Automation Control

Direct Drive Inverted Pendulum System

Product Details:
  • Dimensions: 620 x 95 x 415 mm
  • Maximum Speed: 1.5 m/s
  • Pitch: 10 mm
  • Gliding Block Mass: 1.7 kg
  • Linear Motor Encoder Resolution: 10,000 pulse/pitch
  • Rotary Encoder Resolution: 2400 pulse/r
  • Control Refresh Rate: 200 us
  • Swinging Rod Length: 400 mm
  • Swinging Rod Mass: 0.105 kg
  • Maximum Acceleration: 10 m/s2

  • The Inverted Pendulum System (IP) is a classical experiment device for undergraduate and graduate students for learning control algorithm. Rotary motor is usually used and linear motion is achieved by indirect conversion of synchronous belt. The all new Direct Drive Motor Inverted Pendulum System by Googoltech using advanced cylindrical linear motor for direct driving. It gets rid of intermediate transformation segment of indirect control mode. The modeling process is thus more accurate and reliable. This new type of direct drive mode is modern and can stimulate the curiosity as well as learning passion of the students.

System Characteristics:
  • Cylindrical linear motor and advanced position detection technology are adopted so that the system structure is simple. Students can better understand the motion principle of electromechanical system through learning.
  • Students can carry out PID, root locus, LQR and other controller design with the attached Matlab examples. They can feel the enchantment of automatic control technology.
  • When implementation of control algorithm in Matlab environment is completed, students can set up their own DSP, ARM, FPGA, MCU and other platforms for higher efficiency real-time control of the inverted pendulum.


    Control Principle:

    • DDR Linear Inverted Pendulum is a typical single input double output system with acceleration of motor as input, swinging rod angle and motor position as outputs. By detecting and sending back angle of swinging rod and motor position to the controller, a suitable acceleration control generated by the controller is transferred to the motor to keep the swinging rod in vertical upward state. The motor is also kept stably within the set balanced position. The below diagram is the system diagram of the DDR IP based on LQR control algorithm.


      Experiment Content:

      • System modeling
      • PID controller design, Root locus controller design
      • Frequency domain model controller design
      • State space model controller design etc.


        Ordering Guide:

        Model No.

        Product Name

        Standard Package


        Direct Drive Inverted Pendulum System

        u Direct Drive Inverted Pendulum system main body

        u GT-400 PCI motion control card

        u Electric control module

        u Googol Simulink experiment platform

        u User manual CD and connecting cables

        New Magnetic Levitation System

        Product Details:
        • Body Dimensions: 210 x 150 x 280 mm (L x W x H)
        • Power Supply: 220 VAC
        • System Weight: 8 Kg
        • Control Box: 220 x 200 x 75 mm (L x W x H)
        • Coil Resistance: 13.8
        • Turns: 2,450
        • Coil Inductance: 135 mH
        • Core Size: =20 mm , H=94mm
        • Control Distance: 1-30mm (steel ball = 94g , = 45mm)
        • Laser Sensor: Class 2 Red Semiconductor Laser, 655nm, 1mW max

        Magnetic levitation is a classical technology in mechatronics. It combines electromagnetism and electronics technology, control technology, signal processing, mechanics, and dynamics. The technology is widely used in many industry fields such as magnetic levitation train, magnetic suspension bearing, miniature transmission equipment, measuring instrument, robotic wrist, magnetic levitation educational system, etc. The Magnetic Levitation System (Model: GML2001) from Googoltech provides an ideal experiment platform for research and tutorial for undergraduate and graduate students studying classical control theory and modern control theory. Apart from its modern designed appearance, laser sensor is also applied as feedback signal to measure moving distance of the floating ball accurately. In addition, the Magnetic Levitation body (Model: GML2001A) can be provided as a standalone experimental device for any third party or self-designed controller.

