Mercedes Benz ECU Gas - ECU Cloning Service ME2.8 ME9.7 MED17 - Plug & Play
Mercedes ECU cloning service will read all of the original Mercedes ECU data and transfer VIN, Immobilizer, software, and coding to the replacement ECU.
This cloning service will read the original all of the original ECU data and transfer VIN, IMMOBILIZER, software and coding (including injector coding if applicable) to the replacement ECU. The replacement ECU will be identical to the original after the end of the procedure. We do not use soldering or removal of Eprom chips off the board during the cloning procedure. So you can be assured that the replacement ECU will not be damaged physically during programming. After receiving the ECU back, it should plug into the car and start right up as if it were original with original keys.
For this cloning service, you will have to send in the original and replacement ECU (make sure part numbers match or are compatible). Replacement ECU can be sourced for fairly cheap usually on eBay or www.car-part.com
If the original ECU is damaged beyond being able to read out data, we will ship back both units and provide a refund for your order, minus the shipping cost and $50 labor fee for testing.
If you have any questions, concerns or want to confirm that we can clone your certain ECU, please send us an email, and a picture of the ecu stickers.
ME2.8 - M113 - M113K M112 - V6 and V8 Mercedes Models E320 S500 S55 S600 S65 E500 E55
ME2.8.1 - M113 - M113K M112 - V6 and V8 Mercedes Models E320 S500 S55 S600 S65 E500 E55
ME2.7.2 - M275 V12 Models 2007+ - CL600 SL600 S600 and S65 CL65 SL65 AMG
ME9.7 - V6 and V8 Mercedes Models E320, E550, S550, SL550, ML350, ML550, GL350, GL550, GL450, SPRINTER
ME9.7 AMG - S63 E63 ML63 C63 SL63 M156- W204 W211 W221 W164 R230 - 6.2L V8
MED17.7.1 - 4.6L V8 Bi-Turbo M278 - E550 CLS550 S550 ML550 GL550 GL450
MED17.7.1 - 5.5L V8 Bi-Turbo M157 - E63 AMG, S63 AMG, ML63 AMG, S63 AMG
MED17.7.2 - CLA250 CLA45 AMG - M270 M274 - 2.0T
MED17.7.3 - V6 M276
MED17.7.3 - 4.6L V8 Bi-Turbo M278 - E550 CLS550 S550 ML550 GL550 GL450
MED17.7.3 - 5.5L V8 Bi-Turbo M157 - E63 AMG, S63 AMG, ML63 AMG, S63 AMG, etc
Step 1
Remove your ECU
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Step 2
Order Replacement ECU
Hardware part number must match original part number to ensure compatibility.
(If sending a used ECU please ensure it does not have water damage, corrosion, or physical damage)
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Step 3
Place Order
During checkout, you can choose your preferred return shipping option. We provide free Priority Mail 2-3 day shipping, or you can select overnight shipping for a faster return at an additional cost
Please ensure your shipping address is correct. DUDMD is not responsible for deliveries to incorrect addresses.
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Step 4
Print Out and Sign Repair Form
Look for the button that says "Download Repair Form" in the product description.
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Step 5
Ship your ECUs to DUDMD Tuning
Customers are responsible for shipping their parts to us.
What to Include in your package:
- Original ECU
- Replacement ECU (Make sure the part number matches original ECU)
- Printed and Signed Repair Form
Our address can be found at the bottom of the Repair Form
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Step 6
We Clone and Ship your ECUs back to you
Turn around is typically same business day.
Please print out the form. Fill out the form and mail it all together with your Original and Donor ECUs.
Tax excluded. Shipping calculated at checkout
Mercedes Benz ECU Cloning FAQs
What is a Mercedes ECU?
A Mercedes ECU, or Engine Control Unit, is the computer that manages the engine's functions for Mercedes-Benz vehicles. Similar to the ECUs found in other vehicles, it plays a crucial role in controlling various aspects of engine performance, including fuel injection, ignition timing, and air-to-fuel ratio. The ECU continuously monitors data from numerous sensors throughout the engine and vehicle to make real-time adjustments, optimizing performance, fuel efficiency, and emissions.
