Exploring the Future of Car Key Technology: What’s Next?

02.08.2024

In the rapidly evolving world of automotive technology, car keys have transformed from simple metal tools into sophisticated electronic devices. As vehicles become smarter, so do their keys. From keyless entry to biometric authentication, car key technology continues to push boundaries. Let’s explore the next frontier of car key innovations and how they’ll impact convenience, security, and vehicle ownership.

1. Digital Keys: Unlocking with Your Smartphone

One of the most exciting advancements is the rise of digital keys. These allow you to unlock and start your car using just your smartphone.

How It Works: Digital keys rely on Bluetooth or NFC (Near Field Communication) technology to securely transmit signals between your phone and the car.
Convenience: No more fumbling for keys. Your phone acts as your all-in-one device.
Security Features: Many digital key apps offer encrypted access and the ability to revoke permissions instantly if your phone is lost or stolen.

This innovation is gaining traction among automakers and is expected to become standard in the near future.

2. Biometric Authentication: Keys That Recognize You

Biometric car keys are already starting to appear in premium vehicles. These keys use your unique physical features to grant access.

Fingerprint Recognition: Similar to unlocking your phone, some car keys now scan your fingerprint to unlock the car.
Facial Recognition: Cameras built into the vehicle can identify you and automatically unlock the doors.
Why It Matters: Biometrics provide an additional layer of security, making it nearly impossible for thieves to gain unauthorized access.

This cutting-edge technology ensures that only you—and those you authorize—can start your vehicle.

3. Smart Key Customization: Personalization at Its Best

The future of car keys isn’t just about unlocking cars; it’s about creating personalized driving experiences.

Pre-Set Preferences: Smart keys can remember your seat position, climate control settings, and even your preferred music playlist.
User Profiles: In households with multiple drivers, smart keys can switch profiles based on who’s using the car.
Why It’s Useful: This feature saves time and enhances comfort, making every drive tailored to your needs.

As vehicles become more personalized, smart keys will play a vital role in delivering these conveniences.

4. Ultra-Secure Encryption: Fighting Key Hacking

As technology advances, so do the tactics of cybercriminals. To combat this, car key technology is embracing stronger encryption.

Rolling Codes: Modern key fobs use rolling codes that change with every use, making it harder for hackers to intercept signals.
Blockchain Technology: Some experts predict that blockchain could be integrated into car key systems for unbreakable security.
Impact on Security: These measures aim to eliminate vulnerabilities, ensuring that only the rightful owner can access the vehicle.

Advanced encryption is a critical step in securing the future of car ownership.

5. Integration with Smart Homes: A Connected Lifestyle

Imagine your car keys working seamlessly with your smart home devices. This future is closer than you think.

Examples:
- Unlock your car and have your home’s lights turn on simultaneously.
- Use voice commands to lock your car doors through your home assistant.
Convenience Factor: This integration enhances the interconnectedness of your daily routines, saving you time and effort.

As smart ecosystems grow, car keys will become a pivotal part of a connected lifestyle.

6. Eco-Friendly Innovations: Sustainable Car Keys

Sustainability is a growing concern in all industries, including automotive technology. Car keys are no exception.

Recyclable Materials: Future car keys could be made from eco-friendly or recycled materials.
Energy-Efficient Batteries: Expect longer-lasting, rechargeable batteries that reduce waste.
Why It Matters: These changes not only benefit the environment but also align with the broader push toward sustainable vehicle manufacturing.

As the industry shifts toward greener practices, even car keys are becoming part of the solution.

A New Era of Car Keys

Car key technology is on the cusp of incredible transformations, combining convenience, security, and sustainability. Whether through digital keys, biometrics, or smart home integration, the future holds endless possibilities for making your driving experience safer and more seamless.

For car owners, these innovations mean less hassle, greater control, and enhanced peace of mind. As car key technology evolves, so does the way we interact with our vehicles—ushering in a new era of smarter and more secure mobility.