        System Features:
        • Students can thoroughly comprehend PID tuning, root locus tuning, frequency domain method tuning, status feedback control method with Matlab software platform experiment course.
        • Via optional analog control system, by observing and comprehending the structure of control system and the characteristic of driving module, students can construct embedded magnetic levitation controller by combining the analog control system with DSP, ARM, MCU, etc. The embedded discrete control algorithm can be perfected by comparing control results.
        • Students can select components such as photoelectric, ultrasonic, infra-red distance detecting sensor to build up the magnetic levitation body; and construct complete magnetic levitation system with self-designed embedded controller.
        • Laser sensor is used as feedback signal. Through the experiments, the non-linearity of the system can be directly viewed by the distribution of the electromagnetic field.


        Control Principle:

        • When the ball moves up and down vertically under the electromagnet, the laser sensor right below the ball detects the distance between the apex of the ball and the lowest part of the electromagnet. It converts the voltage signal to the controller. The controller calculates the output current level of the electromagnet coils. The emerged magnetic force can levitate the ball under the electromagnetic stably in any arbitrary position within the range.
        • Due to the characteristic of the mathematical modeling of the device that the composed unit is unstable without the controller, a corresponding controller must be designed to stabilize the system. As the linearization has to be carried out around a non-zero operating point, it is therefore very challenging.


        Experiment Content:

        • Based on Matlab platform
        • System modeling experiment and analysis;
        • PID tuning & PID controller design;
        • Root locus tuning, frequency domain method tuning, and status feedback.
        • Based on analog control system
        • PID tuning & analog control experiments.

        Matlab Control Interface:
        • Use Root Locus Control as an example (support Matlab version 2012b or above)


        Control Configurations:

        • Digital Control
        • The standard model (GML2001) uses PCI Data acquisition card to communicate with the Magnetic levitation system drive.
        • Analog Control
        • The analog control box model GAES1001 directly uses amplifier to control the system by two control schemes: current control and voltage.
        • Any other third party or self developed controller.

        DC Servo Control Trainer

        Product Details:
        • Motor: DC 70 W
        • Encoder: DC 1,000P/R
        • Gross Weight: Less Then 20 Kg
        • System Weight: Less Then 10 Kg
        • Gear Ratio: 1:4
        • Potentiometer: Linearity +- 1.5 %
        • Power: AC220 V 50HZ 1A
        • Size: 450(L) 280(W) 190(H) mm

        The GSMT series DC servo control experiment platform provides the basic experiment device for elementary control and automation courses in electronic and computer engineering, mechanical engineering. Various experiments such as system identification, modeling of DC servo motor, controller design and controller performance analysis etc. can be performed. With this platform, users can understand the basic principles of PID's influence on system performance index, master the method to adjust the PID current controller, speed controller and position controller parameters of the DC servo motor and comprehend the influence of damping torque and disturbing torque on position and speed control performance, so as to learn the practical skills of the motion control. The series contains GSMT2012, the system of intelligent servo drive-based single motor; and GSMT2014, the system of twin motors based on high-performance motion controller GT-400 developed by Googoltech and the intelligent servo drive, which enables the real time control experiment under MATLAB/Simulink, and covers system modeling and stability analysis, time-domain analysis of second-order system, root locus analysis of third-order system, frequency-response analysis, PID calibration, root locus correction, frequency domain method correction and state feedback. By contrasting different control methods, one can better understand the control theories and learn their applications. In addition, Googoltech also provides controller free DC servo experiment platform GSMT2004 that allow users to integrate the self-developed controller or third party controllers flexibly. The model GSMT2004 come with sensors of DC servo motor, encoder, speed measuring motor, rectilinear potentiometer.

        Control Modes:
        • Digital Control: The basic model (GSTM2012) uses PC com port to communicate with the intelligent driver and motor with velocity and position.
        • Analog Control: The optional analog control box model GAES1001 directly uses amplifier to control the motor by the analog circuit. User could implement simple PID control.
        • Control under Googoltech motion controller: For model GSTM2014 only, using dedicated PCI motion controller model from Googoltech to achieve real time control in the MatLab environment with high accuracy and degree of linearity.