The Mercedes ECU is an integral part of the vehicle's overall management system, interfacing with other control units like the transmission control unit (TCU), anti-lock braking system (ABS), and electronic stability program (ESP) to ensure seamless operation and enhanced driving experience. It also plays a significant role in diagnostic processes, storing fault codes that can be accessed with diagnostic equipment to troubleshoot issues.
Over the years, Mercedes-Benz has developed sophisticated ECUs to meet stringent automotive standards, incorporating advanced technology and software to improve vehicle dynamics, safety, and environmental performance. This includes features like adaptive cruise control, automatic braking, and emission control systems, all of which rely on the ECU's processing and control capabilities.
Can an ECU Cloning be done on any Mercedes Benz model?
ECU cloning for Mercedes-Benz models involves copying the software and all relevant data from one Engine Control Unit (ECU) to another. This process is used to replace a faulty ECU with another unit without the need for extensive reprogramming or recoding, ensuring that the replacement ECU operates exactly as the original one did in the vehicle.
Whether ECU cloning can be done on any Mercedes-Benz model depends on several factors:
- ECU Technology and Security Features: Newer Mercedes-Benz models come with advanced security features and encryption to protect the vehicle's software integrity. These security measures can make cloning more challenging, as they are designed to prevent unauthorized access to the ECU's data.
- Compatibility of Hardware: The replacement ECU must be hardware-compatible with the original unit. This means it must be able to physically connect to the vehicle and support the necessary communication protocols and functionalities.
- Availability of Specialized Tools and Software: Cloning a Mercedes-Benz ECU requires specialized tools and software capable of reading and writing the ECU's data, including its unique identification and calibration information. The availability and capability of these tools can vary, affecting the ability to clone ECUs across different models. DUDMD Tuning has some of the best and latest tools on the market to be able to clone many different Mercedes ECUs.
- Expertise: Successful cloning requires a high level of expertise in automotive electronics and specific knowledge of Mercedes-Benz ECU architecture. DUDMD Tuning Professionals who specialize in automotive diagnostics and ECU programming are typically equipped to perform such tasks.
- Model-Specific Restrictions: Some Mercedes-Benz models may have unique ECU configurations or proprietary protections that limit the ability to perform cloning. These restrictions can vary widely across different models and years.
In summary, while ECU cloning is technically possible for many Mercedes-Benz models, the feasibility and success of the process depend on the specific model, the security features of the ECU, the compatibility of the hardware, and the tools and expertise available. It's advisable to consult with a professional who specializes in Mercedes-Benz vehicles and ECU programming to determine if cloning is a viable option for a specific model.
Can you clone a damaged Mercedes ECU?
Cloning a damaged Engine Control Unit (ECU) for a Mercedes, or any vehicle, is a nuanced process that depends on the extent of the damage to the original ECU and the specific technologies involved. The ECU is the vehicle's brain, controlling a multitude of functions related to engine performance, emissions, and possibly other vehicle systems. Here's an overview of the considerations and steps involved in cloning a damaged ECU:
Considerations:
- Extent of Damage: If the ECU is physically damaged (e.g., due to impact, water ingress, or electrical issues), it's crucial to assess whether the internal memory where key data is stored is still accessible. If the memory is intact, cloning may be possible.
- Security Features: Modern vehicles, especially luxury brands like Mercedes, come with advanced security features. These often include encryption and paired components (like the ECU and Immobilizer) that use unique identifiers to communicate. Cloning in such cases requires not just duplicating the software but also handling these security protocols.
- Tools and Expertise: Specialized equipment and software are necessary to read the firmware and data from the damaged ECU. This process often requires expertise in automotive electronics and knowledge of the specific vehicle's systems.
Steps to Clone a Damaged ECU:
- Diagnosis and Evaluation: The first step is to diagnose the ECU to understand the damage and evaluate whether data recovery is possible. This might involve visual inspection and attempting to communicate with the ECU using diagnostic tools.
- Data Extraction: If the memory is accessible, the next step is to extract the firmware and any relevant data, including calibration files, immobilizer codes, and other vehicle-specific information.
- Finding a Compatible ECU: A replacement ECU that is compatible with the vehicle is needed. Compatibility is crucial for ensuring that the cloned ECU will communicate effectively with other vehicle systems.
- Writing to the Replacement ECU: The extracted data is then written to the replacement ECU. This process can vary significantly depending on the vehicle's age, model, and the specific ECU. It often requires specialized software and tools.