19.11.2025

Car Ignition Switch Problems: Symptoms, Causes, and Replacement Guide

The ignition switch is one of the most important electrical components in any car. When it starts to fail, the symptoms can appear suddenly, seem unrelated, and quickly leave you stranded. This guide explains the real-world signs , the common causes , the most accurate diagnosis steps , and a clear ignition switch replacement guide that helps any driver understand what’s happening and what to do next. If you’re dealing with car ignition lock problems , this article gives you the clarity you need to fix the issue fast and safely. What the Ignition Switch Actually Does The ignition switch has two critical jobs: 1. Electrical power distribution It sends power to the dashboard, fuel pump, ignition system, starter motor, and electronic modules. 2. Starting the engine When you turn the key (or press the button), it bridges electrical circuits, enabling the starter motor to crank the engine. When the ignition switch begins failing, even slightly, it disrupts these circuits. That’s why symptoms can range from flickering dash lights to complete engine shutdown. Symptoms of a Failing Ignition Switch These are the most common, proven symptoms that mechanics use to identify ignition switch problems. 1. Car Won’t Start or Cranks Intermittently If turning the key does nothing—or the engine cranks sometimes but not always—the ignition switch may not be sending power consistently to the starter relay. Typical behavior includes: Silence when turning the key Clicks but no cranking Starts only after multiple attempts Total power loss during cranking This is one of the most classic ignition switch symptoms. 2. Stalling While Driving A failing ignition switch can cut power to the engine while you’re moving . Common signs: Sudden stall for no reason All dash lights go off instantly Engine dies when hitting bumps Engine cuts out but restarts immediately This is dangerous and needs urgent attention. 3. Dashboard Lights Flickering or Turning Off When the internal contacts inside the switch wear out, they create tiny power interruptions. You may see: Speedometer drops to zero Warning lights randomly appear Interior electronics momentarily cut out Radio resets or flickers These short power losses are a major red flag. 4. Key Feels Hot or Hard to Turn If the key is warm after driving, the switch may be overheating internally. If the key becomes difficult to rotate, the ignition cylinder (mechanical part) may be worn — which often leads to switch failure later. 5. Accessories Don’t Work in ACC Mode If turning the key to ACC does not activate: radio wipers power windows heater fan …the accessory circuit inside the switch may be failing. 6. No Sound from the Fuel Pump When Turning the Key You should hear a soft humming for 1–2 seconds. If you don’t, it may mean the ignition switch isn’t powering the pump relay. What Causes Ignition Switch Problems? Ignition switches fail for predictable and well-documented reasons. 1. Internal Wear Over Time Inside the ignition switch are metal contact plates . After thousands of cycles, these contacts burn, corrode, or lose tension. Symptoms develop slowly: random stalling needing to wiggle the key intermittent power This is the most common cause. 2. Heavy Keychains Many drivers don’t realise this: A heavy keychain constantly pulls on the ignition cylinder. Over years, this causes: internal looseness misalignment premature switch failure If your keychain has more than a few items, it may be contributing. 3. Heat and Electrical Overload Faulty relays, worn fuel pumps, or aftermarket accessories can overload the ignition switch. Excess heat damages the internal copper contacts, causing: hot key symptoms partial circuit failure total switch burnout 4. Moisture or Dirt in the Cylinder Moisture or dust causes the mechanical part of the ignition to jam or bind. This forces extra pressure onto the switch every time the key turns. 5. Faulty Key or Worn Key Blade If your key doesn’t rotate smoothly, it can damage both the cylinder and the switch . Worn keys often lead to electrical faults later. How to Diagnose Ignition Switch Problems Accurately Before replacing parts, you should confirm the ignition switch is truly the issue. These steps follow the same logic professional mechanics use. 1. Check if Dashboard Lights Turn On Turn the key to ON without starting the engine. If: no lights come on lights flicker radio stays off …the ignition switch might not be sending voltage. 2. Try Starting with Accessories On Turn the key to ACC. If the accessories work in ACC but the engine won’t start, the “start circuit” inside the ignition switch may be failing. 