Reference ADF-100A

Our simulator enables trainees to gain hands-on experience with ADF (Automatic Direction Finder) systems. It provides realistic practical training using original aircraft ADF equipment, configured to deliver an authentic learning environment that closely reflects real operational conditions.

The simulator’s design allows trainees to develop a thorough understanding of ADF systems and to adopt a structured and methodical approach to testing, fault diagnosis, and troubleshooting procedures. We carefully analyze our customers’ training requirements and tailor our solutions to meet their specific educational objectives.

The training unit is delivered fully assembled and ready for use, including all required components such as antennas, transmitters, receivers, indicators, and complete cabling.

Optional equipment:

• ADF test set
• NAV/COM ramp tester

Please contact us for further information regarding available test equipment.

Reference : 162417

Technical Specifications

• Fully protected against overloads and short circuits
• 4 mm safety terminals
• Input voltage: 85–265 V AC (47–63 Hz)
• Output voltage: 24 V DC
• Maximum output current: 4 A
• Dimensions: 75 × 155 × 235 mm

Supplied with mains power cable

Reference : 8049382

Technical Specifications

• Fully protected against overloads and short circuits
• 4 mm safety terminals
• Input voltage: 85–265 V AC (47–63 Hz)
• Output voltage: 24 V DC
• Maximum output current: 4 A
• Dimensions: 75 × 155 × 235 mm

Supplied with mains power cable

Reference : 8208217

Step-by-Step Exploration of the Fundamentals of Control Engineering

FluidLab-PA Closed-Loop is an intuitive software platform designed to explore and demonstrate the core principles of control engineering in a structured and practical way.

The software enables measurement, control, and regulation of pressure, temperature, flow, and level control loops using either real or simulated hardware systems, including EduKit PA, MPS PA Compact Workstation, MPS PA Stations, and EDS Water Management systems.

Learning Objectives

• Master the fundamental principles of control engineering
• Apply control technology concepts in practical scenarios
• Integrate hardware components into a complete control system
• Customize system parameters (sensor values, signal attenuation, simulation modes)
• Analyze and interpret process data

Key Advantages

• Provides a realistic and interactive platform that immerses learners in real-world process control scenarios
• Advanced visualization of complex continuous control and regulation systems
• Enhances engagement through graphical documentation display and real-time system feedback
• Customizable parameters to support individualized learning and experimentation
• Seamless integration with physical training systems for hands-on experience

Reference : 8208223

Introducing Students to Process Engineering with Real or Simulated Training Systems

FluidLab-PA Process is designed to provide an accessible introduction to process engineering using either real or simulated learning systems.

The software supports commissioning, operation, and monitoring of EduKit PA as well as selected workstations from the MPS PA and EDS Water Management systems. It promotes a solid understanding of process control engineering principles through structured and application-oriented learning.

Learning Objectives

• Understand plant behavior, process operations, and different control strategies
• Develop commissioning skills to ensure safe and efficient system operation
• Monitor machine status, manage alarms, and analyze deviations
• Program process sequences using electrical circuit diagrams, logic diagrams, and GRAFCET

Key Advantages

• Interactive training that reinforces theoretical knowledge through practical application
• Redesigned interface ensuring a consistent operating concept across all hardware systems
• Seamless switching between real and simulated systems, enabling remote learning and curriculum expansion without additional hardware investment
• Modern software architecture allowing easy integration of additional equipment and updates

Reference : 548687

Technical Features

• 16 digital inputs/outputs
• 4 analog inputs and 2 analog outputs
• 8 digital inputs/outputs each wired to a 24-pin SysLink connector (IEEE 488 compliant)
• Digital input 0 on Port 1 and Port 2 configurable as high-speed counter input
• Counter inputs operable with voltage levels from 5 to 24 V DC
• Analog I/O connected via a 15-pin Sub-D connector
• 12-bit analog-to-digital conversion resolution
• Sampling rate: 0.5 kHz
• Data communication via RS232 serial interface or USB
• Transmission rate: 115.2 kbaud

Up to four EasyPort USB modules can be connected simultaneously via a USB hub or four separate USB ports on a PC. Each module must be assigned a unique address.

For signal exchange between EasyPort USB and PC software, the EzOPC OPC server or the EasyPort USB ActiveX control component is available.

Reference : 8021637

Technical Features

• 16 digital inputs/outputs
• 4 analog inputs and 2 analog outputs
• 8 digital inputs/outputs each wired to a 24-pin SysLink connector (IEEE 488 compliant)
• Digital input 0 on Port 1 and Port 2 configurable as high-speed counter input
• Counter inputs operable with voltage levels from 5 to 24 V DC
• Analog I/O connected via a 15-pin Sub-D connector
• 12-bit analog-to-digital conversion resolution
• Sampling rate: 0.5 kHz
• Data communication via RS232 serial interface or USB
• Transmission rate: 115.2 kbaud

Up to four EasyPort USB modules can be connected simultaneously via a USB hub or four separate USB ports on a PC. Each module must be assigned a unique address.

For signal exchange between EasyPort USB and PC software, the EzOPC OPC server or the EasyPort USB ActiveX control component is available.

Reference : 8232218

Process Workstation

Process Equipment

• Industrial stainless-steel piping
• Polyethylene tank – 60.6 L (16 US gal)
• Large acrylic column with sparger tube and stainless-steel baffle – 30.4 L (8.0 US gal)
• Small acrylic column – 7.6 L (2.0 US gal)
• High-capacity brass centrifugal pump – 0.75 kW (1 HP), 208 V
• Medium-capacity brass centrifugal pump – 0.75 kW (1 HP), 208 V
• Two SIMATIC G120 variable frequency drives – 0.75 kW
• 2-way ball valve with manual lever, flow coefficient Kv = 59 m³/h
• Manual ball valve
• Check valve with flow coefficient Kv = 9.482 m³/h
• 20 stainless-steel pressure tapping points
• Emerson pneumatically actuated ball valve (12 mm / ½"), Kv = 5.16 (Cv = 6), control range 21–90 kPa (3–13 psi)
• Festo VPPM digital proportional pressure regulator
• Pressure gauge – 0–690 kPa (0–100 psi)
• Rotameter – 0–80 LPM (0–20 US gpm)
• Festo VZWM solenoid valve – 24 V DC
• Festo VZXF pneumatically piloted angle-seat control valve

Control Components

• SIMATIC IPC BX-32 with SIMATIC PCS neo V6.0 license and database
• Siemens CPU410-5H
• SIMATIC ET 200SP HA IM155-6 PN interface module
• SIMATIC ET 200SP HA BA 2xRJ45 bus adapter with dual RJ45 ports
• SIMATIC ET 200SP HA DI 16x24VDC digital input module with channel diagnostics
• SIMATIC ET 200SP HA AI 16xI 2-wire HART analog input module, 16-bit, with channel diagnostics
• SIMATIC ET 200SP HA AQ 8xI HART analog output module, 16-bit, with channel diagnostics
• SCALANCE XC208 managed Layer 2 industrial Ethernet switch
• Pepperl+Fuchs PPA Ethernet-APL / Profibus PA switch
• Siemens IPC BX-32A
• 22” flat panel display (IFP2200)
• Electronically configurable signal tower with 9 segments and acoustic module
• SITOP PSU8200 stabilized power supply – 24 V / 20 A
• SITOP PSE200U 4-channel electronic protection module

Instrumentation (Endress+Hauser)

• PTC31B pressure switch (IO-Link®)
• PMD75B differential pressure transmitter (high range, PROFINET over Ethernet-APL, Bluetooth®, Heartbeat Technology)
• TH15 temperature transmitter with Pt100 RTD (HART®, Bluetooth®)
• TH55 temperature transmitter with Type J thermocouple (HART®, Bluetooth®)
• 5P3B15 electromagnetic flowmeter (HART®, WLAN, Heartbeat Technology)
• FMR51 + FHX50 radar level transmitter with remote display (Bluetooth®, Heartbeat Technology)
• PMD75B + DA63M differential pressure transmitter with 3-valve manifold for Venturi flow measurement (low range, HART®, Bluetooth®, Heartbeat Technology)
• PMD75B differential pressure transmitter for level measurement (low range, PROFIBUS PA, Bluetooth®, Heartbeat Technology)

Gas (Air) Control

• Festo SPAU pressure sensor with display (IO-Link®)
• Festo VEMD mass flow meter with display and dynamic control (2–100 LPM, Modbus®)
• Festo MS6N precision pressure regulators – 5–255 kPa (0.7–37 psi), flow rate 1098 LPM (38.8 scfm)

Reference : 549786

Automation Training System

Automated systems are now an integral part of nearly every industry. With the MecLab® system from Festo Didactic, students gain a practical understanding of how automation technology is applied in real production environments.

The three MecLab stations represent simplified models of typical production processes found in modern automated manufacturing facilities. They provide a realistic yet accessible platform for learning the fundamentals of industrial automation.

