Maintenance / Technical Training

This fast-paced course introduces the basics of 2D computer-aided drafting and design using AutoCAD 2004. Prior computer experience using windows operating systems and experience using AutoCAD is required (suggested pre-requisites would be Basic Drawing & Drafting).*

This is an intermediate level course using a company's specific drawing styles and standards as foundation for the class. The instructor requests that a set of typical drawings be forwarded in no less than 2 weeks prior to the start date of the class. This is to ensure that the content of the class is paralleled with the company's styles and standards.

• Introducing AutoCAD 2004, including the start-up dialog, standard screen layout, toolbars, pull-down menus, and tool tips
• Introduction to drawing with CAD, which includes saving and opening files, drawing setup, coordinate systems, the line command, and correcting errors
• Accurate drawing creation, including using a template and drawing aids
• Text creation and editing
• Drawing arcs, circles and ellipses
• Snapping to geometric points on objects
• Controlling the display
• Basic editing
• Use and creation of layers
• Productive use of editing commands

This fast-paced course introduces the basics of 2D computer-aided drafting and design using AutoCAD 2004 and is an extension of 2D Mechanical Drawing I. Prior computer experience using windows operating systems and experience using AutoCAD is required.

This is an intermediate level course using a company's specific drawing styles and standards as foundation for the class. The instructor requests that a set of typical drawings be forwarded in no less than 2 weeks prior to the start date of the class. This is to ensure that the content of the class is paralleled with the company's styles and standards.

A generic overview of 2D computer-aided drafting and design principals:

• Mechanical tolerances
• Front, top, right and isometric views
• Common XREF (external reference) functions
• Dimension construction
• Creation and use of blocks

A company may request instruction on a specific function or feature of AutoCAD 2004 if the request is submitted two weeks before the start date of the class.

This fast-paced course introduces the basics of 3D computer-aided drafting and design using AutoCAD 2004. Prior computer experience using Windows operating systems and experience using AutoCAD is required (suggested pre-requisites would be Basic Drawing & Drafting and AutoCAD 2004 I & II)*. This is an intermediate level course using a company's specific drawing styles and standards as a foundation for the class. The instructor requests that a set of typical drawings be forwarded no less than 2 weeks prior to the start date of the class. This is to ensure that the content of the class is paralleled with the company's styles and standards.

• More advanced computer aided drafting and design using AutoCAD 2004 for 3D
• Covers the basics of three-dimensional mechanical drawing in AutoCAD
• Solid modeling
• Basic surfacing
• The 3D orbit command
• Splitting viewports
• Extrude, union, subtract and revolve commands

* exceptions do apply: contact the SynergyTech office if you would like further information

This fast-paced course introduces the more complex side of 3D computer-aided drafting and design using AutoCAD 2004. Prior computer experience using Windows operating systems and experience using AutoCAD is required (suggested pre-requisite would be AutoCAD 3D Mechanical Drawing I)*. This is an advanced level course using a company's specific drawing styles and standards as foundation for the class. The instructor requests that a set of typical drawings be forwarded no less than 2 weeks prior to the start date of the class. This is to ensure that the content of the class is paralleled with the company's styles and standards.This course is an extension of the 3D Mechanical Drawing I class.

• Students will learn:
• to transfer 3D models from model to paper space
• to transfer 3D models to working documents
• profiling
• 3D dimensioning
• multiple layouts from one model

* exceptions do apply: contact the SynergyTech office if you would like further information.

AutoCAD 2004 is ready for you to take full advantage of all its new and improved features. In this course, you will learn the features, commands and enhancements for creating, editing and publishing drawings with AutoCAD 2004.Lessons will include:

• User Interface and Drawing Productivity
• External Reference Enhancements, Drawing Security and CAD Standards
• Presentation, Publishing and Software Administration Tools

This fast paced course introduces the basics of 2D computer-aided drafting and design using AutoCAD 2000. It may be useful for beginners to take Basic Drawing & Drafting before proceeding to this class. Students will need to supply typical drawings which will be used as a foundation for learning.

Basic and intermediate levels are offered for this course which covers the more advanced computer-aided drafting and design techniques using AutoCAD 2000 for 3D mechanical drawings. Based on participants specific company requirements, prior AutoCAD experience is required.

