | | spinemissing= | ||
+ | | square=yes | ||
+ | }} | ||
+ | <!-- In case we ever break this out: 12.95 in the US for GG Adaptor{{magref|gamepro|30|139}} --> | ||
+ | {{Scanbox | ||
+ | | console= | ||
+ | | region=EU (Universal) | ||
| front=ACAdaptor GG EU Box Front.jpg | | front=ACAdaptor GG EU Box Front.jpg | ||
| back= | | back= | ||
Line 134: | Line 214: | ||
| square=yes | | square=yes | ||
}} | }} | ||
+ | {{Scanbox | ||
+ | | console= | ||
+ | | region=DE (Mega Drive II) | ||
+ | | front=ACAdaptor MD DE Box Front.jpg | ||
+ | | back= | ||
+ | | spinemissing= | ||
+ | | square=yes | ||
+ | }} | ||
+ | |||
+ | ==References== | ||
+ | <references /> | ||
[[Category:Hardware]] | [[Category:Hardware]] |
Latest revision as of 15:14, 6 December 2023
Consoles by Sega, and many other electrical devices require power, and this need is commonly addressed by an AC adaptor (ACアダプター).
Most modern homes are linked to a power grid, and offer power from electrical sockets. An AC adaptor takes some of that power and gives it to an electrical device, e.g. a Sega Mega Drive. Electrical standards vary between countries but a Sega Mega Drive typically requires only a certain amount regardless of origin, thus one role of the AC adaptor is to only allow a certain amount of power through.
It is called an AC adaptor as it converts alternating current (AC) into direct current (DC). An alternating current is used to help electrical impulses travel long distances but is useless in electrical equipment and thus needs converting. When travelling large distances, voltages (measured in volts, V) are kept high while currents (measured in amps, A) are kept low. This is not appropriate for home use. Though the science behind AC adaptors can be confusing for those not familiar with the laws of physics, the short description is that an AC adaptor gives a console life without destroying the internal components.
AC adaptors are a necessary evil - they are often big, heavy and cumbersome, and are prone to becoming hot after long periods of use. There are three "types" of AC adaptors in terms of design:
- Adaptors whose components are centred around the plug
- "Brick-in-line" adaptors where the components are somewhere along with the lead
- Internal adaptors, where the components are stored within the device itself.
Sega chose to ignore the middle option for home consoles, leading to much frustration in the early 1990s when the company was releasing systems almost annually.
Prior to the Sega Saturn, AC adaptors were built into the plug, with their size often obstructing surrounding sockets in the process (and possibly even putting a strain on the wall). For one console (say, the Mega Drive) this is inconvenient but manageable. However, if someone wishes to purchase a Sega Mega-CD and Sega 32X, which each requiring their own similarly-designed power supply, problems can arise. In response, Sega released the Sega Power Strip in North America. The Sega Saturn and Sega Dreamcast have their AC adaptor within the console itself, meaning more ventilation is needed to keep the system cool.
Some adaptors are interchangeable without causing harm, but there are official standards in terms of voltage, current or even connectors. Just because a power lead looks as if it fits the connector size, this doesn't mean it is acceptably safe for all systems. All Sega consoles have their electrical requirements printed somewhere on the unit, and most power supplies have similar information printed on them. Some issues are not as obvious—you cannot use a Mega Drive model 1 power supply with a model 2 for example, but you can use it on a Model 1 Sega Mega-CD.
Consoles are often built around the country's electrical standards, so a Dreamcast from the United States is designed to work with a North American 120V, 60Hz electrical supply. A Dreamcast from the United Kingdom is designed for 230-240V, 50Hz; using a UK AC adaptor on a North American Dreamcast will destroy it if one does not use a step-down converter. Plug standards also differ between countries—the UK's type G plug will not fit in a US type A/B socket, so some sort of converter will be needed regardless (likewise for the television signal - the US uses NTSC, the UK uses PAL-I).
Contents
AC Adaptors
Note this list is incomplete. When dealing with power supplies, it is advised that you check the label(s) to make sure the numbers match up.
SC-3000
AC Adaptor for SC-3000 by John Sands Electronics.
3025
Intended for the Sega Master System, but will also function on a model 1 Sega Mega Drive and Sega Game Gear.
3084
UK Mega Drive 1.
1601
AC Adaptor for Sega Mega Drive ASIA PAL-B (VE) 1601-07
1602
1602s were built for the Sega Mega Drive (model 1) and both versions of the Sega Mega-CD. They will also function with a Sega Master System.
MK-1636
MK-1636s (230V, 50 Hz) power the Sega Mega Drive (model 2) and Sega 32X. They can also be used with the Sega Game Gear and Sega Nomad.
MK-2103
MK-2103s (120V, 60 Hz) power the Sega Mega Drive (model 2) and Sega 32X. They can also be used with the Sega Game Gear and Sega Nomad.
MK-1479
The MK-1479 was built exclusively for the Genesis 3 console.
MK-4122
The MK-4122 was built specifically for the Sega Multi-Mega.
SA-150
Built for the Japanese SG-1000 and also included with the SC-3000, SG-1000 II, Sega Mark III and the Japanese Sega Master System. It can also be used with the Japanese Sega Game Gear, which uses the same tip negative DC connector as those consoles.
SA-160
They can also be used with the Japanese Sega Game Gear (Japanese version is using minus center and positive outer plug type)
SA-160A
Built for Sega Mega Drive 1 They can also be used with the Japanese Sega Game Gear (Japanese version is using minus center and positive outer plug type)
SA-190
Built for the Japanese Sega Mega Drive 2?
SA-190A
Built for the Japanese Sega Mega Drive 2?
SA-190B
HGG-3200
Magazine articles
- Main article: AC adaptor/Magazine articles.
Physical scans
US (Mega Drive (1)) |
---|
|
US (Mega Drive (2)) |
---|
|
US (Genesis 3) |
---|
|
US (Game Gear) |
---|
|
US (Mega-CD) |
---|
|
US (Universal) |
---|
|