Can you clone a Mercedes ECU that has water damage?
Cloning a Mercedes ECU (Electronic Control Unit) that has suffered water damage is technically possible, but it comes with several challenges and considerations. Here's a detailed look into the process, the potential issues, and what you might need to consider:
Technical Feasibility
- Diagnosis and Data Recovery: The first step is to assess the extent of the water damage. If the ECU's circuit board and components are severely corroded or damaged, it might be difficult or impossible to recover the necessary data for cloning. This involves checking for physical damage, short circuits, and corrosion.
- Data Extraction: If the ECU's memory chip (where the firmware and vehicle-specific data are stored) is intact, specialists can attempt to extract the data. This process requires specialized equipment and software to read the memory chip.
- Cloning Process: With the extracted data, a new or donor ECU can be programmed (or cloned) to match the original vehicle's specifications. This involves copying the firmware, immobilizer data, VIN, and any specific calibration settings to the new ECU.
Challenges and Considerations
- Technical Expertise: The cloning process requires a high level of technical expertise and specialized equipment. Not all automotive shops have the capability to perform ECU cloning, especially for a high-end vehicle like a Mercedes. DUDMD Tuning has the software and tools - hardware to work on these ECUs.
- Immobilizer System: Mercedes vehicles are equipped with advanced immobilizer systems for security, which can complicate the cloning process. The new ECU must be properly programmed to communicate with the vehicle's immobilizer to allow the engine to start.
How to Confirm Compatibility Between My Original ECU and a Donor Unit?
To determine if a donor Engine Control Unit (ECU) is compatible
with your original ECU, consider the following steps:
By following these guidelines, you can significantly increase
the likelihood of selecting a donor ECU that is compatible with your original
unit, ensuring a smooth transition and optimal vehicle performance.
Does DUDMD Tuning provide replacement / donor ECU units?
We don't keep or sell many ECU donor units due to their numerous variations.
It's recommended to buy a replacement unit that exactly matches your original
one. Once you've acquired the matching ECU module, you can send us the
replacement ECU module and the original ECU module for cloning programming process.
What ECU Models are supported for Mercedes Benz ECU Cloning?
We have a wide coverage and extensive list of ECUs that are supported for Mercedes ECU Cloning:
If your ECU (Engine Control Unit) type is not listed, or if you're uncertain about the specific type you have, we encourage you to reach out to us via email. Please include photographs of the stickers on your ECU for identification, along with the year and model of your Mercedes Benz. Providing your full Vehicle Identification Number (VIN) can also significantly assist us in accurately determining the correct ECU type for your vehicle. This information will enable us to offer you the most accurate assistance and ensure that we can support your needs effectively.
- ME2.8 - M113 - M113K M112 - V6 and V8 Mercedes Models E320 S500 S55 S600 S65 E500 E55 and many more similar models.
- ME2.8.1 - M113 - M113K M112 - V6 and V8 Mercedes Models E320 S500 S55 S600 S65 E500 E55 and many more similar models.
- ME2.7.2 - M275 V12 Models 2007+ - CL600 SL600 S600 and S65 CL65 SL65 AMG Models
- ME9.7 - V6 and V8 Mercedes Models E320, E550, S550, SL550, ML350, ML550, GL350, GL550, GL450, SPRINTER (GAS), and Many More
- ME9.7 AMG - S63 E63 ML63 C63 SL63 M156- W204 W211 W221 W164 R230 - 6.2L V8
- MED17.7.1 - 4.6L V8 BiTurbo M278 - E550 CLS550 S550 ML550 GL550 GL450
- MED17.7.1 - 5.5L V8 BiTurbo M157 - E63 AMG, S63 AMG, ML63 AMG, S63 AMG, etc
- MED17.7.2 - CLA250 CLA45 AMG - M270 M274 - 2.0T
- MED17.7.3 - V6 M276
- MED17.7.3 - 4.6L V8 BiTurbo M278 - E550 CLS550 S550 ML550 GL550 GL450
- MED17.7.3 - 5.5L V8 BiTurbo M157 - E63 AMG, S63 AMG, ML63 AMG, S63 AMG, etc
ME2.8 / ME2.8.1 ECU - What models and engines of Mercedes Benz?
