Engineering:Type 3 connector
Type | Electric vehicle charging | ||
---|---|---|---|
Production history | |||
Designer | Scame / CEI CIVES | ||
Designed | 1999 / 2010 | ||
General specifications | |||
Pins | 4 or 7 (1 earth, 1–3 line phases, 1 neutral, 1–2 signalling) | ||
Electrical | |||
Signal | 1‒3 phase AC | ||
Earth | Dedicated pin | ||
Max. voltage | 480 V | ||
Max. current | 63 A | ||
Data | |||
Data signal | SAE J1772: Resistive / Pulse-width modulation | ||
Pin out | |||
Pinouts for Types 3A and 3C electric vehicle charging plugs | |||
PP | Proximity pilot | pre-insertion signalling (Type 3C only) | |
CP | Control pilot | post-insertion signalling | |
PE | Protective earth | full-current protective earthing system | |
N | Neutral | single-/three-phase AC | |
L1 | Line 1 | single-/three-phase AC | |
L2 | Line 2 | three-phase AC (3C only) | |
L3 | Line 3 | three-phase AC (3C only) |
The IEC 62196 Type 3 connector (often referred to as Scame for the company that designed it) is used for charging battery electric vehicles, mainly within France and Italy, as it was one of three AC plug standards described in IEC 62196-2. The Type 3 connector comes in two physical formats, Type 3A for single-phase (230V) and Type 3C for single- and three-phase (400V) alternating current (AC) power. Both have since been superseded by the Type 2 connector (aka Mennekes), the latter adopted as sole connector in 2013 by the European Union.[1] The Type 1 connector (aka Yazaki) is the corresponding AC connector standard used in North America, Japan, and South Korea.
Type 3A and 3C connectors are derived from the popular industrial blue IEC 60309 single- and three-phase AC connectors, which come in different diameters according to maximum current, most commonly 16 A and 32 A. The battery management system on the electric vehicle negotiates the maximum current with the electric vehicle supply equipment via dedicated pins in the Type 3C connector. The Type 3 (3A/3C) connectors are generally oval in shape, with circular top and bottom edges and flat right and left edges; the maximum power carried is 24 kW. Type 3C plugs have a mechanical shutter to protect the pins from being touched inadvertently; mechanical shutter protection have since been added as an option for Type 2 connectors.
History, overview, and peer connectors
In 1999, the Commissione Italiana Veicoli Elettrici Stradali (it) (Italian electric vehicles association, CIVES) approached Scame to design an interface specifically for charging electric vehicles,[2] which led to a system that delivered single-phase AC line voltage through what is now called a Type 3A female socket via an adaptor that plugged into a standard 230 V AC outlet.[3] These were derived from the existing IEC 60309 standard for pin-and-socket connectors and endorsed in the provisional ENV 50275 family of IEC standards[4]:172 in accordance with Comitato Elettrotecnico Italiano (it) (CEI) standard 69–6.[5]:57 Two versions are available: one for the CEI 23-50 (Type L) 16A socket used in Italy,[6] and the other for the CEE 7 (Types E/F) socket used in France and Germany.[7] In addition to the AC power contacts and protective earth, there is a single control pilot communication pin in the Type 3A interface, which verifies the continuity of the protective earth circuit. The maximum rated current and voltage are 16 A and 200–250 V, respectively.[5]:57 This is defined as Mode 2 charging under IEC 61851.[8]:21[9]:111
The Type 3C interface was developed approximately ten years later for the transmission of power at more than 3 kW;[5]:56 the EV Plug Alliance was formed in March 2010 to promote the use of the Type 3C connector as "a high safety plug and socket solution" in Mode 3 (3–22 kW) AC charging. The EV Plug Alliance was a bi-national organization whose founding members were Schneider Electric (France), Legrand (France), and Scame (Italy).[10] Schneider considered the Type 3C connector to be most suited for the EVSE socket outlet / cord plug pairing, as the cord would be supplied by the EV manufacturer with a connection specific to the EV. This concept was analogous to the implementation of USB, where the computer is equipped with a universal connector (USB-A) that is physically different from the peripheral connector (USB-B, mini USB, micro USB, etc.), and it is incumbent on the peripheral supplier to include a connecting cable.[8]:23
In January 2013, the IEC 62196-2 Type 2 connector was selected by the European Commission as the official AC charging plug within the European Union.[1] It has since been adopted as the recommended connector in most countries worldwide, including New Zealand.[11] The Type 2 connector has a maximum power output for 43 kW and can handle both single-, dual- and three-phase AC power.
