"New" Sources of Tesla 'OEM,' Tesla-like, and/or Third-Party CCS1 Adapters

Due to information/product vacuums caused when Tesla allegedly stepped in and prevented further sales of Korean CCS1 adapters to North America (e.g., by helpful businesses like Harumio), several new potential sources of adapters originated in 2022.

September 21, 2022 Update: Tesla North America has (finally) released its CCS1 adapter to Canadian and U.S. customers. The adapter is available to all (four) Tesla models, provided cars are CCS-enabled. [Hardware/software retrofits are now available from Tesla for cars currently without CCS capability.]

December 26, 2023 news tidbits: (a) Still no Tesla-provided CCS hardware/software updates for non-CCS-compatible Models 3 & Y; but maybe as soon as next month (January 2024)? (b) As discussed elsewhere, the scheduled adoption, now by almost all electric car manufacturers, of the NACS (North American Charging Standard--i.e., the original 2012 Tesla Proprietary Standard plugs and ports) suggests that the CCS standard may (join CHAdeMO and) become a dying technology in North America in coming years. (c) A2Z, a Canadian firm partnering with Asian manufacturer Olink, is now offering the first (to my knowledge) working combined CCS1 (DC)-J1772 (AC) adapter.

"New" (in 2022) Sources of CCS1 Adapters
(Grouped by type.)
​

Source​	Price​	Specific Notes​	Availability (in NA)​
		Genuine Tesla Adapter​
Tesla (North America)​	$250(US) $175(US) $250 $325(CAN) $340(CAN) $240(CAN) $345(CAN)​	Available on the Canada and U.S. Tesla websites. Owner's manual here. For Models S, X, 3, and Y. Car must be CCS-enabled. As of February 2023 factory-approved hardware retrofits (including parts and labor) for non-CCS-enabled cars were available for Models S and X. As of March 2024 CCS hardware upgrades for North American Models 3 and Y (that need them) are available for order on the Tesla website.. While waiting for Tesla to release hardware retrofits, some drivers of non-CCS cars tried successful DIY (do-it-yourself) procedures to enable CCS charging in certain 2021 cars and in older vehicles (particularly Models 3 & Y). See numerous postings, starting with this Thread. I assume that with Tesla factory retrofits now available, DIY efforts will diminish in popularity.	AVAILABLE.​
		Tesla-Adapter Copies​
Hansshow (China)​	$325 $294 $319 $250 $235 $246 $251 $239 $216 $230 $203 $175 $161 $132 $116.50 $119*​	Hansshow/Hautopart adapter may also be found on TesPlus website (for $200 $140).​ See website for technical specifications.​ Stated to be for Models S, X, 3, & Y (car must be CCS-enabled).​	AVAILABLE.​
Lectron (Hong Kong)​	$250 $200 $170 $185 $180 $165 $155 $140​	See website for technical specifications. Claimed to be compatible with "all Tesla models." Car must be CCS-enabled. Graphic imagery suggests that this may be a different product than the Hansshow/Hautopart adapter.	AVAILABLE.​
		Independently-designed Aftermarket Adapters​
A2Z Shop (Canada)​	$293 $270 $227 $195 $175 $150 $121*​	Brand name: "Thunderstorm Plug." Combined CCS1 and J1772 adapter in one. Sold by registered TMC vendor (information available via @A2ZEVSHOP) See website for technical specifications. Design and engineering input originated from this North American company with business ties to: Manufacturer Huizhou Olink Technology Co., Ltd. (China) Works with applicable Models S, Ǝ, X, and Y, but: Car must be CCS-enabled. Note #1: Website CCS1 price may vary slightly, probably due to fluctuating Canada-to-U.S.-dollar rates. Note #2: Other CCS1-related accessories (e.g., lock, case, ECU) are also available from A2Z Shop.	AVAILABLE.​
		In Development​
Electway (China)​	-na-​	See website for more information. In size and general shape, reminiscent of the original SETEC CCS1 adapter (see below). Possible release in, when?--2024?	Currently Unavailable.​

* Includes shipping to North America.

Note: Adapter images are not to the same scale.​

Comments:

• USE FOR AC J1772-PLUG CHARGING? - Some/all J1772 plugs can be inserted into the upper circular socket of many CCS1 adapters. This perpetuated the previous misconception that all CCS1 adapters could be used to accept J1772 plug-outfitted charging cables. That is still untrue. Most CCS1 adapters are exclusively for DC charging, while J1772 plugs are used for AC Level 2 charging.
  |
  However, there is news on this front: The latest A2Z Thunderstorm adapter will apparently handle both DC and AC charging. See that website for more information.
  |
  Meanwhile, the other CCS1 adapters listed in this post are (afaik) still not usable with any J1772 AC cable-plug device. So normally a CCS1 adapter is not necessary for AC charging (from 240v wall outlets and at Level 2 charging stations). TMC members have convincingly demonstrated (via photographs) that most other Tesla and aftermarket CCS1 adapters seen so far lack certain key electrical connectors necessary for AC J1772 charging (see here). Again, the A2Z adapter is apparently the exception. But for other CCS1 adapters, for a North American Tesla you can use AC charging equipment with J1772 plugs only with a proper J1772 adapter (now including the A2Z CCS1/J1772 adapter).
  
