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Introduction to the Champion 720A Series IV
The Champion 720A Series IV motor grader is a robust machine designed for precision grading in road construction, site preparation, and municipal maintenance. Equipped with an 8400-series transmission and twin-stick control, it offers eight forward and four reverse gears powered by a 24V electrical system. While known for its durability, aging units can develop complex transmission issues that require methodical troubleshooting.
This article explores a real-world case involving reverse gear failure, outlines diagnostic strategies, and offers practical advice for resolving hydraulic and electronic faults in the Champion 720A’s transmission system.
Symptoms and Initial Observations
The operator reported the following behaviors:
Terminology Explained
In Arlington, Tennessee, a technician encountered a Champion 720A that stalled every time reverse was engaged. After ruling out electrical faults, he discovered that the reverse clutch pack was partially engaged due to a misaligned spool in the valve body. Realigning the spool and flushing the hydraulic system resolved the issue.
Fluid Contamination and Maintenance
Another operator reported low pressure warnings and dark, dirty fluid resembling motor oil. This suggests either incorrect fluid use or contamination. Transmission systems require clean, high-quality hydraulic oil to maintain clutch integrity and solenoid responsiveness.
Recommendations:
Champion graders were widely used in North America throughout the 1980s and 1990s. The 8400 transmission series was praised for its modular design and ease of service. However, as machines age, electronic modules and hydraulic components become prone to wear, especially in high-duty cycles or extreme climates.
Case Study: Municipal Fleet in Montana
In 2020, a municipal fleet in Billings, Montana experienced similar transmission issues on a 720A Series V. After replacing the fluid and filters, the machine continued to show low pressure alarms. The root cause was traced to a clogged suction screen inside the transmission housing—an often-overlooked component. Cleaning the screen restored normal pressure and eliminated alarms.
Conclusion
Transmission issues in the Champion 720A Series IV can stem from a combination of hydraulic, electronic, and mechanical faults. By systematically testing solenoids, inspecting fluid quality, and verifying control module behavior, technicians can isolate and resolve even complex problems. Preventive maintenance and proper documentation remain key to keeping these legacy machines running smoothly and safely.
The Champion 720A Series IV motor grader is a robust machine designed for precision grading in road construction, site preparation, and municipal maintenance. Equipped with an 8400-series transmission and twin-stick control, it offers eight forward and four reverse gears powered by a 24V electrical system. While known for its durability, aging units can develop complex transmission issues that require methodical troubleshooting.
This article explores a real-world case involving reverse gear failure, outlines diagnostic strategies, and offers practical advice for resolving hydraulic and electronic faults in the Champion 720A’s transmission system.
Symptoms and Initial Observations
The operator reported the following behaviors:
- Machine pulls forward in all eight gears.
- In reverse, the engine stalls across all four gears—even at idle or mid-throttle.
- No fault codes displayed on the LCD screen.
- Green light active on the transmission control module.
- Intermittent forward creep when in gear.
- Sudden forward launch when shifting from reverse to neutral.
- Intellic module flashing “1/2” alternately.
- Sight glass shows transmission fluid at ¾ full.
- Solenoid #3 (reverse-related) tested clean and responsive on bench.
- Reverse collector pod inspected and found clean.
Terminology Explained
- Intellic Module: Electronic control unit managing gear selection and solenoid activation.
- Solenoid Valve: Electromagnetic valve that directs hydraulic flow to engage specific gears.
- Collector Pod: Manifold housing multiple solenoids for gear control.
- Transmission Brake Effect: Sudden resistance or locking behavior similar to drag racing trans brakes, often caused by hydraulic misrouting or clutch overlap.
- Electronic System Check
- Confirm power supply to Intellic module.
- Inspect wiring harness for corrosion or loose connections.
- Verify solenoid activation sequence using a diagnostic scanner.
- Confirm power supply to Intellic module.
- Hydraulic Flow and Pressure Testing
- Measure pressure at reverse clutch ports.
- Compare flow rates between forward and reverse circuits.
- Check for internal leakage or blocked passages.
- Measure pressure at reverse clutch ports.
- Solenoid Functionality
- Bench test all solenoids for actuation and spring return.
- Swap solenoids to isolate faulty units.
- Confirm correct code generation when unplugged.
- Bench test all solenoids for actuation and spring return.
- Mechanical Inspection
- Inspect clutch packs for wear or sticking.
- Examine valve body for contamination or scoring.
- Verify free movement of spools and springs.
- Transmission Pressure (Forward): 250–300 psi
- Transmission Pressure (Reverse): 250–300 psi
- Solenoid Coil Resistance: 10–15 ohms
- Fluid Type: ISO VG 46 hydraulic oil or manufacturer-recommended ATF
- Sight Glass Level: ¾ full when cold, full when warm
In Arlington, Tennessee, a technician encountered a Champion 720A that stalled every time reverse was engaged. After ruling out electrical faults, he discovered that the reverse clutch pack was partially engaged due to a misaligned spool in the valve body. Realigning the spool and flushing the hydraulic system resolved the issue.
Fluid Contamination and Maintenance
Another operator reported low pressure warnings and dark, dirty fluid resembling motor oil. This suggests either incorrect fluid use or contamination. Transmission systems require clean, high-quality hydraulic oil to maintain clutch integrity and solenoid responsiveness.
Recommendations:
- Drain and flush transmission using manufacturer-specified fluid.
- Replace filters—ensure correct type for transmission vs. hydraulic system.
- Locate fill spout (often near left side or under cab) and refill to proper level.
- Routine Fluid Analysis: Check for viscosity, contamination, and water content.
- Electrical Harness Protection: Use heat-resistant sleeves and secure connectors.
- Solenoid Maintenance: Clean and test every 500 operating hours.
- Documentation: Maintain service logs and wiring diagrams for future reference.
Champion graders were widely used in North America throughout the 1980s and 1990s. The 8400 transmission series was praised for its modular design and ease of service. However, as machines age, electronic modules and hydraulic components become prone to wear, especially in high-duty cycles or extreme climates.
Case Study: Municipal Fleet in Montana
In 2020, a municipal fleet in Billings, Montana experienced similar transmission issues on a 720A Series V. After replacing the fluid and filters, the machine continued to show low pressure alarms. The root cause was traced to a clogged suction screen inside the transmission housing—an often-overlooked component. Cleaning the screen restored normal pressure and eliminated alarms.
Conclusion
Transmission issues in the Champion 720A Series IV can stem from a combination of hydraulic, electronic, and mechanical faults. By systematically testing solenoids, inspecting fluid quality, and verifying control module behavior, technicians can isolate and resolve even complex problems. Preventive maintenance and proper documentation remain key to keeping these legacy machines running smoothly and safely.