The IEC 62196-2 Type 1 connector (codified under SAE J1772) is the corresponding standard for single-phase AC charging in the United States, Canada, and South Korea.[12] J1772 has a maximum output of 19.2 kW.[13]
Description
As specified by IEC 62196, cars are fitted with a male vehicle inlet, whilst charging stations are fitted with a female socket outlet, either directly on the outside of the charging station, or via a flexible cable with permanently attached connector on the end. A separate male-to-female cable is used to connect the vehicle using a male plug connecting to the female socket outlet of the charging station; this last connection was proposed to use the Type 3C connector, while the vehicle-to-cable connection would be made using a connector of the EV manufacturer's choice (Type 1, 2, or 3).
The Type 3C connector can be provided with a logic-controlled latching system to prevent theft of the cable. In this system, a pin is driven up from below the socket, mating with a matching cutout on the shroud of the plug. This also serves to lock the cover of the socket when not in use, making the system resistant to vandals.[5]:53
With the adoption of de facto regional standards for AC vehicle inlet connectors (Type 1 in North America and Japan, Type 2 in Europe and the rest of the world), the Type 3C connector has been obsoleted and is not commonly encountered.[9]:111 Some home and public AC charging stations are "untethered", meaning they do not have permanently attached cables, so the EV owner is responsible for supplying the connecting cable.[15][16] In most cases those untethered stations use a female Type 2 socket outlet.[17][18] A law in France requires mechanical protection for the infrastructure interface, so there are still some (generally older) untethered charging stations in that country which are equipped with Type 3C socket outlets.[19]
Pins
The connectors contain seven contact places: two small and five larger. The top row consists of two smaller contacts for signalling, the middle two rows each contain two AC power pins, and the bottom row, with one centred pin, is used for Earthing. Three pins are always used for the same purposes:
- Proximity pilot (PP): pre-insertion signalling
- Control pilot (CP): post-insertion signalling
- Protective earth (PE): full-current protective earthing system
Communication takes place over the CP/PP signalling pins between the charger, cable, and vehicle to ensure that the highest common denominator of voltage and current is selected. The signalling protocol is identical to that of Type 1 connectors as described in the SAE J1772 standard.
See also
- IEC 62196, for information about the specification
- CHAdeMO and CCS Combo, for rapid charging.
- SAE J1772, or Type 1 connector, the equivalent AC connector used in North America, South Korea and Japan
- Type 2 connector, the superseding AC connector used in Europe
- OpenEVSE
References
- ↑ 1.0 1.1 Lesage, Jon (February 5, 2013). "European Commission decides on Mennekes type 2 plug standard". Autoblog. https://www.autoblog.com/2013/02/05/european-commission-decides-on-mennekes-type-2-plug-standard/. Retrieved 23 August 2022.
- ↑ Harper, Phoebe. "The Spirit of Italian Innovation". EME Outlook (45): 32–41. https://www.emeoutlookmag.com/company-profiles/467-scame-parre-spa. Retrieved 23 August 2022.
- ↑ "General Catalogue 2008/2009 | Plugs and sockets for industrial applications: LIBERA Series, connector for electric vehicles". Scame Parre S.p.A.. 2008. https://proelektro.eu/userfiles/files/ScameCatalogENG.pdf#page=36.
- ↑ "Catalogue: Plugs and sockets for industrial applications". Scame. https://www.cablejoints.co.uk/upload/Scame_Industrial_Plugs_Sockets___Scame_Libera,_Eureka,_Eureka_HD,_IEC_309_Plugs_&_Sockets.pdf.
- ↑ 5.0 5.1 5.2 5.3 "Ecomobility General Catalogue". Scame Parra S.p.A.. https://www.elsaadelectric.com/images/pdf/zp00910-gb-3_-_ecomobility_catalogue_2560.pdf.
- ↑ "ADAPTER IP20 16A 2P+E 200–250V Grey standard IT 230V~ 3.7kW Type 3A 1P+N+E, COD 200.01623". Scame. https://www.scame.com/en/catalogue/-/catalogue/E-Mobility_Connection_Connectors/200.01623.