  
  
  
  
  
  
• CHARGING LOCKS - Adapters designed for use in North American Tesla cars routinely come with a locking notch (at the bottom of the Tesla proprietary [TPC] plug that inserts into the charging port) that will prevent most unintended adapter-removal (i.e., theft) from the port during a charging session. Some manufacturers/suppliers are also addressing the second undesirable issue of having a CCS1 cable-plug/handle prematurely removed from the other end of the adapter during charging. See individual supplier webpages about any features designed to prevent undesired cable removal.
  
  
• INTERNAL DESIGN - Most third-party CCS1 adapters appear to have a relatively simple straight "pass-through" circuitry design (with no or minimal amounts of solid-state circuitry components), as does the OEM Tesla adapter (I believe). The original SETEC adapter--with its battery-powered, CHAdeMO-mimicking software/hardware and 50kW charge rate maximum--is the notable exception.
  
  
• CCS COMPATIBILITY - CCS1 adapters that lack on-board control circuitry (i.e., most/all adapters other than the original SETEC device) require that the car be "CCS-enabled." (In other words, some kind of CCS-allowing control electronics must be present inside either the adapter or the car.) In general, most Teslas from early 2020 to June 2021, and from November 2021 to present are so enabled; but check your car's CCS status before purchasing an adapter.
  • To check CCS status:
    
    • Center Touchscreen Display.
    • "Software" screen.
    • Choose "Additional Vehicle Information" link.
    • Examine "CCS adapter support" status. Status should appear as either "Enabled" or "Not installed."
  • If "Not installed" (CCS incompatible), owners of Models S, X, 3, and Y can now purchase hardware/software updates from Tesla. There were also clever DIY (do it yourself) workarounds for Models 3 and Y before the factory retrofits became available.
    ...
• ADVERTISED CHARGING RATES - For several reasons I am no longer reporting charging rate specifications; in part because the new (2022) adapters all claim a maximum charging rate of at least 150kW, up to 250kW (as does the Tesla OEM adapter).
  
  TMC Forum posts report widely varying charging rates for seemingly all CCS1 adapters (both Tesla and third-party). The reason is apparently that many conditions and factors--e.g., car model, age, and condition; the battery's initial charge level and temperature at the start of a charging session; and additional factors--may affect maximum and ongoing charging rates at any particular time. Clearly the design and condition/health of the particular charging station being used makes a difference (with variation even seen among charging stations of the same company and at particular stations on different days). Also important: exactly when a reading is taken during a charging session. Charging rates rise and fall naturally over the course of a full session (here is one example). When a car starts with a relatively low battery level (say at 20% capacity), a moderately-high start, followed by an aggressive ramp-up, and then a gradual decline is commonplace.
  
  Taking all this into account, a single charging rate index number may not be a particularly helpful (or honest) decision-making factor. Better, perhaps, would be a series of comparative charge-session graphs with conditions held relatively constant (e.g., 20%-to-80% charge sessions, batteries preconditioned to best operating temperatures, moderate ambient temperatures, use of the same charging station, etc.). Clearly we need someone like Tom Moloughney (YouTube "State of Charge" Channel) to objectively test, side-by-side, all the CCS1 adapter alternatives. In addition to comparative charge rates, I would also be interested in internal design, and build quality. (But I certainly do not want to dissect my own, or indeed any, precious CCS1 adapter to investigate.)
  
  It is still early days, but one (still untested, afaik) hypothesis is that adapters with straight "pass-through" circuitry designs (including the Tesla OEM device) will all perform in generally similar fashion given the same conditions. If that proves true, the choice of product then comes down to factors other than maximum rate of charge; such as build-quality, safety features, cost (and we are seeing aftermarket sellers actively match or undercut the Tesla adapter price), size and weight, availability, brand loyalty, purchase convenience, customer service, and so forth. I haven't looked inside an adapter, but I imagine that the size/bulk, design, and metallurgical content of electrical contacts and conductors may be important (e.g., for resistance and hence energy loss through heat). This is DC high-voltage fast-charging, so you want beefy components here, people. Consider the analogy of making a purchase choice from among various brands of NEMA 14-50 wall receptacles with different prices and/or construction/designs. They all work, but...(BUY HUBBELL!--or, even better yet, a Tesla or name brand wall connector.)
  