Learning Objectives

MecLab® covers a wide range of topics and competencies, including:

• Introduction to key terminology in industrial automation
• Planning, development, and implementation of automated systems
• Technical documentation practices
• System modeling and simulation development
• Open-loop and closed-loop control systems
• Pneumatic and electrical actuators, sensors, and controllers
• Use of the computer as a tool for programming and simulation

Reference : FCT-693

The Fuel Cell Trainer is a comprehensive educational system designed to teach the fundamental engineering principles of PEM fuel cell technology. With extensive experimental capabilities and thoroughly revised instructional materials, including predefined experiments, it provides a complete and structured learning solution.

All components of the fuel cell system are individually displayed, ensuring maximum transparency and clarity during instruction. Integrated parameter displays allow real-time monitoring of operating conditions, enhancing both theoretical understanding and practical insight.

Thanks to its modular design, the Fuel Cell Trainer can be easily adapted to different educational levels, from introductory courses to advanced engineering programs. The system is suitable for users with limited prior experience. The included software supports computer-assisted measurement, data acquisition, and experimentation, enabling precise analysis and documentation of results.

Key Features

• Redesigned system architecture for enhanced engineering education
• USB interface for simple plug-and-play installation
• Improved instructional materials for both instructors and students
• Advanced experimentation software with integrated data acquisition
• Quick-start guides for fast setup and efficient operation

Learning Objectives

• Understanding the structure and operating principles of PEM fuel cell systems
• Application of thermodynamic fundamentals
• Analysis of characteristic curves and efficiency performance
• Fundamentals of system integration and power electronics

Areas of Application

Suitable for lectures and practical training in:

• Electrical Engineering
• Energy Engineering
• Process Engineering
• Mechanical Engineering
• Automotive Engineering

Reference

FCS3000 Fuel Cell Simulation Software

The FCS3000 Fuel Cell Simulation Software, when used in combination with the IT6000C bidirectional DC power supply and the IT6000B regenerative power system, enables accurate simulation of fuel cell stack polarization curves.

The system supports output voltages up to 2250 V and scalable power up to 1152 kW, meeting the requirements of high-power fuel cell simulation applications.

FCS3000 is specifically designed to replace real fuel cell stacks in laboratory environments, providing a highly efficient and flexible simulation platform for hydrogen energy and hybrid propulsion system research.

By eliminating the need for physical fuel cell stacks, the software helps reduce testing costs, simplify platform setup, and avoid performance degradation commonly associated with repeated experimental use of real fuel cell systems.

With its intuitive user interface and comprehensive data reporting capabilities, FCS3000 provides reliable experimental support for both practical testing and theoretical research.

Key Features

• Automatic wide-range output with voltage up to 2250 V
• Scalable fuel cell simulation power up to 1152 kW
• User-defined fuel cell polarization curve with up to 4096 programmable points
• Support for .csv file import for customized curve simulation
• Data storage and export functions for analysis and reporting
• Graphical software interface with real-time display of output voltage, current, and power

IT6000C Series – Bidirectional Programmable DC Power Supply

The IT6000C series is a bidirectional programmable DC power supply featuring third-generation SiC (Silicon Carbide) technology. It integrates both source and sink (load) functions into a single unit, enabling multi-quadrant operation.

With its advanced energy regeneration capability, the IT6000C feeds absorbed energy cleanly back into the grid. This significantly reduces overall power consumption and cooling requirements, while maintaining grid stability and power quality.

The IT6000C series provides an output voltage of up to 2250 V and supports parallel operation in a master-slave configuration with balanced current sharing. Total system power can be expanded up to 2 MW.

An integrated waveform generator enables the creation of arbitrary waveforms and supports LIST file import via the front-panel USB port. Combining high reliability, optimized efficiency, and comprehensive protection and measurement functions, the IT6000C is an ideal solution for demanding R&D, validation, and industrial testing applications.

Key Features

• Third-generation SiC technology, integrating source and sink functions in a single unit
• Standalone output power up to 144 kW, expandable to 2 MW through parallel operation
• Output voltage range: 0 – 2250 V
• Output current range:
  • 0 – 2'040 A (single cabinet)
  • 0 – 8'000 A (parallel system)
• High power density: up to 18 kW in a compact 3U form factor
• Seamless switching between source and sink modes
• Energy regeneration efficiency up to 95%
• Standard built-in interfaces: USB / CAN / LAN / Digital I/O
• Optional interfaces: GPIB / Analog / RS232
• Comprehensive protection features: OVP, ±OCP, ±OPP, OTP, power-off protection, and anti-islanding protection
• CC/CV priority setting with configurable control loop speeds
• Partial pre-compliance with standards: LV123, LV148, DIN 40839, ISO 16750-2, SAE J1113-11, LV124, ISO 21848
• Battery cycling capability supporting CC / CV / CP modes
• Built-in function generator for arbitrary waveform creation
• PV simulator function with optional SAS1000 software
• Battery simulator function with optional BSS2000 software
• Multiple operating modes with adjustable rise and fall times
• Data logging via USB flash drive, with a minimum sampling interval of 10 µs
• Advanced dynamic profile simulation with up to 10'000'000 points

References

SAS1000 Solar array software for IT6500C/IT6000B/IT6000C/IT-M3600

SAS1000L Solar array software for IT6500C/IT6000B/IT6000C/IT-M3600 (power ≤15kW)

SAS1000M Solar array software for IT6500C/IT6000B/IT6000C/IT-M3600 (multi-channel)

ITECH introduces its latest high-speed, high-performance photovoltaic simulation solution. When combined with high-power DC power supplies, the SAS1000/L solar array simulation software accurately reproduces solar array I-V curves, with output voltage up to 2250 V and scalable system power up to 10 MW.

The system delivers fast dynamic response, excellent control accuracy, high repeatability, outstanding stability, and precision performance. It features built-in simulation models compliant with EN 50530, Sandia National Laboratories PV model, NB/T 32004, CGC/GF004, and CGC/GF035.

Users can easily configure test regulations, material types, Vmp, Pmp, and other parameters to simulate I-V curve characteristics and automatically generate test reports. The software is ideal for static and dynamic maximum power point tracking (MPPT) performance testing of photovoltaic inverters.

Product Features

• Automatic wide-range output, with voltage up to 2250 V
• Scalable power up to 10 MW
• Built-in I-V curve mathematical model for accurate solar array simulation
• Simulation of various solar cell technologies (monocrystalline, polycrystalline, thin-film), including Fill Factor configuration
• I-V curve simulation under varying temperature and irradiation conditions
• Shading simulation for solar panels (e.g., cloud or tree shadow scenarios)
• Static and dynamic MPPT efficiency testing
• Built-in EN 50530, Sandia National Laboratories PV model, NB/T 32004, CGC/GF004, and CGC/GF035 test programs with automatic report generation
• Graphical user interface with real-time MPPT status monitoring
• Automatic programming of up to 100 I-V curves via Voc, Isc, FF, Pm, and other parameter points
• Support for 100 × 128-point curves and 4096-point high-resolution programming
• Adjustable output impedance
• Independent edge configuration for multiple operating modes, with adjustable rise and fall times
• Seamless bidirectional current switching for rapid cell charge and discharge simulation/li>
• Built-in DIN 40839 and ISO 16750-2 compliance
• Standard USB, RS232, GPIB, and LAN (LXI compliant) interfaces
• Support for up to 20 solar power supplies for multi-channel MPPT testing

Applications

• Design and validation of PV inverter MPPT circuits and algorithms
• Verification of inverter MPP voltage range and full-load MPP voltage range/li>
• Validation of static maximum power tracking efficiency
• Dynamic MPPT performance testing according to EN 50530, Sandia National Laboratories PV model, NB/T 32004, CGC/GF004, and CGC/GF035
• Verification of inverter start-up voltage, maximum input voltage, maximum input current, and related electrical parameters
• MPPT validation under partial shading conditions
• DC terminal protection testing (OVP, OPP)
• Validation of microgrid control centers and photovoltaic energy storage control functions
• MPPT performance verification from sunrise to sunset operating conditions
• Total and conversion efficiency testing of inverters when used with the IT9100 power analyzer

References

IT2801 Graphical Source Measure Unit (SMU) ±1000 V, ±1 A, ±20 W

IT2805 Graphical Source Measure Unit (SMU) ±200 V, ±1,5 A, ±20 W

IT2806 Graphical Source Measure Unit (SMU) ±200 V, ±3 A DC, ±10 A impulsions, ±20 W

IT2801R Graphical Source Measure Unit (SMU) ±1000 V, ±1 A, ±20 W, triaxial connector

IT2805R Graphical Source Measure Unit (SMU) ±200 V, ±1,5 A, ±20 W triaxial connector

IT2806R Graphical Source Measure Unit (SMU) ±200 V, ±3 A DC, ±10 A impulsions, ±20 W triaxial connector

The IT2800 Series is a next-generation Source Measure Unit (SMU) designed to deliver precision, versatility, and performance in a compact benchtop format. By integrating multiple test functions into a single instrument, it enables complete electrical characterization of electronic components with exceptional ease of use.

With true 4-quadrant sourcing and measuring capability, the IT2800 independently sources and measures voltage and current, ensuring highly accurate I–V characterization.

Covering an ultra-wide range from 10 fA to 10 A and 100 nV to 1000 V, the IT2800 supports both ultra-low current applications and high-voltage testing. Its advanced DC and pulsed measurement capabilities help minimize self-heating effects in the device under test (DUT), improving measurement reliability and accuracy.

