Specalog for 775E Off-Highway Truck, AEHQ5457 · 2014. 5. 6. · Engine Engine Model Cat® 3412E...
Transcript of Specalog for 775E Off-Highway Truck, AEHQ5457 · 2014. 5. 6. · Engine Engine Model Cat® 3412E...
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EngineEngine Model Cat® 3412EGross Power 567 kW 760 hpFlywheel Power 544 kW 730 hp
WeightsGross Machine Weight 108 400 kg 239,000 lb
Operating SpecificationsSAE (2:1) Capacity 41.2 m3 53.9 yd3
Nominal Payload 63.5 tonnes 70 tons
775EOff-Highway Truck
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775E Off-Highway TruckEngineered for performance, designed for comfort, built to last.
Top Performance.The 775E is designed for high productionand low cost-per-ton hauling in variousapplications.Reliable, durable operation.Rugged construction and easy maintenancecan help extend life with low operating costs.
Operator Station
Controls and gauges are positioned tomaximize productivity and comfort.The cab includes an air suspension seatand advanced electronic monitoringsystem. Adjustable telescoping steeringcolumn, electric wipers, window andbody controls reduce operator effortand simplify control. pg. 12
Truck Body Options
The 775E offers flat floor quarry, flatfloor lined and dual-slope body optionsto meet specific user applications. A fulloffering of attachments and customizedoptions are available to meet specificneeds. pg. 11
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Engine/Power Train Integration
The Caterpillar® Data Link Systemelectronically combines engine,transmission, brake and operationalinformation to optimize overall truckperformance. The Electronic Technician(ET) accesses stored diagnostic data,significantly reducing downtime. pg. 6
Power Train - Transmission
The Cat seven-speed, power shifttransmission, matched with the direct-injection 3412E diesel engine provideconstant power over a wide range ofoperating speeds. pg. 5
Power Train - Engine
The power train features the 3412Ediesel engine and Hydraulic ElectronicUnit Injector (HEUI™) for efficientoperation. pg. 4
✔ New Feature
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Systems/Applications
Numerous options and a system approachto match the 775E to the most appropriateloader meets customer needs for variousapplications. pg. 16
Serviceability/Total Customer Support
Easy serviceability access, QuickEvac™system, on- and off-board diagnostics,machine management service, worldwideparts availability and literature supportrepresents the Caterpillar commitmentto customer support. pg. 14
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Structures
Caterpillar truck frames are built forsevere applications. Mild steel providesflexibility, durability and resistance toimpact loads. Castings and forgings inhigh stress areas of the frame providegreat structural strength. pg. 10
Oil Cooled, Rear Disc Brakes
Caterpillar oil-cooled, multiple discbrakes offer exceptional, fade-resistantbraking and retarding. pg. 8
Integrated Braking Control (IBC)
IBC integrates the optional AutomaticRetarder Control and Traction ControlSystem (TCS) into one system toenhance truck performance andproductivity and improve operatorconfidence. pg. 9
Cat 3412E Diesel Engine. The four-strokedesign uses long power strokes for morecomplete fuel combustion and optimumefficiency. High displacement and a lowspeed rating can help extend engine life.
Torque Rise. The 33 percent torque riseprovides high lugging force duringacceleration and less down-shifting ongrade or in rough underfoot conditions.The torque rise effectively matches thetransmission shift points to providemaximum efficiency and fastercycle times.
Engine.
1) Valve Rotators
2) Turbocharger
3) Stellite-Faced Valves
4) Steel-Backed, Copper-BondedBearings
5) Oil Cooler
6) Forged Crankshaft
7) Aftercooler
8) Adjustment-Free, Fuel InjectionPumps
9) Hydraulic Injectors
10) Forged Steel Pistons
11) Full-Length, Water-CooledCylinder Liners
Engine Features. Contributing to the3412E power and reliability are:
• High pressure injection
• Full electronic control
• One piece forged steel pistons withthree rings cooled by oil spray
• Copper-bonded crankshaft bearings
• Hardened crankshaft journals
• Dry-type, radial seal air cleanerswith primary and secondaryelements and precleaner
• Direct-electric, 24-volt startingsystem with 50-amp alternator andtwo 172-amp-hour, low maintenance,high output, 12-volt batteries
Hydraulic Electronic Unit Injector(HEUI™). The HEUI system is a provenhigh-pressure, direct injection fuel system.This system electronically monitorsoperator and machine inputs to optimizeengine performance. The HEUI systemis unique in its ability to independentlycontrol injection pressure over the entireengine operating range. This allowscomplete control over injection timing,duration, performance and efficiency.Rate shaping technology modifiesthe heat release characteristics of thecombustion process for significantdecreases in sound and emission levels.Exhaust smoke is significantly reducedthrough precise, electronic control offueling limits and injection timing ofthe HEUI.
Electronic Control Module (ECM).The ECM monitors key functions andlogs critical indicators. The ElectronicTechnician can access this diagnosticinformation for easier maintenanceand repair.
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Power Train - EngineThe twelve-cylinder, turbocharged engine is built for power, reliability, economy and with theHEUI™ fuel system, meets worldwide emissions.
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Transmission. The Cat seven-speed,power shift transmission, matched withthe direct-injection 3412E diesel engineprovide constant power over a widerange of operating speeds.