The Mercedes-Benz ME2.8 and ME2.8.1 Engine Control Units (ECUs) are part of an older generation of engine management systems used by Mercedes-Benz. These ECUs were typically found in a variety of petrol and diesel engines across a broad range of Mercedes-Benz models from the late 1990s through the early to mid-2000s. The ME2.8 series ECUs were designed to manage various engine functions including fuel injection, ignition timing, and emissions control, among others.
Engines
The ME2.8 and ME2.8.1 ECUs were associated with several engine families, including:
- M112: A V6 petrol engine found in a range of Mercedes-Benz models. This engine family includes various displacements and was known for its use in mid-size and luxury vehicles.
- M113: A V8 petrol engine used in higher-end Mercedes-Benz models, including luxury sedans, coupes, and SUVs. This engine family is noted for its power and was used in both standard and AMG-tuned vehicles.
- M111: Earlier versions of the ME2.8 could also be found in some variants of the M111 engines, a four-cylinder petrol engine used in compact and mid-size vehicles.
Models
The ME2.8 and ME2.8.1 ECUs were installed in a wide array of Mercedes-Benz models, including but not limited to:
- C-Class (W202 and early W203): Early versions of the C-Class, including models like the C230, C280, and C320, which were equipped with M111 (for earlier models), M112, and M113 engines.
- E-Class (W210 and early W211): Including models such as the E320 and E430, which utilized the M112 and M113 engines.
- S-Class (W220): In models like the S430 and S500, which were powered by the M113 engine.
- CLK-Class (C208 and C209): Including the CLK320 and CLK430/CLK500 models with M112 and M113 engines.
- SLK-Class (R170 and early R171): Early SLK models such as the SLK230 (with M111 engines) and SLK320 with the M112 engine.
- ML-Class (W163): In models like the ML320 and ML430/ML500, which were equipped with M112 and M113 engines.
- SL-Class (R129 and early R230): Including versions like the SL320 and SL500, with M112 and M113 engines respectively.
It's important to note that the specific ECU version (ME2.8 vs. ME2.8.1) and its compatibility can vary depending on the specific engine model, year of manufacture, and market. The ME2.8.1 is generally a revised version of the ME2.8, with updates that could include improved software, hardware refinements, or adaptations to meet emissions regulations.
For the most accurate information regarding which Mercedes-Benz models and engines came equipped with the ME2.8 or ME2.8.1 ECU, consulting specific vehicle documentation or contacting a Mercedes-Benz dealer would be recommended, as variations can occur across different markets and model years.
ME9.7 ECU - What models and engines of Mercedes Benz?
The Mercedes-Benz ME9.7 ECU is a more advanced engine control unit used in a variety of Mercedes-Benz models, primarily in the late 2000s to early 2010s. This ECU was designed to manage both petrol and, in some cases, diesel engines, offering enhanced performance, fuel efficiency, and compliance with stricter emissions standards. The ME9.7 supports a range of features including direct fuel injection, advanced ignition control, variable valve timing, and emissions control technologies.
Engines
The ME9.7 ECU is associated with several key engine families, including:
- M272: A V6 petrol engine that was used across a wide range of Mercedes-Benz models. This engine is known for its balance of power and efficiency and was available in various displacements.
- M273: A V8 petrol engine that replaced the older M113 engine. The M273 provided increased power and torque, improved fuel efficiency, and lower emissions.
- M156: A performance-oriented V8 petrol engine used in AMG models. The M156 is notable for being the first engine developed independently by Mercedes-AMG and was known for its high power output.
Models
The ME9.7 ECU can be found in a diverse array of Mercedes-Benz models, including but not limited to:
- C-Class (W204): Particularly in models equipped with the M272 V6 petrol engines and early versions featuring the M273 V8 petrol engines.
- E-Class (W211 and W212): In models like the E350 with the M272 engine and the E500/E550 with the M273 engine.
- S-Class (W221): Including versions such as the S450 and S550, which utilized the M273 V8 petrol engine.
- CLK-Class (C209/A209): In models equipped with the M272 and M273 engines.
- CLS-Class (C219 and early C218): Featuring models like the CLS350 with the M272 engine and the CLS500/CLS550 with the M273 engine.
- SLK-Class (R171 and early R172): In models such as the SLK350, equipped with the M272 engine.