An opportunity for those needing experience in drafting technology and construction as a pre-cursor to computer-aided design. Level I will focus on graphic projections, measuring systems, sections and geometry and Level II includes dimensions and intersections. All classes involve drawing exercises and students are encouraged to discuss their own specific company needs.

Math that applies to the machine shop environment. Learn XYZ coordinates, micrometers, and calipers and how these relate to different dimensions.

This is an entry-level discussion of the various methods of depicting 3-dimensional objects and structures on two-dimensional media. It is geared towards manufacturing blueprints instead of construction.

This class is structured as a 6-hour sequence. Systems of ‘drawing’, representation and reproduction are discussed.

Measuring devices of all types, both metric and English measurements, are covered. Isometric methods are also discussed.

This is an entry-level discussion of the various methods of depicting 3-dimensional objects and structures on two-dimensional media. It is geared towards manufacturing blueprints instead of construction. This class is structured as a 6-hour sequence. Systems of ‘drawing’, representation and reproduction are discussed. Measuring devices of all types, both metric and English measurements, are covered. Isometric methods are also discussed.

Learning Activities

• Introduction to CNC Mill Programming
• Basic CNC Mill Programming
• Circular Interpolation
• Speeds and Feeds
• CNC Mill Canned Cycles
• CNC Mill Cutter Compensation

This course features hands-on familiarization with Allen-Bradley Control-Logix curriculum. Students will learn basic principles of RSLinx and RSLogix 5000 Software as well as Controller Operation.

Specific topics include:

• Establishing communications
• Controller file development and configuration
• Basic Controller operation
• Creating and configuring tags
• Ladder logic programming
• I/O interfacing and program development

Basic program commands covered include: XIO, XIC, OTE, timer, counter, program organization, math and data move instructions.

• Introduction to Electrical Motor Control
  • Electrical Safety
  • Three-Phase Power
  • Disconnects and Protective Devices
  • Three-Phase Motors
• Manual Motor Control and Overload Protection
  • Manual Motor Control
  • Manual Motor Starter Operation
  • Overload Protection
• Control Transformers
  • Introduction To Transformers
  • Control Transformer Operation
  • Control Transformer Applications In Machine Control
• Control Ladder Logic
  • Electrical Control System Basics
  • Ladder Diagram Basics
  • Logic Elements 1
  • Logic Elements 2
• Control Relays and Motor Starters
  • Control Relays
  • Magnetic Motor Starters
  • Two-Wire Control
  • Three-Wire Start/Stop Control

• Introduction to Troubleshooting
  • Introduction to Troubleshooting
  • Control Component Troubleshooting
  • Motor Starter Troubleshooting
  • Power Component Troubleshooting
• Systems Troubleshooting
  • Test Equipment for Troubleshooting
  • Introduction to Systems Troubleshooting
  • System Troubleshooting Methods
  • Troubleshooting Application
• Reversing Motor Control
  • Manual Motor Reversing
  • Reversing Magnetic Motor Starter
  • Interlocking for Reversing Motor Control
  • Modes of Operation
  • H-O-A Control
• Automatic Input Devices
  • Limit Switches
  • Float Switches
  • Pressure Switches
  • Sequence Control
• Basic Timer Control: On-Delay and Off-Delay
  • On-Delay Timers
  • Off-Delay Timers
  • Troubleshooting

• Braking Methods
  • Drum Switch Plugging
  • Pushbutton and Timer Plugging
  • Electromagnetic Braking
  • DC Injection and Dynamic Braking
• Reduced Voltage Starting Circuits
  • Primary Resistor Reduced Voltage Starters
  • Autotransformer Reduced Motor Starter
  • Part Winding Starter
• Power Generation and Distribution
  • AC Power Generation
  • Three-Phase WYE distribution Systems
  • Three-Phase Delta Distribution Systems
  • Transformers in Power Distribution
• Electronic Sensors
  • Inductive Proximity Sensors
  • Capacitive Proximity Sensors
  • Photoelectric Sensors

• Introduction to Variable Frequency AC Drives
  • Variable speed AC drive basics
  • Two and Three-Wire Motor Control
  • Jogging control
• Variable Frequency AC Drives - Speed and Torque Control
  • Basic speed control
  • Advanced Speed Control
  • Torque Control
• Variable Frequency AC Drives - Acceleration, Deceleration & Braking
  • Ramping
  • Special Acceleration Methods
  • Braking
• Variable Frequency AC Drives - Fault Diagnostics and Troubleshooting
  • Fault Detection
  • Troubleshooting
  • Clearing Faults

