The FANUC CNC simulator is a perfect addition to the classroom and an essential component to gain maximum exposure to FANUC CNC controls when actual machine time is limited.
Amatrol’s Alternator/Synchronous Motor Learning System (85-MT2C) adds to the Basic Electrical Machines Learning System (85-MT2) to teach skills related to alternators and synchronous motors commonly found in industrial applications. Alternators provide a mobile source of AC electrical power while synchronous motors reduce power costs by correcting the overall power factor in a plant. Learners will study industry-relevant skills in industrial motor training, including how to operate, install, and analyze the performance of alternators and synchronous motors.
The alternator and synchronous motor training system includes capacitive load, combination synchronous motor/alternator, and synchronizing lights/switch units. The capacitive load unit combines with the 85-MT2 to provide operation under various types of loads. In addition to industrial components, this training system includes in-depth curriculum, an instructor’s guide, and a student reference guide. The highly-interactive, multimedia curriculum covers major topical areas such as alternator output voltage and frequency, three dark synchronization method, and reversing a synchronous motor.
Amatrol’s Wound Rotor Motor Learning System (85-MT2D) covers the function, operation, and performance characteristics of wound rotor motors. While variable frequency drives (VFDs) and standard induction motors have replaced wound rotor motors in many applications, these motors are still used for heavy-duty, high torque applications such as industrial cranes and hoists. Amatrol’s wound rotor motor training system requires the Basic Electrical Machines Learning System (85-MT2) for use.
Wound rotor motor training includes a wound rotor speed controller, a wound rotor motor, banana leads, in-depth multimedia curriculum, an installation guide, and a student reference guide. These components will be used to study topics such as wound rotor speed control, performance characteristics, and motor reversing. Amatrol systems feature real-world, industrial-grade components for both durability and to facilitate learners in gaining hands-on practice with actual equipment that they’ll find in the field.
Amatrol’s Electric Motor Troubleshooting Learning System (85-MT2E), used in conjunction with the required Basic Electrical Machines Learning System (85-MT2), covers AC and DC motors troubleshooting and testing using a multimeter and a megger meter. The skills and knowledge covered by this system will prove invaluable for industrial maintenance technicians or anyone working in a field that uses AC and/or DC motors. This system covers major topics like AC and DC motor failures, common methods of diagnosing these failures by using a multimeter and megger meter, and troubleshooting these failures.
The 85-MT2E includes a motor connection box to practice hands-on skills, such as troubleshooting faults in a DC motor and AC single-phase and three-phase motors, evaluating DC electric motor commutator and brush health, and using a multimeter to test an AC motor start/run capacitor. Amatrol’s industrial training systems feature real-world, industry-grade components for durability that will stand up to frequent use and to allow learners to gain real-world competencies.
The AC Elector Motor Control Systems Trainer will give your students hands-on learning with motors found in industrial, commercial, and residential applications. It's versatile, comprehensive, and has eLearning built around it. Watch for a quick overview of the system.
Amatrol’s Electric Motor Control Learning System (85-MT5) teaches electric relay control of AC electric motors found in industrial, commercial, and residential applications. Learners study industry-relevant skills including how to operate, install, design, and troubleshoot AC electric motor control circuits for various applications.
The 85-MT5 includes a bench top-mount control workstation, motor workstation, AC induction motor, control component panels, multimeter, lead set, and student curriculum that is unmatched within the industry. This system uses industrial-quality components to train learners to become better prepared for what they will encounter on the job. Some of the major components that learners will work with include a control transformer, reversing contactors, manual motor starter, multi-function timer, and control relays.
The 85-MT5 teaches learners how to troubleshoot motor control circuits under realistic conditions. Circuit faults can be introduced using either the included manual fault insertion system or through the optional Fault Troubleshooting System (890-FTS1), which includes Amatrol’s FaultPro, the industry’s only electronic-fault insertion software.
Amatrol’s Motor Braking Learning System (85-MT5A) adds to the Electric Motor Control Learning System (85-MT5) to expand a learner’s knowledge of the common electric motor braking methods found in industrial, commercial, and residential applications. Braking is essential to motor control when motors must be stopped and restarted multiple times. Common applications include rolling mills, conveyors, and power fans. Learners study industry-relevant skills for three of the most common braking methods: electromagnetic braking, plugging, and DC injection braking. Troubleshooting braking problems under realistic conditions allows learners to experience the challenge and reward that result from applied problem solving.
The motor braking training system includes a DC braking station with power supply, transformer and bridge rectifier mounted to a slide-in panel, inertial load module with flywheel, electromagnetic brake, plugging/anti-plugging switch, student curriculum, and instructor’s guide. This system uses industrial quality components that stand up to frequent use and enable learners to better prepare for what they will encounter on the job.
Amatrol’s Reduced Voltage Starting Learning System (85-MT5B) adds to the Electric Motor Control Learning System (85-MT5) to teach methods of starting electric motors under reduced voltage, 3-phase power distribution using Delta and Wye transformer wiring configurations, and troubleshooting. Reduced voltage starting is ideal for applications where full motor torque could tear or damage a product, such as paper or delicate fabric. Learners will study Wye-Delta power distribution, types of voltage circuits, and the operation of an autotransformer reduced voltage starter.