  
• CAVEATS - Information (e.g., prices, descriptions) on some sites can change frequently and unexpectedly. Some initial products and websites are no more. Again, be cautious. After a long wait, adapters (and now CCS hardware upgrades for Models S & X) for are finally available from Tesla in North America. Therefore, many might now argue that the genuine CCS1 adapter (and factory hardware retrofits if needed) from Tesla in North America are the safest course. But will Tesla supplies be consistently adequate to meet demand? We'll see. (As of 03/8/24, Tesla's ongoing stock of CCS1 adapters appears to remain satisfactory.)
  
  
• CURRENCY - Prices listed here are in US dollars.
  
  
• CAUTION - Please note the alert (in red) at the bottom of this post.
  |
• For drivers whose cars are still incompatible with most CCS1 adapters and who, for whatever reason, prefer not want to use the original SETEC/Lectron CCS1 adapter (below), Tesla/aftermarket CHAdeMO adapters are still sometimes available (used/new) (e.g., on Craig's List), and are are alternative source for DC charging at the remaining stations in North America. At about a maximum of about 50kW, performance is similar to the SETEC/Lectron CCS1 adapter but without the hassle of software update incompatibility. CHAdeMO adapters are somewhat bulky*, however.
  |
  
  
  
  Tesla CHAdeMO Adapter
  |
• Finally, with recent (2023) inroads by Tesla into having its proprietary charging standard become the so-called North American Charging Standard (NACS)--adopted by more and more manufacturers of electric cars sold in North America (latest count appears to show that almost all NA electric cars will adopt the NACS within a couple of years)--it is easy to envision a time in the near future when virtually all new and many modified NA electric battery-powered vehicles will use the simple AC/DC Tesla standard plugs and ports. If that happens, the CCS1 standard could conceivably become obsolete. For now, though, CCS1 adapters remain a worthy accessory for Tesla drivers who travel extensively.

_____
* @wk057 has a bench-top dissection of a CHAdeMO adapter here, showing all the control circuitry necessary (hence the CHAdeMO adapter's larger size, by the way).

Prior Sources of CCS1 Adapters
(In order of release?)​

Source​	Price​	Specific Notes​	Adapter Type​	Availability (in NA)​
EVHub (Ukraine)​	$525​	Car must be "CCS-enabled." Availability curtailed by Russia's war against Ukraine. First available for sale in 2020.	"Aftermarket" Straight "pass- through" circuitry.​	Currently unavailable.​
SETEC/Lectron (China)​	$640 $300​	Unlike other adapters here, charges at a 50kW maximum rate. Requires onboard battery. Runs off firmware that may require frequent updates. Not always compatible with Tesla vehicle updates. Can be used in any model; car need not be CCS-enabled. First available (in North America) in late 2020.	"Aftermarket" Hardware/software used to mimic CHAdeMO technology.​	AVAILABLE.​
Tesla (Korea)​	~$227 (US)​	See website (and use Google translate if necessary) for technical specifications. Translation of owner's manual here. Car must be "CCS enabled." Ostensibly for Models 3/Y only (in actuality works with all CCS-enabled models). Includes locking pin to help discourage unintended CCS1 cable-plug detachment. Made for Tesla-Korea by Pegatron of Taiwan. First available (in Korea) in 2021. For a few months in 2022 was available to North American customers through selected Korean shopping/shipping businesses (e.g., Harumio).	"Tesla OEM" Straight "pass- through" circuitry.​	AVAILABLE (in Korea).​

Disclosures and Alerts:

• In 2022 I purchased two Tesla-Korea CCS1 adapters, along with aftermarket cases for those adapters, from Harumio in South Korea. (I found the process painless and convenient and staff there helpful and professional.) I paid the standard Harumio retail prices. I do not own, nor have I seen or handled, any of the other CCS1 adapters.
  
  
• More importantly, I have not received, nor am I or will I be receiving any payment or compensation in any form whatsoever from any company or individual regarding CCS1 adapters (or for that matter any other Tesla- or auto-related issue). All opinions, right or wrong, offered in this post are my own.
  
  
• The third-party CCS1 adapter market continues to be competitive. Product specifications and information (especially availability and prices) can evolve suddenly and unexpectedly as the market adjusts to recent events. Therefore, information included here may be in error or out-of-date. If you choose to purchase a third-party product, always check with the seller for the latest information and discounts before buying. As with other Tesla-applicable accessories, consumers now have a choice of factory or aftermarket products.

 

[Genie]

For those wondering what happened to my artistic masterpiece (i.e., simplistic line diagram of CCS1 charging equipment) in Post #223), here is is:

View attachment 850412​

During editing I somehow "broke" the TMC Forum software and the figure got mysteriously eliminated. (I am no longer able to edit Post #223 so I have asked the moderators to try to restore it.)

There is also a vital notch in the CCS adapter for the Tesla vehicle to latch to.

 

[tps5352]

There is also a vital notch in the CCS adapter for the Tesla vehicle to latch to.