3. Wiggle Test Gently wiggle the key while: trying to start with ACC on with the engine idling If wiggling makes electronics turn on/off, the switch is internally worn. 4. Bump Test While Driving If the car stalls when hitting bumps or potholes, the switch is losing internal contact momentarily. This is one of the strongest indicators of a failing switch. 5. Test Voltage at the Ignition Switch (Advanced) Using a multimeter, check for: constant power switched power accessory power start signal power If any circuit fails randomly, it confirms an ignition switch fault. If you need a safety reference for electrical testing, you can check the UK Government’s general vehicle safety guidance here: Prevention: How to Avoid Ignition Switch Problems Ignition switch failures can often be prevented with small habits. 1. Keep Your Keychain Light Remove heavy accessories. This reduces stress on the ignition cylinder and switch dramatically. 2. Avoid Resting Hands on the Key While Driving Constant pressure on the key twists the internal contacts. 3. Only Use Correct, Undamaged Keys Bent, cracked, or worn keys can damage: the cylinder the switch the steering lock If your key is worn, replace it before it causes further problems. 4. Address Electrical Problems Early A failing alternator, weak battery, or short circuits can overload the ignition switch. If you notice dim headlights or battery warnings, fix those early. 5. Keep Dust and Moisture Out of the Cylinder Avoid spraying WD-40 or household lubricants into the ignition—it attracts dust. Use proper graphite lock lubricant if needed. Ignition Switch Replacement Guide You should only replace the ignition switch if diagnosis confirms it. Below is a clear replacement overview used by both DIYers and technicians. Note: Procedures vary by vehicle, but the overall steps are similar. 1. Disconnect the Battery Always disconnect the negative terminal. This prevents: accidental airbag deployment electrical shorts damage to modules 2. Remove Steering Column Covers Most cars use simple screws underneath. Once removed, the top and bottom covers split apart. 3. Locate the Ignition Switch Module It is usually mounted behind the ignition cylinder. Depending on the car: it may be held by two screws or secured with clips or integrated into a combined steering lock module 4. Remove the Electrical Connector Ignition switches usually have one large multi-pin connector. Release the locking tab and pull it gently. 5. Remove and Replace the Switch Install the new switch in the exact orientation as the old one. Common mistakes to avoid: misaligning the switch’s internal slot tightening screws unevenly damaging wiring during removal 6. Reassemble and Test Thoroughly After reassembly, test: ACC mode ON mode engine start headlights indicators wipers radio If everything works consistently, the replacement is successful. Is It Safe to Drive with a Bad Ignition Switch? Usually no . A failing ignition switch can: stall the engine suddenly disable power steering shutdown ABS cut power to headlights at night The RAC warns that electrical failures causing engine cut-outs are a serious safety risk. If your switch is failing, get it inspected immediately. FAQ: Car Ignition Switch Problems 1. How much does ignition switch replacement cost? Most replacements cost £80–£300 depending on the vehicle. Some modern cars require coding, making the cost higher. 2. Can a bad ignition switch cause the car to stall? Yes. Loss of electrical contact in the switch can cut power to the engine instantly. 3. Is a failing ignition switch the same as a bad starter? No. A bad starter prevents the engine from cranking. A bad ignition switch prevents power from reaching the starter or other systems. 4. Can a locksmith replace an ignition switch? In many cases, yes — especially for older vehicles. For modern immobilizer systems, a vehicle technician may be required. 5. Can I drive with ignition switch problems? It’s unsafe. The engine can cut out while driving, especially on bumps or turns. 6. Does a bad ignition switch affect accessories only? It can affect: accessories engine start fuel pump dashboard power ECU communication It depends on which internal circuit fails. 7. What’s the lifespan of an ignition switch? Most last between 10–15 years , depending on usage and electrical load. 8. Do push-button cars have ignition switches? Yes — they use an electronic ignition switch module instead of a mechanical one. Failure symptoms are similar. 9. What does a worn key have to do with ignition switch problems? A badly worn key can cause mechanical strain on the cylinder, which then stresses the electrical switch linked behind it. 10. Can I prevent ignition switch issues? Yes — keep your keychain light, avoid forcing the key, and keep electrical systems maintained. For high-quality replacement automotive parts and spare key, visit our shop at mr-key.com .