- ML-Class (W164): Including the ML350 with the M272 engine and the ML500 with the M273 engine.
- GL-Class (X164): Featuring models like the GL450 and GL550 with the M273 engine.
- SL-Class (R230): In later versions such as the SL350 (with the M272 engine) and the SL550 (with the M273 engine).
It's important to note that specific engine and model pairings can vary by market and production year. The ME9.7 ECU's adaptability to both naturally aspirated and, in some cases, forced induction engines (though primarily naturally aspirated in the mentioned models) allows for a broad application range within the Mercedes-Benz lineup.
For the most accurate and detailed information regarding ECU compatibility, engine specifications, and model years, consulting specific vehicle documentation or a Mercedes-Benz dealership is recommended.
MED17.7.2 ECU - What models and engines of Mercedes Benz?
The MED17.7.2 ECU is part of Mercedes-Benz's newer generation of engine control units designed to manage gasoline engines with direct injection and turbocharging technologies, among other advanced features such as variable valve timing and emissions control. This ECU is known for its use in a variety of Mercedes-Benz models, especially those that are part of the brand's efforts to enhance fuel efficiency and performance while meeting stringent emissions standards.
Engines
The MED17.7.2 ECU is specifically associated with:
- M270 and M274 Engines: These are 4-cylinder, direct-injection, turbocharged petrol engines. The M270 is typically found in compact models, while the M274 is its derivative used in a wider range of Mercedes-Benz vehicles, including mid-sized sedans, coupes, and SUVs.
- M133 Engine: A high-performance 2.0L turbocharged petrol engine used in Mercedes-AMG 45 models, known for being one of the most powerful four-cylinder engines in production at the time.
Models
While the exact list of models that use the MED17.7.2 ECU can vary based on region and specific vehicle configurations, here are some of the Mercedes-Benz models known to be equipped with this ECU:
- A-Class (W176): Especially the A250 and the Mercedes-AMG A45, showcasing the versatility of the MED17.7.2 ECU in managing both performance-oriented and efficiency-focused applications.
- B-Class (W246): Models like the B250 also benefit from the advanced engine management provided by the MED17.7.2 ECU.
- CLA-Class (C117): Including the CLA250 and the high-performance Mercedes-AMG CLA45, illustrating the ECU's capability in compact executive cars.
- GLA-Class (X156): The GLA250 and the Mercedes-AMG GLA45, highlighting the ECU's role in compact SUVs with both moderate and high-performance engines.
- C-Class (W205): The C250 and possibly other variants equipped with the M274 engine, demonstrating the ECU's application in mid-size luxury vehicles.
- E-Class (W212/W213): Early versions of the W213 might use the MED17.7.1 for models equipped with the M274 engine.
The MED17.7.2 ECU supports various technological advancements, including direct fuel injection, turbocharging, and sophisticated emissions control strategies, making it a key component in Mercedes-Benz's strategy to offer powerful yet environmentally friendly engines.
Given the continuous development and updates in automotive technologies, the specific engines and models equipped with the MED17.7.2 ECU could extend beyond this list, including slight variations and updates in newer model years or specific markets. For the most accurate and up-to-date information, consulting Mercedes-Benz service documentation or a dealership is recommended.
MED17.7.3 ECU - What models and M270 / M274 / M276 engines of Mercedes Benz?
The MED17.7.3 ECU is utilized in Mercedes-Benz vehicles to manage advanced engine functionalities such as direct injection, turbocharging, variable valve timing, and emissions control in compliance with stringent environmental standards. This ECU is part of the MED17 family, indicating its application in modern, sophisticated petrol engines designed for efficiency and performance.
Engines
The MED17.7.3 ECU is particularly associated with the following engine configurations:
- M274: A 2.0-liter, 4-cylinder, direct-injection, turbocharged petrol engine used across a wide range of Mercedes-Benz models. This engine is known for its balance of performance and fuel efficiency.
- M276: A V6, direct-injection, bi-turbo petrol engine that has been used in a variety of mid-size to large Mercedes-Benz models. The M276 engine family offers a higher performance level and is found in both standard and high-performance vehicles.
Models
Mercedes-Benz models that are commonly equipped with the MED17.7.3 ECU include, but are not limited to:
- C-Class (W205): The C-Class models, especially those like the C300, which are equipped with the M274 engine, utilize the MED17.7.3 ECU to manage engine performance and emissions.