        Ball & Beam Control System

        Product Details:
        • Power Supply: AC220 V 50HZ 1A (AC110V optional)
        • Weight: Less Then 10 Kg
        • Moving Range: 400 mm
        • Control Precision: Less Then 5 mm
        • Synchronous Belt Reduction Ratio: 4
        • Ball Diameter: 30 mm
        • Motor: DC servo 70 W
        • Dimension: 530 x 200 x 332 mm

        GBB series Ball & Beam control system are specially designed for courses in automatic control principle, modern control engineering, and electrical motor control. It is able to control the position of a stainless steel ball on the track by adjusting the rotating angle of a beam. The system consists of two parts, namely the Ball & Beam body and the control system. The Ball & Beam body consists of a v-grooved steel bar and a free rolling ball. The linear sensor measures the position of the ball on the track by measuring the output voltage from the stainless steel bar. A DC motor is connects to a gear reducer, which controls the angle of beam, accordingly realize the position control of the ball. Experiments such as system modeling, design of feedback controller, P, PD and PID control system design, design controllers using root locus methods, and frequency response methods etc. can be achieved with this experiment platform.

        Ordering Guide :

        Model no.

        Product name

        Standard package


        Ball & beam system (new)

        -       Ball & beam system main body (new)

        -       GTS-400 motion control card

        -       Electric control module

        -      Easy Motion Studio software development platform

        -      Googol Simulink general software experiment platform


        Ball & beam system

        -       Ball & beam system main body

        -       Electric control module

        -      IPM Motion Studio software development platform

        -      Googol Simulink general software experiment platform


        Analog control system

        -       For both systems (Optional)

        Linear Inverted Pendulum

        Product Details:
        • Valid Travel Distance: 720 mm
        • Max Motion Velocity: 6000 mm/s
        • Friction System between Dolly and Sliding Bar: Less Then 0.02N s/m
        • Size: 1000(L) mm x 220(W) mm x 150(H) mm
        • Weight: Less Then 15 Kg

        Inverted pendulum system is a nonlinear unstable system, an ideal experiment platform for teaching control theories and conducting various control experiments. Many abstract control concepts, such as the stability and the controllability of a control system, can all be shown visually through the inverted pendulum system. In addition to educational purposes, an inverted pendulum is also a research area for many researchers of modern control theories. Through the continuous research on new ways of controlling inverted pendulum, researchers have developed new control methods, and apply them to the high tech areas such as aeronautical engineering and robotics, thanks to the characteristics of the system, such as high-order, instability multi-variables, non-linearity and strong coupling. The linear inverted pendulum series products developed by Googol Technology adopt an open control solution and a modularized experiment platform. With the linear motion module as the base platform, it is easy to build more than 10 teaching and experiment control platforms, satisfying the various needs for control teaching and research.

        Industrial Grade Components:
        • All the modules are designed and manufactured with industrial components. For example, the sliding guide bars are made of precision stainless steel, the synchronization gear belt is a gear belt of industrial grade, and the base platform has the vibration absorption function.
        • Industrial grade encoder, AC servo motor and drive to ensure best quality and reliability. Compared with similar products of other brands using DC motors, the AC servomotor offers the additional advantage of no maintenance on brushes and longer service life.
        • Limit switches, anti-collision buffer device, as well as the unique structure design provide excellent system safety, especially suitable for students.


          Open Architecture:

          • Hardware platform is based on PC and DSP-based motion controller.
          • Experiment verification and demonstration program of DOS version, with source codes provided.
          • MATLAB Windows2000 experiment program, with SIMULINK as user interface can build model, perform simulation and analysis, evaluate control performance, and improve control system directly.
          • Comprehensive experiment kit , covering the dynamic modeling, classic control experiment, modern control experiment, optimized control experiment and intelligent control experiment. Users can select relevant material for the experiment and teaching needs of various courses.