16.05.2025

Why Keyless Entry Isn’t Always Secure — and How to Protect Yourself

The Double-Edged Sword of Modern Convenience Keyless entry has become one of the most praised innovations in the modern car industry. It offers a seamless, futuristic experience: you walk up to your car, the doors unlock automatically, and with a simple press of a button, your engine comes to life. There’s no need to search for your keys, no fumbling in bad weather, and no risk of locking yourself out. The key fob quietly communicates with the vehicle, confirming your identity without effort. But this luxury comes at a price. The very feature designed to make your life easier can also make your car more vulnerable to theft. In the pursuit of comfort and automation, many drivers remain unaware that their vehicle’s passive entry system is constantly “awake,” listening for a signal. And that’s precisely where the risk begins. In recent years, keyless entry systems have become a target for high-tech criminals who have found ways to exploit their weaknesses — not by force, but by deception. The result is a quiet, nearly invisible form of car theft that is growing worldwide. How Keyless Entry Works — and What Makes It Vulnerable At the heart of a keyless system is a simple principle: wireless communication. Your key fob emits a short-range radio signal containing a unique encrypted code. When you approach your car, sensors in the doors detect the fob’s presence and automatically unlock the vehicle. The same signal is required for starting the engine, ensuring that only a registered fob can activate the car. This process is secure in theory. The codes are encrypted, randomized, and designed to prevent duplication. However, the signal itself — the presence of communication between fob and car — can be intercepted or manipulated , even if the data within is protected. Unlike traditional keys, which require physical insertion, keyless systems are built on proximity. That means if the car thinks your fob is nearby, it will unlock — regardless of whether it’s actually in your hand or being imitated by a thief’s device. The Relay Attack: Theft Without Force One of the most common techniques used by thieves today is known as a relay attack . This method doesn’t require physical access to your keys and leaves no signs of forced entry. It's efficient, quiet, and can be executed in under a minute. Here’s how it works: thieves use two signal-amplifying devices. The first person lurks near your home, office, or wherever your keys are stored — even if they’re just inside your front door. This device captures the fob’s signal and boosts it to a second thief standing next to your vehicle. The car receives the signal, interprets it as valid, and grants access. From there, starting the car is as simple as pushing the ignition button. What’s most alarming is that you might not even realize the theft has occurred until hours later. There are no broken windows, no alarms, and in many cases, no clues left behind. Other Threats Beyond Relay Attacks While relay theft has gained the most attention, it’s far from the only vulnerability of keyless systems. In some cases, criminals employ signal jamming devices to block the lock signal when you walk away from your car. You may think it’s locked because you pressed the button — but it never actually locked. Minutes later, your vehicle is stolen without ever being broken into. There’s also the risk of key cloning , though it’s less common and more technically complex. Skilled attackers may capture a signal and replicate it onto another device. Another rising threat is OBD port manipulation — once inside your car, a thief may access the On-Board Diagnostics system to program a new key, effectively giving them long-term control of your vehicle. These methods are all part of a growing trend: theft without damage. And that’s precisely what makes them dangerous — not only are they hard to detect, but they also make insurance claims more difficult to prove. Real-World Cases and Statistics Relay attacks and other forms of keyless car theft are no longer rare or experimental. In the UK, the RAC and other automotive security groups have reported that up to 50% of vehicle thefts in major cities involve keyless entry systems . Similar trends have been observed across Germany, France, and the United States, particularly in urban and suburban areas. Vehicles from luxury brands like Mercedes-Benz, BMW, Audi, and Land Rover are frequent targets, but mid-range models such as Ford, Toyota, Hyundai, and Volkswagen are not immune. Any car with passive entry and push-to-start functionality can be at risk. What Can You Do to Protect Yourself? Fortunately, you don’t need to give up the convenience of your keyless system to stay safe. What’s required is awareness and a few intentional habits that make your vehicle less vulnerable. The most effective defense — and one of the simplest — is to store your key fob in a Faraday pouch or signal-blocking box . These devices block the radio signal from leaving the pouch, rendering it invisible to signal amplifiers. They’re inexpensive, easy to use, and available from trusted automotive suppliers. Another smart habit is to avoid placing your keys near entry points in your home. Many people leave keys near doors or windows, unknowingly making them easier targets. Storing them in the center of your home or in a shielded container can significantly reduce exposure. If your vehicle allows it, consider disabling the passive unlock function in your car’s settings. While it removes some convenience, it also eliminates the risk of unauthorized proximity unlocking. Check your vehicle’s manual or consult your dealer for instructions. Physical deterrents like steering wheel locks are also surprisingly effective. While they may seem outdated, their visibility alone can discourage would-be thieves looking for a quick and quiet escape. Lastly, stay current with vehicle software updates . Manufacturers often release patches to improve security features, especially as vulnerabilities become known. Newer cars may receive updates over-the-air, while older models might require a visit to the dealer. Taking Responsibility in a Connected World As our vehicles become smarter and more connected, so do the methods used to compromise them. The truth is, technology alone won’t protect your car — not if it’s used passively and without thought. Keyless systems are not inherently flawed, but they require active ownership . Just as you lock your front door and set your home alarm at night, it’s important to consider how you store and manage your car keys. Simple choices — like using a signal-blocking pouch or changing where you leave your keys — can mean the difference between peace of mind and waking up to an empty driveway. Convenience Without Compromise Keyless entry is one of the most appreciated technological advancements in the automotive industry. It brings ease, speed, and comfort to daily driving — but it also demands greater responsibility. As theft methods evolve, the best defense is a combination of awareness, habit, and prevention . Invest in a signal-blocking case. Keep your fob away from open areas. Use visual deterrents. And know how your car’s system works — because in the end, your security doesn’t depend on a single feature, but on how you use it. You don’t have to choose between convenience and protection. With the right steps, you can have bo