• Split-Phase AC Motors
  • Characteristics of Alternating Current
  • Split-Phase Motor Operation
  • Split-Phase Motor Characteristics
• Capacitor-Start AC Motors
  • Power in AC Circuit
  • Power Factor
  • Capacitor-Start Motor Operation
  • Bleeder Resistor Application
• Permanent-Capacitor and Two-Capacitor Motors
  • Permanent-Capacitor Motor Operation
  • Permanent-Capacitor Motor Characteristics
  • Two-Capacitor Motor operation
  • Two-Capacitor Motor Characteristics
• Three-Phase AC Induction Motors
  • Three-Phase Induction Motor Operation
  • Three-Phase Motor Characteristics
  • Three-Phase Motor Configurations
  • Reversing a Three-Phase Induction Motor

• Basic Electrical Circuits
  • Fundamentals of Electricity
  • Electrical Circuit Components
  • Manual Input Devices
  • Output Devices
• Electrical Measurements
  • Voltage Measurement
  • Introduction to Series and Parallel Circuits
  • Current Measurements
  • Resistive Measurements
• Circuit Analysis
  • Power In Series Circuits
  • Power in Parallel Circuits
  • Circuit Protection Devices
• Inductance and Capacitance
  • Electromagnetism
  • Inductance
  • Capacitance
  • Characteristics of Capacitors
  • Inductor and Capacitor Applications
• Combination Circuits
  • Characteristics
  • Light Circuits
  • Voltage Dividers
  • Troubleshooting
• Transformers
  • Introduction to Transformers
  • Sizing a Transformer
  • Transformer Types

Electrical Systems 1

• Basic Electrical Circuits
  • Fundamentals of Electricity
  • Electrical Circuit Components
  • Manual Input Devices
  • Output Devices
• Electrical Measurements
  • Voltage Measurement
  • Introduction to Series and Parallel Circuits
  • Current Measurements
  • Resistive Measurements
• Circuit Analysis
  • Power In Series Circuits
  • Power in Parallel Circuits
  • Circuit Protection Devices
• Inductance and Capacitance
  • Electromagnetism
  • Inductance
  • Capacitance
  • Characteristics of Capacitors
  • Inductor and Capacitor Applications
• Combination Circuits
  • Characteristics
  • Light Circuits
  • Voltage Dividers
  • Troubleshooting
• Transformers
  • Introduction to Transformers
  • Sizing a Transformer
  • Transformer Types

Electrical Systems 2

• Control Logic
  • Logic Elements (AND, OR)
  • Logic Elements (NOT, NOR, NAND)
  • Ladder Diagrams
  • Electro-Pneumatic Solenoid Valves
• Sequencing Control
  • Relay Operation
  • Relay Applications
  • Limit Switch Operation
  • Limit Switch Applications
• Timers and Advanced Systems
  • Time Delay Relays
  • Time Delay Relay Applications
  • Multiple Cylinder Control
  • Machine Modes of Operation

• Control Logic
  • Logic Elements (AND, OR)
  • Logic Elements (NOT, NOR, NAND)
  • Ladder Diagrams
  • Electro-Pneumatic Solenoid Valves
• Sequencing Control
  • Relay Operation
  • Relay Applications
  • Limit Switch Operation
  • Limit Switch Applications
• Timers and Advanced Systems
  • Time Delay Relays
  • Time Delay Relay Applications
  • Multiple Cylinder Control
  • Machine Modes of Operation

• Introduction to Electrical Control Systems
  • Introduction to Automatic Control
  • Electrical Control Concept
  • Logical Elements 1
  • Logical Elements 2
• Basic Control Devices
  • Ladder Diagrams
  • Indicators
  • Pushbuttons
  • Selector Switches
• Power Devices
  • Hydraulic Solenoid-Operated Valves
  • Pneumatic Solenoid-Operated Valves
• Control Relays
  • Relay Operation
  • Relay Applications
  • Motor Control Applications

