Detroit Diesel SPN 110 FMI 0: Meaning, Causes & Fix
Engine Coolant Temperature β signal above normal, engine overheating condition detected on DD13 platform
Reviewed by ASE Certified Mechanics Β· Last updated July 12, 2026
Quick Answer
SPN 110 FMI 0 = Engine Coolant Temperature High
Severity: π΄ STOP ENGINE Β· System: Cooling System / Coolant Temperature Sensor / Water Pump / Thermostat Β· β Do NOT continue driving
β οΈ STOP DRIVING β This code indicates a critical safety issue. Continuing to operate the vehicle may cause engine damage or safety hazard. Pull over safely and diagnose before continuing.
Diagnostic Reference
| Field | Details |
|---|---|
| Code | SPN 110 FMI 0 |
| Protocol | J1939 SPN: 110 |
| Component | Cooling System / Coolant Temperature Sensor / Water Pump / Thermostat |
| Manufacturer | Detroit Diesel |
| Engine Series | DD13 |
| Severity | π΄ STOP ENGINE |
| SAE Reference | SAE J1939-73 Digital Annex β SPN 110, FMI 0 |
Possible Causes
- Coolant level low from leak (water pump weep hole, radiator, hose connection)
- Thermostat stuck closed β fails to open at 190Β°F, coolant cannot circulate to radiator
- Water pump impeller eroded or sheared from cavitation β DD13 water pump has plastic impeller prone to failure at 400,000+ miles
- Radiator external airflow restriction (bugs, debris, fan clutch failure)
- Coolant temperature sensor reading accurately but engine is genuinely overheating from head gasket failure
Top Causes Ranked by Frequency
- Coolant leak from deteriorated hoses, clamps, or radiator (35% of cases)
- EGR cooler internal failure allowing coolant into intake or exhaust (25%)
- Stuck-closed thermostat causing overheating (15%)
- Failed coolant level sensor giving false low readings (15%)
- Water pump impeller erosion or seal failure (10%)
In-Depth Diagnostic Procedure
Follow these diagnostic steps to identify the root cause of SPN 110 FMI 0 on your Detroit Diesel DD13. A J1939-compatible diagnostic scan tool is recommended.
- Check coolant level in both the overflow reservoir and the radiator (when cold) β a significant drop indicates an external or internal leak
- Use an infrared thermometer to verify actual coolant temperature matches the dash gauge and ECM sensor reading β a discrepancy indicates a faulty sensor
- Pressure-test the cooling system at 15β18 PSI and hold for 30 minutes; any pressure drop indicates a leak β check hoses, radiator, EGR cooler, and head gasket
- Inspect coolant for combustion gas contamination using a block tester (chemical test for exhaust gases in coolant) β positive result indicates head gasket or EGR cooler failure
- Check thermostat operation by monitoring coolant temperature rise rate; thermostat should begin opening at rated temperature and fully open within 10Β°F of that point
- Inspect fan clutch engagement β mechanical fan should engage when coolant exceeds 210Β°F or A/C pressure rises; a slipping fan causes overheating under load
Repair & Cost Estimate
| Item | Cost Range |
|---|---|
| Parts | $800 β $5,000 |
| Labor | 4β12 hours @ ~$150/hr = $600 β $1,800 |
| Estimated Total | $1,400 β $6,800 |
EGR cooler, water pump, or radiator replacement. Prices vary by location and dealer.
Frequently Asked Questions β Cooling System / Coolant Temperature Sensor / Water Pump / Thermostat
How do I know if my EGR cooler is leaking internally?
Symptoms include unexplained coolant loss with no visible external leak, white steam from the exhaust, rising oil level on the dipstick (coolant mixing with oil), and a sweet smell from the exhaust. A block test (combustion leak detector) will confirm exhaust gases in the coolant. EGR cooler failure is common on Cummins ISX15 and Detroit DD15 engines above 400,000 miles.
Can I drive with a low coolant level code if I top off the coolant?