Reduced voltage starting includes a Dual Transformer Station, featuring two control transformers, and a Power Resistor Station, featuring three 25-ohm, 100-watt resistors. This industrial motor control training system uses industrial-quality components that stand up to frequent use and enables learners to practice with real-world components that they will encounter on the job.
Amatrol’s Variable Frequency AC Drive Learning System, AB PowerFlex (85-MT5C) adds to the Electric Motor Control Learning System (85-MT5) to teach basic and advanced concepts related to variable frequency drives (VFDs), as well as their many industrial applications, including fans, pumps, conveyors, mixers, grinders, and hoists. For example, learners will study the operation, installation, design, performance analysis, and troubleshooting of VFDs.
Learners will also practice hands-on skills like programming and operating a variable frequency AC drive to ramp a motor up to its rated speed and decelerate to a stop. The training system features heavy-duty, real-world components, such as an Allen-Bradley PowerFlex4 VFD, multi-turn potentiometer for speed control, and selector switches for general drive control, basic stop/start, ramping, and dynamic braking. These industry-standard components prepare learners for situations that they will encounter on the job.
Amatrol’s Electronic Sensors Learning System (85-MT5D) adds to the Electric Motor Control Learning System (85-MT5) to teach the function and applications of a variety of electronic sensors in industries like automotive, packaging, and security. This electronic sensor training system is comprised of heavy-duty, real-world industrial components such as capacitive, inductive, and infrared sensors that are built to stand up to heavy use.
Learners can connect and operate these electronic sensors, study their design, and analyze their performance in order to build skills that can be applied to real-world job opportunities. Amatrol reinforces this skill-building practice with strong curriculum that thoroughly explains electronic sensor topics, such as factors that affect a sensor’s performance. This combination of hands-on skills and strong theoretical knowledge gives learners the ability to not only understand where to use a sensor in a circuit, but why it’s there and what its function is.
Amatrol’s Electronic Counter Learning System (85-MT5E) adds to the Electric Motor Control Learning System (85-MT5) to teach electrical event counting in electrical motor control circuits. Electronic counters are used in a wide variety of applications, including production counting, reject counting, sorting, and flow timing. The electronic counter training system features a digital 3-digit electronic counter set within a heavy-duty, 11-gauge steel slide-in panel built to stand up to frequent use.
This industrial training system also features world-class curriculum that covers counter and timer operation, designing circuits, and troubleshooting. Learners can then directly apply this theoretical knowledge to practice hands-on skills, such as designing a timed one-shot motor control circuit, a timed repeat cycle motor control circuit, and a motor control circuit using the counter to tally operations. Learners can also practice troubleshooting a timed one-shot motor control circuit and a timed repeat cycle motor control circuit.
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Item Number:A02B-0158-B100#US -
Item Number:CR-7iA/LAllows for a collaborative operation with human operators due to no need of safety fences, and enables to locate the robots close together in the manufacturing processes where operators also work, with using the compact size. -
Item Number:FANUC ER-4iADesigned with students in mind, this all-in-one robotics-training bundle enables individuals to gain first-hand experience of programming and operating cutting-edge industrial robots. Package content is highly relevant for modern factory applications and contains everything instructors require to teach students to program and operate robots. -
The FANUC Fenceless Collaborative Cert Cart was developed by combining FANUC DCS Position and Speed Check software with an Allen Bradley SafeZone Mini Safety Laser Scanner. The result is FANUC’s NEW FENCELESS CERT Cart, which still fits through a standard door and runs off 110V power. The FENCELESS cart allows a greater work envelope and introduces students to the latest integrated safety products from FANUC and Allen Bradley. -
Students trained on ROBODRILL products will be more productive. Excellent repeatability makes the ROBODRILL suited for milling, drilling, tapping, and boring with flexibility, versatility, and reliability. Specific ROBO DRILL education packages have been configured for the needs of educational institutes teaching 3-axis and 5-axis machining, robotic machine tending, and Connected Smart Manufacturing (CSM). -
Item Number:α-D14MiBThe new-generation FANUC ROBODRILL promises unrivaled quality and precision at great hourly rates. At the heart of every ROBODRILL is a patented high-speed tool changer that can carry 21 tools and offers the best reliability in its class. -
The FANUC Robot Integration Package (25098) allows customers to use a FANUC industrial robot with Amatrol’s 870-series mechatronics stations. This package contains a module enclosure that includes PLC and FANUC interface cables along with a customized program to integrate a customer-supplied FANUC robot with the mechatronics system. Additional features include customized gripper tooling and a safety guard assembly to protect learners. -
The primary goal of this course is to teach workers safe work procedures to be aware of and mitigate warehouse fires in a warehouse environment. The Warehouse Fire Hazard Awareness simulation is ideal for employees or supervisors who work in or around warehouse operations. -
Item Number:356DAC Worldwide’s Fire Tube Boiler Model (356) is a highly-detailed scale model of a common fire tube, Scotch marine boiler, supporting training in the operation and maintenance of industrial boilers, as found within utility systems in industrial facilities and large commercial applications. -
Item Number:291DAC Worldwide’s Fired Heater Model (291) depicts a highly-detailed, to-scale model of a common industrial furnace found in refineries and process facilities in technically-accurate, professionally-crafted detail.