The intuitive 5-inch touchscreen graphical user interface offers multiple display modes—including Graph View, Scope View, and Record View—significantly enhancing engineering productivity in both R&D and production environments.

Key Advantages

• 6-in-1 instrument integration: Voltage Source, Current Source, 6½-digit Digital Multimeter (DCV, DCI, Ohms), Battery Simulator, Electronic Load, and Pulse Generator
• True 4-quadrant sourcing and measurement capability
• Supports both 2-wire and 4-wire measurements
• High resolution up to 10 fA / 100 nV
• Multi-channel architecture with simultaneous and parallel testing capability
• Built-in resistance, power, and math measurement functions
• Front USB port for data storage, screen capture, and configuration import/export
• Comprehensive communication interfaces: USB, LAN, Digital I/O, with optional GPIB

Applications

• Discrete semiconductor device characterization
• Passive component testing
• Transient voltage suppression (TVS) devices and varistors
• Laser diodes
• Advanced electronic component testing in R&D and manufacturing environments

References

IT5101 Battery tester -300 V à +300 V, 3 mΩ à 3000 Ω, resolution: 0.1 μΩ

IT5101H Battery tester -1000 V à +1000 V, 3 mΩ à 3000 Ω, resolution: 0.1 μΩ

IT5101E Battery tester -300 V à +300 V, 15 mΩ à 3 Ω, resolution: 0.1 μΩ

IT5102 Battery tester 0 V à +60 V, 0.01 mΩ à 2 Ω, resolution: 0.1 μΩ

IT5102E Battery tester 0 V à +60 V, 0.01 mΩ à 2 Ω, resolution: 0.1 μΩ

The IT5100 Series is a high-precision, high-resolution, and high-speed battery internal resistance tester designed for demanding production and inspection environments.

Utilizing advanced AC 4-terminal sensing technology, the IT5100 simultaneously measures internal resistance and voltage with exceptional accuracy. It achieves a resistance resolution down to 0.1 μΩ and a voltage resolution of 10 μV, ensuring highly reliable test results.

With built-in statistical analysis and USB storage capability, the IT5100 supports long-term data recording when connected to an external USB drive. The integrated comparator function automatically determines whether battery parameters meet preset standards and calculates pass/fail rates, making it ideal for battery sorting and quality inspection applications.

Equipped with standard USB and LAN interfaces supporting the SCPI protocol, the IT5100 ensures seamless integration into automated test systems.

The IT5102 model supports 16-channel battery measurement per unit, with master-slave expansion up to 17 units and a maximum of 272 channels, significantly improving production testing efficiency.

The IT5100 Series is widely used in testing and sorting of mobile phone lithium batteries, electric vehicle battery packs, UPS systems, and other energy storage applications.

Key Features

• Simultaneous resistance and voltage measurement with 4.3-inch LCD display
• Voltage range: ±6 V to ±1000 V (model dependent), resolution: 10 μV
• Resistance range: 3 mΩ to 3000 Ω (model dependent), resolution: 0.1 μΩ
• Multiple voltage and resistance ranges with manual or automatic measurement modes
• High-speed measurement up to 125 readings per second (model dependent)
• AC 4-terminal measurement method for high accuracy
• Built-in USB and LAN interfaces with SCPI support
• Statistical analysis and USB data storage function
• Comparator function with HI / IN / LOW sorting display
• Zero adjustment function
• Measurement result alarm function
• IT5102 supports 16 channels per unit; expandable up to 272 channels
• Supports online battery testing (model dependent)
• Compatible with ITS5300 battery charge/discharge test systems for automated measurement

Applications

• High-voltage battery pack testing (electric vehicles, lithium batteries, etc.)
• Battery module testing
• Large-capacity and low-resistance cell testing
• High-speed mass production testing of coin cells
• UPS inspection and maintenance
• Deterioration and lifecycle assessment of alkaline and lead-acid batteries
• Contact resistance testing
• Equivalent Series Resistance (ESR) testing

The IT6600C Series is a new-generation graphical bidirectional programmable DC power supply designed for high-performance testing applications. Featuring a modern touchscreen interface and intuitive graphical user interface (GUI), it simplifies parameter configuration and waveform editing, improving both efficiency and user experience.

Built on advanced third-generation SiC (Silicon Carbide) technology, a single 3U unit delivers up to 21 kW per channel in a dual-channel configuration. When the two independent channels are connected in series or parallel, total output power can reach 42 kW. Thanks to its wide output range, one IT6600C unit can replace 3 to 5 conventional power supplies, making it ideal for applications requiring high voltage or high current.

More than just a power supply, the IT6600C also functions as a high-performance electronic load. It can both source DC power and operate as a regenerative DC electronic load, absorbing energy and feeding clean power back into the grid for energy recycling.

The IT6600C Series delivers a new level of performance for complex high-power testing in industries such as automotive, energy storage, industrial systems, and renewable energy, providing reliable support for R&D, validation, and production environments.

Key Features

• Bidirectional design, integrating DC power supply and electronic load in one unit
• High power density: up to 42 kW in a compact 3U chassis
• Independent dual-channel architecture; channels configurable in series or parallel
• High-efficiency power regeneration
• Master-slave current sharing; scalable up to 10 MW in parallel systems
• 5-inch touchscreen with intuitive GUI
• Dynamic response time ≤ 200 µs
• Rise time ≤ 1 ms
• High accuracy ≤ 0.03% + 30 mA
• Built-in communication interfaces:
  • USB (USB-TMC / USB-VCP)
  • LAN (Raw Socket / Modbus-TCP / Profinet / VNC / VXI-11 / Web / Telnet)
  • CAN 2.0B (CANopen / CAN 2.0)
  • Digital I/O
• Optional communication interfaces: GPIB / EtherCAT / Analog & RS232

Built on advanced SiC (Silicon Carbide) technology, the IT7900P series delivers a comprehensive, all-in-one power testing solution. It can operate as:

• A grid simulator
• A four-quadrant power amplifier
• A four-quadrant regenerative AC/DC electronic load

With full four-quadrant operation and regenerative capability, the system feeds energy back to the grid, supporting environmentally friendly testing while significantly reducing electricity consumption and heat dissipation costs.

Its compact, modular, and high-efficiency design enables up to 15 kVA in a 3U chassis, with scalable power up to 960 kVA through master-slave parallel configuration.

A color touch screen with an intuitive graphical user interface allows users to directly define and customize output waveforms. Multiple operating modes—single-phase, three-phase, reverse-phase, and multi-channel—provide exceptional flexibility for applications in photovoltaic (PV), energy storage systems (ESS), electric vehicles (EV), and other advanced power electronics fields.

Key Parameter Features

• Advanced SiC technology
• High power density: up to 15 kVA in 3U
• Output voltage up to 350 V L-N
• Master-slave current sharing; scalable up to 960 kVA (up to 64 units in parallel for 3U models)*¹
• High-efficiency regenerative operation
• Selectable working modes: single-phase, three-phase, reversed phase, and multi-channel
• Inverted mode voltage extension up to 200% of rated voltage
• LIST, SWEEP, and Surge & Sag waveform modes
• Built-in waveform library
• Harmonic simulation and analysis up to the 50th order, compliant with IEC 61000-3-2 and IEC 61000-3-12*²
• Arbitrary waveform generation with CSV import capability
• Adjustable phase angle: 0–360°
• Touchscreen interface with intuitive UI
• Standard USB / CAN / LAN / Digital I/O interfaces; optional GPIB / Analog & RS232
• Comprehensive protection functions including automatic clearing, POVP, watchdog, etc.
• Support for CANopen, Modbus, LXI, SCPI communication protocols

Source Mode Features

• Regenerative grid simulator & full four-quadrant AC/DC power source
• Frequency range: 16–2400 Hz*⁴
• Power amplifier function for PHiL applications
• Professional islanding test mode supporting R, L, C, active and reactive power settings*⁷
• Four output modes: AC / DC / AC+DC / DC+AC
• Multi-channel function: one unit can test 1–3 DUTs simultaneously*⁵
• Programmable output impedance for real-world grid simulation
• Harmonic and inter-harmonic synthesis
• Frequency lock and phase lock functions enabling 6-phase and 12-phase output
• Compliance testing including LVRT, phase jump, frequency variation, and harmonic injection
• Supported regulatory tests including IEC 61000-4-11, IEC 61000-4-13, IEC 61000-4-14, IEC 61000-4-28, etc.
• Advanced trigger configuration with synchronized waveform capture for DUT voltage acquisition and simulation
• Optional software for pre-compliance testing in civil avionics and marine electrical systems according to international safety regulations*³

Load Mode Features

• Regenerative full four-quadrant AC/DC electronic load
• Frequency range: 16–500 Hz
• AC mode supports CC / CP / CR / CS / CC+CR / CE modes
  • CE mode simulates various circuit topologies such as single-phase rectifier RLC and shunt RLC
• DC mode supports 9 operating modes including CC / CR / CP / CV
• AC mode supports rectified and non-rectified operation
• Adjustable crest factor: 1.414–5.0
• Phase shift adjustment range: **-180° to 180°***⁶
• Unity power factor mode for dynamic current tracking of voltage waveform
• Adjustable unloading angle: 0–359°

Notes

*¹ For 3U models, up to 64 units can be connected in parallel.
*² Harmonic analysis in source mode (voltage) and load mode (current); fundamental frequency ≤ 60 Hz.
*³ Optional software module.
*⁴ 16–150 Hz in grid simulator and island simulation modes.
*⁵ Not available for single-phase models.
*⁶ Phase shift range may be limited when rectification mode is enabled.
*⁷ Not available in multi-channel mode.

