In late 2022 Tesla added the ability to control your garage door over WiFi or cellular data through its myQ integration. For vehicles that do not include HomeLink, such as newer Model 3s and Model Ys, this is a great alternative to adding HomeLink to your vehicle, especially if your garage door already supports myQ.
Vehicles Supported
Almost all Teslas support myQ, which includes the Model 3, Model Y and the 2021+ Model S and Model X. Unfortunately, it currently does not support the legacy Model S and Model X, but support could be added at a later point.
Tesla supports myQ integration in a wide variety of regions, but the feature is not available in every country. The list of supported countries includes the U.S. and Canada, although it leaves out other countries such as Australia and the United Kingdom. It's not clear why it's only available in some regions, but it could be due to where myQ currently supports their devices.
Supported Devices
Tesla's current myQ integration is exclusively for garage doors. Although myQ does support other devices such as gates in their app, Tesla's integration will not work with myQ cameras, lights or gates.
MyQ Hub
Newer garage door openers support myQ natively, but you can also add myQ to older garage door motors. The myQ hub works by connecting your garage door to the internet through the use of a wireless hub. The myQ hub is an affordable device that turns almost any garage door motor into a WiFi-capable garage door opener. The hub can be bought on Amazon for $30 or less.
Chamberlain's myQ hub turns your garage door opener into a Wi-Fi capable one
myQ
Subscription Cost
Although myQ does not charge a fee to remotely open and close garage doors through their mobile app, they do charge to use myQ integration in a Tesla and other vehicles. This is a similar model to how some software it free to use on a computer, but requires a subscription on your mobile phone.
MyQ offers various price points depending on the length of time. They range from $45/year to a 10-year subscription for $299. MyQ also offers a 5-year plan for $179. Although the subscription cost is high, it is still cheaper than Tesla's $350 installation cost for HomeLink.
Unfortunately, for owners who already have a HomeLink module installed, paying for myQ doesn't make a lot of sense. However, there are some advantages to having myQ instead of HomeLink.
MyQ Settings
Tesla's myQ integration is very similar to HomeLink, and better in some ways. On the myQ settings screen, you have a list of supported devices running down the left side. On the right side, you'll see options about the device selected, such as its current state, and options such as auto-open, auto-close and auto-fold mirrors.
You'll be able to set or reset your garage door's location, which uses your vehicle's current GPS location. You'll want to set this when your vehicle is directly in front of your garage. You can also have your vehicle chime when the auto-open or auto-close feature is about to activate.
If you've used HomeLink before, this integration is very similar. Although the UI is slightly different, the features are almost the same as the ones offered through HomeLink.
Differences Between myQ and HomeLink
There are a few differences between myQ integration and HomeLink. Neither system is the clear winner, and the one that is right for you will depend on various factors.
Advantages of myQ
MyQ is a smarter system with additional sensors, so it offers a few advantages over the older HomeLink standard.
MyQ Fixes the Auto-Open Feature
During installation myQ has you add a sensor to each of your garage doors. This sensor lets myQ know whether your garage door is open or closed. Your Tesla will even display the state of the garage door, letting your check whether your garage is open or closed from anywhere in the world. Although myQ also keeps track of how long ago your garage door was opened or closed, this information does not show up in your Tesla.
Since myQ knows the state of your garage door, it can help prevent some issues that are seen in HomeLink. One of the biggest issues with HomeLink is due to it not knowing whether your garage door is already open. With myQ you will no longer arrive home when your garage door is opened, only to have your auto-open feature close the garage door on you. Since myQ knows the state of your garage door, it will only trigger the open and close commands when needed.
MyQ Works From Further Away
Another advantage of myQ is that it leverages your Tesla's internet connectivity. MyQ will send the signal to open or close your garage door over the internet, letting you open your garage door from anywhere in the world. However, the most practical advantage of using the internet to open your garage door is that you set your garage door to auto-open from much further away. This gives your garage door time to fully open before you arrive. MyQ does not require you to have Tesla's Premium Connectivity feature in order to use it.
HomeLink has a hard limit of three devices. Although this is enough for most people, you may find yourself hitting the limit if you also have gates you may want to open or would like to program your Tesla to open the garage door at your parent's house. MyQ does not have a limit to the number of garage doors you can program, giving you additional flexibility. If your vehicle also supports HomeLink, this could free up some HomeLink presets, letting you use it for devices that myQ doesn't support.
Disadvantages of myQ
Although myQ is certainly the smarter garage door system, HomeLink does have some advantages over myQ as well, mainly around reliability and setup.