          User Creativity:
          • Flexible configuration of customized experiment platform.
          • Develop and verify one's own control algorithm.
          • Tackle the challenging control problems related to three- and four-stage inverted pendulum.


            Applicable Courses:

            Mechanical engineering control fundamentals, automatic control principle, modern control engineering, linear control system and computer control system etc.


            Recommended Text Books

            Modern Control Engineering (Third Edition)

            [USA] Author: Katsuhiko Ogata, Translated by Lu Boying, Yu Haisun, etc. Published by Electronic Industry Publishing Company, 2000.

            Circular Inverted Pendulum

            Product Details:
            • AC servo Motor Power: 200 W
            • Rod Length: GRIP2001: 500 , GRIP2002: Rod 1: 175; Rod 2: 500
            • Rod Weight: GRIP2001: 0.13 , GRIP2002: Rod 1: 0.06 Rod 2: 0.13
            • Motor Encoder: 2500 P/R
            • Pendulum Rod Encoder: 600 P/R
            • Deceleration Ratio: 15:1
            • Rotation Radius: 270 - 450
            • Rotation Angle: 360
            • Power Supplier: AC220 V; 3A
            • Weight: GRIP Main Body: 35 kg, Control Box: 11
            • Dimension: GRIP2001: 700(H) x700(W) x1425(H) mm , GRIP2002: 700(H) x700(W) x1600(H) mm

            The circular inverted pendulum series of products adopts an open architecture control solution and a modularized experiment platform. With the circular motion module as the base platform, it is easy to build circular one-stage inverted pendulum, circular two-stage serial inverted pendulum, circular two-stage parallel inverted pendulum, and even the combined serial-parallel inverted pendulums of three- and four-stages, satisfying the various needs for control teaching and research.Googol*s PC plug-in motion controller is used as control module, MATLAB or C Language can be used and thus facilitate users to carry out experiments and research works.

            Main Feature:

            System Specification
            • Circular track with no travel limit for the inverted pendulum, suitable for swing up algorithm design.
            • Slip ring to feed signal to the controller.
            • Floor-standing structure, no workbench is required.
            • Industrial incremental encoder l feedback and AC servo motor.


              Open Architecture

              • Open platform based on PC and DSP-based motion controller.
              • Open experiment verification and demonstration program of DOS version, with source codes provided, especially suitable for research of control algorithm.
              • Googol Simulink software experiment platform provided for experiments such as system modeling, simulation and real time control.


                User Creativity
                • Configure unique experiment platform
                • Develop and verify one*s own control algorithm.
                • Tackle the challenging control problems of controlling t the balance of parallel inverted pendulum and starting of serial inverted pendulum.


                  Modularized Platform
                  • Circular motion module
                  • Circular one-stage inverted pendulum
                  • Circular two-stage serial inverted pendulum
                  • Circular two-stage parallel inverted pendulum
                  • Combined serial and parallel inverted pendulum of three- and four-stages


                  Ordering Guide:

                  Model Number 

                   Model Name 



                  Circular One-Stage Inverted Pendulum

                  •  Circular One-stage inverted pendulum module
                  • GRIP2001 Electric control box
                  • GT-400-SV motion controller
                  • GRIP2001 experiment software pack (DOS version with source code)
                  • Googol Simulink software experiment platform


                  Circular Two-Stage

                  Serial Inverted Pendulum

                  • Circular Two -stage inverted pendulum module
                  • GRIP2002 Electric control box
                  • GT-400-SV motion controller
                  • GRIP2001 & GRIP2002 experiment software
                  • pack (DOS version with source code).
                  • Googol Simulink software experiment platform


                  Circular Two-Stage Parallel Inverted Pendulum

                  • Circular Two-Stage Parallel Inverted Pendulum  module
                  •  GRIP2011 Electric control box
                  •  GT-400-SV motion controller
                  •  GRIP2001 & GRIP2011 experiment software pack (DOS version with source code).
                  •  Googol Simulink software experiment platform