References

IT9121 Powermeter, 600 V, 20A

IT9121E Powermeter, 600 V, 20A, without harmonics measurement

IT9121C Powermeter, 600 V, 50A

IT9121H Powermeter, 1000 V, 20A

The IT9100 Power Meter is a high-performance instrument capable of handling up to 1000 Vrms and 50 Arms, with a measurement bandwidth of 100 kHz. It provides precise and simultaneous measurement of voltage, current, power, frequency, harmonics, and other electrical parameters.

Equipped with standard USB, RS232, and LAN interfaces, as well as connections for USB-based peripheral devices, the IT9100 allows users to save measured data directly to external storage media. Its basic voltage and current measurement accuracy is 0.1%, ensuring reliable and precise readings.

With its extensive integration functions, including active power and energy measurement, the IT9100 is ideal for applications in motor testing, household appliances, UPS systems, and more.

Key Features

• 4.3-inch color TFT LCD display for clear visualization of measurements
• Input range: 1000 Vrms / 50 Arms
• Simultaneous measurement of voltage, current, power, harmonics, and other electrical parameters
• High measurement accuracy: 0.1% for voltage and current
• Harmonics measurement: capable of measuring up to the 50th harmonic (*optional for IT9121E)
• Comprehensive integration functions: includes energy measurement for both consumption and supply
• Flexible data storage: save measured parameters to external media via USB-based peripheral support
• Standard communication interfaces: USB, RS232, and Ethernet

The IT9100 combines accuracy, versatility, and ease of use, making it an essential tool for precise electrical testing and analysis.

References

IT-N2121 Solar array simulator 80 V, 25 A, 800 W

IT-N2131 Solar array simulator 80 V, 25 A, 1500 W

IT-N2123 Solar array simulator 150 V, 10 A, 800 W

IT-N2133 Solar array simulator 150 V, 10 A, 1500 W

The IT-N2100 Series Solar Array Simulator is a high-performance DC power supply designed to accurately replicate real-world photovoltaic (PV) array behavior. With ultra-fast I–V curve response and advanced simulation capabilities, it enables precise testing of solar microinverters, power optimizers, and PV power systems under dynamic environmental conditions.

The system faithfully reproduces solar panel characteristics across varying temperature, irradiance, shading, and aging scenarios. Its high-voltage architecture, ultra-low ripple performance, and rapid MPPT response make it an ideal solution for R&D, validation, and production testing environments.

Key Features

• High-precision simulation of silicon, GaAs, and other PV technologies
• Ultra-fast dynamic response optimized for MPPT efficiency testing
• Up to 1500V DC common-mode voltage for series DUT testing
• Advanced I–V curve modeling, including dynamic and cloud-shading simulations
• Built-in compliance testing for EN50530, Sandia, NB/T32004, CGC/GF004, and CGC/GF035 standards with automated reporting
• 4096-point I–V curve fitting in table mode
• Four-point rapid I–V curve generation (Voc, Isc, Vmp, Imp)
• Multi-channel synchronous control capability
• Ultra-low ripple and high-precision measurement performance
• Comprehensive protection: OVP, OCP, OPP, OTP
• Compact 2U half-rack design
• 4.3” HD graphical interface with real-time MPPT monitoring
• LAN, USB, and digital I/O interfaces with SCPI command support

The IT-N2100 provides a reliable, flexible, and standards-compliant solution for advanced photovoltaic system validation.

Reference : 6514

The Keithley 6514 Electrometer delivers industry-leading performance for low-level measurement applications:

• Ultra-low noise: < 1 fA
• High input impedance: > 200 TΩ for voltage measurements
• Wide charge measurement range: from 10 fC to 20 μC
• High-speed acquisition: up to 1200 readings per second
• Flexible interfacing: seamless integration with switching systems, computers, and component handlers
• Advanced offset cancellation: efficient compensation of voltage and current offsets

Designed for precision, speed, and integration flexibility, the Model 6514 is ideally suited for demanding research, development, and production test environments.

References :

• MSO22-070 2 voies, 70 MHz
• MSO22-100 2 voies, 100 MHz
• MSO22-200 2 voies, 200 MHz
• MSO22-350 2 voies, 350 MHz
• MSO22-500 2 voies, 500 MHz
• MSO24-070 4 voies, 70 MHz
• MSO24-100 4 voies, 100 MHz
• MSO24-200 4 voies, 200 MHz
• MSO24-350 4 voies, 350 MHz
• MSO24-500 4 voies, 500 MHz

Reclaim valuable bench space without sacrificing performance. At just 38 mm thick and weighing less than 1.8 kg, the 2 Series MSO is a fully featured mixed signal oscilloscope with an intuitive touchscreen interface. It delivers real-time measurement performance in a compact, tablet-like form factor.

Whether in the lab, classroom, or in the field, the 2 Series MSO is engineered to meet today’s measurement challenges with precision and reliability.

Analog Input Channels :

2 or 4 analog inputs

Bandwidth Options :

70 MHz, 100 MHz, 200 MHz, 350 MHz, or 500 MHz

Sample Rate :

• 2.5 GS/s (half channels)
• 1.25 GS/s (all channels)

Record Length :

10 Mpoints per channel

Vertical Resolution :

• 8-bit ADC
• Up to 16-bit in High Resolution mode

Standard Triggering Capabilities

Edge, Pulse Width, Runt, Timeout, Logic, Setup & Hold, Rise/Fall Time, Parallel Bus

Standard Analysis Features

• Cursors: Waveform, Vertical Bars, Horizontal Bars, Combined V&H
• Measurements: 36 automated measurements
• Plots: XY mode, Pass/Fail limit testing
• Math: Basic waveform arithmetic, FFT, advanced equation editor
• Search: Search using any trigger condition

Display

• 10.1” (25.6 cm) color TFT display
• WXGA resolution (1280 × 800)
• Multi-touch capacitive touchscreen

Connectivity

• USB 2.0 device port (1)
• USB 2.0 host port
• LAN (10/100 Base-T Ethernet)

Mounting & Security

• VESA mount (100 mm × 100 mm)
• Kensington security lock

Standard Probes

One TPP0200 200 MHz 10:1 passive voltage probe per channel

Optional Features

Serial Triggering & Decoding

I2C, SPI, RS-232/422/485/UART, CAN, CAN FD, LIN, SENT

Digital Channels

16 digital inputs

Arbitrary Function Generator

• 50 MHz signal generation
• Waveforms: Arbitrary, Sine, Square, Pulse, Ramp, Triangle, DC, Gaussian, Lorentz, Exponential Rise/Fall, Sinc, Noise, Half-Sine, Cardiac

Digital Pattern Generator

• 4-bit
• User-defined, manual, toggle modes

Digital Voltmeter

• 4-digit DC+AC RMS, DC, AC measurements
• 5-digit frequency counter

Trigger Frequency Counter

8-digit resolution

Battery Pack (Optional)

• Dual battery slots with hot-swap capability
• Up to 8 hours of typical operation (with two batteries)

Remote Operation

Remote viewing and control via network connection using VNC (Virtual Network Computing).

Optional Collaborative Tools :

TekDrive™
Cloud-based waveform storage and recall. Share waveforms, setups, and screenshots securely with your team.

TekScope™
Basic instrument control and waveform transfer to PC. Perform advanced offline analysis including protocol decoding and automated measurements.

Chemistry Laboratory – Experiment Portfolio

Our chemistry laboratory includes a comprehensive range of experiments:

1. Acid–Base Titration with Indicators: The Acidity of Beverages
2. Acid–Base Experiment
3. Acid–Base Titration with a pH Meter: Identification of an Unknown Acid Solution
4. Atomic Structure: Flame Test for Metals
5. Boiling Point Elevation
6. Bonding and Structure: Conductivity of Ionic vs. Covalent Substances
7. Bonding in Solids
8. Buffer Design
9. Buffering Activity
10. Chemical Equilibrium: Iron(III) Thiocyanate Complex Ion
11. Copper Content of Brass
12. Determining the Copper Content of a Brass Sample
13. Determining the Heating Curve of Water
14. Displacement Reactions Between Metals and Their Salts
15. Enthalpy Change of Solutions
16. Equilibrium Constant: Iron Thiocyanate Complex Ion
17. Identification of Anions
18. Identification of Cations
19. Introduction to Organic Chemistry
20. Ion Responsible for the Wavelength of Maximum Absorption
21. Ionic & Covalent Bonds
22. Kinetics: Effect of Concentration on Reaction Rate
23. Molecular Shape Modeling
24. Paper Chromatography
25. Precision and Accuracy in Laboratory Measurements
26. Rate Laws
27. Redox Titration: Determination of H₂O₂ Concentration
28. Separating Mixtures
29. Separation by Extraction
30. Separation Using a Separatory Funnel
31. Separation by Simple Distillation
32. Solubility in Solid–Liquid Systems
33. Solubility of Ca(OH)₂ in Solid–Liquid Systems
34. Solubility of KNO₃ in Solid–Liquid Systems
35. Testing for Functional Groups in Organic Compounds
36. The Hydrogen Emission Spectrum
37. The Law of Conservation of Mass
38. The Law of Definite Proportions: Empirical Formula of a Metal Oxide
39. The Law of Definite Proportions: Formula of a Hydrate
40. UV–Vis Spectrophotometry and the Beer–Lambert Law

Reference 530.801.000

For Off-Grid and Grid-Connected Applications

The 200 W Photovoltaic Training System is designed to provide a comprehensive understanding of solar power generation and photovoltaic system operation. It enables students and trainees to explore the fundamental principles of solar energy production while gaining hands-on experience with real measurement and analysis tools.