MyQ Subscription
HomeLink is free to use, so if your vehicle already has HomeLink integration, it could be the obvious choice. Nowadays many of us already have more monthly subscriptions than we'd like to, so myQ's subscription cost will certainly be a turnoff for some owners.
Requires Internet
Since myQ uses the internet to control your garage door, it could be less reliable than HomeLink. Not only is myQ relying on your vehicle's cellular connection, but it's also relying on your home's internet connection and the hub's connection to WiFi. If you live in an area with poor cellular reception, have a weak WiFi signal in your garage, or have frequent internet outages, HomeLink may be the more reliable system.
Hub Setup
If your garage door doesn't support myQ already, then you'll need to add a myQ hub. This requires an additional device and setup, whereas the HomeLink module works directly with your garage door. HomeLink is essentially an additional remote for your garage door that is built into your Tesla.
If you're adding a hub, myQ also requires you to mount a wireless sensor on your garage door. This sensor lets myQ know whether your garage door is opened or closed. MyQ also requires you to set up a myQ hub that will communicate with your home's network, your garage door and the wireless sensor.
The hub needs to be placed in your garage, although it does not require you to wire anything to your garage door motor or buttons. The hub only requires access to WiFi and a power outlet.
The myQ hub does various things. First, it's the device that will receive the signal over the internet to open your garage door. It will also communicate wirelessly with your myQ garage door sensor and your garage door motor. Although myQ's setup is painless, it does introduce additional points of failure that HomeLink simply doesn't have.
MyQ Signal Delay
MyQ will often introduce a delay when closing your garage door for additional safety. When you close your garage door you may often hear beeping and see the light on your myQ hub flash, alerting any bystanders that the garage door is about to close.
The delay between when you tap to close your garage door and when it starts to close is about 8 seconds. If you're leaving home and close the garage door from your car, it can often leave you wondering if the system is working. There is never a delay when opening your garage door using myQ.
Although myQ integration is well executed and provides some advantages over HomeLink, it does have a few drawbacks of its own. For owners who don't have a HomeLink module installed in their vehicles, it offers a more affordable and easier solution than adding HomeLink to their cars.
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Your Tesla is packed with features designed to improve your comfort and safety, and Cabin Overheat Protection (COP) is a prime example. While all the materials and equipment in your car are built to withstand the summer heat, this feature prevents the interior from reaching excessively high temperatures when parked.
But what does it do, how does it work, and when should you really use it? Let’s dive in.
Cabin Overheat Protection is a climate control feature that activates automatically after you’ve left your vehicle. Its primary goal is to keep the interior cabin temperature from soaring on hot days, and helping to keep the surfaces humans touch most often - like the seats, steering wheel, and screen- at a more manageable temperature.
You can also use Cabin Overheat Protection to protect temperature-sensitive items from excessive temperatures; however, its primary goal is to prevent the cabin from becoming excessively hot.
For moderate durations, Cabin Overheat Protection can actually reduce the amount of energy spent cooling your vehicle, as it’s more efficient to maintain a temperature rather than letting cooling it down from 130ºF. However, it most cases, Cabin Overheat Protection will use additional energy.
It is important to note what Cabin Overheat Protection is not. It isn’t designed to protect people or pets. For that, you’ll want to use Tesla’s dedicated “Dog Mode” or “Keep Climate On” features, which offer more robust control over the internal temperature. You can read a comparison of the major climate features here.
Enable Cabin Overheat Protection
Tesla offers several options for cabin overheat protection, allowing you to choose when and how it operates. You can enable it in your vehicle or through the Tesla app:
In the Vehicle: Navigate to Controls > Safety > Cabin Overheat Protection.
Via the Tesla App: Go to the Climate, swipe up, and toggle Cabin Overheat Protection.
Cabin Overheat Protection Settings
When enabling COP, you can pick from three settings:
Off: The system is completely disabled and will not activate when the vehicle is parked. This is the default option.
No A/C: If the interior temperature exceeds your set threshold (see below), your vehicle will only use the HVAC fan to circulate outside air through the cabin. This helps cool the vehicle since outside air is often cooler than the inside, which can easily reach 130ºF or higher. This is our recommended setting, as it helps prevent the cabin from getting too hot in most situations and uses minimal energy.
On: If the interior temperature exceeds your set threshold, the system will use both the fan and the air conditioning to actively cool the cabin down to and maintain it below that threshold. This is the most effective cooling option, but it also uses a significant amount of energy.