Transmission Features. Include:
• Seven speeds forward, one reverse
• Torque converter driven in reverse
• First gear has both torque converterdrive and direct drive
• Second through seventh gears aredirect drive
• Single-lever shift control providesautomatic shifting in all gears up tothe one selected by the control lever
• Each shift is individually modulatedfor maximum smoothness
• Separate hydraulic circuit with cooler
• Electronic control has built-indiagnostics and fault memory, eventmemory and programmable features
• Control throttle shifting
• Economy shift mode
1) Lock-up Torque Converter. Combinesthe maximum rimpull and cushionedshifting of torque converter drive withthe efficiency and performance of directdrive.
• Engages at approximately 6.9 km/h(4.3 mph), delivering more power tothe wheels
• Lock-up clutch quickly releasesand re-engages during shifts,maintaining power wind-up,improving transmission life andincreasing operator comfort
2) Planetary Power Shift Transmission.Utilizes a modulating pressure valve toregulate clutch pressure rise and fall toease clutch engagement. This reducesshock loads on power train components.Features include:
• Large diameter clutches and robustplanetary gears and bearings
• Rotating clutch pressure sealsminimize drag losses and improvereliability
• 35 percent gear splits between allgears match Cat engine design foroptimum use of engine power withminimized shifting and torqueconverter use
3) Final Drive. Final drive and differentialtorque multiplication of 17.48:1 furtherreduces stress on the drive train.
Axles. Full floating axles are shot-peenedto relieve internal stresses and increasedurability. Rolled splines also provideincreased service life.
Wheel and Rims. Cast rear wheels andCat center-mount rims are mountedusing studs and nuts to minimizemaintenance and maximize durability.
Transmission Chassis Controller (TCC).TCC uses electronically transferredengine rpm data to execute shifts atpreset points for optimum performanceand efficiency. This integration allows:
• Programmable top gear limit
• Control throttle shifting
• Directional shift management
• Neutral coast inhibitor
• Economy shift mode
Integration. The Caterpillar powertrain integration provides increasedcomponent life and operator comfort.
Power Train - TransmissionThe Cat seven-speed, power shift transmission gets the job done smoothly and quickly.
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Integration.
1) Electronic Technician
2) Cat Data Link System
3) Engine Control Module
4) Engine
5) Transmission Chassis Controller
6) Automatic Retarder Control,Traction Control System andIntegrated Brake Controller
7) Caterpillar Electronic MonitoringSystem
8) Transmission
9) Oil-cooled Brakes
Cat Data Link. The Cat Data Linkelectronically integrates the machine’scomputer systems, which allowscommunications and provides thefollowing benefits:
• Controlled Throttle Shifting. Enginerpm is regulated during a shift to reducedriveline stress for smoother shifts andlonger component life.
• Economy Shift Mode. Modifies enginemaps, resulting in improved fuelconsumption.
Directional Shift Management. Regulatesengine speed during directional shifts toprevent damage caused by high speeddirectional changes.
Elevated Idle Neutral Coast Inhibitor.Helps prevent the transmission fromshifting to neutral at speeds above6.5 km/h (4 mph).
Body-up Shift Inhibitor. Helps preventthe transmission from shifting above apre-programmed gear without the bodyfully lowered.
Event Memory. Records machinemanagement data that can be accessedusing the Electronic Technician.Recorded information includes:
• Shift histograms
• Operator-induced events
• Lock-up clutch counter
• Machine overspeed
• Transmission overspeed
Engine/Power Train IntegrationCombining the electronic Engine Control Module (ECM) with the Caterpillar Transmission Chassis Controller (TCC) allows critical power train components to work more intelligently.
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Electronic Technician (ET). The electronicengine and transmission controls provideexhaustive diagnostic capability forservice technicians. The ability to storeboth active and intermittent indicatorswill simplify problem diagnosis andreduce total repair time, resulting inimproved mechanical availability andlower operating cost.
• ET accesses data stored in theengine and transmission controls viathe Cat Data Link System.
• ET displays the status of all engineparameters including throttleposition, timing and fuel flow.
• ET replaces 13 mechanical tools toperform functions like cylindercutout checks, injector solenoid testsand timing calibration.
Caterpillar Electronic MonitoringSystem (CEMS). CEMS allows theoperator to view requested informationand utilizes a three-category warningsystem to alert the operator to abnormalmachine conditions.
Optional Attachments. Caterpillar offersoptional attachments that integrate withthe Cat Data Link System.
• Automatic Retarder Control (ARC).Works with other electronic componentsto automatically control retarding ongrade, maintaining approximately2,230 rpm.
• Traction Control System (TCS).Improves performance in poor underfootconditions by electronically monitoringand controlling wheel slippage.
• Integrated Brake Controller (IBC).Combines ARC and TCS, reducing thenumber of electronic components andelectrical lines.
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Brakes.
1) Parking/Secondary Piston
2) Service/Retarding Piston
3) Friction Discs
4) Steel Plates
5) Actuating Springs
6) Cooling Oil In
7) Cooling Oil Out
Multiple Disc Brakes. Caterpillar forcedoil-cooled, multiple disc brakes arecontinuously cooled for exceptional,fade-resistant braking and retarding.The optional ARC and TCS utilize theoil-cooled rear brakes to enhance truckperformance and increase productivity.
Oil-Cooled Disc Brakes. Are designedand built for reliable, adjustment-freeoperation providing superior performanceand service life in comparison to shoe-type and dry-disc systems.
Oil Film. An oil film prevents directcontact between the discs. Absorbingthe braking forces by shearing oil andcarrying heat away, this design extendsbrake life.