This educational platform allows users to study the electrical characteristics of photovoltaic modules, including the determination of the Maximum Power Point (MPP). It also demonstrates how various environmental factors influence the performance and efficiency of solar panels, such as:

• Partial shading of the module
• Solar incidence angle
• Panel inclination
• Light intensity
• Module temperature

The system enables practical experiments and measurements in both DC and AC circuits, allowing users to observe the behavior of the photovoltaic system under different environmental and operating conditions.

Measurement data can be easily recorded, analyzed, and visualized on a computer using the included dual-channel digital multimeter with USB interface, together with the supplied data acquisition software. This allows users to generate graphs, compare results, and better understand the relationship between environmental conditions and energy production.

This training system is particularly suitable for technical education, vocational training, engineering programs, and renewable energy laboratories.

Electrical consumption (full lighting configuration):
3'200 W

References

• GCP-0275 : DC to 2 MHz, 500 A
• GCP-0550 : DC to 5 MHz, 350 A
• GCP-2525 : DC to 25 MHz, 170 A

GCP Series Current Probe

The GCP Series Current Probe delivers precise and reliable AC/DC current measurements for demanding testing environments. Designed for ease of use and performance stability, it is an ideal solution for engineers and technicians working with power electronics and industrial systems.

Key Features

• Accurate and easy-to-use AC/DC current measurement
• Low noise and minimal DC drift for stable, repeatable results
• Split-core probe head for quick and convenient connection to conductors

Applications

• Power supplies
• Motor drives
• Semiconductor devices
• Power inverters and converters
• Industrial and consumer electronics
• Transportation systems
• Electronic ballasts

Ordering Information

• GDP-025 – 25 MHz High Voltage Differential Probe
• GDP-050 – 50 MHz High Voltage Differential Probe
• GDP-100 – 100 MHz High Voltage Differential Probe

Key Features

• Bandwidth options of 25 MHz, 50 MHz, and 100 MHz
• Differential voltage measurement up to 7,000 V (GDP-050 / GDP-100)
• Differential voltage measurement up to 1,400 V (GDP-025)
• Flexible attenuation options to support a wide range of applications
• Modular design with replaceable probe connectors for enhanced versatility and easy adaptation to different test environments

Applications

• Power supply design and development
• Power device evaluation
• Power converter design
• Floating and high-voltage measurements

References

• GRF-1300A : RF & Communication Training System

The GRF-1300A is a comprehensive RF and communication trainer designed for hands-on learning in academic and technical training environments. It enables students and instructors to explore fundamental and advanced RF concepts through practical experimentation and troubleshooting exercises.

• Baseband Signal Generation: Sine, triangle, and square waveforms
• Baseband Frequency Range: 0.1 Hz to 3 MHz
• RF Frequency Range: 870 MHz to 920 MHz
• Modulation Modes: AM and FM
• Integrated Mixer and 2.4 GHz Bandpass Filter
• Fault Simulation Capability:
  • 5 programmable On/Off switches
  • 5 test points
  • Simulates up to 8 fault conditions for troubleshooting training
• USB Interface: Supports remote control and system integration

The GRF-1300A provides a practical and interactive platform for understanding RF signal generation, modulation techniques, frequency conversion, and diagnostic procedures.

Reference

• USG-LF44 : RF Signal Generator

Key Features

The USG-LF44 is a compact and versatile RF signal generator designed for laboratory testing, education, and RF system development. It delivers stable continuous wave (CW) signals across a wide frequency range, making it suitable for a variety of RF measurement and calibration applications.

• Frequency Range: 34.5 MHz to 4.4 GHz
• Output Power Range: –30 dBm to 0 dBm
• Signal Type: Continuous Wave (CW), unmodulated
• Operating Modes:
  • Fixed Frequency
  • Frequency Sweep
  • Frequency Hopping
  • Power Sweep
• Phase Noise: –107 dBc/Hz @ 100 kHz offset
• Frequency Resolution: 10 kHz
• USB Interface: Powered and controlled via PC USB connection
• PC Software: Compatible with multiple operating systems

The USG-LF44 provides a flexible and cost-effective solution for RF testing environments requiring reliable signal generation and easy PC integration.

Reference

• GSP-730 : Spectrum Analyzer 150 kHz ~ 3 GHz

Key Features

The GSP-730 is a compact and cost-effective spectrum analyzer designed for RF education, laboratory testing, and basic communication signal analysis. Covering a wide frequency range up to 3 GHz, it provides essential measurement capabilities for both academic and industrial environments.

• Frequency Range: 150 kHz to 3 GHz
• Autoset Function: Automatic configuration for quick signal detection
• Noise Floor: ≤ –100 dBm
• Resolution Bandwidth (RBW): 30 kHz, 100 kHz, 300 kHz, 1 MHz
• Measurement Functions: ACPR, CHPW (Channel Power), OCBW (Occupied Bandwidth)
• Display Traces: Up to 3 traces in different colors
• Split Window Function: Simultaneous display of multiple measurement views
• Limit Line Function: Pass/Fail evaluation against defined limits
• Remote Control Software: PC-based instrument control
• Training Support: Presentation materials available for educational courses
• Interfaces: USB Device, USB Host, RS-232C

The GSP-730 delivers reliable RF performance and intuitive operation, making it an ideal solution for RF training, troubleshooting, and entry-level spectrum analysis applications.

References

• GSP-8800 TG : 9 kHz ~ 8,0 GHz
• GSP-8380 TG : 9 kHz ~ 3,8 GHz
• GSP-8180 TG : 9 kHz ~ 1,8 GHz

Key Features

• Frequency Range: 9 kHz to 8.0 GHz / 3.8 GHz / 1.8 GHz (depending on model)
• Resolution Bandwidth (RBW): 1 Hz to 1 MHz, selectable in 1-3-5-10 sequence
• Video Bandwidth (VBW): 10 Hz to 3 MHz, selectable in 1-3-5-10 sequence
• Phase Noise: –104 dBc/Hz
• Sensitivity: –160 dBm/Hz (typical, with preamplifier enabled)
• Integrated AM/FM Demodulation
• Integrated Time Spectrum Function
• Measurement Functions: ACPR, OCBW, CHPW, n dB Bandwidth, Pass/Fail, Frequency Counter, Noise Marker
• Built-in 20 dB Preamplifier
• Integrated Tracking Generator
• Communication Interfaces: LAN, USB Host, USB Device
• Display: 10.4" XGA (1024 × 768)
• Optional: EMI Filter

Key Features

• Designed for oscilloscope demonstration and training
• Compatible with GDS-3000 / GDS-2000A / MSO-2000A / GDS-2000E series
• Integrated signal generator for real-world waveform simulation
• 5 V DC power input with USB power support (Type-B interface)

References

,

• GDS-912 : Oscilloscope 100 MHz, 2 channels
• GDS-912G : Oscilloscope 100 MHz, 2 channels, with a 25 MHz AWG.

Key Features

• Bandwidth: 100 MHz
• Sample Rate: Up to 1 GS/s
• Channels: 2
• Rise Time: ≤ 3.5 ns
• Bandwidth Limit: 20 MHz
• Vertical Resolution (A/D): 8-bit
• Maximum Input Voltage: ≤ 300 Vrms
• Time Base Range: 2 ns/div to 1000 s/div
• Memory Depth: 20 Mpts
• Display: 7-inch LCD (800 × 480 resolution)
• Communication Interface: USB 2.0 (Host / Device)

Built-in Waveform Generator (GDS-912G)

• Frequency Range: Up to 25 MHz
• Supported Waveforms: Sine, Square, Ramp, Pulse, and Arbitrary

Reference :

GDS-1102B Oscilloscope 100 MHz, 2-channel

GDS-1104B Oscilloscope 100 MHz, 4-channel

GDS-1202B Oscilloscope 200 MHz, 2-channel

Technical Advantages

• Bandwidth of 200 MHz and 100 MHz for 2-channel models
• 100 MHz bandwidth for 4-channel models
• Maximum sampling rate of 1 GSa/s
• Maximum memory depth of 10 Mpts per channel
• 7-inch WVGA LCD display (800 × 480 resolution)
• 256-color intensity-graded display for enhanced waveform visualization
• Advanced triggering and serial bus decoding for I²C, SPI, UART, CAN, and LIN
• FFT frequency-domain analysis with up to 1 Mpt record length
• Zero Key function for instant reset of horizontal timebase, vertical scale, and trigger level
• Compact and innovative exterior design, ideal for laboratory and portable applications

