C004900
DTC C004900 indicates an abnormal brake fluid level detected by the IPB (Intelligent Integrated Braking System) — Atto 3
Braking System
DTC C004900 indicates an abnormal brake fluid level detected by the IPB (Intelligent Integrated Braking System).
The fluid level sensor installed in the brake master cylinder reservoir (typically a Hall-effect or float switch) triggers this fault.
The IPB control unit records the fault when the brake fluid level remains continuously below the minimum mark (MIN) or the sensor signal voltage falls outside the calibrated range (normally 0.5V-4.5V, varying linearly with fluid level).
This is a safety-related fault.
When triggered, the system limits ESC, ABS, Automatic Emergency Braking (AEB), and energy recovery functions.
Some models enter limp mode.
Depending on the software version or specific repair scenario, this fault code may also correlate with an abnormal brake pedal position sensor (BPS) signal.
The IPB system verifies brake system integrity by evaluating both the fluid level and pedal signals.
Likely Causes — Atto 3
- 1Brake fluid leakage or natural loss: Aging and leakage at the brake wheel cylinder, brake lines, IPB integrated pump body, or reservoir sealing ring causes the fluid level to continuously drop below the threshold.
- 2Brake fluid level sensor fault: Stuck sensor float, damaged Hall element, or failed magnetic float causing the output signal to mismatch the fluid level.
- 3Electrical connection issues: Sensor connector oxidation, water ingress (common in vehicles driven through water), terminal back-out, or wiring harness damage causing a signal short or open circuit.
- 4IPB control unit software fault: lost calibration data, software version defects, or voltage fluctuations causing false faults, commonly occurring when failing to calibrate the system after repairs.
- 5Brake fluid level sensor installation or reservoir issue: improperly seated sensor, deformed reservoir, or use of non-standard brake fluid causing abnormal sensor detection.
What To Do
- 1Visual inspection: Open the engine compartment and verify if the brake fluid reservoir level is below the MIN mark. Observe the brake fluid colour (it should be clear and light yellow; replace if dark or cloudy).
- 2Leak inspection: Raise the vehicle. Inspect all four brake calipers, brake hoses, steel line fittings, and the underside of the IPB pump body for damp marks or fluid drips. Focus on freshly wet areas.
- 3Sensor electrical inspection: Disconnect the fluid level sensor connector, measure the supply voltage (should be 5V±0.25V) and ground resistance (should be <1Ω), and check the signal wire for a short to ground or power.
- 4Sensor function test: Use the diagnostic tool to read the fluid level sensor live data stream. Compare the actual fluid level with the sensor voltage (full level approx. 4.2V, empty level approx. 0.8V). If the values do not match, replace the sensor.
- 5Wiring harness inspection: Inspect along the sensor wiring harness to the IPB control unit. Check the front bulkhead wiring grommet and firewall connector for chafing, water ingress, or corrosion. Measure wiring harness continuity.
- 6System calibration: After replacing the sensor, repairing the wiring harness, or adding brake fluid, use VDS2000 to perform the 'Brake Fluid Level Sensor Calibration' and 'IPB System Bleeding' procedures.
- 7Verification test: Clear the fault code, perform a road test (including hard acceleration, hard deceleration, and turning), verify the data stream is stable, and confirm ESC/ABS functions operate normally and the fault code does not recur.
Real-World Cases
Qin Pro DM - Poor brake switch contact causing intermittent fault
When driving on rough roads, the dash intermittently showed "Check ESP System" and "Check ABS System" warnings. When the lights came on, automatic emergency braking failed, and the warnings sometimes cleared after cycling the ignition. VDS2000 scan showed DTCs C004900 (Brake Pedal Position Sensor signal abnormal) and U012100. Found slight oxidation inside the brake pedal position sensor connector; measured sensor supply voltage fluctuating between 4.2V and 5V (normal: stable 5V). Confirmed burnt contacts inside the brake light switch causing erratic signal transmission. Replaced the brake light switch assembly (SC-4135100), cleaned the pedal position sensor connector, and applied conductive grease. Fault resolved.
Original source ↗Song PLUS DM-i - Brake pedal sensor hardware failure
After sitting overnight, the vehicle showed "Braking System Fault" at startup along with increased brake pedal travel and failed regenerative braking. Stored code C004900. Live data showed brake pedal position sensors 1 and 2 were not maintaining the normal 2:1 voltage ratio: Sensor 1 read 0.8V while Sensor 2 read 0.3V. Removed the pedal position sensor and found the internal Hall element damaged. Replaced the brake pedal assembly (includes pedal position sensor, part number SA-3504010) and performed Brake Pedal Position Calibration with the diagnostic tool. Fault resolved.
Original source ↗Han EV - Water ingress corroded sensor connector
After driving through water approximately 30 cm deep, the ESP, ABS, and EPS warning lights illuminated simultaneously. The vehicle would not enter Ready mode and displayed 'Check braking system'.
Retrieved DTCs: C004900 (current fault), C003100 (left front wheel speed sensor fault), B1B0100 (airbag system fault).
Found the brake pedal position sensor connector at the firewall had water inside with green copper corrosion. Measured the sensor signal wire shorted to ground (0.8 ohms; normal: infinite). Water penetrated the wiring harness grommet during wading, causing the short.
Solution: Cleaned the connector terminals with electronic cleaner, applied waterproof silicone grease after drying, replaced the brake pedal position sensor (HAD-3504200), and waterproofed the wiring harness.
Original source ↗Tang DM — Software calibration data lost
The dealership replaced the ABS pump. After approximately 50 km of driving, the instrument cluster suddenly displayed "Service ESP". Brake pedal free play increased at the beginning of its travel, and regenerative braking strength decreased. The scanner retrieved DTCs C004900 (Brake Pedal Position Sensor Signal Implausible) and C004800 (Brake Pressure Sensor Fault). No physical damage was found on the new ABS pump or wiring, but live data showed the brake pedal position sensor initial position voltage at 0.7 V, outside the calibration range (normal: below 0.5 V). The brake system had not been recalibrated after the pump replacement, so the control unit could not recognize the pedal's initial position. Solution: Use VDS to perform "Brake Pedal Position Learning" (path: System Calibration → Chassis System → Brake Pedal Position Sensor Calibration). After calibration, voltage read 0.45 V with the pedal released and 4.5 V at full travel. Clearing the fault codes resolved the issue.
Original source ↗Data confidence: Official This information is for reference only. Always consult a qualified technician for diagnosis and repair. Do not attempt high-voltage system repairs yourself.