30.07.2025

Lost Your Westfalia Towbar Key? Here's What to Do

Have you lost your Westfalia towbar key just before a long-planned trip or an important towing job? Don’t worry, you’re not alone. Every year, thousands of drivers face the same issue: the towbar key disappears right when it's needed most. Westfalia detachable towbar keys are usually used only a few times per year – often for summer holidays, camping trips, towing, or moving. Because they are used so rarely, they often get forgotten for months. It's easy to lose track of where they were last placed: in the glove compartment, a drawer in the garage, or a coat pocket? Fortunately, there's a simple solution – without having to replace the entire towbar system. Step 1: Check the Lock Cylinder for a 5-Digit Code Take a close look at the front of your Westfalia towbar lock, around the keyhole. Many models have a 5-digit code engraved directly into the metal. If the code is between 20000 and 50000, it is your personal key code. This code allows professional key services (like MR-KEY) to create a perfectly matched replacement key – without the original. Examples of valid codes: 23456 27891 49821 You can enter this code directly into an online order form. Order a replacement key here: https://mr-key.com/cat/towbars-keys What if You Only See 3 Digits? Sometimes, you might only find a 3-digit number on the lock body (e.g., 104, 287). Unfortunately, these numbers are not valid key codes . They usually refer to batch numbers or internal components. In this case, we recommend: Conducting a thorough search for the original key (glove compartment, toolbox, jacket pockets, etc.) If the key cannot be found, consider replacing the towbar locking mechanism Tip: Make a Spare Key While You Still Can If you still have your original Westfalia towbar key, now is the perfect time to make a copy . Many Westfalia keys show a code like: 2W01 to 2W50 This code is usually engraved on the metal shaft of the key and matches your towbar lock. With this code, we can quickly and affordably produce a precise duplicate. Why make a spare key? Avoid last-minute panic before departure Reduce costs by preventing lock replacement Fast delivery when ordering by code Order here: https://mr-key.com/cat/towbars-keys Fast and Professional Westfalia Key Service At MR-KEY , we specialize in duplicating Westfalia towbar keys by code. Our service is fast, precise, and hassle-free: Simply provide the 5-digit lock code (20000–50000) We cut the key using high-precision machines Every key is checked before shipping In most cases, shipping is completed within 24 hours . Quick Overview Situation Can a New Key Be Made? What to Do 5-digit code on the lock (20000–50000) Yes Order a key by code Only 3-digit number on the lock No Search for the key or replace the lock Original key with "2W" code present Yes Have a spare key made Tips: How to Avoid Losing Your Key in the Future To avoid ending up in this situation again, follow these simple tips: Store your spare key in your vehicle documents folder or glove box Label your keychain with "Towbar" for easy identification Take a photo of your key code and save it on your phone or in the cloud These small steps can save you time, stress, and money. Losing your Westfalia towbar key doesn't have to ruin your travel plans. As long as your lock has a valid 5-digit code between 20000 and 50000 , a replacement key can be made and shipped quickly. And if you still have the original key? Make a copy now – a small investment for long-term peace of mind. Order your Westfalia replacement key now: https://mr-key.com/cat/towbars-keys Safe travels!

