This document provides information about electrical system components for Caterpillar 525C, 535C, and 545C wheel skidder machines. It includes two tables: one listing components and their locations in schematics and on machines, and another listing electrical connectors and their schematic and machine locations. The tables provide key details about components and connectors to help with electrical system troubleshooting and repair.
This document provides a schematic and component location guide for the hydraulic system of 525C, 535C, and 545C wheel skidders. It includes:
- A diagram of the hydraulic system schematic with labeled components and lines.
- A table listing machine components with their part numbers and locations in the schematic and on the machine.
- Information on tap locations for measuring pressure and sampling fluid.
- Reference pages on fluid power and electrical symbols.
This schematic shows the hydraulic system for a 140M or 160M motor grader. It displays the components, lines, and connections that make up the system. Lines are color coded based on their function. Component callouts provide identification numbers and locations to reference in the service manual. Taps are labeled for measuring pressure or sampling fluid at key points in the system.
This document provides electrical component information for an excavator, including:
- Component and connector location charts detailing where parts are located on schematics and the machine.
- CID/MID/FMI codes for diagnosing faults in the engine/pump controller, engine controller, and tool controller modules.
- Event codes and their meanings for the engine/pump and engine controllers.
- Specifications for related manuals and an off-machine switch.
This document provides a schematic and additional information for the hydraulic system of a 320D and 320D L excavator. The schematic uses lines, symbols and callouts to show the layout and connections between major hydraulic components. These include pumps, motors, cylinders, valves, filters and more. Accompanying text provides additional details on component locations, fluid pressures and flows, and other information to understand the system.
This document provides information on hydraulic system components and symbols for Caterpillar 416E, 422E, and 428E backhoe loaders. It includes a table listing hydraulic components, diagrams of the implement and steering pump and hydraulic circuits, and pages describing the loader and backhoe valves and hydraulic symbols.
This document provides a 3-page schematic for the hydraulic system of a 16M motor grader. It includes a component location table with over 40 components listed along with their part numbers and locations. The schematic itself shows the hydraulic circuit layout and color codes the different circuits. Callouts on the schematic reference components from the table by name and identification number.
This document provides a schematic and component location guide for the electrical system of a 777D HHA Off Highway Truck. It lists over 150 components in the electrical system along with their schematic symbols, machine locations on the truck, and wire descriptions/numbers. The components include sensors, switches, solenoids, lamps, motors, and more. They are organized into sections for power distribution, control, ground, and monitoring circuits. Diagrams provide more detail on the machine harness connector and wire descriptions.
This document provides a schematic and component location guide for the electrical system of a 950H and 962H wheel loader. It includes 228 numbered components across two volumes - one for cab wiring and one for chassis wiring. The summary lists the component types and their schematic and machine locations to help technicians quickly navigate and service the electrical system.
This document provides a schematic and component location guide for the hydraulic system of 525C, 535C, and 545C wheel skidders. It includes:
- A diagram of the hydraulic system schematic with labeled components and lines.
- A table listing machine components with their part numbers and locations in the schematic and on the machine.
- Information on tap locations for measuring pressure and sampling fluid.
- Reference pages on fluid power and electrical symbols.
This schematic shows the hydraulic system for a 140M or 160M motor grader. It displays the components, lines, and connections that make up the system. Lines are color coded based on their function. Component callouts provide identification numbers and locations to reference in the service manual. Taps are labeled for measuring pressure or sampling fluid at key points in the system.
This document provides electrical component information for an excavator, including:
- Component and connector location charts detailing where parts are located on schematics and the machine.
- CID/MID/FMI codes for diagnosing faults in the engine/pump controller, engine controller, and tool controller modules.
- Event codes and their meanings for the engine/pump and engine controllers.
- Specifications for related manuals and an off-machine switch.
This document provides a schematic and additional information for the hydraulic system of a 320D and 320D L excavator. The schematic uses lines, symbols and callouts to show the layout and connections between major hydraulic components. These include pumps, motors, cylinders, valves, filters and more. Accompanying text provides additional details on component locations, fluid pressures and flows, and other information to understand the system.
This document provides information on hydraulic system components and symbols for Caterpillar 416E, 422E, and 428E backhoe loaders. It includes a table listing hydraulic components, diagrams of the implement and steering pump and hydraulic circuits, and pages describing the loader and backhoe valves and hydraulic symbols.
This document provides a 3-page schematic for the hydraulic system of a 16M motor grader. It includes a component location table with over 40 components listed along with their part numbers and locations. The schematic itself shows the hydraulic circuit layout and color codes the different circuits. Callouts on the schematic reference components from the table by name and identification number.
This document provides a schematic and component location guide for the electrical system of a 777D HHA Off Highway Truck. It lists over 150 components in the electrical system along with their schematic symbols, machine locations on the truck, and wire descriptions/numbers. The components include sensors, switches, solenoids, lamps, motors, and more. They are organized into sections for power distribution, control, ground, and monitoring circuits. Diagrams provide more detail on the machine harness connector and wire descriptions.
This document provides a schematic and component location guide for the electrical system of a 950H and 962H wheel loader. It includes 228 numbered components across two volumes - one for cab wiring and one for chassis wiring. The summary lists the component types and their schematic and machine locations to help technicians quickly navigate and service the electrical system.
This document provides connector and component location information for the electrical system of 773E and 775E off-highway trucks. It includes a chart listing connector locations and numbers, component specifications including switches and senders, and schematic symbols used in wiring diagrams.
This document provides a summary of key connectors and their locations for the engine and chassis of a machine. It lists connector numbers from the schematic along with their corresponding machine locations. This allows technicians to easily identify connectors in the field based on the schematic. The chart includes over 30 different connectors ranging from the battery connections to sensors and controls throughout the engine and chassis systems.