If the coolant level was simply low from normal consumption, topping off may resolve the code. However, if the coolant loss is due to a leak, the level will drop again quickly. Monitor the coolant level daily after topping off. If you lose more than 1 gallon in 1,000 miles, there is an active leak that must be found and repaired before it leads to overheating and engine damage.
What is the correct coolant type for my diesel engine?
Most modern heavy-duty diesel engines use Extended Life Coolant (ELC) meeting ASTM D6210 or CAT EC-1 specifications. Common brands include Fleetguard Compleat, CAT Extended Life, and Shell Rotella ELC. Never mix conventional (green) coolant with ELC β they are incompatible and can form gels that clog the radiator and EGR cooler. Always follow the OEM specification for your engine.
My temperature gauge spikes then drops β is that a thermostat problem?
Yes, this is a classic symptom of a thermostat sticking closed and then snapping open. When the thermostat sticks, coolant stops circulating and temperature rises rapidly; when it finally opens, the temperature drops quickly. This cycling pattern will continue and gets worse over time. Replace the thermostat promptly β a fully stuck-closed thermostat causes rapid overheating and potential head gasket failure.
How often should I replace coolant hoses and the thermostat?
Replace coolant hoses every 4β5 years or 300,000β400,000 miles, whichever comes first, even if they look fine externally β internal deterioration is not visible. Replace the thermostat preventively at 300,000 miles. A preventive thermostat and hose replacement costs $200β$500, while a roadside overheating event from a failed thermostat can cause $5,000β$20,000 in engine damage.
Diagnostic & Repair Procedure
- Step 1: Pull over immediately and shut off engine β do not continue driving
- Step 2: Check coolant level in surge tank after engine cools 20 minutes
- Step 3: Inspect water pump weep hole for active coolant leak
- Step 4: Verify fan clutch engages at 210Β°F+ with A/C on
- Step 5: If no leaks and coolant full, replace thermostat
Frequently Asked Questions
Can I keep driving with SPN 110 FMI 0?
No. This is a STOP ENGINE-level fault. Continued operation will cause severe engine damage including potential catastrophic failure. Pull over safely and diagnose before restarting. Tow the vehicle to a service facility if the root cause cannot be identified and resolved at roadside.
What is the emergency protocol?
1) Pull over at the first safe location β use hazard lights and reflective triangles if on a highway shoulder. 2) Shut down engine. 3) Check for obvious issues: fluid leaks, smoke, loose connections, unusual odors. 4) Scan for secondary fault codes using a dash display or diagnostic tool β these often point to the root cause. 5) Call roadside assistance if unable to resolve. Do not attempt to limp the vehicle to a shop.
What happens if I ignore this code?
Ignoring a STOP ENGINE code can result in: turbocharger failure ($3,000β$8,000), engine seizure requiring complete overhaul ($15,000β$40,000), or fire risk from leaking fuel/oil contacting hot exhaust components. If this code is accompanied by low oil pressure or high coolant temperature, engine failure may occur within minutes of continued operation.
Estimated Repair Cost
Typical repair: $500β3,000 (Parts: $300β2,000 + Labor: 2β8 hours) Β· Costs vary by make/model and location
Related Fault Codes β DD13
SPN 4342 FMI 4
π CHECK SOON
SPN 3226 FMI 9
π CHECK SOON
SPN 102 FMI 4
SPN 524287 FMI 7
SPN 651 FMI 5
SPN 4360 FMI 18
Associated Symptoms
References & Further Reading
- SAE J1939-73: Application Layer β Diagnostics. SAE International. Defines SPN 110 / FMI N/A fault code semantics for heavy-duty CAN networks. SAE J1939 Standard
- Detroit Diesel DD13 Service Manual: OEM diagnostic procedures for Cooling System / Coolant Temperature Sensor / Water Pump / Thermostat faults. Consult the official Detroit Diesel service documentation for your specific engine serial number.
- TMC RP 1210: Recommended Practice for Windows-Based Vehicle Diagnostic Interface. Technology & Maintenance Council (TMC) of American Trucking Associations.