Secondary Braking. Spring-applied,hyraulically released, oil-cooled discbrakes are located on the rear axle.The front brakes will activate as part ofthe secondary system, even if switchedout of service.
Parking Brakes. Spring-applied,hydraulically released parking brakesuse wet disc brakes in the servicesystem. A toggle switch activatesthe parking brake.
Pistons. A Caterpillar two-piston designcombines the service, secondary andparking brakes, along with retardingfunctions. The primary pistonhydraulically actuates both serviceand retarding functions. The secondarypiston is spring-applied and held inthe disengaged position by hydraulicpressure. If hydraulic system pressuredrops below a certain level, the spring-applied secondary piston automaticallyapplies the brakes.
Oil Cooled, Rear Disc BrakesRear braking lets the operator concentrate on the haul road.
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Automatic Retarder Control (optional).The ARC electronically controls brakingon grade to maintain approximately2,230 rpm (engine rpm is adjustablefrom 2,150-2,300 rpm in increments of10 rpm). ARC is deactivated when theoperator applies the brakes or throttle.
Engine Overspeed Protection. With theaccelerator depressed and/or ARCturned off, ARC will automaticallyactivate at 2,475 rpm to help avoidpotentially destructive and often costlyengine overspeeds.
ARC Benefits. Include:
• Increased operating efficiencywith faster downhill speeds.By maintaining consistently higherengine speeds, average truck speedwill be higher than a manuallycontrolled truck.
• Excellent controllability and reducedoperator effort. Automatic brakemodulation provides a smoother rideover manual modulation, allowingthe operator to focus more on truckoperation down the haul road.
• Improved component life, optimizedsystem cooling capability andreduced torque fluctuations resultfrom ARC’s precision.
• Faster troubleshooting and diagnosiswith self-diagnostic capability andthe ability to communicate with ETthrough the Cat Data Link System.
• Operator awareness throughelectronic integration and CEMS,alerting the operator to overspeedconditions and critical machinefunctions.
Traction Control System (Optional).Monitors wheel slip so if it exceedsthe set limit, the oil-cooled disc brakesare automatically applied to slow thespinning wheel.
Operator Awareness. An on-dashindicator shows the operator that TCSis engaged.
Differential Action. Utilizes normaldifferential action to provide superiormaneuvering in poor underfootconditions. Also reduces tire scuffing ascompared to positive lock differentialsused on other systems.
Torque. TCS divides torque equallyto reduce stress created on final drivesand axles when torque is transferredto one side.
System Back-up. Should sensors fail,the normal differential action is stillavailable to maintain control and steering.
ARC Operating Efficiency Advantages
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10Time (Seconds)
20 30 40 50 60
Automatic Retarder Control(Maintains Engine rpm between 2160-2300)
Manual Retarder Control(Wide Variation in Engine rpm)
* Optimum Engine rpm
Engi
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peed
(rpm
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700
Integrated Braking Control (IBC)Electronically combines Automatic Retarding Control (ARC) and the Traction ControlSystem (TCS) into one integrated control system.
Box-Section Design. The 775E frameuses a box-section design, incorporating20 castings in high stress areas withdeep penetrating and continuous wrap-around welding. Mild steel, whichprovides flexibility, durability andresistance to impact loads even incold climates is used throughout.
Castings. Castings have large radii withinternal reinforcing ribs to dissipatestress. Castings move welds to lowerstress areas and provide two to threetimes the strength of equivalent sizedfabricated structures.
Frame Features. Include:
• Integral front bumper
• Front box beams for suspensioncylinder and ROPS support
• Box-section rear crossmemberfor body and ROPS support withattachment points for maintenanceplatform and rear engine hoodhinge support
• Castings provide additional strengthin critical stress areas
• Mild steel plates (290 MPa[42,000 psi] minimum yield strength)and castings (241 MPa [35,000 psi]minimum yield strength) provideflexibility, durability and easy fieldmaintenance.
Frame Serviceability. The box-sectionframe allows simple access to powertrain components. This open designreduces overall removal and installationtime, lowering repair costs. Transmissionaccess is excellent under the raisedand pinned body. Repairs can bemade without preheating in ambienttemperatures above 16° C (60° F) usingreadily available welding supplies.
Rollover Protection Structure (ROPS).The ROPS attaches securely to fourcastings welded into the frame.
Suspension System. Designed todissipate haul road and loading impactsfor extended frame life. Four independent,self-contained, oil pneumatic, variable-rebound, suspension cylinders absorbshocks. Rear cylinders allow axleoscillation and absorb bending andtwisting stresses. Front cylinders,mounted to the frame, serve assteering kingpins, providingexcellent maneuverability andreduced maintenance. Caster andcamber are preset.
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StructuresThe backbone of the Cat off-highway truck.
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Design. 775E bodies are designed tohelp you obtain the lowest cost-per-tonhauling solution in a variety of materialconditions and densities.
Sidewall and Floor Junctions. Are joinedby five-sided beams to resist impactloading and sustained hauling stresses.
Box-Section Beams. Offer increaseddurability in the floor, sidewalls, toprail, canopy corner and floor areas.
400 Brinell or HARDOX 400 Steel.Wear surfaces provide excellent wearresistance and are easily welded withoutpreheating procedures. 400 Brinell steelis used in the dual slope constructionbody and the flat floor lined body.The flat floor quarry body is madefrom HARDOX 400 steel.
Two-Stage Hoist Cylinders. Provide fastdump cycle times of 9.5 seconds forraise and 12.5 seconds for lower.