This document provides a schematic for the hydraulic system of a M325D material handler. It includes a legend that identifies the line patterns used for different hydraulic circuits and callouts. A table lists component locations by number and tap locations for pressure sampling by letter. Hydraulic circuit color descriptions are also provided to identify different systems such as the idle pump output, drive pump output, and steering control circuit.
Ford scort 2000 cc 1998 se alldata informationWilliamserazo
This document provides a diagram and wiring information for the engine controls on a 1998 Ford Escort with a 2.0L SOHC engine. It includes a 3-page wiring diagram identifying various sensors, solenoids, and other components involved in powertrain management and their wire colors. Location information is also provided for many components listed on the diagram.
This document contains a list of various electrical system components for a vehicle. It includes parts like the starter motor, batteries, alternator, fuses, relays, switches, and wiring diagrams. The list appears to describe the basic electrical circuits involved in starting the vehicle, running accessories, and charging the battery. Diagrams show the wiring connections between the battery, starter, ignition switch, and other core components.
This document provides a summary of the electrical system for a 120H and 135H motor grader, including:
- A schematic showing the location of electrical components and connectors.
- Tables listing electrical components with their schematic and machine locations.
- Diagnostic codes and their descriptions to help troubleshoot issues.
- Specifications for electrical components like senders, resistors, solenoids, and switches.
- Charts identifying wire colors and their associated functions in the electrical system.
This document provides information on the hydraulic system for a 938G Series II Wheel Loader and IT38G Series II Integrated Toolcarrier, including:
1) A schematic diagram of the hydraulic system with labeled components such as pumps, valves, cylinders and reservoirs.
2) Tables listing the components of the hydraulic system with their schematic location and description.
3) Charts showing the location of hydraulic pressure taps on the machine and their tap descriptions.
The document contains hydraulic symbols, component diagrams and identifies optional configurations for the machine's hydraulic system.
This document provides information on electrical system components and symbols for a 330D and 336D excavator. It includes:
- A table listing connector and component locations by schematic and machine location.
- Pages of electrical schematic symbols and their meanings.
- Standard wire and harness symbols used in schematics.
- Component callout formats and an example callout for a control valve.
- Standard color abbreviations for electrical wires and cables.
The document is the first volume of a 2 volume manual on the engine, chassis and electrical systems of the excavator models.
This document provides symbols, definitions and location information for electrical schematic components and harness connectors for an excavator. It includes a list of common electrical components with their symbols and brief descriptions as well as charts that show the schematic and physical locations of connectors and individual machine components on the excavator. The purpose is to provide information to aid in understanding electrical system diagrams and locating components in the field.
The document provides specifications for various off machine switch components including part numbers, functions, actuation and deactuation parameters, and contact positions. It also includes tables listing component identifiers, module identifiers, failure mode identifiers, and electrical schematic symbols and their definitions.
The document provides information about an interactive schematic for a machine:
- The Bookmarks panel allows quick navigation between points of interest in the schematic and machine views.
- Clickable blue underlined text are hyperlinks that can be used to navigate.
- A button in the top right of machine views makes all callouts visible.
This document provides a schematic for the hydraulic system of Caterpillar skid steer, multi-terrain, and compact track loaders. It includes a component table that lists parts, their location on the machine, and location on the schematic. It also includes a tap table that lists hydraulic pressure and sampling points. The schematic shows the hydraulic components and lines with labels, numbers, and colors to indicate circuits. Callouts provide numbers, names, and part numbers for the components.
The document is a table listing vehicle makes, models, and years along with the engine/emission systems, connector types, and compatibility with diagnostic tools for those vehicles. It includes listings for Alfa Romeo, Audi, and other vehicle brands. The table provides information on gas and diesel engines, ABS, airbag, body control, and climate control systems. It indicates the connector location, connector type, and whether the listed system is supported by the ManualTec diagnostic tool software.
This document provides a list of component identifiers, module identifiers, and failure mode identifiers for the electrical system of a 966F Series II Wheel Loader. It includes over 100 component identifiers for sensors, switches, and solenoids located throughout the machine. It also lists the module identifiers for the computerized monitoring system and electronic transmission control. Finally, it defines 16 failure mode identifiers and their descriptions that are used for diagnosing issues.
OBD2 Powertrain Code List (P0200- P0299)Tim Miller
Check the OBD2 code list (P0200 - P0299) to find out what the codes mean on your car.
>> NEXT STEP: https://www.obdadvisor.com/codes/
Visit our site, and type the code in the search box. You will get more information about the code including causes, symptoms, fixes, and repair costs.
Reading and clearing the codes will become easier with a scan tool.
>> READ MORE: https://www.obdadvisor.com/best-obd2-scanner-review/
This article shows a helpful in-depth review of the 9 best OBD2 scan tools from me, an experienced auto mechanic who has used and tested all of them.
Full OBD2 Chassis Trouble Code List (CXXXX)Tim Miller
Check the OBD2 code list (C0001 - C2000) to find out what the codes mean on your car.
>> NEXT STEP: https://www.obdadvisor.com/codes/
Visit our site, and type the code in the search box. You will get more information about the code including causes, symptoms, fixes, and repair costs.
Reading and clearing the codes will become easier with a scan tool.
>> READ MORE: https://www.obdadvisor.com/best-obd2-scanner-review/
This article shows a helpful in-depth review of the 9 best OBD2 scan tools from me, an experienced auto mechanic who has used and tested all of them.