- E-Class (W213): E-Class vehicles such as the E300 and E400, which may use either the M274 or M276 engines, respectively, benefit from the advanced control strategies of the MED17.7.3 ECU.
- GLC-Class (X253/C253): This includes the GLC 300 and GLC 400 models, where the ECU helps optimize the performance of both the M274 and M276 engines in SUV and Coupe forms.
- S-Class (W222): Some variants of the S-Class, particularly those equipped with the M276 engine like the S450, use the MED17.7.3 for enhanced engine management.
- CLS-Class (C257): The newer CLS models, which might include the CLS 450 with the M276 engine, are likely candidates for the MED17.7.3 ECU's advanced capabilities.
- SLC-Class (R172): Including versions like the SLC 300, which uses the M274 engine, showcasing the ECU's role in managing performance in compact luxury roadsters.
The application of the MED17.7.3 ECU extends across a broad spectrum of Mercedes-Benz's lineup, indicating its versatility and importance in optimizing engine performance, efficiency, and compliance with emissions standards. It's worth noting that specific vehicle configurations, market variations, and model year changes can influence the exact engine and ECU pairings. For the most accurate and detailed information, consulting with a Mercedes-Benz dealer or referring to the vehicle's documentation is recommended.
MED17.7.1 ECU / MED17.7.3 ECU - What models and engines of Mercedes Benz?
The Mercedes-Benz MED17.7.1 ECU and MED17.7.3 are sophisticated engine control units designed to manage various aspects of engine performance, including fuel injection, ignition timing, turbocharging, and emissions control. It's part of Mercedes-Benz's strategy to optimize engine efficiency and performance while meeting stringent emissions standards. The MED17.7.1 ECU / MED17.7.3 has been utilized in conjunction with several engine models, including the M278 and M157 engines.
M278 Engine
The M278 is a twin-turbocharged V8 petrol engine, part of the BlueDIRECT engine family, known for its power and efficiency. It has been used in a wide range of Mercedes-Benz models, typically in luxury sedans, coupes, and SUVs.
M157 Engine
The M157 is a high-performance twin-turbocharged V8 petrol engine used primarily in AMG-branded Mercedes-Benz models. It is renowned for its exceptional power output and serves as the performance-oriented counterpart to the M278.
Models Using MED17.7.1 with M278 and M157 Engines
While specific model years can vary, typically, the MED17.7.1 ECU / MED17.7.3 ECU in conjunction with the M278 and M157 engines can be found in the following Mercedes-Benz models:
With M278 Engine
- S-Class (W221 and early W222): The S550 models, known as the S500 in some markets, use the M278 engine.
- CLS-Class (C218): The CLS550, equipped with the M278 engine, benefits from the advanced engine management provided by the MED17.7.1 ECU / MED17.7.3.
- E-Class (W212): E550 models use the M278 engine, showcasing the ECU's capability in managing both performance and efficiency.
- GL-Class (X166): The GL450 and GL550 models, which utilize the M278 engine, offering a balance of luxury and performance in a full-sized SUV format.
- SL-Class (R231): The SL550 model uses the M278 engine, combining performance with the luxury roadster experience.
With M157 Engine
- E63 AMG (W212): Utilizing the M157 engine, these models are known for their high performance.
- CLS63 AMG (C218): Equipped with the M157 engine, offering exceptional performance in a luxury coupe form.
- S63 AMG (W221 and early W222): Featuring the M157 engine, these models represent the high-performance variant of the luxury sedan.
- ML63 AMG (W166): The performance-oriented SUV model with the M157 engine.
- GL63 AMG (X166): Combining the luxury SUV experience with high performance through the M157 engine.
These models exemplify the flexibility and performance capabilities of the MED17.7.1 ECU / MED17.7.3 ECU when paired with both the M278 and M157 engines, across a range of vehicle types from luxury sedans and coupes to high-performance SUVs. The specific application of the MED17.7.1 ECU / MED17.7.3 ECU can vary based on the production year and specific vehicle configurations. For the most accurate information, it's recommended to consult Mercedes-Benz service documentation or a dealership.
EDC17CP10 - What models and engines of Mercedes Benz?