Right! I see that at the bottom of the TPC plug at the car-side of the CCS1 adapter now. Do all TPC plugs (on cables and adapters) have that notch? I've never noticed.

 

[tps5352]

...we immediately removed all mentionings of it from our product listing...

...Kindly be note that our adapter is provided by the same supplier that collaborates with the sellers that you have previously mentioned...

...We were helped a lot by this community and we appreciate everyone for it. ..

...We welcome new competitors to the market and will always strive to improve our service and provide the best possible assistance to our customers.

First, thank you for providing hard-to-get Tesla-Korea charging products to North American (Canada and the U.S.) customers.

We notice that you have entirely stopped advertising the aftermarket CCS1 adapter on your website.

1. Is this permanent, or will you be able to offer this or any other CCS1 adapter in the future for sale to North American customers?
   
   
2. May we ask why you stopped offering the aftermarket CCS1 adapter? Was Harumio required to cease sales by the manufacturer (Olink) of by any other company?
   
   One topic of conversation among North American Tesla customers has been differences among Tesla OEM and aftermarket CCS1 adapters.
   
   
3. Do you have plans to offer a different CCS1 adapter with some sort of safety "lock" to prevent disconnection during charging?
   
   
4. Will you ever again be able to export genuine Tesla OEM CCS1 adapters to North America?

Thank you for any additional information.

 

[JimTheFrog]

I got the Harumio third-party CCS adapter. It showed up yesterday from China, about two weeks after I bought it. The box is labeled Chargerman, and it's made by Olink, who have sparse details about it at their evhcarginggun.com website. The box says "Read user guide inside the box carefully before using." Of course there's no user guide inside the box. I wrote to Olink and they sent me a QR code get to the instructions at ccs2tmanual - Olink Technology Co., Ltd. In essence the page says to put the adapter on charging station plug before you insert it into the Tesla charging port. There are specs and a few troubleshooting tips.

I drove to the nearby Walmart to check it out on an Electrify America charger, and it worked fine. Started charging right away, long before the EA app managed to connect, get an error, and let me keep charging for free. (I assume that was n EA software/communications issue, unrelated to the CCS adapter.)

 

[Undisclosed]

another video of the hansshow compared to the Tesla one

 

[TheLex]

Interesting thread! I ordered the Harumio CCS adapter before I realized that it didn't have the locking pin. From what I'm reading here, this is safe to use so long as I first stop the charge in the car before unplugging the cable correct? IOW do NOT rely on the trigger on the handle to stop the charge.

As for theft, I'm usually in the car watching Netflix while it's charging anyway. So I'm not really worried about that.

I noticed there's a video or two on this thread where the EVgo charger is charging above 150 kWh. Since the Harumio (Olink?) adapter says the max is 150 kWh, is it really safe to go above that spec? Or should I limit the charge rate by moving the charging slider in the car?

 

[Don.Church]

Or should I limit the charge rate by moving the charging slider in the car?

I don’t think we get to move the charging slider during DC fast charging. Is this correct?

 

[Randy-12]

Hmm, that is disappointing. I thought that that was the whole point of the pin on the Tesla CCS1 adapter--i.e., to prevent the CCS1 plug-handle from being detached from the adapter during active charging?

Rhetorical: Is the fault with the Tesla adapter or with the CCS1 plug-handles? I assume that CCS1 plug-handles at third-party charging stations receive a lot of wear and tear from use by all kinds of electric cars. Does the trigger-hook mechanism become easily broken?

I will try again the next time I use the CCS adapter.
I recall very clearly hearing the handle "Clicking" into the adapter.
The handles were all locked into the holders on the stations and the button had to be depressed to release it.

Maybe I was not plugged in far enough to engage the lock in the adapter? But if I was not in far enough, how did it charge?

 

[DoubleDD]

Interesting thread! I ordered the Harumio CCS adapter before I realized that it didn't have the locking pin. From what I'm reading here, this is safe to use so long as I first stop the charge in the car before unplugging the cable correct? IOW do NOT rely on the trigger on the handle to stop the charge.

As for theft, I'm usually in the car watching Netflix while it's charging anyway. So I'm not really worried about that.

I noticed there's a video or two on this thread where the EVgo charger is charging above 150 kWh. Since the Harumio (Olink?) adapter says the max is 150 kWh, is it really safe to go above that spec? Or should I limit the charge rate by moving the charging slider in the car?

There is no way to limit the charge rate. It is determined by your car and the charger you are connected too. These CCS adapters are passive devices.

 

[srs5694]

Personally, I think the reason why the trigger lock breaks so easily, is because of the design of some of the chargers themselves... Some of the chargers, the CCS handle locks onto the charger when not in use... But I've seen many stations, where it doesnt lock to the charger, it simply rests in a holster... In these types of machiens, I've seen the handles fall out and slam onto the ground, which is probably how the lock ends up breaking... (And the thermal sensor for that matter)

This may be. Another factor could be that these latches are generally made from plastic. On Level 2 (J1772) plugs, this is also true, but there are a few J1772 plugs that have metal latches. I don't know of any testing or studies on this, but metal (or at least, some metals) might be more durable than plastic.

