Thread Rating:
  • 0 Vote(s) - 0 Average
  • 1
  • 2
  • 3
  • 4
  • 5
John Deere 270 LC Wiring Insight
#1
   

Machine heritage and model overview
The John Deere 270 LC excavator is a mid-size hydraulic excavator widely used in construction, earthmoving, and quarrying. It’s powered by the robust 6068H turbocharged engine with 414 cu in (6,784 cc), delivering around 180 hp (134 kW) and a peak torque of approximately 400 lb-ft (542 Nm) at 1,400 rpm . The machine’s conventional specifications include a tail swing radius of about 10 ft (3 m), ground clearance near 2 ft (1 m), track length ~13 ft (4 m), and cab height close to 10 ft (3 m) . Historically, the ‘LC’ designation—long carriage—was introduced to enhance stability and load distribution, especially effective on uneven terrain. The 270 LC contributed significantly to Deere’s global excavator sales during the late 1990s and early 2000s, supported by Deere’s reputation for dependable machines and parts access.
Understanding the electrical wiring system
A wiring schematic is the blueprint of the machine’s electrical system. For the 270 LC, authorized service manuals (such as TM1667) include detailed diagrams covering system layouts, relay configurations, harness routing, and diagnostic wiring paths . Key terminology includes:
  • Relay: electrically controlled switch, often used to handle high-current circuits via low-current activation.
  • Pin-out: the mapping of relay socket terminals, crucial for testing coil and contact circuits.
  • Harness: bundled wires that transmit power and signal between components.
  • Circuit diagram: visual map showing connections, protective devices, and component locations.
Having the correct schematic enables tracing power flow, isolating faults, and avoiding damage when testing or repairing.
Typical electronic issues and diagnostic approaches
Owners report gradual electrical failures—fading back-light, inoperative gauges, intermittent control faults, or dead zones in the joystick or pump control—often stemming from relay failures or wiring wear. A technician might suspect the Denso relay (such as part number 156700-1840) as cause, necessitating pin-out testing to identify coil and contact pins.
Recommended diagnostic steps:
  • Retrieve or reference the relevant schematic (e.g., from TM1667).
  • Locate the suspect relay within the breakdown of circuits.
  • Use a multimeter to test continuity or coil resistance on relay socket terminals based on pin-out diagram.
  • Inspect common failure points: harness connectors near heat sources, control-box grounds, and moisture-prone areas.
  • Replace relays with equivalent part ratings, preferably OEM or OEM-quality.
A preventive maintenance suggestion: log electronic faults and resolution steps. Over time, patterns emerge—such as a relay repeatedly failing under vibration—guiding more effective preventive replacements.
Field story from a jobsite
On a cold January morning, a fleet technician named Rosa tackled a 270 LC whose cab lights, fuel gauge, and start circuit had all gone dark. Without a schematic to hand, she tracked the issue to a relay mounted near the battery box. Using simplified diagrams borrowed from a similarly structured Deere manual, she checked the Denso relay pin-out, found the coil winding open, and swapped it. The machine sprang to life. The operator marveled that “sometimes wiring feels like plumbing—if you follow the flow, you’ll find the leak or break.”
Practical advice and best practices
  • Always keep the correct electrical schematic on hand—repair efficiency improves dramatically.
  • When testing relays, mark good ones for reuse if malfunctioning conditions are mild—keeping spares on hand is wise.
  • Use dielectric grease or sealing wrap on connectors to reduce corrosion, especially in friable environments.
  • Label critical harness segments with hours-in-service notation when they get replaced—over time, this supports predictive maintenance.
  • If multiple electrical anomalies appear simultaneously, consider potential ground failures—a poor ground can masquerade as shielded path faults.
Performance context and concluding thoughts
Although exact production quantities for the 270 LC are proprietary, its popularity in the mid-size excavator sector is underlined by its continued presence in auction sites and aftermarket parts availability . The wiring systems on models like this exemplify the transition era where machines began merging heavy hydraulics with basic electronics—bridging simplicity and emerging complexity.
In summary, understanding the electrical wiring schematic of the John Deere 270 LC is invaluable for diagnosing failures, maintaining long-term reliability, and keeping aged excavators in productive service. Armed with diagrams, multimeter techniques, and preventive wisdom, technicians can ensure these workhorses remain electrically sound for years to come.
Reply


Possibly Related Threads…
Thread Author Replies Views Last Post
  John Deere 650G: A Robust Workhorse in Construction and Excavation MikePhua 0 1 Today, 01:12 AM
Last Post: MikePhua
  Evaluating the 1980 John Deere 410 Backhoe Loader MikePhua 0 1 Yesterday, 11:01 PM
Last Post: MikePhua
  John Deere 330C LC Excavator Overview and Insights MikePhua 0 1 Yesterday, 10:24 PM
Last Post: MikePhua
  Gehl Dynalift DL12 Is a Rugged Telehandler with John Deere Power MikePhua 0 1 Yesterday, 10:00 PM
Last Post: MikePhua
  Why Is the Oil Level Rising in a John Deere 428X Engine MikePhua 0 1 Yesterday, 09:28 PM
Last Post: MikePhua
  John Deere 650J: An In-Depth Review MikePhua 0 1 Yesterday, 09:23 PM
Last Post: MikePhua
  Understanding Wiring Diagrams in Heavy Equipment MikePhua 0 1 Yesterday, 08:41 PM
Last Post: MikePhua
  Evaluating the John Deere 323E Compact Track Loader for Ownership MikePhua 0 1 Yesterday, 08:27 PM
Last Post: MikePhua
  John Deere 444E Wheel Loader Detailed Overview MikePhua 0 1 Yesterday, 08:26 PM
Last Post: MikePhua
  Takeuchi TL250 vs John Deere 333D for Dirt Pushing MikePhua 0 1 Yesterday, 08:21 PM
Last Post: MikePhua
  Identifying and Evaluating the John Deere 1010CL Crawler Loader MikePhua 0 1 Yesterday, 07:14 PM
Last Post: MikePhua
  Wiring a Belly Dump Trailer MikePhua 0 1 Yesterday, 07:10 PM
Last Post: MikePhua
  Comparing the Caterpillar D6R XW Series II and John Deere 850J LGP Crawler Dozers MikePhua 0 3 Yesterday, 02:19 PM
Last Post: MikePhua
  John Deere Backhoe Loaders: A Legacy of Innovation and Performance MikePhua 0 5 Yesterday, 12:19 AM
Last Post: MikePhua
  John Deere 690B Excavator: A Legacy of Durability and Performance MikePhua 0 4 Yesterday, 12:09 AM
Last Post: MikePhua

Forum Jump:


Users browsing this thread: