BOSCH MEDC17 EEPROM Editor – Professional ECU editing tool
Bosch MEDC17 EEPROM editor is a powerful software tool designed to edit and manage EEPROM data and functions in EDC17, MED17, PCR2.1 ECUs, as well as BCM2 Audi and Passat CCM (Comfort Control Module) units.
This is a new key from the developer SVEdit and is used only for Bosch MEDC17 EEPROM editor modules, other modules are activated on the standard key
Key Features of the Basic Package:
MED17 / EDC17 Module
- Full support for ECUs with immobilizer versions up to 6+
- Complete immobilizer data editing directly in the EEPROM
- Option to disable immobilizer and change ECU status (for immobilizer version 4)
- Export and import EEPROM data, including from other control units (e.g., Passat CCM module)
- ECU cloning for immobilizer versions 4, 5, and 6+ (currently in testing phase)
- Import of immobilizer data (version 4) from third-party tools: VVDI, SMOK, CARPROG
PCR2.1 Module
- Complete EEPROM editing for immobilizer data
- Data export/import across ECUs, including Passat CCM
- PCR2.1 ECU cloning
- Import of immobilizer data from VVDI, SMOK, CARPROG
BCM2 Audi Module
- Support for BCM2.01, BCM2 1.1, and BCM2 2.0 ECUs
- Edit crucial vehicle data such as: VIN, ECU CS, Gearbox CS, ELV CS, Power Class, Keys
- Export/import EEPROM data, including from other ECUs (e.g., MED17)
- BCM2 ECU cloning (in testing phase)
Passat CCM Module
- Edit all essential data: VIN, Immo ID, CS, PIN, MAC CCM, MAC ECU, MAC ELV, Power Class, Keys
- Ability to change ECU status
- Export/import EEPROM data with cross-ECU compatibility (e.g., MED17)
- Passat CCM ECU cloning
Important:
This function is available only on certain BMW engines and is NOT applicable to other vehicle brands.
The information below applies only to stock engines with factory ECU software and a standard exhaust system.
What This Parameter Actually Represents
This is NOT a direct measurement of fuel octane and is NOT a direct octane reading calculated by the ECU.
The value is an adaptation factor ranging from 0 to 1, where:
- 0 = no correction
- 1 = maximum correction
According to BMW’s internal definition:
Faktor adaptierte Kraftstoffqualität (0 = ROZ98 / 1.0 = ROZ91)
- 0 corresponds to 98 ROZ
- 1.0 corresponds to 91 ROZ
ROZ is the German equivalent of RON (Research Octane Number).
The device converts this multiplier into a more intuitive octane value for user convenience.
⚠️ The device does not measure anything itself.
It only displays the data provided by the engine control unit (ECU).
How the ECU Evaluates Fuel Quality
Each ECU has different calibration sensitivity:
- Sensitivity to the adaptation factor
- Sensitivity of the knock control system
Fuel quality is evaluated subjectively by the ECU, primarily based on:
- Knock ignition timing corrections
- Overall engine noise levels
BMW G-Series & LCI F-Series (B-Engines)
B38 / N63 / S63 / N74
These engines are highly sensitive to octane adaptation.
- During warm-up and cruising, the displayed octane may frequently drop to 95 or lower.
- This does NOT automatically indicate poor fuel quality.
- Under load, the value should increase.
⚠️ If the value continues to decrease under load, this may indicate a problem.
B46 / B48 / B58
These engines have low sensitivity.
- During cruising, octane will typically display maximum values even with mediocre fuel.
- Under load, the value will decrease if fuel quality is truly poor.
S58
Octane correction is virtually inactive.
- It will typically always show 98.
- If it drops below 98, fuel quality is genuinely very poor.
BMW F-Series (Pre-LCI) with N/S Engines
Most pre-LCI F-series ECUs do not calculate octane adaptation.
Do not expect this parameter to function.
S55
- Octane parameter not used by the system
- Display not supported
- However, display of the last 5 refueling quality events is supported
S63
- Octane parameter not used
- Display not supported
- Refueling quality display not supported
BMW E-Series
Octane parameter not available. Display not supported.
Important Notes About Tuned Vehicles
With modified hardware or custom tuning, behavior may vary significantly. Always consult your tuner regarding expected operation.
Key principles:
- If octane drops under load, it means fuel quality is worse than expected under those conditions.
- This does NOT automatically mean the fuel itself is bad.
Examples:
- If a tuner increases ignition timing and boost pressure, even good fuel may cause knock corrections, and the ECU may interpret it as poor fuel.
- Thin-walled or poorly mounted exhaust systems may create parasitic noise, which the ECU may interpret as engine knock, causing negative correction.
- Conversely, if knock sensitivity is reduced or octane correction is disabled in tuning, readings may appear ideal while actual engine safety is compromised.