I see that at the bottom of the TPC plug at the car-side of the CCS1 adapter now. Do all TPC plugs (on cables and adapters) have that notch? I've never noticed.

Yes. Without the notch, the car's locking mechanism won't work, and AFAIK when that happens, the car won't charge. There might be a partial exception: On older Teslas, when charging in sub-freezing temperatures, the locking mechanism is disabled. I'm not sure if this is true while charging, though; it might be that the car locks the connector while charging but then unlocks it once charging is complete. The reason for this is to prevent the mechanism from freezing up and making it difficult to remove the connector. (Some early Model 3 buyers in northern climates ran into this problem.)

 

[A2ZEVSHOP]

A little late, but as promised here it is :

How did this project of aftermarket adapter started for us ->

Please note that we are going to use purely simple terms in order to make it 100% understandable to everyone.

After taking apart an OEM Tesla adapter we understood some things :
1- Purely passive.
2- No electronics - no electronic signature.
3- Temperature sensors set at 87ºC and 89ºC.
4- When those temperatures are reached, it triggers a thermal breaker that stops the current until the adapter cools down.
5- The safety pin is purely mechanical and is related to absolutely no switch. Basically, that safety pin could be broken and the adapter will still allow flow of current.
6- The safety pin is powered by a spring. It simply locks the latch from being released.

Why didn't we make a safety pin?
Intellectual property.

What are we doing to make the product safe from arcing?
- Shorter pins inside the connector is a measure of safety, which means that when a distance between the adapter and CCS handle is created, the charging station detects the anomaly and stops the current.
- The release button on the CCS handle is primordial for the charging station to work (that's according to our research and calls to different companies. This applies to 99% of charging stations). As soon as it pressed, the charging process stops instantly.
- A caution card in each and every package is included to advise customers to stop the charging process either from the phone, the charging station's screen/app, the vehicle's screen or simply from the release button.

Now, we are aware that some people are still concerned. We have successfully designed and undergoing testings of a hard plastic lock that will attach directly to our adapter in order to prevent the latch from being raised. It will not be 3D printed but 100% molded.

Regarding the car :
Is there a risk that our adapter damages the battery? charging port or other components?

NO.

Our adapter is purely passive and inspiring ourselves from the original adapter, there is 2 temperature sensors that are set at 85ºC and 90ºC. When those temperatures are reached, a thermal breaker is triggered and etc. Works the EXACT same way as the original.

Your vehicle and the charging station are equipped with various current sensors and temperature sensors especially in the vehicles charge port. If anything is sensed either the charging station or the car will stop or simply not start the charging process.
We haven't released the adapter after 3 days of conception and testings. We do drive Tesla vehicles as well and we use our own product almost daily.

Who decides the amount of current provided to the car?
The car itself decides how much it can take and at what moment. That why, when you precondition your battery you obtain better charging numbers.
The current provided to the car is limited by the charging station capacity and the adapter's resistance to that capacity. We only use high quality materials, we are currently using copper and titanium.

Is there a way for Tesla to block our adapter?
Short answer is no.

Long answer is yes. They would have to throw the present adapter they sell in SK, design a new one with an electronic signature and release a software update. Will they do it? I don't think so.

We spoke with 2 Tesla employees, which we will not divulge positions. They said Tesla is not against aftermarket parts or accessories, as long as it's safe and doesn't terns their reputation.

We are undergoing an ETL certification, which is going to apply to all previous sales as well. We don't plan on changing the design but to add the mentioned accessory to make it even safer than it already is.

We have been in business for the past 7 years in the automotive industry, especially in the electrical field. We are not here to make a quick buck and disappear. We have decided to take the green route and we will be releasing new adapters for different purposes in the next few weeks/months, such a reverse one allowing you to charge any EV with a Tesla plug. The A2Z Thunderstorm Plug will also be released in 80-32A version to allow the usage of the adapter on home charging stations such as the Ford Pro Charging Station which has a CCS plug.

Please note that I am not an electrical engineer, I am responsible for communications and marketing. These are the informations we learned as we were all trained to help customers understand the background of our product and how it works. This is not a learned speech either, we understand those concepts as well.

Cheers.

 

[DoubleDD]

A little late, but as promised here it is :

How did this project of aftermarket adapter started for us ->

Please note that we are going to use purely simple terms in order to make it 100% understandable to everyone.

After taking apart an OEM Tesla adapter we understood some things :
1- Purely passive.
2- No electronics - no electronic signature.
3- Temperature sensors set at 87ºC and 89ºC.
4- When those temperatures are reached, it triggers a thermal breaker that stops the current until the adapter cools down.
5- The safety pin is purely mechanical and is related to absolutely no switch. Basically, that safety pin could be broken and the adapter will still allow flow of current.
6- The safety pin is powered by a spring. It simply locks the latch from being released.