New Holland TN60VA TN75VA TN95VA ManualPelicancanupi
This document contains repair manual contents for New Holland TN60VA, TN75VA, and TN95VA tractors. It includes sections on the engine, transmission, clutch, front axle, and other systems. Each section breaks down chapters and subsections in a multi-level contents listing format.
OBD2 Powertrain Code List (P0700- P0799)Tim Miller
Check the OBD2 code list (P0700 - P0799) to find out what the codes mean on your car.
>> NEXT STEP: https://www.obdadvisor.com/codes/
Visit our site, and type the code in the search box. You will get more information about the code including causes, symptoms, fixes, and repair costs.
Reading and clearing the codes will become easier with a scan tool.
>> READ MORE: https://www.obdadvisor.com/best-obd2-scanner-review/
This article shows a helpful in-depth review of the 9 best OBD2 scan tools from me, an experienced auto mechanic who has used and tested all of them.
OBD2 Powertrain Code List (P2100- P2199)Tim Miller
This document lists OBD-II diagnostic trouble codes P2100 through P2199, which relate to issues with the throttle, throttle position sensors, fuel injectors, exhaust systems, cooling systems, and oxygen sensors on vehicles. The codes describe specific problems such as an open circuit in the throttle actuator control motor or a low voltage condition in the fuel injector group A supply.
This document provides service codes and diagnostic information for an S250 Bobcat loader. It includes a list of 99 diagnostic codes with descriptions of what each code indicates, such as issues with sensors, solenoids, temperatures, pressures, and electrical components. It also provides information on setting up and using passwords and making selections on the deluxe instrument panel display to monitor vital machine statistics, set clocks and languages, and reset job hours.
This document provides schematics and location information for electrical components on a 416E backhoe loader. It includes:
- Component location charts showing the schematic location and machine location for electrical components in the cab and engine/chassis.
- Connector location charts showing the schematic location of connectors between harnesses.
- Tables with Component Identifiers (CIDs), Module Identifiers (MIDs), and Fault codes that may be used for troubleshooting.
This document provides connector and component location information for the electrical schematics of a wheel loader. It is divided into three volumes: the cab, canopy, and chassis/engine. Each volume includes a chart that lists components, their location on the schematic, and their physical location on the machine. Additional charts provide the location of connectors on the schematics and descriptions of common error codes.
This document provides connector and component location information for the electrical system of 773E and 775E off-highway trucks. It includes a chart listing connector locations and numbers, component specifications including switches and senders, and schematic symbols used in wiring diagrams.
This document provides a summary of key connectors and their locations for the engine and chassis of a machine. It lists connector numbers from the schematic along with their corresponding machine locations. This allows technicians to easily identify connectors in the field based on the schematic. The chart includes over 30 different connectors ranging from the battery connections to sensors and controls throughout the engine and chassis systems.
This document provides a schematic for the hydraulic system of a M325D material handler. It includes a legend that identifies the line patterns used for different hydraulic circuits and callouts. A table lists component locations by number and tap locations for pressure sampling by letter. Hydraulic circuit color descriptions are also provided to identify different systems such as the idle pump output, drive pump output, and steering control circuit.
Ford scort 2000 cc 1998 se alldata informationWilliamserazo
This document provides a diagram and wiring information for the engine controls on a 1998 Ford Escort with a 2.0L SOHC engine. It includes a 3-page wiring diagram identifying various sensors, solenoids, and other components involved in powertrain management and their wire colors. Location information is also provided for many components listed on the diagram.
This document contains a list of various electrical system components for a vehicle. It includes parts like the starter motor, batteries, alternator, fuses, relays, switches, and wiring diagrams. The list appears to describe the basic electrical circuits involved in starting the vehicle, running accessories, and charging the battery. Diagrams show the wiring connections between the battery, starter, ignition switch, and other core components.
This document provides a summary of the electrical system for a 120H and 135H motor grader, including:
- A schematic showing the location of electrical components and connectors.
- Tables listing electrical components with their schematic and machine locations.
- Diagnostic codes and their descriptions to help troubleshoot issues.
- Specifications for electrical components like senders, resistors, solenoids, and switches.
- Charts identifying wire colors and their associated functions in the electrical system.
This document provides information on the hydraulic system for a 938G Series II Wheel Loader and IT38G Series II Integrated Toolcarrier, including:
1) A schematic diagram of the hydraulic system with labeled components such as pumps, valves, cylinders and reservoirs.
2) Tables listing the components of the hydraulic system with their schematic location and description.
3) Charts showing the location of hydraulic pressure taps on the machine and their tap descriptions.
The document contains hydraulic symbols, component diagrams and identifies optional configurations for the machine's hydraulic system.
This document provides information on electrical system components and symbols for a 330D and 336D excavator. It includes:
- A table listing connector and component locations by schematic and machine location.
- Pages of electrical schematic symbols and their meanings.
- Standard wire and harness symbols used in schematics.
- Component callout formats and an example callout for a control valve.
- Standard color abbreviations for electrical wires and cables.
The document is the first volume of a 2 volume manual on the engine, chassis and electrical systems of the excavator models.
This document provides symbols, definitions and location information for electrical schematic components and harness connectors for an excavator. It includes a list of common electrical components with their symbols and brief descriptions as well as charts that show the schematic and physical locations of connectors and individual machine components on the excavator. The purpose is to provide information to aid in understanding electrical system diagrams and locating components in the field.
The document provides specifications for various off machine switch components including part numbers, functions, actuation and deactuation parameters, and contact positions. It also includes tables listing component identifiers, module identifiers, failure mode identifiers, and electrical schematic symbols and their definitions.
The document provides information about an interactive schematic for a machine:
- The Bookmarks panel allows quick navigation between points of interest in the schematic and machine views.