References :

GDS-2104A Oscilloscope 100 MHz, 4-channel

GDS-2204A Oscilloscope 200 MHz, 4-channel

GDS-2304A Oscilloscope 300 MHz, 4-channel

Technical Advantages

• Bandwidth: 300 MHz, 200 MHz, and 100 MHz with 4 input channels
• Sampling rate: Real-time 2 GSa/s; Equivalent-time up to 100 GSa/s
• Record length: 2 Mpts
• Vertical amplifier: 1 mV/div to 10 V/div
• Time base: 1 ns/div to 100 s/div
• Waveform update rate: 80,000 wfms/s for accurate signal capture
• Display: 8-inch high-resolution TFT LCD (800 × 600)
• Advanced memory features: Segmented memory and waveform search for optimized record length efficiency
• Navigation: Zoom window, read/pause functions for fast waveform analysis
• Automatic measurements: 36 functions with a variety of selectable parameters
• Optional modules: 8- or 16-channel logic analyzer, Function generator
• Standard interfaces: USB
• Optional interfaces: LAN / GPIB
• Bus analysis: Expandable CAN/LIN bus analysis with advanced logic, recording, DVM, and H-extension functions

References :

GDS-2102E Oscilloscope 100 MHz, 2-channel

GDS-2104E Oscilloscope 100 MHz, 4-channel

GDS-2202E Oscilloscope 200 MHz, 2-channel

GDS-2204E Oscilloscope 200 MHz, 4-channel

Technical Advantages

• Bandwidth options of 100 MHz or 200 MHz, with 2 or 4 input channels depending on the model
• Real-time sampling rate up to 1 GSa/s
• 10 Mpts memory depth per channel, combined with advanced VPO (Visual Persistence Oscilloscope) waveform display technology
• High waveform update rate of up to 120'000 waveforms per second (wfms/s) for accurate capture of transient events
• 8-inch WVGA TFT LCD display, providing excellent readability and user comfort
• FFT analysis with up to 1 M points, enabling high-resolution frequency-domain measurements
• Built-in digital high-pass and low-pass filters for advanced signal processing
• Segmented memory with up to 29'000 segments, along with waveform search functions for efficient detection and analysis of rare events
• Advanced triggering and serial bus decoding capabilities, including I²C, SPI, UART, CAN, and LIN
• Data logging function allowing long-term signal monitoring for up to 100 hours
• Remote data storage via Internet, enabling easy access, sharing, and off-site analysis

Reference :

GDS-3104A Oscilloscope 1 GHz, 4-channel

Technical Advantages

• Wide bandwidth of 1 GHz, with a four-channel configuration, enabling accurate analysis of high-frequency signals.
• High real-time sampling rate of up to 5 GSa/s on a single channel and 2.5 GSa/s on all channels, ensuring faithful acquisition of fast and transient signals.
• Deep memory of 200 Mpts per channel, allowing long record lengths and detailed waveform analysis.
• High waveform refresh rate of up to 200'000 waveforms per second (wfm/s), making it easier to detect infrequent and intermittent events.
• Large 10.2-inch TFT color LCD display (800 × 480), providing clear and comfortable waveform visualization.
• Advanced signal search functions, optimizing record length efficiency and enabling rapid identification of relevant events.
• 38 automatic measurement functions, offering a wide range of analysis options for fast and reliable signal evaluation.
• High-resolution acquisition mode, improving measurement accuracy and reducing noise for enhanced signal fidelity.
• Triggering and serial bus decoding capabilities for I²C, UART, CAN, and LIN, ideal for embedded and industrial applications.
• Integrated dual-channel spectrum analyzer (DC to 2.5 GHz) with spectrogram display, allowing simultaneous time- and frequency-domain analysis.
• Built-in two-channel arbitrary waveform generator, 25 MHz, for flexible signal generation and functional testing.
• Power analysis package with 13 dedicated measurement functions
• Optional advanced features:
  
  • 16-channel logic analyzer (MSO) for combined analog and digital signal analysis

References

• MDO-2102A – Oscilloscope 100 MHz, 2 channels, with Spectrum Analyzer
• MDO-2202A – Oscilloscope 200 MHz, 2 channels, with Spectrum Analyzer
• MDO-2302A – Oscilloscope 300 MHz, 2 channels, with Spectrum Analyzer
• MDO-2102AG – Oscilloscope 100 MHz, 2 channels, with Spectrum Analyzer and Function Generator
• MDO-2202AG – Oscilloscope 200 MHz, 2 channels, with Spectrum Analyzer and Function Generator
• MDO-2302AG – Oscilloscope 300 MHz, 2 channels, with Spectrum Analyzer and Function Generator

Technical Advantages

• Available bandwidths: 100 MHz, 200 MHz, and 300 MHz, with 2 channels
• Real-time sampling rate up to 2 GSa/s
• Memory depth of 20 Mpoints per channel, featuring VPO waveform display technology
• Waveform update rate up to 120'000 waveforms per second (wfms/s)
• 8-inch WVGA TFT LCD display for clear and precise visualization
• 1 Mpoint FFT function, providing high-resolution frequency-domain analysis
• Built-in digital filters: high-pass, low-pass, and band-pass
• Advanced waveform search functions
• Serial bus triggering and decoding: I²C, UART, CAN, and LIN
• Data recording function, allowing long-term signal monitoring for up to 1,000 hours
• Network storage capability for efficient data management
• Mask test function for rapid signal validation
• Integrated Spectrum Analyzer, DC to 1 GHz

Built-in Waveform Generator (MDO-2000AG Series)

• 2-channel Function Generator, 0.1 Hz to 25 MHz, 200 MSa/s, 14-bit resolution
• Waveform types: Sine, Square, Pulse, Ramp, DC, Noise, Sinc, Gaston, Lorentz, Exponential Rise, Exponential Fall, Haversine, Cardiac

References

• MDO-2102EG – Oscilloscope 100 MHz, 2 channels, with Spectrum Analyzer and 2-channel 25 MHz Function Generator
• MDO-2104EG – Oscilloscope 100 MHz, 4 channels, with Spectrum Analyzer and 2-channel 25 MHz Function Generator
• MDO-2202EG – Oscilloscope 200 MHz, 2 channels, with Spectrum Analyzer and 2-channel 25 MHz Function Generator
• MDO-2204EG – Oscilloscope 200 MHz, 4 channels, with Spectrum Analyzer and 2-channel 25 MHz Function Generator
• MDO-2102EX – Oscilloscope 100 MHz, 2 channels, with Spectrum Analyzer, 2-channel 25 MHz Function Generator, True RMS 5,000-point digital multimeter (DMM), and a 5V/1A power supply
• MDO-2104EX – Oscilloscope 100 MHz, 4 channels, with Spectrum Analyzer, 2-channel 25 MHz Function Generator, True RMS 5,000-point digital multimeter (DMM), and a 5V/1A power supply
• MDO-2202EX – Oscilloscope 200 MHz, 2 channels, with Spectrum Analyzer, 2-channel 25 MHz Function Generator, True RMS 5,000-point digital multimeter (DMM), and a 5V/1A power supply
• MDO-2204EX – Oscilloscope 200 MHz, 4 channels, with Spectrum Analyzer, 2-channel 25 MHz Function Generator, True RMS 5,000-point digital multimeter (DMM), and a 5V/1A power supply

Technical Advantages

• Available bandwidths: 100 MHz and 200 MHz, with 2 or 4 channels
• Real-time sampling rate 1 GSa/s per channel
• Memory depth of 10 Mpoints per channel, featuring VPO waveform display technology
• Waveform update rate up to 120'000 wfms/s
• 8-inch WVGA TFT LCD display for clear and detailed visualization
• Free frequency response analysis software included
• FFT up to 1 Mpoint, providing high-resolution frequency-domain measurements
• Built-in digital filters: high-pass, low-pass, and band-pass
• 29,000 segmented memories and advanced waveform search functions
• Serial bus triggering and decoding: I²C, SPI, UART, CAN, and LIN
• Data recording function, allowing signal monitoring for up to 1,000 hours
• Network storage capability for efficient data management
• Mask test function for fast signal validation
• Integrated Spectrum Analyzer, DC to 500 MHz
• 2-channel Function Generator, 0.1 Hz to 25 MHz, 200 MSa/s, 14-bit resolution
• Waveform types: Sine, Square, Pulse, Ramp, DC, Noise, Sinc, Gaston, Lorentz, Exponential Rise, Exponential Fall, Haversine, Cardiac

Built-in digital multimeter and a power supply (MDO-2000EX Series)

• True RMS 5'000-point digital multimeter
• 5V/1A power supply

References

• MPO-2202P: 200 MHz, 2 channels – Pro Version
• MPO-2204P: 200 MHz, 4 channels – Pro Version

Programmable Multifunction Oscilloscope

Key features

• Bandwidth: 200 MHz
• Advanced automation: Python scripting support for remote control and automated testing
• Serial bus triggering and decoding: I²C, SPI, UART, CAN, LIN
• Extended decoding capabilities: CAN FD, FlexRay, USB 2.0 (Full Speed), USB Power Delivery, I²S
• Long-term data recording: signal change tracking and recording for up to 1'000 hours
• Integrated network storage function
• Built-in spectrum analyzer with spectrogram display
• Integrated arbitrary waveform generator: 25 MHz, 2 channels
• Built-in digital multimeter
• Integrated regulated power supply:
  • Dual-channel output
  • Continuously adjustable voltage from 1 V to 20 V
  • Adjustment resolution: 0.1 V
• Communication interfaces: LAN, USB Host / USB Device
• Display: 8-inch TFT color screen, WVGA resolution 800 × 480

References

• MSO-2102EA: 100 MHz oscilloscope, 2 channels, featuring an integrated 16-channel logic analyzer and a 25 MHz dual-channel function generator.
• MSO-2104EA: 100 MHz oscilloscope, 4 channels, featuring an integrated 16-channel logic analyzer and a 25 MHz dual-channel function generator.
• MSO-2202EA: 200 MHz oscilloscope, 2 channels, featuring an integrated 16-channel logic analyzer and a 25 MHz dual-channel function generator.
• MSO-2204EA: 200 MHz oscilloscope, 4 channels, featuring an integrated 16-channel logic analyzer and a 25 MHz dual-channel function generator.