Why didn't we make a safety pin?
Intellectual property.

What are we doing to make the product safe from arcing?
- Shorter pins inside the connector is a measure of safety, which means that when a distance between the adapter and CCS handle is created, the charging station detects the anomaly and stops the current.
- The release button on the CCS handle is primordial for the charging station to work (that's according to our research and calls to different companies. This applies to 99% of charging stations). As soon as it pressed, the charging process stops instantly.
- A caution card in each and every package is included to advise customers to stop the charging process either from the phone, the charging station's screen/app, the vehicle's screen or simply from the release button.

Now, we are aware that some people are still concerned. We have successfully designed and undergoing testings of a hard plastic lock that will attach directly to our adapter in order to prevent the latch from being raised. It will not be 3D printed but 100% molded.

Regarding the car :
Is there a risk that our adapter damages the battery? charging port or other components?

NO.

Our adapter is purely passive and inspiring ourselves from the original adapter, there is 2 temperature sensors that are set at 85ºC and 90ºC. When those temperatures are reached, a thermal breaker is triggered and etc. Works the EXACT same way as the original.

Your vehicle and the charging station are equipped with various current sensors and temperature sensors especially in the vehicles charge port. If anything is sensed either the charging station or the car will stop or simply not start the charging process.
We haven't released the adapter after 3 days of conception and testings. We do drive Tesla vehicles as well and we use our own product almost daily.

Who decides the amount of current provided to the car?
The car itself decides how much it can take and at what moment. That why, when you precondition your battery you obtain better charging numbers.
The current provided to the car is limited by the charging station capacity and the adapter's resistance to that capacity. We only use high quality materials, we are currently using copper and titanium.

Is there a way for Tesla to block our adapter?
Short answer is no.

Long answer is yes. They would have to throw the present adapter they sell in SK, design a new one with an electronic signature and release a software update. Will they do it? I don't think so.

We spoke with 2 Tesla employees, which we will not divulge positions. They said Tesla is not against aftermarket parts or accessories, as long as it's safe and doesn't terns their reputation.

We are undergoing an ETL certification, which is going to apply to all previous sales as well. We don't plan on changing the design but to add the mentioned accessory to make it even safer than it already is.

We have been in business for the past 7 years in the automotive industry, especially in the electrical field. We are not here to make a quick buck and disappear. We have decided to take the green route and we will be releasing new adapters for different purposes in the next few weeks/months, such a reverse one allowing you to charge any EV with a Tesla plug. The A2Z Thunderstorm Plug will also be released in 80-32A version to allow the usage of the adapter on home charging stations such as the Ford Pro Charging Station which has a CCS plug.

Please note that I am not an electrical engineer, I am responsible for communications and marketing. These are the informations we learned as we were all trained to help customers understand the background of our product and how it works. This is not a learned speech either, we understand those concepts as well.

Cheers.

Thanks so much for the additional information. Looking forward to testing this adapter soon. The demand for a cheaper alternative to Supercharging is huge here in Canada. PetroCan only charges $0.27/minute for their 350kW chargers.

 

[terranx]

A little late, but as promised here it is :

How did this project of aftermarket adapter started for us ->

Please note that we are going to use purely simple terms in order to make it 100% understandable to everyone.

After taking apart an OEM Tesla adapter we understood some things :
1- Purely passive.
2- No electronics - no electronic signature.
3- Temperature sensors set at 87ºC and 89ºC.
4- When those temperatures are reached, it triggers a thermal breaker that stops the current until the adapter cools down.
5- The safety pin is purely mechanical and is related to absolutely no switch. Basically, that safety pin could be broken and the adapter will still allow flow of current.
6- The safety pin is powered by a spring. It simply locks the latch from being released.

Why didn't we make a safety pin?
Intellectual property.

What are we doing to make the product safe from arcing?
- Shorter pins inside the connector is a measure of safety, which means that when a distance between the adapter and CCS handle is created, the charging station detects the anomaly and stops the current.
- The release button on the CCS handle is primordial for the charging station to work (that's according to our research and calls to different companies. This applies to 99% of charging stations). As soon as it pressed, the charging process stops instantly.
- A caution card in each and every package is included to advise customers to stop the charging process either from the phone, the charging station's screen/app, the vehicle's screen or simply from the release button.

Now, we are aware that some people are still concerned. We have successfully designed and undergoing testings of a hard plastic lock that will attach directly to our adapter in order to prevent the latch from being raised. It will not be 3D printed but 100% molded.

Regarding the car :
Is there a risk that our adapter damages the battery? charging port or other components?

NO.

Our adapter is purely passive and inspiring ourselves from the original adapter, there is 2 temperature sensors that are set at 85ºC and 90ºC. When those temperatures are reached, a thermal breaker is triggered and etc. Works the EXACT same way as the original.