Standard Body. Comes exhaust heatedwith options including a full-timemuffler or exhaust diverter.
Custom Attachments. Including tailextensions, liner packages, sideboardsand other custom designs are offeredto help ensure rated payload.
(1) Dual-Slope Construction Body.Offers the lowest cost-per-ton optionin most construction applications.
Dual-Slope Body Performance. Efficientunder most haul road conditions, but thedual-slope body’s strength comes fromhigher levels of production in sites withrough haul roads and steeper grades.
Body Floor Construction. Uses an eightdegree “V” bottom for increased loadretention, a low center of gravity andreduced shock loading. It also aids incentering the load.
18 Degree Ducktail and 9 DegreeForward Body Slope. Retains the loadon grades up to 15 percent and higher.This design also helps maintain properload distribution.
(2) Flat Floor Quarry Body and Flat FloorLined Body. Offers uniform dumpinginto hoppers, crushers and feeders.
• Flat floor design improves wearcharacteristics of body tail
• 12 degree forward body floor slope
• Choice of 400 Brinell steel orHARDOX 400 steel
Truck Body OptionsCaterpillar builds a variety of rugged, durable bodies to perform in the toughest Quarry andConstruction applications.
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Operator StationControl ease and comfort maximize productivity.
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775E Operator Station. Rated highly byoperators with everything needed fortop performance located at theoperator’s fingertips.
1) Wraparound Dash Panel. Offers aneasy line-of-sight arrangement, usingLED backlit rocker switches.
2) Caterpillar Contour Series AirSuspension Seat. Standard and fullyadjustable, including an adjustableright-hand armrest.
3) Tilt-Telescoping Steering Wheel.With ergonomic grip improves comfortand control. Low effort steering systemand ergonomically designed retarderlever reduces operator fatigue. Alsoincludes an enhanced turn signal leverwith high beam actuator and electricwindshield wiper controls.
4) Transmission Console. Has LEDbacklit gear numbers and ergonomicshift knob.
5) Visibility. Exceptional all-aroundviewing area reduces fatigue andimproves productivity.
6) Integral, Sound-SuppressedROPS/FOPS Cab. Is resiliently mountedproviding a quiet, protected workenvironment. The cab is radio-readywith speakers, wiring harness, antennaand mounting bracket.
7) Front Brake Cut-Out Switch.Increases front brake component life.
8) Large Storage Compartment. 0.10 m3
(3.5 ft3) of storage space is locatedunder the trainer’s seat.
9) Trainer’s Seat. Includes back rest andretractable seat belt.
10) Caterpillar Electronic MonitoringSystem (CEMS). Provides critical data.The system features three separatedisplays:
• Four-gauge cluster with coolanttemperature, oil temperature, brakeair pressure, fuel level
• Tachometer, digital speedometer,actual gear indicator
• Message center module
11) Standard Heater and Optional AirConditioner. Includes four-speed fanand nine vents.
12) Foot Pedals. Ergonomicallydesigned for increased operatorcomfort.
13) Electric Power Window.For simplified operation.
14) Electrohydraulic Hoist Lever.Is fingertip actuated and provideslow impact body-down snubbing.
15) Truck Production ManagementSystem (TPMS) (Optional). Providespayload and cycle time data.
• Cat developed technology utilizesstrut pressure sensors and an on-board microprocessor to determinepayload weight
• Accurate under normal loading towithin ± five percent over a normaloperating shift
• Delivers consistent accuratepayloads and improves efficiencyby minimizing overloading andunderloading
- On-board computer stores1,400 cycles for further analysisof payload weight, cycle segmenttimes, cycle segment distancesand actual clock time and date ofeach cycle
- External lights signal loading tooloperator when payload is reached
- Internal troubleshooting and faultrecording for easier maintenance
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Cat QuickEvac™ System. Is an exclusiveCaterpillar on-board engine oilevacuation and prelubrication system.
Automated Engine Oil Change. A new,state-of-the-art, on-board systemevacuates engine sump in less thantwo minutes and allows for purge ofoil filters prior to removal, minimizingoil spills. It delivers new oil throughprimary filters for filtered protectionand ensures new filters are correctlyfilled following routine oil change.
Contamination Control. Environmentallyefficient, clean oil changes are ensuredsince engine sump is evacuated directlyinto PM trucks or waste containers withflush faced, quick disconnects for fastevacuation and fill. This eliminateshandling of waste oil, minimizeschances of oil spillage and enhancesContamination Control efforts byensuring complete filtration of newoil on engine refill.
Complete Engine Prelubrication.Provides engine oil pressure prior toengine cranking. Reduces engine drystart wear and risk of cold starts forincreased protection of key components.Also provides expanded low temperaturerange for 15W40 motor oils.
Improved Serviceability and MachineAvailability. Reduces time to completeengine service (changing engine oil,oil filters, fuel filter, air cleaner) by asmuch as 30 to 50 percent. Improves theability to schedule engine services atprescribed hours, allows for servicingduring normal working hours andintegrates easily with PM trucks tofurther reduce total cycle time ofengine service.
Machine Platform. Provides access toair tanks, brake master cylinder andmake-up tank; engine oil level; airfilters; steering hydraulic tanks; andbattery compartment.
Ground Level Battery DisconnectSwitch. Facilitates safe, convenientservicing and maintenance.
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Serviceability/Total Customer SupportPurchase of a Caterpillar machine includes a total commitment to customer support.
On-Board Diagnostics. With CEMS,provides the machine operator with athree-category warning system andquick access to stored diagnostic data.