Electro-Fluid Power Control 1

• Introduction to Electrical Control Systems
  • Introduction to Automatic Control
  • Electrical Control Concept
  • Logical Elements 1
  • Logical Elements 2
• Basic Control Devices
  • Ladder Diagrams
  • Indicators
  • Pushbuttons
  • Selector Switches
• Power Devices
  • Hydraulic Solenoid-Operated Valves
  • Pneumatic Solenoid-Operated Valves
• Control Relays
  • Relay Operation
  • Relay Applications
  • Motor Control Applications

Electro-Fluid Power Control 2

• Sequencing Control
  • Limit Switch Operation
  • Cylinder Sequencing
  • Multiple Cylinder Control
• Timer Control
  • Time-Delay Relays
  • Timer Applications
  • Photoelectric Sensor Operation
  • Photoelectric Sensor Applications
• Pressure Control Applications
  • Solenoid-Operated Relief Valves
  • Solenoid-Operated Relief Valves Application
  • Pressure Switch Operation
  • Pressure Switch Applications
• Circuit Applications
  • Safety Circuits
  • Modes of Operation
  • Rapid Traverse-Slow Feed

• Sequencing Control
  • Limit Switch Operation
  • Cylinder Sequencing
  • Multiple Cylinder Control
• Timer Control
  • Time-Delay Relays
  • Timer Applications
  • Photoelectric Sensor Operation
  • Photoelectric Sensor Applications
• Pressure Control Applications
  • Solenoid-Operated Relief Valves
  • Solenoid-Operated Relief Valves Application
  • Pressure Switch Operation
  • Pressure Switch Applications
• Circuit Applications
  • Safety Circuits
  • Modes of Operation
  • Rapid Traverse-Slow Feed

This course is an introduction to fluid power control and hydraulics.

The major learning topics include:

• Hydraulic Power Systems
• Basic Hydraulic Circuits
• Principles of Hydraulic Pressure and Flow
• Hydraulic Speed Control
• Pressure Control Circuits

• Hydraulic Motor Applications
  • Hydraulic Motor Types
  • Motor Applications
  • Free-Wheeling Motor Circuits
  • Unidirectional Motor Breaking
  • Bidirectional Motor Braking
• Hydraulic Pump and Motor Performance
  • Pump Flow Rate
  • Pump Power
  • Hydraulic Motor Displacement
  • Hydraulic Motor Torque
• Fluids and Conditioning
  • Conductors
  • Fluid Viscosity
  • Fluid Compressibility
  • Filtration
  • Reservoirs and Heat Exchangers

• Hydraulic Power Systems
  • Introduction to Basic Hydraulics
  • Power Unit operation
  • Circuit Connection
  • Basic Cylinder Circuit
• Basic Hydraulic Circuits
  • Pumps
  • Needle Valves
  • Basic Motor Control
  • Hydraulics Schematic
• Principles of Pressure and Flow
  • Pressure vs. Cylinder Force
  • Hydraulic Leverage
  • Fluid Friction
  • Absolute vs. Gage Pressure
• Hydraulic Speed Control
  • Relief Valves
  • Check Valves
  • Flow Control Valves
  • Meter-In and Meter-Out Circuit
  • Flow Control Circuit Design
  • Flow Rate vs. Cylinder Speed
• Pressure Control Circuits
  • Sequence Valves
  • Sequence Valve Application
  • Pressure Reducing Valves
  • PRV Application

• Pneumatic Power Systems
  • Introduction to Pneumatics
  • Pneumatic Power
  • Circuit Connections
  • Basic Cylinder Circuits
• Basic Pneumatic Circuits
  • Single-Acting Cylinder Circuits
  • Basic Motor Circuits
  • Pneumatic Schematics
  • Pneumatic Simulation Software
• Principles of Pneumatic Pressure and Flow
  • Pressure vs. Cylinder Force
  • Pneumatic leverage
  • Pressure and Volume
  • Air Flow and Resistance
• Pneumatic Speed Control Circuits
  • Air Flow Control and Measurement
  • Flow Control Valves
  • Speed Control

• Hydraulic DCV Applications
  • Overview of the DCV
  • Two-Position DCVs
  • Pilot-Operated DCVs
  • Cam-Operated DCVs
• Hydraulic Cylinder Applications
  • Cylinder Types
  • Regeneration Circuits
  • Pressure-Compensated Flow Control Valves
  • Synchronization Circuits
• Hydraulic Relief Valve Operation
  • Pilot-Operated Relief Valve Operation
  • Pump Unloading Applications
  • Remote Pressure Control
• Hydraulic Check Valve Applications
  • Pressure Port Check Valve Circuit
  • Pilot-Operated Check Valve
  • Pilot-Operated Check Valve Applications
  • Pilot-Operated Check Valve Circuit Design
• Accumulator Applications
  • Accumulator Operation
  • Accumulator Circuits
  • Accumulator Applications
  • Accumulator Sizing