- Clickable blue underlined text are hyperlinks that can be used to navigate.
- A button in the top right of machine views makes all callouts visible.
This document provides a schematic for the hydraulic system of Caterpillar skid steer, multi-terrain, and compact track loaders. It includes a component table that lists parts, their location on the machine, and location on the schematic. It also includes a tap table that lists hydraulic pressure and sampling points. The schematic shows the hydraulic components and lines with labels, numbers, and colors to indicate circuits. Callouts provide numbers, names, and part numbers for the components.
The document is a table listing vehicle makes, models, and years along with the engine/emission systems, connector types, and compatibility with diagnostic tools for those vehicles. It includes listings for Alfa Romeo, Audi, and other vehicle brands. The table provides information on gas and diesel engines, ABS, airbag, body control, and climate control systems. It indicates the connector location, connector type, and whether the listed system is supported by the ManualTec diagnostic tool software.
This document provides a list of component identifiers, module identifiers, and failure mode identifiers for the electrical system of a 966F Series II Wheel Loader. It includes over 100 component identifiers for sensors, switches, and solenoids located throughout the machine. It also lists the module identifiers for the computerized monitoring system and electronic transmission control. Finally, it defines 16 failure mode identifiers and their descriptions that are used for diagnosing issues.
OBD2 Powertrain Code List (P0200- P0299)Tim Miller
Check the OBD2 code list (P0200 - P0299) to find out what the codes mean on your car.
>> NEXT STEP: https://www.obdadvisor.com/codes/
Visit our site, and type the code in the search box. You will get more information about the code including causes, symptoms, fixes, and repair costs.
Reading and clearing the codes will become easier with a scan tool.
>> READ MORE: https://www.obdadvisor.com/best-obd2-scanner-review/
This article shows a helpful in-depth review of the 9 best OBD2 scan tools from me, an experienced auto mechanic who has used and tested all of them.
Full OBD2 Chassis Trouble Code List (CXXXX)Tim Miller
Check the OBD2 code list (C0001 - C2000) to find out what the codes mean on your car.
>> NEXT STEP: https://www.obdadvisor.com/codes/
Visit our site, and type the code in the search box. You will get more information about the code including causes, symptoms, fixes, and repair costs.
Reading and clearing the codes will become easier with a scan tool.
>> READ MORE: https://www.obdadvisor.com/best-obd2-scanner-review/
This article shows a helpful in-depth review of the 9 best OBD2 scan tools from me, an experienced auto mechanic who has used and tested all of them.
New Holland TN60VA TN75VA TN95VA ManualPelicancanupi
This document contains repair manual contents for New Holland TN60VA, TN75VA, and TN95VA tractors. It includes sections on the engine, transmission, clutch, front axle, and other systems. Each section breaks down chapters and subsections in a multi-level contents listing format.
OBD2 Powertrain Code List (P0700- P0799)Tim Miller
Check the OBD2 code list (P0700 - P0799) to find out what the codes mean on your car.
>> NEXT STEP: https://www.obdadvisor.com/codes/
Visit our site, and type the code in the search box. You will get more information about the code including causes, symptoms, fixes, and repair costs.
Reading and clearing the codes will become easier with a scan tool.
>> READ MORE: https://www.obdadvisor.com/best-obd2-scanner-review/
This article shows a helpful in-depth review of the 9 best OBD2 scan tools from me, an experienced auto mechanic who has used and tested all of them.
OBD2 Powertrain Code List (P2100- P2199)Tim Miller
This document lists OBD-II diagnostic trouble codes P2100 through P2199, which relate to issues with the throttle, throttle position sensors, fuel injectors, exhaust systems, cooling systems, and oxygen sensors on vehicles. The codes describe specific problems such as an open circuit in the throttle actuator control motor or a low voltage condition in the fuel injector group A supply.
This document provides service codes and diagnostic information for an S250 Bobcat loader. It includes a list of 99 diagnostic codes with descriptions of what each code indicates, such as issues with sensors, solenoids, temperatures, pressures, and electrical components. It also provides information on setting up and using passwords and making selections on the deluxe instrument panel display to monitor vital machine statistics, set clocks and languages, and reset job hours.
This document provides schematics and location information for electrical components on a 416E backhoe loader. It includes:
- Component location charts showing the schematic location and machine location for electrical components in the cab and engine/chassis.
- Connector location charts showing the schematic location of connectors between harnesses.
- Tables with Component Identifiers (CIDs), Module Identifiers (MIDs), and Fault codes that may be used for troubleshooting.
This document provides connector and component location information for the electrical schematics of a wheel loader. It is divided into three volumes: the cab, canopy, and chassis/engine. Each volume includes a chart that lists components, their location on the schematic, and their physical location on the machine. Additional charts provide the location of connectors on the schematics and descriptions of common error codes.
This document provides an interactive schematic for a backhoe loader. It contains over 200 labeled components across three volumes covering the cab, chassis, engine, and rear systems. Users can click on underlined blue text to navigate between schematic and machine views of components. Bookmarks allow quick navigation to points of interest in the document.
This document provides symbols, definitions, and specifications for electrical schematic components and wiring for a particular excavator model. It includes a key of standard harness and wire symbols as well as charts specifying component locations, connector locations, switch specifications, resistor/sender/solenoid specifications, and wire descriptions including number, color, and function. The purpose is to define and identify the various electrical system parts to aid in troubleshooting and repair work.
This document provides a schematic and definitions for the electrical and hydraulic systems of a machine. It includes tables that list the location of components and connectors in the schematic and on the machine. Blue, underlined text are hyperlinks that can be used to navigate within the document. The document is best viewed at a screen resolution of 1024x768.