Off-Board Diagnostics. With ET, allowsservice technicians access to storeddiagnostics data reducing downtimeand lowering operating costs. ET storesengine parameter information such astiming, throttle position and fuel flow.Transmission data is available through ETvia access to the Cat Data Link System.
Radial Seal Filters. Are easy to change,reducing air filter maintenance times.
Vertical, Spin-On Filters. Provide forsimplified servicing.
Quick Coupler Pressure Taps. Locatedin all hydraulic systems provide clear,quick pressure checks. S·O·SSM oilanalysis points make oil samplingquick, clean and easy.
Sealed Electrical Connectors. Lock outdust and moisture. Color-coded wiring isstandard for the entire Cat product line.
Machine Management Service.Cat dealers help manage equipmentinvestments with:
• Vehicle systems analysis to helpmatch the right machine to the job
• Preventative maintenance programs
• S·O·S oil analysis and technicalanalysis programs
• Repair option analysis
• Training for operators and mechanics
• TPMS data analysis
Parts Availability. The Caterpillarworldwide computer network locatesparts instantly to minimize machinedowntime.
Literature Support. Caterpillar manualsare easy to use and help provide the fullvalue of an equipment investment.
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Machine Configuration Options.Caterpillar offers a variety of machineconfiguration options to help meetcustomer needs.
Body Options. Include a full line ofstandard and custom designs based onspecific customer preference, materialdensity, loading tool and site conditions.
Tire Options. A full line of standard andcustom designs based on specificcustomer preference, material density,loading tool and site conditions.
Attachments. Give the customer optionsto tailor trucks for specific applicationrequirements, including:
• Truck Production ManagementSystem
• Automatic Retarder Control
• Traction Control System
• Custom product offerings
• Muffler/exhaust diverter
System Approach. The Caterpillarsystem approach means increasedefficiencies through common design.Haul trucks, loaders, excavators,tractors, engines for generator sets andpumps - all designed by Caterpillar -use common components, parts anddesign. Commonality reduces customerparts stock, improves parts availability,reduces training/maintenance andimproves diagnostics. This systemapproach adds up to lower cost-per-ton.Dealer support is available to addresscustomer needs regardless of thecomponent.
Caterpillar Product Analysis Team(PAT). Combined with Caterpillarsoftware programs can assist customerswith detailed, application evaluation.
Loader Match. Designed to work as partof a system, the 775E is best matched tothe following Caterpillar loaders:
• 990 Series II - four pass/match
• 992G - three pass/match
• 5130B - three to four pass/match
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Systems/ApplicationsThe 775E is designed for versatility.
17775E Off-Highway Truck specifications
Brakes
Brake surface - front 1395 cm2 216 in2
Brake surface - rear 61 265 cm2 9,496 in2
• Meet ISO 3450:1996 standards up to 108 400 kg (239,000 lb)gross operating weight.
Service Refill Capacities
Fuel Tank 700 L 185 galCooling System 151 L 40 galCrankcase 68 L 18 galDifferentials and final drives 155 L 41 galSteering tank 34 L 9 galSteering system (includes tank) 60 L 16 galBrake/hoist hydraulic tank 133 L 35 galBrake/hoist system 307 L 81 gal(includes tank)Torque converter/ 53 L 14 galtransmission sumpTorque converter/transmission 72 L 19 galsystem (includes sump)
Body Hoists
Pump flow - high idle 562 L/min 148 gal/minRelief valve setting - raise 17 225 kPa 2,750 psiRelief valve setting - lower 3445 kPa 500 psiBody raise time @ high idle 9.5 SecondsBody lower time float 12.5 Seconds
• Twin, two-stage hydraulic cylinders mounted inside the mainframe, double acting in second stage.
• Power raise in both stages and power down in second stage.
Suspension
Effective cylinder stroke - front 209 mm 8.2 inEffective cylinder stroke - rear 149 mm 5.9 inRear axle oscillation ±8°
Engine
Engine Model CAT 3412EGross Power 567 kW 760 hpFlywheel Power 544 kW 730 hpDIN 70020 756 PSMax. Torque 3447 N•m 2,542 lb ftTorque rise 33%Bore 137 mm 5.4 inStroke 152 mm 6 inDisplacement 27 L 1,649 in3
• Gross power meets ISO 3046-02 standards.
• Flywheel power meets ISO 9249, SAE J1349 JUN95 andEEC80/1269 standards.
• These engine ratings apply at 2,000 rpm when tested underthe specified standard conditions for the specified standard.
• Power rating conditions based on standard air conditions of25° C (77° F) and 99 kPa (29.32 in Hg) dry barometer, using35° C (95° F) API gravity fuel having an LHV of 42 780 kJ/kg(18,390 Btu/lb) when used at 30° C (86° F) (reference a fueldensity of 838.9 g?l [7.001 lb]gal]).
• Net power advertised is the power available at the flywheelwhen the engine is equipped with fan, air cleaner, mufflerand alternator.
• No derating required up to 2300 m (7,500 ft) altitude.
Transmission
Forward 1 10 kph 6.2 mphForward 2 13.9 kph 8.6 mphForward 3 18.7 kph 11.6 mphForward 4 25.1 kph 15.6 mphForward 5 34 kph 21.1 mphForward 6 45.9 kph 28.5 mphForward 7 65.8 kph 41.1 mphReverse 12 kph 7.5 mph
• Maximum travel speeds (standard 24.00-R35)
Final Drive
Differential ratio 3.64:1Planetary ratio 4.80:1Total reduction ratio 17.48:1
• Planetary, full-floating.