The EDC17CP10 ECU is utilized in various Mercedes-Benz models, primarily managing the performance of diesel engines. This particular ECU is part of the EDC17 series from Bosch, which is known for its advanced control over diesel engine functionalities such as fuel injection, turbocharging, emissions control, and more, optimizing the engine for efficiency, performance, and compliance with emissions standards.
Engines
The EDC17CP10 is mainly associated with the OM642 engine, a 3.0L V6 diesel engine. This engine is noted for its use of common-rail direct injection and turbocharging, providing a balance of power, efficiency, and reduced emissions.
Mercedes-Benz Models with EDC17CP10 and OM642 Engine
- E-Class: Including the E350 CDI/BlueTEC models from approximately 2009 to 2012. These models benefit from the OM642 engine's robust performance and efficiency.
- S-Class: The S350 CDI/BlueTEC, utilizing the OM642 engine in the same year range, offers luxury and efficiency.
- R-Class: The R350 CDI/BlueTEC models, again with the OM642 engine, providing a unique blend of luxury, space, and efficiency.
- GL-Class: GL350 CDI/BlueTEC, which uses the OM642 engine to offer a luxury SUV experience with efficient diesel performance.
- ML-Class: The ML350 CDI/BlueTEC, equipped with the OM642 engine, combines comfort, luxury, and efficiency in a mid-size SUV package.
- Mercedes-Benz Sprinter: The Sprinter models equipped with the OM642 engine from around 2009 to 2012, showcasing the engine's versatility in commercial vehicle applications for enhanced fuel efficiency and performance.
These models represent a broad spectrum of Mercedes-Benz's lineup where the EDC17CP10 ECU plays a crucial role in engine management, particularly for those prioritizing fuel efficiency and lower emissions without sacrificing performance. It's worth noting that specific configurations and availability might vary based on the market and production changes over the years. For the most accurate and detailed information, consulting with Mercedes-Benz service documentation or a dealership is advisable.
EDC16CP36 - What models and engines of Mercedes Benz?
The Bosch EDC16CP36 ECU is an advanced engine control unit designed for managing diesel engines, notably those used in a variety of Mercedes-Benz models. This ECU is part of the EDC16 series, which signifies Electronic Diesel Control, and it's known for its capabilities in optimizing engine performance, fuel efficiency, and emissions control. The EDC16CP36 specifically caters to vehicles that adhere to Euro 4 and Euro 5 emissions standards, providing sophisticated control over diesel injection systems, turbocharging, and exhaust after-treatment processes.
Mercedes-Benz Engines Using EDC16CP36
The EDC16CP36 ECU is typically paired with several key Mercedes-Benz diesel engines, including:
- OM642: A V6 diesel engine that has been widely used across the Mercedes-Benz lineup. This engine features common-rail direct injection and turbocharging, offering a blend of performance and efficiency.
Mercedes-Benz Models Equipped with EDC16CP36
While specific configurations can vary based on market, production year, and model revisions, the following Mercedes-Benz models have been known to use the EDC16CP36 ECU with the aforementioned engines:
- E-Class (W211 and W212): Including variants like the E320 CDI/E350 CDI, where the OM646 (earlier models) and OM642 engines offer a combination of luxury and diesel efficiency.
- S-Class (W220 and W221): The S320 CDI and S350 CDI models, primarily powered by the OM642 engine, showcase luxury alongside diesel performance and efficiency.
- ML-Class (W164): Featuring the ML320 CDI and ML350 CDI with the OM642 engine, blending SUV versatility with diesel economy.
- GL-Class (X164): The GL320 CDI and GL350 CDI, which also make use of the OM642 engine, providing large SUV capabilities with the benefits of diesel technology.
This list is indicative rather than exhaustive, highlighting the broad use of the EDC16CP36 across a range of Mercedes-Benz diesel vehicles. The exact engine and ECU pairings might vary, especially as manufacturers periodically update vehicle specifications, engine models, and control units to improve performance, meet newer emissions standards, or address market demands.
For the most accurate and specific information regarding which Mercedes-Benz models and engines use the EDC16CP36 ECU, consulting with a Mercedes-Benz dealership or service center is recommended, as they can provide detailed insights based on VINs and model years.
EDC16CP31 - What models and engines of Mercedes Benz?