- ↑ "ADAPTER IP20 16A 2P+E 200–250V Grey standard FR/DE 230V~ 3.7kW Type 3A 1P+N+E, COD 200.01624". Scame. https://www.scame.com/en/catalogue/-/catalogue/E-Mobility_Connection_Connectors/200.01624.
- ↑ 8.0 8.1 "Electric Vehicle Solution". Schneider Electric. January 2011. https://www.bsmi.gov.tw/wSite/public/Attachment/f1302503428946.pdf.
- ↑ 9.0 9.1 Innovation Outlook: Smart Charging for Electric Vehicles (Report). IRENA: International Renewable Energy Agency. 2019. https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2019/May/IRENA_Innovation_Outlook_EV_smart_charging_2019.pdf. Retrieved 23 August 2022.
- ↑ "Creation of the EV Plug Alliance by three major industrial players" (Press release). Legrand. March 19, 2010. Retrieved 23 August 2022.
- ↑ "Charging point connectors and socket outlets". NZ Transport Agency. https://www.nzta.govt.nz/planning-and-investment/planning/transport-planning/planning-for-electric-vehicles/national-guidance-for-public-electric-vehicle-charging-infrastructure/charging-point-connectors-and-socket-outlets/. Retrieved 2019-02-15.
- ↑ Kane, Mark (January 23, 2018). "European CCS (Type 2 / Combo 2) Conquers World - CCS Combo 1 Exclusive To North America". Inside EVs. https://insideevs.com/news/333637/european-ccs-type-2-combo-2-conquers-world-ccs-combo-1-exclusive-to-north-america.
- ↑ Kane, Mark (May 17, 2018). "SAE Releases Charging Standard For Big Rigs / Trucks". Inside EVs. https://insideevs.com/news/338123/sae-releases-charging-standard-for-big-rigs-trucks.
- ↑ "ACEA position and recommendations for the standardization of the charging of electrically chargeable vehicles". ACEA – European Automobile Manufacturers Association. 2011-03-02. https://www.acea.auto/files/charging_20110511.pdf.
- ↑ "Blog – Tethered VS Untethered EV Chargers". https://wepoweryourcar.com/blog-tethered-vs-untethered-ev-chargers/.
- ↑ "Electric vehicle charge points". South Holland District Council. https://www.sholland.gov.uk/article/13242/Electric-vehicle-charge-points.
- ↑ "How to charge an electric car". Jaguar Automobiles. https://www.jaguar.com/electric-cars/how-to-charge.html.
- ↑ "Charging Point Connector Types". https://electriccarhome.co.uk/charging-points/charging-point-connector-types/.
- ↑ "T3 Charging cables for France". https://www.evchargeking.com/en/t3-charging-cables-for-france.
External links
- Type 3A
- "Plug IP 44 16A 2P+E 200-250V GREY Type 3A 1P+N+E 16A 230V~ 3.7kW, COD 200.01633". Scame. https://www.scame.com/en/catalogue/-/catalogue/E-Mobility_Connection_Connectors/200.01633.
- "Connector IP 44 16A 2P+E 200-250V GREY Type 3A 1P+N+E 16A 230V~ 3.7kW, COD 200.01643". Scame. https://www.scame.com/en/catalogue/-/catalogue/E-Mobility_Connection_Connectors/200.01643.
- "Flush-Mounting Socket IP44 16A 2P+E 200-250V GREY Type 3A 1P+N+E 16A 230V~ 3.7kW, COD 200.01663". Scame. https://www.scame.com/en/catalogue/-/catalogue/E-Mobility_Connection_Connectors/200.01663.
- Type 3C
- "Plug IP44 32A 3P+N+E 400V GREY Type 3C 3P+N+E 32A 400V~ 22kW, COD 200.33233". Scame. https://www.scame.com/en/catalogue/-/catalogue/E-Mobility_Connection_Connectors/200.33233.
- "Connector IP44 32A 3P+N+E+2pilot 400V, COD 200.33243 [Out of production"]. Scame. https://www.scame.com/en/catalogue/-/catalogue/E-Mobility_Connection_Connectors/200.33243.
- "Flush-Mounting Socket IP44 32A 3P+N+E 400V GREY 70x87mm Type 3C 3P+N+E 32A 400V~ 22kW, COD 200.33263". Scame. https://www.scame.com/en/catalogue/-/catalogue/E-Mobility_Connection_Connectors/200.33263.
Original source: https://en.wikipedia.org/wiki/Type 3 connector.
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