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Capacity - Flat Floor Lined - 100% fill factor
Struck 31.2 m3 40.8 yd3
Heaped 3:1 37.8 m3 49.4 yd3
Heaped 2:1 (SAE) 41.2 m3 53.9 yd3
Heaped 1:1 50.3 m3 65.8 yd3
Capacity - Dual-slope - 100% fill factor
Struck 32.7 m3 42.8 yd3
Heaped 3:1 38.9 m3 50.9 yd3
Heaped 2:1 (SAE) 41.2 m3 53.9 yd3
Heaped 1:1 43.5 m3 56.9 yd3
Weights
Gross Machine Weight 108 400 kg 239,000 lb
Operating Specifications
SAE (2:1) Capacity 41.5 m3 54.3 yd3
Nominal Payload Capacity 63.5 tonnes 70 tons
• Refer to the Caterpillar 10/10/20 Payload Policy.
Tires
• Tires Standard: 24.00-R35 (E4)
• Productive capabilities of the 775E truck are such that, undercertain job conditions, TKPH (TMPH) capabilities of standardor optional tires could be exceeded and, therefore, limitproduction.
• Caterpillar recommends the user evaluate all job conditionsand consult the tire manufacturer to make proper tireselection.
Approximate Weights - Quarry Flat Floor
Gross vehicle 108 400 kg 239,000 lbChassis 30 400 kg 67,000 lbBody 13 070 kg 28,810 lbFront axle - empty 44.3%Front axle - loaded 31.2%Rear axle - empty 55.7%Rear axle - loaded 68.8%
Approximate Weights - Flat Floor Lined
Gross vehicle 108 400 kg 239,000 lbChassis 30 400 kg 67,000 lbBody 14 350 kg 31,640 lbFront axle - empty 44.3%Front axle - loaded 31.2%Rear axle - empty 55.7%Rear axle - loaded 68.8%
Approximate Weights - Dual-slope
Gross vehicle 108 400 kg 239,000 lbChassis 30 400 kg 67,000 lbBody 10 800 kg 23,800 lbStandard Liner 4450 kg 9810 lbFront axle - empty 45.9%Front axle - loaded 31.6%Rear axle - empty 54.1%Rear axle - loaded 68.4%
Capacity - Quarry Flat Floor - 100% fill factor
Struck 31.4 m3 41.1 yd3
Heaped 3:1 38.3 m3 50.1 yd3
Heaped 2:1 (SAE) 41.5 m3 54.3 yd3
Heaped 1:1 50.9 m3 66.6 yd3
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Sound
• Sound Meets SAE J88 APR95
• This machine, in standard configuration, when measuredand operated per the prescribed modes has a 15 m soundpressure level of 84 dB(A) for the mode that gives thehighest level.
Steering
• Steering Meets SAE J1511 FEB94and ISO 5010:1992
• Turning diameter on front wheel track 21.7 m (72 ft 2 in).
• Machine clearance turning cycle 23.8 m (78 ft 9 in).
• Steering angle (left or right) 31 degrees.
• Separate hydraulic system prevents cross contamination.
• Steering wheel effort is low and cycle times are reducedwith variable-displacement, piston-type steering pump.
ROPS
• ROPS Meets SAE J1040 MAY94and ISO 3471:1994
• ROPS (Rollover Protection Structure) offered by Caterpillarfor the machine meets ROPS criteria SAE J1040 MAY94 andISO 3471:1994.
• When properly installed and maintained, the cab offered byCaterpillar when tested with doors and windows closed asper work cycle procedures specified in ANSI/SAE J1166MAY90, results in an operator sound exposure Leq(equivalent sound level) of 79 dB(A).
• This operator A-weighted sound exposure level can be usedin conjunction with OSHA, MSHA and EEC OccupationalNoise Exposure Criteria.
775E Off-Highway Truck specifications
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DimensionsAll dimensions are approximate.
