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The 773 and Its Hydraulic-Electronic Integration
The Bobcat 773 skid steer loader was introduced in the late 1990s as part of Bobcat’s G-series lineup, offering a blend of mechanical simplicity and electronic control. With a rated operating capacity of 1,750 pounds and a robust hydraulic system delivering up to 16.9 gallons per minute, the 773 became a popular choice for contractors, landscapers, and municipalities. Bobcat, founded in North Dakota in 1947, pioneered the compact loader category and has sold millions of units worldwide.
The 773 features a diesel engine—typically a Kubota V2203 or V2003—paired with a hydrostatic transmission and electronically controlled safety interlocks. The loader’s brake system is integrated with the traction and hydraulic circuits, and any fault in the interlock or brake logic can cause engine stall, especially during startup or when engaging drive functions.
Terminology annotation:
- Hydrostatic transmission: A system using hydraulic fluid to transmit power from the engine to the drive motors, allowing variable speed and direction without gears.
- Interlock system: A safety mechanism that prevents loader movement unless certain conditions are met, such as seat occupancy and brake release.
- Brake solenoid: An electrically actuated valve that controls hydraulic pressure to the brake system.
- Stall condition: A situation where the engine shuts down due to overload, fuel starvation, or electronic intervention.
Symptoms and Diagnostic Clues
Operators may encounter the following symptoms:
Brake Solenoid Behavior and Hydraulic Load
The brake solenoid on the 773 controls hydraulic pressure to the parking brake actuator. When energized, it releases pressure, allowing the loader to move. If the solenoid fails to open fully or leaks internally, the brake may remain partially engaged, causing drag and engine stall.
Inspection steps:
Engine stall may also result from fuel delivery issues, especially when hydraulic load increases. The Kubota diesel engine relies on a mechanical injection pump and lift pump to maintain fuel pressure.
Checklist:
- Lift pump: A low-pressure pump that supplies fuel from the tank to the injection pump.
- Governor: A mechanical or electronic device that regulates engine speed under varying loads.
Interlock System and Seat Switch Logic
The 773 uses a seat switch and lap bar sensors to control the interlock system. If these sensors fail or send erratic signals, the brake may engage unexpectedly or prevent hydraulic activation.
Tips:
One operator in Wisconsin reported that his 773 stalled every time he released the brake. After replacing the brake solenoid and cleaning the valve block, the issue persisted. He eventually traced the fault to a cracked seat switch wire that intermittently broke the interlock circuit. Repairing the wire restored full function.
Another technician in Alberta found that a clogged fuel filter caused the engine to stall under load. Replacing the filter and bleeding the system resolved the issue, and he added a magnetic pre-filter to catch future debris.
Preventative Maintenance and System Reliability
To prevent stall and brake-related issues:
Conclusion
Engine stall and brake-induced power loss on the Bobcat 773 often stem from a combination of hydraulic drag, solenoid failure, and interlock miscommunication. By methodically inspecting each subsystem—from fuel delivery to brake logic—technicians can restore performance and prevent costly downtime. With proper care and informed troubleshooting, the 773 remains a dependable workhorse across job sites and seasons.
The Bobcat 773 skid steer loader was introduced in the late 1990s as part of Bobcat’s G-series lineup, offering a blend of mechanical simplicity and electronic control. With a rated operating capacity of 1,750 pounds and a robust hydraulic system delivering up to 16.9 gallons per minute, the 773 became a popular choice for contractors, landscapers, and municipalities. Bobcat, founded in North Dakota in 1947, pioneered the compact loader category and has sold millions of units worldwide.
The 773 features a diesel engine—typically a Kubota V2203 or V2003—paired with a hydrostatic transmission and electronically controlled safety interlocks. The loader’s brake system is integrated with the traction and hydraulic circuits, and any fault in the interlock or brake logic can cause engine stall, especially during startup or when engaging drive functions.
Terminology annotation:
- Hydrostatic transmission: A system using hydraulic fluid to transmit power from the engine to the drive motors, allowing variable speed and direction without gears.