25.04.2025

How to Protect Your Car Key Fob from Relay Attacks

Car theft has entered the digital age — and unfortunately, so have the thieves. As car manufacturers move toward keyless technology, a new type of threat has emerged: the relay attack. Unlike traditional break-ins, this high-tech method allows criminals to steal a vehicle without touching the keys — or even breaking a window. Imagine this: your car is parked safely outside your house. Your key fob is inside, hanging on a hook by the front door. You're fast asleep. But outside, two individuals with small electronic devices are working together. One stands near your front door, scanning for a signal from your key fob. The other waits by your car. Within seconds, your key’s signal is captured, extended, and transmitted to your car. It unlocks, starts, and drives away — and you might not notice until morning. This is not science fiction. It's called a relay attack , and it's one of the fastest-growing vehicle theft methods worldwide. Why Relay Attacks Are So Effective The key to this technique is exploiting the constant communication between your car and its fob. Most keyless entry systems are designed for convenience — you don’t even need to press a button. The car automatically detects the presence of the key fob and unlocks when you approach. This convenience is exactly what makes it vulnerable. Relay devices — which are cheap, portable, and easy to use — can mimic the signal and trick the car into thinking the key is nearby, even when it’s inside your home. Security experts have raised the alarm about this method for years, but many drivers still don’t realize how easily their vehicles can be accessed. In the UK alone, keyless car theft now accounts for more than 90% of vehicle thefts involving high-end models, according to the AA. And with the rise of online tutorials and black-market tools, the problem is growing globally. So, What Can You Do to Stay Safe? Fortunately, protecting your vehicle doesn’t require advanced tech or a huge investment — just awareness and a few smart habits. One of the most effective ways to block relay attacks is also the simplest: store your keys in a signal-blocking container . Often called a Faraday pouch or Faraday box, this lined case prevents radio signals from escaping. When your keys are stored inside, they can’t be scanned or cloned, no matter how close a thief gets to your home. Placement also matters. Many drivers leave their keys near the front door or on an entryway table — spots that are easy to access from outside. Moving your keys to the center of your home, an upper floor, or even a metal box can reduce signal exposure dramatically. Some newer key fobs allow you to manually disable the signal when it’s not in use. This feature is often hidden in the manual and rarely mentioned by dealers. Taking a moment to learn whether your key supports this — and how to activate it — can make a big difference. It’s also worth checking whether your vehicle’s software is up to date. Many automakers periodically release firmware updates that strengthen encryption or reduce signal range. In some cases, updates can even detect and block suspicious unlock attempts. And while it may seem old-fashioned, physical security still works . Devices like steering wheel locks or gear shift immobilisers can be powerful visual deterrents. Even if a thief manages to unlock your vehicle, the sight of a bulky lock inside may be enough to send them looking for an easier target. If you're looking for practical solutions beyond GPS , check out our blog: Do Car Keys Have GPS? What You Need to Know About Key Tracking . In summary, here are a few key takeaways to keep your keys and vehicle safer: Store your fob in a signal-blocking pouch or metal container Keep keys away from entry points like doors or windows Disable keyless signals if your fob supports it Update your car’s firmware regularly Use visible anti-theft devices as a deterrent Looking Ahead: Smarter Cars, Smarter Drivers Relay attacks are part of a larger trend — one where modern technology makes life more convenient, but also creates new risks. Just like we’ve learned to secure our phones and passwords, we now need to think about how we secure our vehicles. As carmakers explore more secure solutions — like Ultra Wideband (UWB) tech and biometric verification — drivers still need to take responsibility for their vehicle’s safety. The tools are already out there, and many of them cost less than a meal out. It’s not just about avoiding theft; it’s about peace of mind. So next time you get home, before tossing your keys on the hallway table, take a second to think: are they really safe there?