Quarry Flat Floor Flat Floor Lined Dual-slopekg lb kg lb kg lb
Gross vehicle weight 108 400 239,000 108 400 239,000 108 400 239,000
Chassis 30 400 67,000 30 400 67,000 30 400 67,000
Body 13 070 28,810 14 350 31,640 10 800 23,800
Standard liner 4450 9810
Weight Distribution:
Empty Loaded Empty Loaded Empty LoadedFront axle 44.3% 31.2% 44.3% 31.2% 45.9% 31.6%
Rear axle 55.7% 68.8% 55.7% 68.8% 54.1% 68.4%
Weights(Approximate)
1 8625 mm 28' 4" 8625 mm 28' 4" 8552 mm 28' 1"2 1904 mm 6' 3" 1896 mm 6' 3" 1967 mm 6' 5"3 6537 mm 21' 5" 6513 mm 21' 5" 6526 mm 21' 5"4 8796 mm 28' 11" 8796 mm 28' 11" 8739 mm 28' 8"5 3912 mm 12' 10" 3912 mm 12' 10" 3927 mm 12' 11"6 660 mm 2' 2" 660 mm 2' 2" 673 mm 2' 3"7 550 mm 1' 9" 550 mm 1' 9" 563 mm 1' 10"8 2872 mm 9' 5" 2872 mm 9' 5" 2779 mm 9' 1"9 4410 mm 14' 6" 4410 mm 14' 6" 4424 mm 14' 6"10 4335 mm 14' 2" 4335 mm 14' 2" 4350 mm 14' 3"11 3990 mm 13' 1" 3974 mm 13' 1" 3988 mm 13' 1"
Quarry Flat Floor Flat Floor Lined Dual-slope
* Operating width to r.h. mirror
4457 mm(14' 8")
4732 mm(15' 6")
4040 mm(13' 5")
3275 mm(10' 9")
*5076 mm(16' 8")
680 mm(2' 3")empty
650 mm(2' 2")empty
2927 mm(9' 7")
3966 mm(13' 0")
4504 mm(14' 9")
4252 mm(14')
4242 mm(13' 11")
9empty
10loaded
11480 mm
(19")
3938 mm(12' 11")empty
3838 mm(12' 7")loaded
9209 mm(30' 3")
4191 mm(13' 9")
12°
1
2
5empty
6empty
7loaded
43
8
60°
21775E Off-Highway Truck specifications
0 40 80 120 160 200 240 280 320 lb x 1000
0 20 40 60 80 100 120 140 kg x 1000
0 10 20 30 40 50 60 70 80 km/h
0 5 10 15 20 25 30 35 40 45 50 mph
Speed
Eff
ecti
ve G
rad
e (
Favo
rab
le)
Gross Weight
Continuous Grade Length
10%
5%
15%
20%
25%30%
5th Gear
4th Gear
3rd Gear
2nd Gear
1st Gear
6th Gear7th Gear
Empty WeightGross Machine Weight108 400 kg (239,000 lb)
The brake performance retarding curves shown in this sectionare for general guidance only. As each site has many uniqueenvironmental and operating conditions that will impactretarding performance, actual site performance could varyconsiderably from predicted performance. Users should usethe retarding speed (gear) recommendations from these tablesas a starting point for determining retarding performance andthen adjust retarding speeds to their site-specific conditions.In adjusting retarding performance to continuously changingenvironmental and site-specific conditions, users need toexercise care to maintain brake cooling and machinecontrollability at all times.
To determine brake retarding performance from retarding tables:
1. Determine the total distance of all downhill grades combinedfor a given haul profile. This total distance determines theappropriate retarding table (continuous or one of the gradedistance tables) applicable to your haul profile.
2. Read from the appropriate gross weight down to percentfavorable effective grade. (For these retarding charts,effective grade equals the maximum grade of all downhillhaul segments minus rolling resistance – do not use anaverage grade value.)
3. From the intersection of the gross weight and effective gradeline point, read horizontally to the appropriate gear curve.If the horizontal line intersects two gear curves, choose thefirst gear curve that the horizontal line intersects (readingfrom right to left) and read the retarding speed performanceimmediately below this point. If the intersection point fallson a vertical line between two gears, choose the lowest of thetwo gears to allow for higher engine rpm thus maximizingbrake cooling capability.
4. Adjust recommended retarding speeds to site specific(environmental and operational) conditions. If the brakesystem overheats or specific site conditions dictate (tightturns, short steep grades, manual braking, etc.), reduceground speed to allow the transmission to shift to the nextlower speed range.
Retarding Performance
22 775E Off-Highway Truck specifications
Retarding Performance (continued)
0 40 80 120 160 200 240 280 320 lb x 1000
0 20 40 60 80 100 120 140 kg x 1000
0 10 20 30 40 50 60 70 80 km/h
0 5 10 15 20 25 30 35 40 45 50 mph
Speed
Eff
ecti
ve
Gra
de
(F
av
ora
ble
)
Gross Weight
Grade Distance - 450 m (1500 ft)
10%
5%
15%
20%
25%30%
4th Gear
3rd Gear
2nd Gear
1st Gear
6th Gear
5th Gear
7th Gear
0 40 80 120 160 200 240 280 320 lb x 1000
0 20 40 60 80 100 120 140 kg x 1000
0 10 20 30 40 50 60 70 80 km/h
0 5 10 15 20 25 30 35 40 45 50 mph
Speed
Eff
ecti
ve
Gra
de
(F
av
ora
ble
)
Gross Weight
Grade Distance - 600 m (2000 ft)
10%
5%
15%
20%
25%30%
5th Gear
4th Gear
3rd Gear
2nd Gear
1st Gear
6th Gear7th Gear
23775E Off-Highway Truck specifications
0 40 80 120 160 200 240 280 320 lb x 1000
0 20 40 60 80 100 120 140 kg x 1000
0 10 20 30 40 50 60 70 80 km/h
0 5 10 15 20 25 30 35 40 45 50 mph
Speed
Eff
ecti
ve
Gra
de
(F
av
ora
ble
)
Gross Weight
Grade Distance - 900 m (3000 ft)
10%
5%
15%
20%
25%30%
5th Gear
4th Gear
3rd Gear
2nd Gear
1st Gear
6th Gear7th Gear
0 40 12080 160 200 240 280 320 lb x 1000
0 20 40 60 80 100 120 140 kg x 1000
0 10 20 30 40 50 60 70 80 km/h
0 5 10 15 20 25 30 35 40 45 50 mph
Speed
Eff
ecti
ve
Gra
de
(F
av
ora
ble
)
Gross Weight
Grade Distance — 1500 m (5000 ft)
10%
5%
15%
20%
25%30%
5th Gear
4th Gear
3rd Gear
2nd Gear
1st Gear
6th Gear7th Gear
24 775E Off-Highway Truck specifications
Gradeability/Speed/Rimpull
To determine gradeability performance,read from gross weight down to thepercent of total resistance. Totalresistance equals actual percent gradeplus one percent for each 10 kg/tonne(20 lb/ton) of rolling resistance. Fromthis weight-resistance point, readhorizontally to the curve with thehighest obtainable gear, then down tomaximum speed. Usable rimpull willdepend upon traction available andweight on drive wheels.