Learning Activities

• Intermediate Pneumatics
  • Pneumatic DCV Applications
  • Air Logics
  • Pneumatics Maintenance
• Advanced Pneumatics
  • Moving Loads Pneumatically
  • Vacuum Systems
  • Air Compressors

Lean Manufacturing is “a systematic approach to identifying and eliminating waste (all non-value added activities) through continuous improvement” that is being adopted by world class, high performance firms to produce remarkable results. The concepts of Lean focus the company’s resources on identifying and eliminating all non-value added activities (waste). The essence of Lean is to compress time from the receipt of an order all the way through to the receipt of payment. The results of Lean compression are greater productivity, shorter delivery times, lower costs, improved quality and increased customer satisfaction.

SEMINAR DESCRIPTION:
Lean Manufacturing 101 is the best publicly available live Lean Manufacturing simulation and is the critical first step toward understanding the global language and principles of Lean. At this workshop, you will learn about the concepts of Lean Manufacturing and how to apply them. During the simulation exercises – as a member of the production team for Buzz Electronics – attendees will apply Lean concepts such as Standardized Work, Visual Signals, Point of Use Storage, Line Balancing, Batch-Size Reduction, Pull Systems, Kanban, Workplace Organization, 5S, Cellular, and more. They will experience firsthand how Lean Manufacturing improves quality, reduces cycle time, improves delivery performance, reduces Work-in-Process (WIP) – and, enables Buzz Electronics to show a profit! Participants will manufacture and test circuit boards in a simulated manufacturing setting.

SEMINAR RESULTS:
Participants will leave this seminar with a functional knowledge and understanding of Lean Manufacturing. The seminar concepts will provide a holistic methodology for transforming a company from chaos to a fully creative mode of operation.

This is a comprehensive computer-based course to help your company adhere to critical standards as defined by NIST, ISO-9000, QS-9000, ISO Guide 25, and ANSI Z540-1. It gives employees the training they need in a convenient, interactive CD medium that is instructor-led. This training is targeted at employees involved in inspection, quality assurance, SPC, production set-up, ISO-9000, OS-9000, and FDA-GMP Compliance Support.

Concepts covered include:

• Introduction to Metrology
• Concerns of Metrology
• Standards and Standardization
• Managing the Metrology System
• Making Measurements
• Units and Measurement Instruments

• Introduction to Mechanical Drives Systems
  • Mechanical Power Transmission Safety
  • Machine Installation
  • Motor Mounting
  • Shaft Speed Measurement
• Key Fasteners
  • Keyseat Fasteners
  • Key Assembly
  • Torque and Power Measurement
  • Mechanical Efficiency
• Power Transmission Systems
  • Introduction to Shafts
  • Introduction to Bearings
  • Introduction to Couplings
  • Shaft Alignment
• Introduction to V-Belt Drives
  • Belt Drive Concepts
  • V-Belt Operation
  • Belt Tensioning
  • Belt Tension Measurement

In this course you will learn the basics of motor mountings, shaft alignment, various drives, gear trains, bushings, bearings, seals, gaskets, gearboxes and lubrication.

The major learning topics include:

• Introduction to Mechanical Drives Systems
• Key Fasteners
• Power Transmission Systems
• Introduction to V-Belt Drives
• Introduction to Chain Drives

• Introduction to Chain Drives
  • Chain Drive Concepts
  • Chain Drive Operation
  • Chain Tensioning
  • Chain Tension Measurement
  • Fixed Center Chain Installation
• Spur Gear Drives
  • Gear Drive Concepts
  • Gear Drive Design
  • Spur Gear Operation
  • Spur Gear Installation
  • Spur Gear Analysis
• Multiple Shaft Drives
  • Multiple Shaft Gear Analysis
  • Multiple Shaft Drive Installation
  • Sleeve Couplings
• V-Belt Selection and Maintenance
  • V-Belt Size Specification
  • V-Belt Component Identification
  • V-Belt Drive Selection
  • V-Belt Maintenance and Troubleshooting