                    Four-Rotor Hover Vehicle

                    Product Details:
                    • Size: 1000(L) mm x 1000 (W)mm x 670(H) mm
                    • Motion Controller: GT-400-SV-PCI
                    • DC Motor: 24V 5000RPM
                    • Pitch Encoder: 1000P/R
                    • Roll Encoder: 1000P/R
                    • Yaw Encoder: 600 P/R
                    • Slip Ring: 18 Line
                    • Pitch Angle: -30 Degree -30 Degree
                    • Roll Angle: -30 Degree -30 Degree
                    • Yaw Angle: 0-360 Degree
                    • Power Input: AC220V, 50HZ, 2A
                    • Weight: 50 kg

                    The four-rotor hover vehicle consists of motors with airscrews, encoders, drive modules, motion controllers and slip rings, etc. It is a highly coupled multiple degrees of freedom system. Different flight controls such as elevation and depression, inclination and hovering of the vehicle can be achieved. The system is suitable for undergraduates, postgraduates and control theory researchers to carry out verification and research of control theory such as optimal control, robust control, etc. The four-rotor hover vehicle is powered by the 4 airscrews of the motors placed at the gumball shaft. The front, left and right motors drive the corresponding airscrews to fulfil the elevation and depression of the vehicle, the left and right motors drive the corresponding airscrews to overturn the vehicle, while the rear motor drives the corresponding airscrews to realize the navigation of the vehicle. The 3 encoders which are installed on the platform detect the different aviation statuses of the vehicle and form a closed loop system, thus fulfil precise positioning of the elevation and depression, tilting and hovering of the vehicle. Slip rings are installed in the base of the vehicle so that the wirings will not tangle up when the vehicles rotate freely. It also helps to reduce friction.

                    Main Features:
                    • Open architecture design
                    • Hardware platform based on PC and open architecture DSP motion controller
                    • Typical multi-input multi-output system (MIMO)
                    • Attractive appearance


                      Reference Experiments:

                      • System modelling and analysis experiment
                      • System open loop response analysis
                      • PID controller design


                      Ordering Guide:

                      Model Number

                      Product Name



                      Four rotor hover vehicle

                      •  Four-rotor hover vehicle main body
                      • GT-400-SV motion controller
                      • Googol SIMULINK software experiment platform

                      Magnetic Levitation System

                      Product Details:
                      • Size: 350mm x 178mm x 376mm (LxWxH)
                      • Sampling Frequency: 30KHz (AD)
                      • Power Input: AC220 V 50HZ 3A (AC110V Optional)
                      • Weight: Less then 10Kg
                      • Control Range: 1- 20mm (m=22g , diameter =25mm), 1~15mm (Steel ball m=120g , diameter =55mm)
                      • Winding Resistance: 13.8o hm
                      • Control Precision: 0.1 mm
                      • Winding Turns: 2450
                      • Winding Inductance: 135 mH
                      • Winding Dimension: Diameter=20 mm , H=94mm
                      • LED Light Source: +12V, 1W

                      The Magnetic Levitation System (MLS) is composed of an LED light source, an electromagnet, an optoelectronic sensor, amplifier module, an analogue control module, data acquisition card, and a steel ball, etc. Its structure is simple, yet the control effect is very intuitional and interesting. One can easily levitate one or more steel balls in a steady-state position and keep them floating. This system synthesizes main experimental contents in control area and satisfies many experiment requirements such as automatic control, control theory, and feedback system, etc, which are suitable for UG or PG course designs and algorithm research as well.