This document provides locations for electrical components and connectors on a motor grader. It lists over 150 components with their schematic symbol location and corresponding machine location. It also lists 24 connectors with their schematic locations. The document is intended to help technicians locate components and connectors based on schematic diagrams.
DIAGRAMA ELECTRICO INTERACTIVO CAT 336DL Uenr26380001juanManuel1001
This document provides an interactive schematic for a machine. It includes:
- Symbols and definitions for electrical, hydraulic, and other components
- Instructions for setting the screen resolution for best viewing
- Bookmarks panel and hyperlinks to navigate schematic and machine views
- Buttons to zoom, fit to page, and find all callouts
The document provides a schematic and component locations for the hydraulic system of a 312D2 and 313D2 excavator. It includes:
- A schematic diagram labeling hydraulic components and lines with callouts and color coding.
- Tables listing the components, their part numbers, locations on the machine and in the schematic.
- Views showing the physical locations of components on the excavator.
- Descriptions of fluid power and electrical symbols used in the schematic.
This document provides an interactive schematic for a construction machine. It includes a table of contents that allows the user to navigate between different machine views. Blue, underlined text throughout the document acts as hyperlinks to different sections. Buttons at the top allow the user to view all callouts or zoom in/out of schematic views.
This document provides schematics and component information for the hydraulic system on a 988G wheel loader. It includes:
- A schematic of the implement and axle oil cooler system with labeled components, lines, and taps.
- A list of the components shown on the schematic with part numbers and machine/schematic locations.
- Fluid power and electrical symbols used in the schematic.
- A second schematic of the steering and brake system with the same details.
This document contains schematics for the hydraulic system of a motor grader. Volume 1 shows the standard implement control valve configuration and includes components like accumulators, cylinders, pumps, tanks and valves. Volume 2 shows alternate implement control valve configurations and additional components like blade tip cylinders and plow/dozer cylinders. Color codes and line patterns are provided to identify different hydraulic circuits on the schematics.
DIAGRAMA ELECTRICO 336DL CAT. Renr95870001juanManuel1001
This document provides information on electrical system components and symbols for a 330D and 336D excavator. It includes:
1) A table listing connector and component locations by schematic and machine location.
2) Pages of electrical schematic symbols and their meanings.
3) A section defining harness and wire symbols such as colors, gauges and connector identification codes.
The document is a reference for technicians servicing the excavator's electrical system. It identifies all electrical connectors, components and their machine locations for troubleshooting.
This document provides an interactive schematic for a 320D and 323D excavator attachment. It includes:
- A bookmarks panel to navigate points of interest and machine views via hyperlinks.
- A button in machine views to show all callouts.
- Schematics, machine views, component tables, and other information about the attachment.
- Keyboard shortcuts and screen resolution instructions for optimal viewing.
This document provides information about the electrical system schematic and components for Caterpillar 416C, 426C, 428C, 436C, and 438C backhoe loaders. It includes:
- A chart listing electrical components and their locations on the schematic and machine views
- A chart identifying connector locations by number on the schematic and machine
- Specifications for resistors, solenoids, and switches
- A table describing wire colors and their associated functions
This document provides a schematic and definitions for the hydraulic system of D3G, D4G, and D5G track-type tractors. It includes a key for line patterns, callouts, component locations listed with part numbers, tap locations listed by letter, and a schematic diagram of the hydraulic circuit layout and components.
This document provides specifications and connector locations for components in the electrical system of a vibratory compactor. It includes two charts: one listing component locations by schematic symbol and machine location, and one listing connector locations by number, schematic symbol, and machine location. It also provides specifications for several switches, including actuation/deactuation parameters and contact positions. Related manuals are referenced. The information is intended to aid in understanding and working on the machine's electrical system.
PLANO HIDRAULICO INTERACTIVO 336DL Renr99800001juanManuel1001
This document provides a schematic for the hydraulic system of an excavator. It includes symbols for hydraulic components and their connections. The schematic can be navigated using blue hyperlinks and bookmarks. Component locations and identification numbers are listed in tables for reference.
This document provides a schematic and component location diagrams for the hydraulic system of a 320D and 320D L excavator. It includes:
- A hydraulic circuit diagram with callouts for components, hydraulic lines colored by circuit, and tap locations for testing and sampling.
- Tables listing hydraulic component descriptions, part numbers, and schematic/machine locations.
- Diagrams showing the machine locations of key hydraulic components like motors, pumps, valves and filters.
- Pages on fluid power and electrical symbols, and hydraulic circuit color descriptions.
This document provides information about the hydraulic system for Caterpillar 966H and 972H wheel loaders, including:
- A list of remote pressure taps located inside the service center panel for measuring various clutch and system pressures.
- Diagrams and descriptions of key hydraulic components such as pumps, valves, cylinders and their functions.
- Identification and location of hydraulic components in schematics and photos.
- Explanations of hydraulic circuit diagrams and color-coding of fluid lines.
- This is a temporary document and will be replaced by formal service information at a later date.
This document provides information about electrical systems for various wheel loader models. It includes summaries of connector locations and numbers, component identifiers, failure mode identifiers, resistor and solenoid specifications, switch specifications, and component locations. Diagrams are provided to identify harness connectors and wiring descriptions.