• Heavy Duty V-Belt Drive
  • Conventional V-Belt Drives
  • Multiple V-Belt Drives
  • Wedge V-belt Drives
  • Variable Speed V-Belt Drives
  • V-Belt Configuration
• Synchronous Belt Drives
  • Timing Belt Drives
  • High Torque Drive Belt Drives
  • Synchronous Belt Drive Selection
  • Synchronous Belt Maintenance and Troubleshooting
• Lubrication Concepts
  • Lubrication Concept
  • Oils
  • Greases
  • Lubricant Management
• Precision Shaft Alignment
  • Elastomeric Couplings
  • Flange Couplings
  • Rim and Face Shaft Alignment Method
  • Reverse Indicator Alignment Method
• Couplings
  • Chain Couplings
  • Grid and Gear Couplings
  • Coupling Selection
  • Coupling Maintenance and Troubleshooting

• Heavy Duty Chain Drives
  • Silent Chain Drives
  • Multiple Strand Systems
  • Chain Selection
  • Chain Lubrication
  • Chain Maintenance and Troubleshooting
• Solid Plain Bearings
  • Solid Plain Bearing
  • Plain Bearing Lubrication
  • Plain Bearing Selection
  • Plain Bearing Maintenance and Troubleshooting
• Ball Bearings
  • Introduction to Antifriction Bearings
  • Ball Bearing Identification
  • Mechanical Bearing Installation
  • Temperature Bearing Installation
• Antifriction Bearing Selection and Maintenance
  • Angular Contact Bearings
  • Bearing Lubrication
  • Antifriction Bearing Maintenance and Troubleshooting
  • Antifriction Bearing Maintenance and Troubleshooting

• Roller Bearings
  • Roller Bearing Identification
  • Mechanical Installation
  • Temperature Installation
  • Roller Bearing Application
• Gaskets and Seals
  • Gaskets
  • O-Rings Seals
  • Lip Seals
  • Mechanical Seals
  • Seal Maintenance and Selection
• Advanced Gear Drives
  • Helical Gear Drives
  • Right Angle Gear Drives
  • Speed Reducers
  • Speed Reducer Maintenance
• Gear Drive Selection and Maintenance
  • Gear Drive Selection
  • Gear Lubrication
  • Gear Drive Maintenance and Troubleshooting

This course covers the non-programmable logic control of an electrical motor using various manual and automatic input devices. i.e.- limit, pressure, level, proximity, photo electric switches, pushbutton, timer, relay, overload and fuse.

The major learning topics include:

• Introduction to Electric Motor Control
• Manual Motor Control and Overload Protection
• Control Transformers
• Control Ladder Logic
• Control Relays and Motor Starters

• Introduction to Programmable Controllers
  • PLC Orientation
  • PLC Operation
  • PLC Programming Languages
• Basic PLC Programming
  • PLC Program Instructions
  • Numbering Systems
  • Project Creation and Organization
  • Programming Software
• PLC Motor Control
  • PLC Program Analysis
  • Motor Control Basics
  • Seal-In Program Logic
  • Data Types and User Defined Tags
  • Interlock Functions
• Discrete I/O Interfacing
  • Basic Input Interfacing
  • Basic Output Interfacing
  • Electronic Device Interfacing

• Introduction to Programmable Controllers
  • PLC Orientation
  • PLC Operation
  • PLC Programming Languages
• Basic PLC Programming
  • Numbering Systems
  • PLC Memory Organization
  • PLC Programming Software
  • PLC Program Analysis
• PLC Motor Control
  • Motor Control Basics
  • Seal-In Program Logic
  • Interlocking Functions
  • Documentation and Advanced Editing
• Discrete I/O Interfacing
  • Basic Input Interfacing
  • Basic Output Interfacing
  • Electronic Device Interfacing

In this course you will learn to program and troubleshoot an Allen-Bradley SLC 500.