                      Control Principle:
                      • The MLS is a typical non-linear open-loop unstable system. By passing a certain amount of electric current through the electromagnetic winding, it will generate an electromagnetic force. By regulating the electric current in the circuit, the electromagnetic force can be adjusted to be equal to the weight of the steel ball, thus the ball will levitate in equilibrium state. However, this state is an open-loop unstable equilibrium; it is because the electromagnetic force between the electromagnet and the steel ball is inverse proportional to the square of the distance between them. Once the equilibrium state is slightly interfered (For instance, pulsation of the voltage across the electromagnet winding, or vibration around the system, etc), the ball will drop or be gripped by the electromagnetic winding, so the system has to be a closed-loop control system.
                      • The measuring equipment, which is composed of an LED light source and a sensor, can detect the variation of the distance between the steel ball and the electromagnetic winding. When the ball is dropping due to interference, the distance will increase. The sensor detects the variation of light intensity and generates a related signal. After the adjusting process by the controller and the magnifying process by the amplifier, the control electric current passing the electromagnetic will increase, the steel ball will be attracted back to the equilibrium position.


                      Ordering Guide:

                      Model Number

                      Model Name



                      Magnetic Levitation System

                      •  MLS main body
                      •  Data acquisition card
                      •  Googol SIMULINK software experiment platform
                      •  Analogue control module (Optional)

                      Four-Axis Motion Control Development Platform

                      Product Details:
                      • Structure: Plat shelf style
                      • Weight: Less Then 35 Kg
                      • Motion Accuracy AC Servo: 10000
                      • Motion Accuracy DC Servo: 1600
                      • Motion Accuracy Step Motor: 720
                      • Number of Control Axis: 4
                      • Special Analog Input Signals Of Each Axis: Positive And Negative Limit, Origin Point, Aervo Alarm, Etc
                      • Special Analog Output Signals Of Each Axis: Drive Activation, Drive Resetting
                      • Universal Analog IO: 16 /16
                      • Size: 500 mm x 500 mm x 1200 mm

                      GMD Series of four-axis motion control development platforms is specially designed by Googol Technology Ltd. In general, there are four types of model: AC servo model, DC servo model, step motor model and the model with 2 AC motors & 2 step motors. They are able to demonstrate the futures of most popular motion controllers and meet the requirements in technique development, testing and teaching various kinds of motion control systems.

                      • The main conponents and interface for GMD Series of four-axis motion control development platform


                      System Features:

                      • Compact structure
                      • Googols original motion controller is adopted
                      • Windows and DOS operation systems.
                      • The relative movement of each motion axis can be reflected visually from the motors.
                      • Dedicated input signals of each motor are simulated through the button switch on the front panel to test the response of the control system to each input signal.
                      • Dedicated output signals of each motor and the 16 channels of universal output signals are shown by the indicator lights on the front panel.
                      • 16 Channels of universal input digital signals are simulated through flipping the switches, easy and quick to be operated.
                      • 8 Channels of independent analog signals input and 2 channels of auxiliary encoder signals input (OPTION).


                        Ordering Information:


                        Model Name



                        Four-axis AC servo motor motion control development platform

                        •  AC servo demo platform (4 AC motors)
                        • GT-400-SV motion controller
                        •  Motion control function library and demo software


                        Four-axis DC servo motor motion control development platform

                        • DC servo demo platform (4 DC motors)
                        • GT-400-SV motion controller
                        • Motion control function library and demo software


                        Four-axis step motor motion control development platform

                        • Step demo platform (4 Step motors)
                        • GT-400-SG motion controller
                        • Motion control function library and demo software


                        Composite motion control development platform

                        • Development platform equipped with 2 AC motors and 2 step motors
                        • GT-400-SV motion controller
                        • Motion control function library and demo software

                        Air Conditioning

                        Product Details:
                        • Dimensions: 0.66 x 1.04 x 0.35 m.
                        • Net Weight: 16 Kg
                        • Average Training hours: 10 H

                        The laboratory consists of a set of simulation panels and of demonstrators with real components that allow studying and performing practical tests in refrigeration and air conditioning.The simulation panels are supplied with a CAI software that allows students to develop all the learning activities through a PC.
                        If the PCs are connected to a computer network, a laboratory management software allows a complete control by the teacher of all the activities within the laboratory.Both the simulation panels and the demonstrators are provided with a fault simulation system.