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
A SYSTEMATIC RISK ASSESSMENT APPROACH FOR SECURING THE SMART IRRIGATION SYSTEMSIJNSA Journal
The smart irrigation system represents an innovative approach to optimize water usage in agricultural and landscaping practices. The integration of cutting-edge technologies, including sensors, actuators, and data analysis, empowers this system to provide accurate monitoring and control of irrigation processes by leveraging real-time environmental conditions. The main objective of a smart irrigation system is to optimize water efficiency, minimize expenses, and foster the adoption of sustainable water management methods. This paper conducts a systematic risk assessment by exploring the key components/assets and their functionalities in the smart irrigation system. The crucial role of sensors in gathering data on soil moisture, weather patterns, and plant well-being is emphasized in this system. These sensors enable intelligent decision-making in irrigation scheduling and water distribution, leading to enhanced water efficiency and sustainable water management practices. Actuators enable automated control of irrigation devices, ensuring precise and targeted water delivery to plants. Additionally, the paper addresses the potential threat and vulnerabilities associated with smart irrigation systems. It discusses limitations of the system, such as power constraints and computational capabilities, and calculates the potential security risks. The paper suggests possible risk treatment methods for effective secure system operation. In conclusion, the paper emphasizes the significant benefits of implementing smart irrigation systems, including improved water conservation, increased crop yield, and reduced environmental impact. Additionally, based on the security analysis conducted, the paper recommends the implementation of countermeasures and security approaches to address vulnerabilities and ensure the integrity and reliability of the system. By incorporating these measures, smart irrigation technology can revolutionize water management practices in agriculture, promoting sustainability, resource efficiency, and safeguarding against potential security threats.
ACEP Magazine edition 4th launched on 05.06.2024Rahul
This document provides information about the third edition of the magazine "Sthapatya" published by the Association of Civil Engineers (Practicing) Aurangabad. It includes messages from current and past presidents of ACEP, memories and photos from past ACEP events, information on life time achievement awards given by ACEP, and a technical article on concrete maintenance, repairs and strengthening. The document highlights activities of ACEP and provides a technical educational article for members.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
International Conference on NLP, Artificial Intelligence, Machine Learning an...gerogepatton
International Conference on NLP, Artificial Intelligence, Machine Learning and Applications (NLAIM 2024) offers a premier global platform for exchanging insights and findings in the theory, methodology, and applications of NLP, Artificial Intelligence, Machine Learning, and their applications. The conference seeks substantial contributions across all key domains of NLP, Artificial Intelligence, Machine Learning, and their practical applications, aiming to foster both theoretical advancements and real-world implementations. With a focus on facilitating collaboration between researchers and practitioners from academia and industry, the conference serves as a nexus for sharing the latest developments in the field.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
1. INTERACTIVE SCHEMATIC
The Bookmarks panel will allow you to
quickly navigate to points of interest.
Click on any text that is BLUE and underlined.
These are hyperlinks that can be used to navi-
gate the schematic and machine views.
When only one callout is showing on a machine view this
button will make all of the callouts visible. This button is
located in the top right corner of every machine view page.
VIEW ALL CALLOUTS
Cover Page
Information
Schematic
Machine Views
Component Table
Tap Table
Fluid Power Symbols
Electrical Symbols
Front Frame
Rear Frame
Tap Views
Features
Options
Bookmarks X
EC-C3
EC-C2 E-C60
EC-C1
E-C61
To set your screen resolution do the following:
RIGHT CLICK on the DESKTOP.
Select PROPERTIES.
CLICK the SETTINGS TAB.
MOVE THE SLIDER under SCREEN RESOLUTION
until it shows 1024 X 768.
CLICK OK to apply the resolution.
This document is best viewed at a
screen resolution of 1024 X 768.
FUNCTION
Zoom In
HOTKEYS (Keyboard Shortcuts)
Zoom Out
Fit to Page
Hand Tool
“CTRL” / “+”
KEYS
“CTRL” / “-”
“CTRL” / “0” (zero)
“SPACEBAR” (hold down)
Find “CTRL” / “F”
4. Page 2 of 2
COMPONENT LOCATION
Component
Schematic
Location
Machine
Location
Component
Schematic
Location
Machine
Location
Motor - Rear Wiper F-17 5 Switch - Engine Shutdown D-5 14
Motor - RH Blower H-18 9 Switch - Forward Horn H-12 1
Motor - Secondary Steer L-2 38 Switch - Free Spool C-15 B
Motor - Starter C-5 27 Switch - Front Lamp I-14 C
Plug - Accessory 12V C-8 8 Switch - Front Rear Washer K-14 C
Receptacle - Auxilary Start L-2 14 Switch - Front Wiper K-14 C
Relay - AIH E-3 26 Switch - Key Start I-12 A
Relay - Decking Blade Return E-8 8 Switch - Lock Up Clutch Enable I-12 A
Relay - Front Attachment Floodlamp J-15 C Switch - Operator Mode Select J-12 A
Relay - Fuel Transfer Pump D-8 8 Switch - Park Brake I-12 A
Relay - Grapple Floodlamp J-15 C Switch - Park Brake Pressure E-4 20
Relay - Grapple Solenoid Return C-8 8 Switch - Rear And Attachment Lamp J-14 C
Relay - Main B-8 8 Switch - Rear Wiper J-14 C
Relay - Rear Attachment Floodlamp I-15 C Switch - Reel In C-15 B
Relay - Secondary Steering Intermediate E-8 8 Switch - Reel Out D-15 B
Relay - Start B-6 15 Switch - Refrigerant Pressure F-4 37
Relay - Winch Free Spool D-8 8 Switch - Secondary Steer Test J-12 A
Relay - Winch Reel Out D-8 8 Switch - Secondary Steer Pressure K-3 38
Relay - Winch Solenoid Return D-8 8 Switch - Transmission Filter Pressure D-5 19
Relay - Winch Wheel In E-8 8 Thermostat H-17 9
Machine locations are repeated for components located close together.