The Bosch EDC16CP31 ECU is another variant in the extensive EDC16 family, designed to control diesel engines with a focus on optimizing performance, fuel efficiency, and emissions. It's used across a variety of Mercedes-Benz models, including both passenger vehicles and commercial vehicles like the Sprinter. The EDC16CP31 specifically manages engines to meet rigorous emissions standards, such as Euro 4 and Euro 5, and is known for its application in vehicles equipped with advanced diesel technology.
Engines Using EDC16CP31
- OM642: A V6 turbo-diesel engine known for its use in a wide range of Mercedes-Benz models. This engine features common-rail direct injection and has been praised for its blend of power, efficiency, and reduced emissions.
Mercedes-Benz Models Equipped with EDC16CP31
- E-Class (W211): The E320 CDI and E350 CDI, which are often powered by the OM642 engine, are among the executive cars equipped with the EDC16CP31 ECU.
- ML-Class (W164): The ML320 CDI and ML350 CDI, primarily using the OM642 engine, indicate the ECU's capability in managing SUV performance and efficiency.
- GL-Class (X164): Including the GL320 CDI and GL350 CDI, showcasing the use of the OM642 engine in a full-size luxury SUV context.
- R-Class (W251): The R320 CDI and R350 CDI, equipped with the OM642 engine, demonstrate the EDC16CP31's versatility in a luxury MPV.
- Sprinter (W906) for the USA: Specifically, the Sprinter models equipped with the OM642 engine in the United States are notable examples of commercial vehicles using the EDC16CP31 ECU. These models include various configurations like the 2500 and 3500 series, catering to a range of commercial transportation needs with a focus on reliability and efficiency.
The inclusion of the EDC16CP31 ECU in these models, especially in the U.S. market Sprinter (W906) with the OM642 engine, underscores its critical role in managing diesel engine performance across a diverse range of vehicles. The specific application of the EDC16CP31 can vary based on the market, production year, and model revisions, especially considering updates to meet local emissions regulations.
For detailed and model-specific information, including the precise engine and ECU configurations for Mercedes-Benz vehicles, consulting with a Mercedes-Benz dealership or service center is advisable. They can provide the most accurate and up-to-date information based on vehicle identification numbers (VINs) and detailed model specifications.
EDC16C2 - What models and engines of Mercedes Benz?
The Bosch EDC16C2 ECU is part of the Electronic Diesel Control (EDC) series, specifically designed for diesel engines, emphasizing fuel efficiency, emissions control, and performance optimization. This control unit is notable for its application in a range of Mercedes-Benz diesel models, including those sold in the USA, and is compatible with various engine types, including the OM647 and OM648 engines.
Engines Using EDC16C2
- OM647: A 2.7-liter 5-cylinder turbo-diesel engine used in earlier Mercedes-Benz models, known for its balance of performance and fuel efficiency. It was particularly noted for its application in the Sprinter models in the USA.
- OM648: A 3.2-liter 6-cylinder turbo-diesel engine, representing an evolution in Mercedes-Benz diesel technology with improved performance, emissions, and fuel efficiency. This engine was used in the E-Class, showcasing the brand's commitment to diesel innovation.
Mercedes-Benz Models Equipped with EDC16C2
- E-Class (W211): The E320 CDI, equipped with the OM648 engine, is one of the prominent models in the USA featuring the EDC16C2 ECU. This model exemplifies Mercedes-Benz's application of advanced diesel technology in executive sedans.
- Sprinter W905 (T1N): In the USA, the Sprinter models equipped with the OM647 engine are notable for utilizing the EDC16C2 ECU. These vehicles highlight the ECU's capability in commercial applications, offering reliability and efficiency for transport and delivery services.
While the EDC16C2 was widely used across various Mercedes-Benz diesel models, its application in the USA is particularly associated with the E-Class and Sprinter models featuring the OM647 and OM648 engines. These vehicles benefited from the EDC16C2's advanced diesel engine management, which includes precise fuel injection control, turbocharger management, and emissions control strategies to meet stricter environmental standards.
For the most accurate information regarding ECU and engine pairings in specific Mercedes-Benz models, especially considering regional variations and production years, consulting with a Mercedes-Benz dealership or referring to official service documentation is recommended. This approach ensures detailed insights based on the latest data and vehicle specifications.