                        Analog Control Module

                        Product Details:
                        • Input Power: 220VAC 1A 50HZ
                        • Control Precision: 1 %
                        • Linear Driving Output Power: +-12V, 2.5A, +-12V, 2.5A
                        • Output Power: 5V, 1A, +-12V, 2.5A
                        • Dimension: 420 x 320 x 120 (mm)
                        • Weight: About 6KG

                        The analog control module can be combined with Googol Techs automatic control experiment devices to perform typical closed-loop analog circuit experiments, magnetic levitation ball control experiments, ball & beam control experiments and many other experiments. Students can apply the analog control in many different fields and have a better understanding of automatic control theories and knowledge through these experiments. It is suitable for mechatronics, machinery and automations, automation majors and other related experiments teaching purpose.

                        System configuration:
                        • The analog control module is composed of the followings:
                        • Linear amplifying driving circuit, voltage: 24V, current: 5A;
                        • operational amplifiers which can form 2 PID controllers;
                        • Signal generator: triangle wave, sinusoidal wave and square wave;
                        • Adjustable voltage output;
                        • Circuit board for students to set up their own circuits;
                        • Current loop, speed loop are used to detect the circuit;
                        • DC power, 24V, 6A


                          Ordering Guide:


                          Product name

                          Product description and configuration


                          Analog Control Module for DC motor

                          •  Analog Control Module Box
                          •  User Manual
                          •  Experiments Manual

                          Automotive Machine

                          Product Details:
                          • Application: Industrial
                          • Corrosion Resistance: Yes
                          • Material: Steel
                          • Type: Automotive

                          Simulators for the study of the operating characteristics of hybrid systems, internal combustion y three-phase electric motor, and lightweight electric vehicles: bicycle, scooter, car.This simulator is an educational system designed in vertical frame, bench-top, so the students have the capability to watch the theoretical and practical study of the Automotive systems.It includes color mimic diagram that clearly shows the structure of the system and allows the location of components on it. The simulator consists of a panel operating by PC with mimic diagram for the clear positioning of the components. The various zones of the mimic diagram are presented with different colors and shades to emphasize the peculiar characteristics of the system. The mimic diagram is fitted with light indicators so as to enable the observation of the control.
                          The display of the information available at the PC monitor allows the continuous monitoring of the educational system.The operational conditions are entered by the students. The insertion of faults is carried out by the PC.The simulator is accompanied by relevant software to enable the student to follow step-by-step the theory and the exercise. The whole exercise procedure is carried out on the simulator The system is accompanied by technical manuals for theory and exercises

                          Electronics Machine

                          Product Details:
                          • Power Supply AC Outputs: 2 x 24V, 1,7 A
                          • Frequency: 10Hz to 100kHz (3 ranges)
                          • Waveforms: Sine, Square, Triangle

                          Electronics Technology is the multidisciplinary environment for the research and the development of solutions related to the production processes.It deals with the study of the procedures and of the equipment that are necessary for transforming a given matter to an industrial product and represents, in synthesis, the passage from knowledge, given by the science, and know-how.
                          De Lorenzo intends to contribute to the improvement of the students' learning process, by offering them the best opportunities for their intellectual growth, their development and acquisition of a critical consciousness and responsibility.

                          26.5 GHz Microwave Power Meter MPM26

                          Product Details:
                          • Wide Range From: +20 dBm(100mW)
                          • Resolution: 0.1 dB
                          • Display: Digital Display Touchscreen TFT
                          • measurement Range: 10 MHz to 26.5 GHz

                          26.5 GHz Microwave Power Meter MPM26:


                          • Measurement in dBm & 22 other units
                          • X band DRO source for scalar network analysis
                          • Measures Gunn and Klystron Source outputs.
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