A = Located inside of dash. B= Located inside of right instrument control panel. C = Located inside of overhead panel.
5. CONNECTOR LOCATION
Connector Number
Schematic
Location
Machine
Location
CONN 1 J-16 10
CONN 2 I-16 10
CONN 3 H-17 9
CONN 4 D-17, E-17 11
CONN 5 C-18 11
CONN 6 B-17 11
CONN 7 B-17 11
CONN 8 H-15 C
CONN 9 K-15 5
CONN 10 G-13 8
CONN 11 H-11 A
CONN 12 MSS J-11 A
CONN 13 Service Tool J-11 A
CONN 14 L-10 C
CONN 15 L-10 7
CONN 16 H-7 19
CONN 17 H-7 19
CONN 18 L-7 6
CONN 19 E-6 20
CONN 20 G-6 20
CONN 21 K-4 10
CONN 22 J-2 40
CONN 23 TDC Probe I-1 37
CONN 24 Fuel Interface H-1 36
The connectors shown in this chart are for harness to harness connectors.
Connectors that join a harness to a component are generally located at or near
the component. See the Component Location Chart.
6. CID / MID / FMI
Failure Mode Identifiers (FMI)¹
FMI No. Failure Description
0 Data valid but above normal operational range.
1 Data valid but below normal operational range.
2 Data erratic, intermittent, or incorrect.
3 Voltage above normal or shorted high.
4 Voltage below normal or shorted low.
5 Current below normal or open circuit.
6 Current above normal or grounded circuit.
7 Mechanical system not responding properly.
8 Abnormal frequency, pulse width, or period.
9 Abnormal update.
10 Abnormal rate of change.
11 Failure mode not identifiable.
12 Bad device or component.
13 Out of calibration.
14 Parameter failures.
15 Parameter failures.
16 Parameter not available.
17 Module not responding.
18 Sensor supply fault.
19 Condition not met.
20 Parameter failures.
¹The FMI is a diagnostic code that indicates what type of failure has occurred.
Component Identifiers (CID¹)
Module Identifier (MID²)
Engine Control System
(MID No. 036)
CID Component
0001 Injector Cylinder #1
0002 Injector Cylinder #2
0003 Injector Cylinder #3
0004 Injector Cylinder #4
0005 Injector Cylinder #5
0006 Injector Cylinder #6
0041 8 Volt DC Supply
0042 Inject Actuation Control Valve
0091 Throttle Position Signal
0094 Fuel Pressure
0100 Engine Oil Pressure
0110 Engine Coolant Temperature
0164 Injector Actuation Pressure
0168 Electrical System Voltage
0172 Intake Manifold Air Temperature
0190 Engine Speed Signal
0253 Personality Module
0261 Engine Timing Calibration
0262 5 Volt DC Supply
0267 Engine Shutdown Switch
0268 Check Programmable Parameters
0296 Transmission ECM
0342 Secondary Engine Speed Signal
0617 Air Inlet Heater Relay
1627 Fuel Pump Relay
1639 Machine Security System Module
1785 Intake Manifold Pressure Sensor
2417 Ether Injection Control Solenoid
Machine Control System
(MID No. 039)
CID Component
0041 8 Volt Sensor Power Supply
0070 Parking Brake Switch
0096 Fuel Level Sensor
0168 Electrical System Voltage
0191 Transmission Output Speed Sensor
0246 Proprietary CAN Data Link
0262 5 Volt Sensor Power Supply
0268 Programmed Parameter Fault
0271 Action Alarm
0444 Starter Motor Relay
0449 Grapple Rotate Switch
0450 Tong Position Switch
0451 Grapple Clockwise Switch
0452 Grapple Counter-Clockwise Switch
0453 Tong Open Solenoid
0454 Tong Close Solenoid
0455 Auto Grab Pressure Sensor
0590 Engine Control Module
0600 Hydraulic Oil Temperature Sensor
0621 Downshift Switch
0622 Upshift Switch
0623 Directional Switch
0627 Parking Brake Switch
0679 Torque Converter Lockup Solenoid
0681 Parking Brake Solenoid
0740 Differential Lock Solenoid
0793 Primary Steering Pressure Sensor
0794 Secondary Steering Pressure Sensor
0795 Secondary Steering Intermediate Relay
0826 Torque Converter Oil Temperature Sensor
1046 Power Train Oil Filter Bypass Switch
1078 Blade Control Handle Sensor
1197 Blade Lower Solenoid
1198 Blade Raise Solenoid
1272 Brake Oil Accumulator Pressure Switch
1326 ECM Location Code
1401 Transmission 1 Solenoid
1402 Transmission 2 Solenoid
1403 Transmission 3 Solenoid
1404 Transmission 4 Solenoid
1405 Transmission 5 Solenoid
1406 Transmission 6 Solenoid
1884 Winch Spool In Solenoid
1885 Winch Spool Out Solenoid
1887 Winch Low Speed Lock Solenoid
1941 Auto Tong Switch
2267 Winch Control Handle Position Sensor
2268 Winch Free Spool Solenoid
2438 Winch Free Spool Switch
2470 Primary Steering Pressure Sensor
¹ The CID is a diagnostic code that indicates which circuit is faulty.
² The MID is a diagnostic code that indicates which electronic control module
diagnosed the fault.