Cookie Name	Cookie Provider	Cookie Description	Life of the cookie	Cookie Type
XSRF-TOKEN	PHP	Ensures security for visitors by preventing cross-site request forgery. This cookie is essential for website and visitor security.	1 day	1st Party
laravel_session	PHP	To store the username of the logged in user. This information is necessary to allow the user to remain logged in to a website without having to submit their username and password for each page visited. Without this cookie, the user cannot move to areas of the website that require authenticated access.	Up to 2 hours	1st Party
__stripe_mid	Stripe	Serves to provide fraud prevention when attempting to shop on the site.	Up to 1 year	3rd Party

Cookie Name	Cookie Provider	Cookie Description	Life of the cookie	Cookie Type
_fbp	Facebook	This cookie is set by Facebook to deliver advertising when they are on Facebook or a digital platform powered by advertising on Facebook after you visit this website.	2 months	3rd Party
fr	Facebook	The cookie also tracks a user's web behavior on sites that have a Facebook pixel or Facebook social plugin.	-	3rd Party

Cookie Name	Cookie Provider	Cookie Description	Life of the cookie	Cookie Type
_ga	Google Analytics	Used to distinguish users (denied by default).	2 years	3rd Party
_gid	Google Analytics	Used to distinguish users.	24 hours	3rd Party
_gat	Google Analytics	Used to reduce the query rate. If Google Analytics is implemented via Google Tag Manager, this cookie will be named _dc_gtm_ .	1 minute	3rd Party
	Google Analytics	Contains campaign-related information about the user. Linked Google Analytics and Google Ads accounts, Google Ads website conversion tags will read this cookie.	90 days	3rd Party
Google Remarketing	Google Analytics	Used to track pages viewed by users that are sent to Google Ads	-	3rd Party
dynx_itemid	Google Analytics	Used to track product ID in Google Ads	-	3rd Party
dynx_pagetype	Google Analytics	Used to track page type in Google Ads	-	3rd Party
dynx_totalvalue	Google Analytics	Used to track product value in Google Ads		3rd Party
dynx_category	Google Analytics	Used for category tracking in Google Ads	-	3rd Party
ga4_analytics	Google Analytics	Serves to process behavior such as setting Google Analytics cookies, sending automatic and enhanced measurement events, and declaring common settings.		3rd Party
Google Conversion Tracking	Google Ads.	Used to transmit order information to Google Ads.	-	3rd Party
conversion ID	Google Ads.	An identification number used to transmit order information to Google Ads.	-	3rd Party
conversion labеl	Google Ads.	A label used to transmit information about successful orders to Google Ads.	-	3rd Party