Technical Advantages

• 100 MHz or 200 MHz bandwidth, with 2 or 4 channels depending on the model.
• The MSO-2000EA series combines a 16-channel logic analyzer with a dual-channel 25 MHz arbitrary waveform/function generator.
• Real-time sampling rate of 1 GSa/s per channel for 2-channel models; up to 1 GSa/s maximum for 4-channel models.
• Maximum memory depth of 10 Mpts with advanced VPO waveform display technology.
• Waveform update rate of up to 120'000 waveforms per second (wfm/s).
• 8-inch WVGA TFT LCD display for clear and detailed signal visualization.
• Free frequency response analysis software included.
• FFT up to 1 M points for high-resolution frequency-domain measurements.
• Integrated high-pass, low-pass, and band-pass filter functions.
• Up to 29,000 segmented memory records with advanced waveform search capability.
• Comprehensive serial bus triggering and decoding: I²C, SPI, UART, CAN, and LIN.
• Long-term data logging function, enabling signal monitoring for up to 100 hours.
• Network storage support for seamless integration into connected test environments.

Références :

GDM-9052 Dual Measurement Digital Multimeter, 5½ digits

Key Features

• 5½-Digit Display with a maximum count of 239,999
• 4.3" TFT Graphic LCD for clear and intuitive measurement visualization
• High DC Voltage Accuracy: up to 0.012% basic accuracy
• Automatic Intelligent Measurement (A.I.) automatically identifies and measures Voltage, Resistance, Diode, and Continuity without manual function selection
• 12 Measurement Functions, including:
  • AC/DC Voltage
  • AC/DC Current
  • 2-Wire / 4-Wire Resistance
  • Frequency
  • Period
  • Diode Test
  • Continuity Test
  • Capacitance
  • Temperature
• True RMS Measurements for AC and AC+DC signals
• Dual Measurement Function allowing two selected measurements to be displayed simultaneously
• Advanced Math Functions: Max/Min, REL/REL#, Compare, Hold, dB, dBm, MX+B, %, and 1/X
• Digital I/O Interface with dual operating modes: Standard Compare and User-Defined
• Standard Communication Interfaces: RS-232C and USB Device (supporting USBCDC and USBTMC modes)

Ordering Information

• GDM-9042/GPIB – 50'000-count dual-measurement multimeter with USB Host/Device and optional GPIB interface
• GDM-9042 – 50'000-count dual-measurement multimeter with USB Host/Device
• GDM-9041 – 50'000-count dual-measurement multimeter with USB Device

The GW Instek GDM-9040 Series Dual Measurement Digital Multimeters are high-performance digital multimeters designed for laboratory, industrial, and educational applications. Manufactured by GW Instek, the series combines precision measurement, intuitive operation, and advanced connectivity features.

Equipped with a 4.3-inch TFT graphic LCD and a 50,000-count resolution, the GDM-9040 series provides clear data visualization and reliable measurement performance.

Key Features

• 50,000-count resolution
• 4.3" TFT graphic LCD display
• DC voltage basic accuracy: up to 0.02%
• Automatic Identification (A.I.) Measurement automatically detects and measures:
  • Voltage
  • Resistance
  • Diode
  • Continuity
    without requiring manual function selection
• 11 measurement functions, including:
  • DC Voltage (DCV)
  • AC Voltage (ACV)
  • DC Current (DCI)
  • AC Current (ACI)
  • 2-wire Resistance
  • Frequency
  • Period
  • Diode Test
  • Continuity Test
  • Capacitance
  • Temperature
• True RMS measurements for AC and AC+DC signals
• Dual measurement display, allowing two selected parameters to be measured simultaneously
• Advanced mathematical functions:
  Max/Min, REL, MX+B, 1/X, Ref%, Compare, Hold, dB, and dBm
• Standard interface: USB Device supporting USBCDC and USBTMC communication modes
• Temperature measurement function (GDM-9042 model only)
• USB storage for data collection (GDM-9042 model only)

DAQ-9600 Data Acquisition System

The DAQ-9600 Data Acquisition System is a versatile and high-performance solution designed for automated testing, measurement, and data logging in laboratory and industrial environments. With its modular architecture, integrated precision DMM, and multiple connectivity options, it provides a reliable platform for a wide range of measurement applications.

Ordering Information

Mainframes

Modules

Key Features

• Large 4.3-inch TFT color display for clear and intuitive measurement visualization
• 3-slot mainframe with an integrated 6½-digit digital multimeter (DMM)
• High measurement accuracy with 0.0035% basic DC voltage accuracy
• Compatibility with 7 interchangeable switch modules for flexible configuration
• Voltage measurement capability up to 600 V DC / 400 V AC (with DAQ-909 module)
• High scanning speed up to 450 channels per second
• Internal memory capable of storing up to 100,000 data points

Measurement Capabilities

The DAQ-9600 supports measurement and conversion of 14 different input signal types, including:

• Temperature measurement using thermocouples, RTDs, and thermistors
• DC and AC voltage
• 2-wire and 4-wire resistance
• Frequency and period
• DC and AC current
• Capacitance measurement
• Direct strain and bridge strain measurements

Connectivity and Integration

• Command compatibility with the DAQ970A, enabling easy integration with existing test systems
• USB storage support for data logging and file transfer in standalone operation
• Multiple interfaces including Digital I/O, LAN, USB host/device, and optional mini-GPIB

Software

The DAQ-Data Logger PC software, provided free of charge, allows users to easily configure measurement setups, monitor data in real time, and control test procedures from a computer.

Ordering Information

• GVM-9102 – 2 kV DC Voltmeter

The GVM-9102 is a high-precision 2 kV DC voltmeter designed for accurate, high-speed measurements. Key features include:

• 6½-Digit Display – Maximum resolution of 2'399'999 points for ultra-precise readings.
• 4.3-inch TFT Graphic LCD – Provides clear visualization of measurements.
• High Voltage Measurement – Measures DC voltages up to 2'400 V.
• Exceptional Accuracy – DC voltage basic accuracy of 0.01%.
• Fast Sampling – Up to 10,000 readings per second, ideal for dynamic measurements.
• USB Storage – Save measurement data directly to an external USB drive.
• Advanced Graphic Display – Supports histograms, bar meters, and trend charts for intuitive data analysis.
• Connectivity – Standard interfaces include Digital I/O, RS-232C, USB Host/Device, and LAN. Optional GPIB interface available for integration into automated systems.

Designed for laboratory, production, and high-voltage testing environments, the GVM-9102 combines speed, precision, and versatility in a compact, user-friendly package.

Ordering Information

• GDM-9060 – 6½ Digit Dual-Measurement Digital Multimeter, 0,0075%
• GDM-9061 – 6½ Digit Dual-Measurement Digital Multimeter, 0,0035%

The GDM-906X Series is a high-precision digital multimeter designed for advanced measurement applications in laboratories, research environments, and production testing. With its high resolution, versatile measurement capabilities, and graphical display functions, it provides reliable and efficient electrical measurements for demanding professional use.