0 5 10 15 20 25 30 35 40 45 500
20
40
60
80
100
Rim
pu
ll
KG x1000
LB x1000
km/h
mph
KG x 1000
5th Gear
2nd Gear
6th Gear
1st Gear
4th Gear
3rd Gear
LE
E
FF
EC
TIV
E G
RA
DE
(F
avo
rab
le)
Gross Weight
LB x 1000
25%
5%
10%
15%
20%
30%
SPEED
0 20 40 60 80 100 120 140 160 180 200 220 240
Direct Drive
Torque Converter
Gross Machine Weight - 108 400 kg (239,000 lb)
Empty Weight
1st Gear
7th Gear
0 10 20 30 40 50 60 70 80 90 100 110
0 10 20 30 40 50 60 70 80
0
10
20
30
40 Drive
25775E Off-Highway Truck specifications
Standard EquipmentStandard equipment may vary. Consult a Caterpillar Dealer for specifics.
Heat/defroster 11 070 kCal. (43,930 Btu)Hoist lever, finger tip-actuatedLighting system:
Back up lightDome/courtesy lightHazard and directional signals, LEDHeadlights, Halogen, with dimmerStop/tail lights, LED
Mirrors, right and leftPower port, 24-voltPrecleanerQuickEvac™ System with PrelubeReservoirs (separate):
Brake/hoistSteeringTransmission/torque converter
RetarderRock ejectorsSeat belts, retractableSeat, passengerService platform, bolt-onStarting, electricSteering, automatic supplemental, electricSteering wheel, padded, tilt, telescopicTires, 24.00-35, radialTow hooks, frontTow pin, rearTransmission, electronically controlled automatic power shift
with downshift/reverse shift inhibitor, neutralizer duringdumping, neutral start switch, engine overspeed protection,directional shift management, programmable top gear,body-up shift limiter, economy shift mode and controlthrottle shifting
Vandalism protection locksWindow, electronic power (operator)Windshield wipers and washer, electric intermittent
Air horn, electricAir line dryerAlternator, 50-ampAuxiliary jump start receptacleBack up alarmBattery disconnect switch, ground levelBody mounting groupBrakes:
Caliper disc (front)Oil-disc (rear)ParkingSecondary
Brake (front) disconnect switchBrake heat exchangerBrake release motor for towingCab, ROPS:
Caterpillar Contour Series air suspension seatCoat hookCupholderInsulated and sound-suppressedRadio readyStorage compartmentSun visorTinted glass
Crankcase guardDiagnostic connection port, 24-voltDrive line guardElectrical system, 24-voltElectronic Monitoring SystemFilters, spin-onGauges:
Actual Gear IndicatorAir pressureBrake oil temperatureCoolant temperatureFuel gaugeHour meter, electricOdometerSpeedometerTachometer
775E Off-Highway Truck specifications26
Optional EquipmentWith approximate changes in operating weights.Optional equipment may vary. Consult a Caterpillar Dealer for specifics.
kg lb
Air conditioning 90 198
Automatic lube system 60 135
Automatic Retarder Control (ARC) 6 13
Clustered grease fittings 20 50
Engine coolant heater - 120-volt 3 7
Engine coolant heater - 240-volt 4 9
Ether starting aid 5 10
Exhaust diverter/muffler 93 205
Fuel heater kit 5 12
kg lb
Integrated brake control 56 123
Muffler 116 256
Spare rim 432 mm (17") 390 860
Traction Control System (TCS) 50 110
Truck Production ManagementSystem (TPMS) 46 100
Wheel chocks 25 50
Wiggins fast fuel change 2 5
Wiggins high-speed oil change 1 2
Quarry Flat Floor Dual Slope Flat Floor Linedkg lb kg lb kg lb
Empty Chassis Weight 30 400 67,000 30 400 67,000 30 400 67,000
Fuel Correction (90% × 185 gal × 7.1 lbs/gal) 530 1,170 530 1,170 530 1,170
Optional Attachments WeightDebris Allowance (4% of chassis) +1210 +2680 +1210 +2680 +1210 +2680
Chassis Weight 32 140 70,850 32 140 70,850 32 140 70,850
Body Weight 13 070 28,810 10 880 23,800 14 350 31,640
Body Attachments Weight +0 +0 +4450 +9810 +0 +0
Total Empty Operating Weight 45 210 99,660 47 470 104,460 46 490 102,490
Target Payload +63 190 +139,340 +60 930 +134,540 +61 910 +136,510
Gross Machine Operating Weight 108 400 239,000 108 400 239,000 108 400 239,000
*Note: Refer to Caterpillar’s 10/10/20 Payload Policy for Quarry and Construction Trucks.
Weight/Payload Calculation*(Example)
775E Off-Highway Truck specifications 27
Notes
R
For more complete information on Cat products, dealer services, and industry solutions, visit uson the web at www.CAT.com
© 2001 CaterpillarPrinted in U.S.A.
Materials and specifications are subject to change without notice.Featured machines in photos may include additional equipment.
See your Caterpillar dealer for available options.
AEHQ5457 (11-01)
Replaces AEHQ5139-02
775E Off-Highway Truck