Event Code Condition
E194 High Exhaust Temperature
E198 Low Fuel Pressure
E265 User Defined Shutdown
E360 Low Engine Oil Pressure
E361 High Engine Coolant Temperature
E362 Engine Overspeed
E390 Fuel Filter Restriction
E441 Idle Elevated To Increase Battery Voltage
E539 High Intake Manifold Air Temperature
Engine Event Codes
7. SPECIFICATIONS AND RELATED MANUALS
Off Machine Switch Specification
Part No. Function Actuate Deactuate Contact Position
3E-5464 Thermostat
-1.1 ± 0.8°C
(30 ± 1.4°F)
2.2 ± 0.8°C
(36 ± 1.4°F)
Normally Closed
3E-7806 Accumulator Charge Pressure
9500 kPa MAX
(1375 psi MAX)
8300 ± 350 kPa
(1200 ± 50 psi)
(A-B) Normally Open
(A-C) Normally Closed
3E-7808 Secondary Steering Pressure
1100 kPa MAX
(160 psi MAX)
860 ± 170 kPa
(125 ± 25 psi)
Normally Closed
114 -5333 Refrigerant Pressure
275 to 1750 kPa¹
(40 to 255 psi)
- -
- -
Normally Open²
174-4312 Park Brake Pressure
8270 kPa MAX
(1199 psi MAX)
6890 ± 345 kPa
(999 ± 50 psi)
(A-B) Normally Open
(A-C) Normally Closed
227-6744 Transmission Filter Pressure
276 ± 28 kPa
(40 ± 4 psi)
179 kPa MIN
(26 psi MIN)
Normally Closed
¹ With increasing pressure the closed condition can be maintained up to 2800 kpa (405 psi), with decreasing pressure the closed condition can be maintained
down to 170 kpa (25psi).
² Contact position at the contacts of the harness connector.
Resistor, Sender and Solenoid Specifications
Part No. Component Description Resistance (Ohms)¹
3E-1906 Solenoid: A/C Clutch 17 ± 0.6
116-4152 Solenoid: Differential Lock 34.3 ±1.7
134-2540 Resistor: Data Link Terminating (Engine & Dash) 120 ± 12
166-3388 Sender: Fuel Level
Empty 92 to 98
Full 0 to 3.5
239-1134 Solenoid: Ether Start 20
240-6822 Solenoid:
1 Forward High
2 Reverse
3 Forward Low
4 Speed 1 Clutch
5 Speed 2 Clutch
6 Speed 3 Clutch
31.1 ± 2.4
244-3114 Solenoid: Lockup Clutch 8.7 ± 0.4
252-0741 Solenoid: Park Brake 26.96 ± 1.35
253-1763 Solenoid:
Deck Blade Up
Deck Blade Down
8.7 ± 0.4
8.7 ± 0.4
257-6364 Solenoid: Free Spool Hydraulic 3.5 ± 0.5
¹ At room temperature unless otherwise noted.
Related Electrical Service Manuals
Form Number
Alternator: 177-9953 SENR4130
Electric Starting Motor: 207-1561 SENR3581
Engine Control: RENR9320
Machine Control: RENR8952
Title
8. HARNESS and WIRE
Electrical Schematic Symbols
1
2
AG-C4
111-7898
L-C12
3E-5179
9X-1123
Component
Part Number
Pin or Socket Number
Part Number: for
Connector Receptacle
Part Number: for
Connector Plug
Harness Identification Letter(s): (A, B, C, ..., AA, AB, AC, ...)
Plug
325-AG135 PK-14
Wire Color
Wire Gauge
Receptacle
Pressure
Symbol
T
Temperature
Symbol
Level
Symbol
Flow
Symbol
Circuit Breaker
Symbol
Harness and Wire Symbols
1
1
2
2
Sure-Seal connector: Typical representation
of a Sure-Seal connector. The plug and receptacle
contain both pins and sockets.
Deutsch connector: Typical representation
of a Deutsch connector. The plug contains all
sockets and the receptacle contains all pins.
Symbols
Symbols and Definitions
Fuse (5 Amps)
5A
T
Fuse: A component in an electrical circuit that will open the circuit if too much current flows through it.
Switch (Normally Open): A switch that will close at a specified point (temp, press, etc.). The circle indicates that the component has
screw terminals and a wire can be disconnected from it.
Switch (Normally Closed): A switch that will open at a specified point (temp, press, etc.). No circle indicates that the wire cannot be
disconnected from the component.
Ground (Wired): This indicates that the component is connected to a grounded wire. The grounded wire is fastened to the machine.
Ground (Case): This indicates that the component does not have a wire connected to ground. It is grounded by being fastened to the
machine.
Reed Switch: A switch whose contacts are controlled by a magnet. A magnet closes the contacts of a normally open reed switch; it
opens the contacts of a normally closed reed switch.
Sender: A component that is used with a temperature or pressure gauge. The sender measures the temperature or pressure. Its
resistance changes to give an indication to the gauge of the temperature or pressure.
Relay (Magnetic Switch): A relay is an electrical component that is activated by electricity. It has a coil that makes an electromagnet
when current flows through it. The electromagnet can open or close the switch part of the relay.
Solenoid: A solenoid is an electrical component that is activated by electricity. It has a coil that makes an electromagnet when current
flows through it. The electromagnet can open or close a valve or move a piece of metal that can do work.
Magnetic Latch Solenoid: A magnetic latch solenoid is an electrical component that is activated by electricity and held latched by a
permanent magnet. It has two coils (latch and unlatch) that make electromagnet when current flows through them. It also has an
internal switch that places the latch coil circuit open at the time the coil latches.
Harness identification code:
This example indicates wire group 325,
wire 135 in harness "AG".
L-C12
3E-5179
Wire, Cable, or Harness Assembly Identification:
Includes Harness Identification Letters and Harness
Connector Serialization Codes (see sample).
Harness Connector Serialization Code: The "C" stands for
"Connector" and the number indicates which connector in the
harness (C1, C2, C3, ...).