You can also set a Temperature Threshold for activating Cabin Overheat Protection. Tesla provides three options: 90°F (30°C), 95°F (35°C), or 100°F (40°C). Cabin Overheat Protection will attempt to maintain your vehicle at the threshold while it is active.
Battery Drain
The main reason you might choose to leave Cabin Overheat Protection off is its energy impact, which will not only increase your costs but also reduce your vehicle’s range. Ultimately, this feature keeps your vehicle’s HVAC system—or at least its fans—running to help cool the cabin.
While the No A/C mode consumes minimal energy, the On mode (which uses air conditioning) will noticeably drain the battery, particularly on hot days when the system works harder to maintain the set temperature.
The amount of energy COP uses will vary greatly based on your selected activation temperature, the exterior temperature, and whether your vehicle is parked in the sun. However, in general, the energy impact will be minimal if COP is set to No A/C, and significant if it’s set to On.
As a reminder, Cabin Overheat Protection will automatically shut off after 12 hours of operation or if the vehicle’s state of charge falls below 20%. COP and several other Tesla features will increase the cost of using your vehicle. We recently reviewed all Tesla features that continue to use power while your vehicle is parked.
Is Cabin Overheat Protection Necessary?
This is a common question, and the answer is no, Cabin Overheat Protection is not essential. Tesla vehicles, including their interior components, are designed and tested to withstand the typical automotive temperature cycles, including both hot and cold. While keeping the cabin cooler could potentially provide some marginal benefit in preventing the leather or other surfaces from degrading, the primary purpose is for the comfort of the occupants when they return.
What About Extreme Cold?
We’ve talked about heat, but what about extreme cold? Cabin Overheat Protection, as the name implies, deals with heat and will not prevent your vehicle from getting too cold. For cold weather, your Tesla has different mechanisms.
Your vehicle will automatically use energy to keep its high-voltage battery within a safe temperature range in extreme cold, whether or not you’re in the car. This helps protect the battery’s health and ensures you’ll have a minimal level of performance even if you enter the vehicle without preconditioning.
For optimal comfort in cold weather, preconditioning your vehicle will warm up the cabin and battery for improved performance.
Cabin Overheat Protection is a valuable feature that improves the comfort of your Tesla, particularly during hot weather. However, it’s not designed to improve the lifespan of your vehicle's interior, and it should not be used for people or pets (use Keep Climate or Dog Mode for those situations).
If you're parked in extreme heat and have sensitive items in the car, this could be an ideal use case. Use Keep Climate if you need to keep the items below 80°F, or Cabin Overheat Protection if you’re just looking to protect them from excessive temperatures.
Tesla’s recent focus on expanding and vertically integrating its battery production is beginning to take global steps, starting with a battery recycling and service center in South Australia. In Marion, a suburb of Adelaide, the council recently voted in favor of a proposal that would see contaminated public land developed and leased to Tesla.
The move promises local jobs and environmental remediation but has garnered a lot of public debate focused on Elon’s moves outside his role as CEO.
The proposal involves a site that’s currently unusable for recreation due to chemical contamination. A local developer plans to acquire and remediate the land, constructing a new facility specifically for Tesla. This site would reportedly serve two purposes: recycling old lithium-ion batteries and serving as a Tesla Service Center.
Tesla’s Commitment to Recycling
Tesla recently announced its intention to ramp up its battery recycling and repurposing efforts. During the Q1 2025 Earnings Call, Tesla’s executives highlighted substantial progress. Tesla had recycled enough materials in Q1 2025 to build approximately 21,000 Model Y RWD vehicles, representing a 136% year-over-year increase from Q1 2024.
Dedicated regional hubs like this one would be a logical next step in expanding the recycling loop and furthering Tesla’s vertical integration while also reducing its reliance on new materials. In addition, local sources also mentioned that Tesla could be repurposing older lithium-ion batteries for other purposes, including their inclusion in stationary battery storage systems like Powerwall or Megapack.
Of course, the facility also has major benefits for the local community, including creating around 100 local jobs, as well as injecting approximately $56 million into the local economy. Further, developing the contaminated land as a renewable facility is one of the safest ways to use the land that’s been sealed off from the public for nearly a decade.
Elon’s Image
The proposal isn’t without its critics. Local opposition was voiced during community consultations, with most of the negative sentiment directed towards Elon rather than the facility itself. Despite these complaints, the local council elected to proceed, arguing that tangible economic and environmental benefits far outweigh any perceived geopolitical or symbolic harm that shutting down the project could cause.
With the council’s endorsement on record, the proposal now moves to the South Australian state government for approvals regarding the change in land classification.