- Interlock system: A safety mechanism that prevents loader movement unless certain conditions are met, such as seat occupancy and brake release.
- Brake solenoid: An electrically actuated valve that controls hydraulic pressure to the brake system.
- Stall condition: A situation where the engine shuts down due to overload, fuel starvation, or electronic intervention.
Symptoms and Diagnostic Clues
Operators may encounter the following symptoms:
- Engine stalls immediately after releasing the parking brake
- Loss of power when attempting to drive or lift
- Brake light remains illuminated despite switch activation
- Audible click from solenoids but no hydraulic response
- Machine runs fine with brake engaged but dies when disengaged
Brake Solenoid Behavior and Hydraulic Load
The brake solenoid on the 773 controls hydraulic pressure to the parking brake actuator. When energized, it releases pressure, allowing the loader to move. If the solenoid fails to open fully or leaks internally, the brake may remain partially engaged, causing drag and engine stall.
Inspection steps:
- Locate the brake solenoid near the hydraulic valve block
- Test voltage at the solenoid connector (should read 12V when brake is released)
- Listen for audible click when brake switch is toggled
- Remove solenoid and inspect for debris, corrosion, or coil damage
- Replace with OEM-grade unit if resistance is outside spec
- Clean solenoid cavity and flush hydraulic lines before reinstallation
- Use dielectric grease on connectors to prevent moisture ingress
- Replace brake switch if intermittent behavior is observed
Engine stall may also result from fuel delivery issues, especially when hydraulic load increases. The Kubota diesel engine relies on a mechanical injection pump and lift pump to maintain fuel pressure.
Checklist:
- Inspect fuel filter and water separator for clogging
- Test lift pump output (should deliver steady flow at idle)
- Check fuel lines for air leaks or collapsed sections
- Verify idle speed setting and governor response
- Clean injectors if misfire or rough idle is present
- Lift pump: A low-pressure pump that supplies fuel from the tank to the injection pump.
- Governor: A mechanical or electronic device that regulates engine speed under varying loads.
Interlock System and Seat Switch Logic
The 773 uses a seat switch and lap bar sensors to control the interlock system. If these sensors fail or send erratic signals, the brake may engage unexpectedly or prevent hydraulic activation.
Tips:
- Inspect seat switch wiring and test continuity
- Check lap bar sensor alignment and magnet position
- Reset interlock controller by cycling ignition and seat position
- Replace worn seat cushions that fail to depress the switch fully
One operator in Wisconsin reported that his 773 stalled every time he released the brake. After replacing the brake solenoid and cleaning the valve block, the issue persisted. He eventually traced the fault to a cracked seat switch wire that intermittently broke the interlock circuit. Repairing the wire restored full function.
Another technician in Alberta found that a clogged fuel filter caused the engine to stall under load. Replacing the filter and bleeding the system resolved the issue, and he added a magnetic pre-filter to catch future debris.
Preventative Maintenance and System Reliability
To prevent stall and brake-related issues:
- Replace fuel and hydraulic filters every 250 hours
- Inspect solenoids and interlock sensors quarterly
- Clean valve block and connectors annually
- Monitor idle stability and fuel pressure during service
- Keep diagnostic tools on hand for voltage and continuity checks
Conclusion
Engine stall and brake-induced power loss on the Bobcat 773 often stem from a combination of hydraulic drag, solenoid failure, and interlock miscommunication. By methodically inspecting each subsystem—from fuel delivery to brake logic—technicians can restore performance and prevent costly downtime. With proper care and informed troubleshooting, the 773 remains a dependable workhorse across job sites and seasons.
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1. Brand-new excavators.
2. Refurbished excavators for rental business, in bulk.
3. Excavators sold by original owners
https://www.facebook.com/ExcavatorSalesman
https://www.youtube.com/@ExcavatorSalesman
Whatsapp/Line: +66989793448 Wechat: waji8243