Your vehicle and the charging station are equipped with various current sensors and temperature sensors especially in the vehicles charge port. If anything is sensed either the charging station or the car will stop or simply not start the charging process.
We haven't released the adapter after 3 days of conception and testings. We do drive Tesla vehicles as well and we use our own product almost daily.

Who decides the amount of current provided to the car?
The car itself decides how much it can take and at what moment. That why, when you precondition your battery you obtain better charging numbers.
The current provided to the car is limited by the charging station capacity and the adapter's resistance to that capacity. We only use high quality materials, we are currently using copper and titanium.

Is there a way for Tesla to block our adapter?
Short answer is no.

Long answer is yes. They would have to throw the present adapter they sell in SK, design a new one with an electronic signature and release a software update. Will they do it? I don't think so.

We spoke with 2 Tesla employees, which we will not divulge positions. They said Tesla is not against aftermarket parts or accessories, as long as it's safe and doesn't terns their reputation.

We are undergoing an ETL certification, which is going to apply to all previous sales as well. We don't plan on changing the design but to add the mentioned accessory to make it even safer than it already is.

We have been in business for the past 7 years in the automotive industry, especially in the electrical field. We are not here to make a quick buck and disappear. We have decided to take the green route and we will be releasing new adapters for different purposes in the next few weeks/months, such a reverse one allowing you to charge any EV with a Tesla plug. The A2Z Thunderstorm Plug will also be released in 80-32A version to allow the usage of the adapter on home charging stations such as the Ford Pro Charging Station which has a CCS plug.

Please note that I am not an electrical engineer, I am responsible for communications and marketing. These are the informations we learned as we were all trained to help customers understand the background of our product and how it works. This is not a learned speech either, we understand those concepts as well.

Cheers.

Can you clarify your relationship with Olink? There are some here who believe that the vendors selling the Olink branded adapter are ripping you off. Is that the case?

 

[A2ZEVSHOP]

Can you clarify your relationship with Olink? There are some here who believe that the vendors selling the Olink branded adapter are ripping you off. Is that the case?

There are some things that are confidential, but we do have numerous legal agreements with Olink. We work really really really closely with Olink on various aspects of development, testings, design, engineering & etc. They are our partner, not only our supplier. We share the market with them and we don't mind it. We have to give them credit, without them it wouldn't have been possible to have the A2Z Thunderstorm Plug.

If you take a look on Amazon, the adapter is sold under the name Chargerman, but sold by A2Z EV. The alliance between Olink and A2Z is bigger than you think.

As of now, nobody is ripping us off.
Some tried, but they are out of the game.

We don't mind competitors or sharing the market, as long as it's healthy and fair. We also do really care that any competitor needs to make sure his product is safe for public usage as it could tern the reputation of all 3rd party adapters.

 

[wamojo]

We tried out the A2Z adapter for our 2021 Model 3, I had previously updated the ECU. We live in Canada so ordering from Montreal seemed a lot easier then South Korea (I tried Harumio but they were blocked by Tesla in the middle of my order) or that weird one in Hawaii. We just tried it at 4 different chargers on 3 different Canadian Charging Networks in 2 days. 3 of the chargers were 50KW and one was 150KW.

I was so excited to try these new to me chargers (superchargers are too easy) that I didn't read all the warnings in this thread and in the instructions sent out by A2Z about the necessity of turning it off from the app first.

But the first one was at a Circuit Electric (Quebec Hydro) at 50Kw and it worked fine at about 46Kw delivered to the car. The same day we tried out Electrify
Canada which was rated at 150Kw and we got in the 30Kw range. But a F150 was at the 350Kw charger close to us and he was getting in the 30Kw range also- I looked up his charging curve later and it should have been in the 150Kw range. So I was pretty happy with the adapter after the first day and I got to talk to people in non-teslas who didn't have a lot of EV experience.

The second day we went to a 50kw on the IVY network (Ontario hydro) and we were getting in the high 40Kws. The guy from the previous day with the F150 was in the middle of a long road trip and had complained that IVY wasn't as good as I had experienced around my home (level 2 mainly). But I think the big hydro companies are going to maintain their chargers better than the other networks.

We then found another 50Kw that belonged to Circuit Electric (Quebec Hydro but on the Ontario side). This area didn't have good coverage for my cell phone so I had purchased the RFID card for Circuit Electric. The charger seemed to start the same but there was some connection error on the car side. My car didn't register that any energy was coming in and the left side of the screen went white blank. My wife tried her Tesla app and it was frozen. So at this point I should have had my wife load the Circuit Electric app and shut down the charger because my Circuit Electric app was useless without cell service and I didn't see any way to shut down the charger with my RFID. The charger had a Stop button that I pressed but it didn't do anything. I pressed and held the Stop button for about 10 seconds max, perhaps I should have held it for a few minutes. At this point not knowing about all the DO NOT warnings that people have expressed in this thread and in the product documentation I pulled the handle and adapter out of the car.