The major learning topics include:

• Introduction to Programmable Controllers AB500
• Basic PLC Programming AB500
• PLC Motor Control AB500
• Discrete I/O Interfacing AB500

• PLC Timer Instructions
  • Retentive Timer Instructions
  • Non-Retentive Timer Instructions
  • Time-Driven Sequencing and Applications
• PLC Counter Instructions
  • Count Up Instructions
  • Count Down Instructions
  • BCD Thumbwheel Switches
  • LED Display
• Introduction to PLC Troubleshooting
  • PLC Troubleshooting
  • Power Supply Troubleshooting
  • Input Troubleshooting
  • Output Troubleshooting
• PLC Systems Troubleshooting
  • Processor Troubleshooting
  • System Troubleshooting Techniques
  • Program Documentation

• Introduction To PLC Troubleshooting
  • PLC Troubleshooting
  • Power Supply Troubleshooting
  • Input Troubleshooting
  • Output Troubleshooting
• PLC Systems Troubleshooting
  • Processor Troubleshooting
  • System Troubleshooting Techniques
  • Software Troubleshooting Tools
• Event Sequencing
  • Introduction to Event Sequencing
  • Continuous Cycle Logic
  • Multiple Actuator Event Sequencing
• Application Development
  • Program Development
  • Modes of Operation
  • Stop Function

• Event Sequencing
  • Introduction to Event Sequencing
  • Continuous Cycle Logic
  • Multiple Actuator Event Sequencing
• Application Development
  • Program Development
  • Modes of Operation
  • Stop Functions
  • Timers and Counters Applications
• Program Control Instructions
  • Program Initialization
  • Master Control Reset
  • Subroutines
  • Jump and Label Instructions
• Math and Data Move Instructions
  • Add Instructions
  • Subtract Instructions
  • Multiply and Divide Instructions
  • Move Instructions

• PLC Timer Instructions
  • Retentive Timer Instructions
  • Non-Retentive Instructions
  • Time-Driven Sequencing
  • Timer Application
• PLC Counter Instructions
  • Up Counter Instruction
  • Count Down Instruction
  • BCD Thumbwheel Switches
  • LED Displays
• Program Control Instructions
  • Program Initialization
  • Master Control Reset
  • Subroutines
  • Jump and Label Instructions
• Math and Data Move Instructions
  • Add Instruction
  • Subtract Instruction
  • Multiply and Divide Instructions
  • Move Instructions

• Analog Input Modules
  • Sensors
  • Module Installation
  • Module Operation
  • Resolution
• Analog Output Modules
  • Comparison Instructions
  • Analog Output Devices
  • Module Installation
  • Module Operation
  • Resolution
• Analog Scaling
  • Math-Based Input Scaling
  • Input Scaling Instructions
  • Math-Based Output Scaling
  • Output Scaling Instructions

• Analog Input Modules
  • Sensors
  • Module Installation
  • Module Operation
  • Resolution
• Analog Output Modules
  • Comparison Instructions
  • Analog Output Devices
  • Module Installation
  • Module Operation
  • Resolution
• Analog Scaling
  • Math-Based Input Scaling
  • Input Scaling Instructions
  • Math-Based Output Scaling
  • Output Scaling Instructions

This course deals with the nuts and bolts of mathematics. Students will become equipped with a solid foundation of the mathematical tools required to solve more complex mathematical operations. This course would benefit any student (regardless of age) who requires help understanding basic math skills in order to pass a placement test, a course, a specific job, or a review or simply to brush-up on math skills.
No previous education is required though understanding lesson material assumes students have at least a 7th grade reading level. Lessons will focus on the steps involved in adding, subtracting, multiplying, dividing as well as the order of operations. In addition, this course will focus on the various forms of numbers such as fractions, decimals and percentages.

This course deals with the nuts and bolts of mathematics. Students will become equipped with a solid foundation of the mathematical tools required to solve more complex mathematical operations. This course would benefit any student (regardless of age) who requires help understanding basic math skills in order to pass a placement test, a course, a specific job, or a review or brush-up on math skills.

No previous education is required though understanding lesson material assumes students at least have a 7th grade reading level. Lessons will focus on the steps involved in adding, subtracting, multiplying, dividing as well as the order of operations. In addition, this course will focus on the various forms of numbers such as fractions, decimals and percentages.

This interactive class examines a 7-step problem solving process from identifying the root cause to implementing solutions specifically in the manufacturing environment and provides the opportunity for brainstorming, group work, presentation skills and feedback.

In partnership with the University of Arkansas Division of Continuing Education, SynergyTech is proud to offer this course which includes a review of basic writing skills, writing clearly and concisely, writing for specific audiences and purposes, editing, and creating appealing technical reports, letters and memos.