That is when the entire screen of my model 3 2021 went dark and I began to sweat. I held the 2 buttons to do the restart and nothing happened. My wife starting giving me the side eye. I gave it a couple minutes and then held the 2 buttons again and the restart finally happened! The car was back to normal but I had enough excitement for the day and we went home.

Overall I am happy with the adapter as it will give me access to a 50Kw close to my sisters place when we visit so we don't have to go 40 mins out of our way to a supercharger through Toronto traffic OR leave it at a library in my sisters small town connected to a level 2 for a few hours.

I love these 1st world problems!

 

[A2ZEVSHOP]

We tried out the A2Z adapter for our 2021 Model 3, I had previously updated the ECU. We live in Canada so ordering from Montreal seemed a lot easier then South Korea (I tried Harumio but they were blocked by Tesla in the middle of my order) or that weird one in Hawaii. We just tried it at 4 different chargers on 3 different Canadian Charging Networks in 2 days. 3 of the chargers were 50KW and one was 150KW.

I was so excited to try these new to me chargers (superchargers are too easy) that I didn't read all the warnings in this thread and in the instructions sent out by A2Z about the necessity of turning it off from the app first.

But the first one was at a Circuit Electric (Quebec Hydro) at 50Kw and it worked fine at about 46Kw delivered to the car. The same day we tried out Electrify
Canada which was rated at 150Kw and we got in the 30Kw range. But a F150 was at the 350Kw charger close to us and he was getting in the 30Kw range also- I looked up his charging curve later and it should have been in the 150Kw range. So I was pretty happy with the adapter after the first day and I got to talk to people in non-teslas who didn't have a lot of EV experience.

The second day we went to a 50kw on the IVY network (Ontario hydro) and we were getting in the high 40Kws. The guy from the previous day with the F150 was in the middle of a long road trip and had complained that IVY wasn't as good as I had experienced around my home (level 2 mainly). But I think the big hydro companies are going to maintain their chargers better than the other networks.

We then found another 50Kw that belonged to Circuit Electric (Quebec Hydro but on the Ontario side). This area didn't have good coverage for my cell phone so I had purchased the RFID card for Circuit Electric. The charger seemed to start the same but there was some connection error on the car side. My car didn't register that any energy was coming in and the left side of the screen went white blank. My wife tried her Tesla app and it was frozen. So at this point I should have had my wife load the Circuit Electric app and shut down the charger because my Circuit Electric app was useless without cell service and I didn't see any way to shut down the charger with my RFID. The charger had a Stop button that I pressed but it didn't do anything. I pressed and held the Stop button for about 10 seconds max, perhaps I should have held it for a few minutes. At this point not knowing about all the DO NOT warnings that people have expressed in this thread and in the product documentation I pulled the handle and adapter out of the car.

That is when the entire screen of my model 3 2021 went dark and I began to sweat. I held the 2 buttons to do the restart and nothing happened. My wife starting giving me the side eye. I gave it a couple minutes and then held the 2 buttons again and the restart finally happened! The car was back to normal but I had enough excitement for the day and we went home.

Overall I am happy with the adapter as it will give me access to a 50Kw close to my sisters place when we visit so we don't have to go 40 mins out of our way to a supercharger through Toronto traffic OR leave it at a library in my sisters small town connected to a level 2 for a few hours.

I love these 1st world problems!

Happy it worked out for you.
The issues you mentioned are a pure coincidence as it also happens at superchargers or even at home. There are some bugs and a simple restard fixes the issue.
It’s not related to the adapter whatsoever.
We are rushing the locking adapter

Thank you for trusting us and keep the feedbacks coming

 

[superkrum]

What's the highest charging rate you have achieved with the A2Z adapter?

The most I have gotten with the A2Z is 47 kw. The charger will put out 200 kw. I have a model 3. I have used the A2Z 4 times no problems. we even disconnected charger first by mistake but all was well. Just got scolding.

 

[A2ZEVSHOP]

The most I have gotten with the A2Z is 47 kw. The charger will put out 200 kw. I have a model 3. I have used the A2Z 4 times no problems. we even disconnected charger first by mistake but all was well. Just got scolding.

47kW in a 50kW charging station right?

 

[Undisclosed]

Happy it worked out for you.
The issues you mentioned are a pure coincidence as it also happens at superchargers or even at home. There are some bugs and a simple restard fixes the issue.
It’s not related to the adapter whatsoever.
We are rushing the locking adapter

Thank you for trusting us and keep the feedbacks coming

Will you sell the locking adapter to those who did not purchase off of your website/Amazon?

 

[A2ZEVSHOP]

Will you sell the locking adapter to those who did not purchase off of your website/Amazon?

Yes, we will.