Key Features

• 6½-digit display with 1'200'000 counts for high-resolution measurements
• 4.3-inch TFT graphical LCD for clear data visualization
• DC voltage basic accuracy:
  • 0.0035% (GDM-9061)
  • 0.0075% (GDM-9060)
• 12 measurement functions:
  DC Voltage (DCV), AC Voltage (ACV), DC Current (DCI), AC Current (ACI), 2-wire and 4-wire Resistance, Frequency, Period, Diode Test, Continuity Test, Temperature, and Capacitance
• Sampling rate up to 10 kS/s (GDM-9061) for fast data acquisition
• Dual-measurement capability, allowing two selected measurements to be displayed simultaneously
• Graphical analysis tools, including histogram, bar meter, and trend display
• Temperature measurement support for RTD, thermistors, and thermocouples
• Standard interfaces: USB Host/Device, RS-232C, LAN, and Digital I/O
• Optional interface: GPIB

Key Features by Model

GDM-541

• 22'000 counts, auto/manual ranging
• 46-segment analog bar graph
• AC Voltage measurement up to 1000 V
• AC + DC Voltage measurement
• Current measurement up to 20 A
• Transistor (hFE) measurement
• Audible/Visual overload alarm
• True RMS / USB interface

GDM-533

• 6'000 counts, auto/manual ranging
• 31-segment analog bar graph
• LoZ AC Voltage measurement
• AC Voltage measurement up to 1000 V
• Current measurement up to 20 A
• Temperature measurement
• Audible/Visual overload alarm
• True RMS / USB interface 

GDM-532

• 9'999 counts, auto/manual ranging
• Backlit display / Auto power-off
• Continuity beeper / Diode test
• Temperature measurement
• Non-Contact Voltage (NCV) detection
• Data hold and relative mode

GDM-531

• 6'000 counts, manual ranging
• Backlit display / Auto power-off
• Capacitance measurement
• Non-Contact Voltage (NCV) detection
• Data hold
• Audible/Visual overload alarm

References

• GSC-2060G : RF Signal Generator, 9 kHz ~ 6 GHz, GPIB
• GSC-2060GA : RF Signal Generator, 9 kHz ~ 6 GHz, GPIB, OCXO
• GSC-2160G : RF Signal Generator, 9 kHz ~ 6 GHz, IQ Modulation, GPIB
• GSC-2160GA : RF Signal Generator, 9 kHz ~ 6 GHz, IQ Modulation, GPIB, OCXO

Key Features

The GSG-2000 Series RF Signal Generator delivers high spectral purity, advanced modulation capabilities, and outstanding frequency stability, making it suitable for R&D, production testing, and advanced communication system verification.

Frequency Performance

• Frequency Range: 9 kHz to 6 GHz
• Frequency Resolution: 1 mHz
• Standard Frequency Stability: 10 ppm
• Aging Rate: 2 ppm
• Optional AUX (OCXO):
  • Frequency Stability: 10 ppb
  • Aging Rate: 0.1 ppm

Amplitude Performance

• Amplitude Range: –140 dBm to +20 dBm
• Amplitude Resolution: 0.01 dBm
• Amplitude Units: dBm, dBµV, Vrms
• Phase Noise: < –117 dBc/Hz (typical) @ 1 GHz output, 20 kHz offset
• Frequency/Amplitude Switching Speed: ≤ 5 ms

Modulation Capabilities

• Built-in AM, FM, and PM analog modulation
• Built-in LF/RF signal output and pulse signal output
• Digital modulation (I/Q) sampling rate up to 180 MSa/s
• Up to 60 MHz baseband I or Q modulation bandwidth
• Up to 120 MHz RF I+Q modulation bandwidth
• Supports ASK, PSK, APSK, QAM, FSK, MSK, and user-defined IQ/FSK digital modulation
• IQ modulation output supported on GSG-2160 model only

Connectivity

• Interfaces: USB, LAN, and optional GPIB
• Remote control commands compliant with SCPI standards

The GSG-2000 Series provides a comprehensive and scalable RF signal generation platform for modern communication technologies and high-performance RF applications.

References

• AFG-4225E : Dual channel, 25 MHz, 125 Mé/s, 14 bits, USB
• AFG-4235 : Dual channel, 35 MHz, 500 Mé/s, 16 bits, USB, LAN
• AFG-4260 : Dual channel, 60 MHz, 500 Mé/s, 16 bits, USB, LAN
• AFG-4280 : Dual channel, 80 MHz, 500 Mé/s, 16 bits, USB, LAN
• AFG-4210H : Dual channel, 100 MHz, 500 Mé/s, 16 bits, USB, LAN

The AFG-4000 Series Arbitrary Function Generators deliver high-performance waveform generation with flexible channel configurations, advanced modulation capabilities, and high sampling rates. The series is designed for education, R&D, production testing, and electronic system validation.

Channel Configuration

• Single Channel Models:
  • AFG-4125E / AFG-4125AE (25 MHz)
• Dual Channel Models:
  • AFG-4225E (25 MHz)
  • AFG-4235 (35 MHz)
  • AFG-4260 (60 MHz)
  • AFG-4280 (80 MHz)
  • AFG-4210H (100 MHz)
  • AFG-4225H (250 MHz)

Waveform Capabilities

• Built-in waveforms: Sine, Square, Triangle, Ramp, Pulse, Noise, Harmonic, and Arbitrary
• Minimum frequency resolution: 1 µHz

Arbitrary Waveform Performance

Sampling Rate:

• AFG-4225H: 1.25 GSa/s
• AFG-4235 / 4260 / 4280 / 4210H: 500 MSa/s
• AFG-4125E / 4125AE / 4225E: 125 MSa/s

Vertical Resolution:

• AFG-4125E / 4125AE / 4225E: 14-bit
• AFG-4235 / 4260 / 4280 / 4210H / 4225H: 16-bit

Memory Depth:

• AFG-4225E / 4235 / 4260 / 4280 / 4210H / 4225H: 10 Mpts per channel
• AFG-4125E / 4125AE: 16 kpts per channel

Modulation & Functions

Supports a wide range of modulation types:

• AM, DSB-AM, FM, PM, PWM
• ASK, PSK, BPSK, QPSK
• FSK, 3FSK, 4FSK, OSK
• SUM modulation

Additional built-in functions:

• Sweep
• Burst
• Frequency Counter

AFG-4125AE includes a built-in power amplifier function.

Interface & Display

• USB Interface: AFG-4125E / 4125AE / 4225E
• USB & LAN Interfaces: AFG-4235 / 4260 / 4280 / 4210H / 4225H

Display:

• 8-inch TFT LCD, 800 × 480 resolution
• Multi-touch display (AFG-4235 / 4260 / 4280 / 4210H / 4225H)

The AFG-4000 Series combines precision, flexibility, and user-friendly operation, making it suitable for demanding waveform generation applications.

References

• GBM-3080 Battery Meter, 80 V
• GBM-3300 Battery Meter, 300 V
• GBM-3100H Battery Meter, 1000 V

Key Features

• 3.5" TFT LCD (320x240)
• Measurement: DC voltage and AC resistance
• Voltage ranges: 80V (GBM-3080), 300V (GBM-3300), 1000V (GBM-3100H)
• Resistance measurement: 0 mΩ to 3.2 kΩ
• Basic accuracy: ±0.01% for voltage, ±0.5% for resistance
• Measurement resolution up to 0.1 μΩ and 10 μV, suitable for single-cell testing
• Independent GO/NOGO function for voltage and resistance
• Probe disconnection/contact detection for reliable measurements
• Standard interfaces: USB host/device, RS-232C, and Handler

References

• GOM-804 : Milliohmètres DC+/Standby
• GOM-804G : Milliohmètres DC+/Standby, GPIB
• GOM-805 : Milliohmètres DC+/DC-/Pulsed/PWM/Zero/Standby

Reference

• GPM- 8213 : Digital Power Meter

Key Features

• 4” TFT LCD
• Two display modes: Standard and Simple
• Standard: 2 major + 6 secondary measurements
• Simple: 4 measurement parameters
• Accepted for SPEC Power® testing
• Compliant with IEC 62301 power measurement
• Voltage/current test frequency bandwidth: DC ~ 6 kHz
• Watt resolution: 1 mW
• Minimum current range: 5 mA, resolution 0.1 µA
• Current/voltage measurements: CF=3 (distorted wave), CF=6 (half range)
• Integration W-h / A-h function
• Total harmonic distortion measurement
• Front panel test terminals
• Standard interfaces: RS-232C, USB Device, LAN
• Optional interface: GPIB
• Optional test fixture: GPM-001

Reference

• GPM-8310 : Wattmètre numérique

Key Features

• 5” TFT LCD
• Voltage/current test bandwidth: DC, 0.1 Hz ~ 100 kHz
• Two numeric display modes: General (2 main + 8 secondary), Simple (4 main)
• Waveform display: V (voltage), I (current), P (power)
• CF for distorted waveform: 3, half-range CF: 6 or 6A
• Accepted for SPEC Power® testing
• Harmonic measurement up to 50th order, numeric and bar graph
• Integration function with automatic level-changing
• External current sensor inputs (EXT1/EXT2)
• Standard interfaces: RS-232C, USB Device / Host, LAN, GPIB
• Optional interface: Digital I/O (DA4, factory-installed)

References

• GPM-8320 : Digital Power Meter, two measurement modules
• GPM-8320G : Digital Power Meter, two measurement modules
• GPM-8330 : Digital Power Meter, three measurement modules
• GPM-8330G : Digital Power Meter, three measurement modules

Overview

The GPM-8330 and GPM-8320 Digital Power Meters are high-precision instruments designed for accurate electrical power measurement and analysis. Equipped with a 5-inch TFT LCD display, these devices provide a wide measurement bandwidth for voltage and current. They allow detailed waveform visualization, harmonic analysis, and comprehensive power measurements in compliance with international standards.

Key Features

• 5-inch TFT LCD color display
• Voltage and current measurement bandwidth: DC, 0.1 Hz to 100 kHz
• Waveform display for Voltage (V), Current (I), and Power (P)
• Distorted waveform measurement capability:
  • Full range for CF = 3
  • Half range for CF = 6 (or 6 A)
• Compliant with IEC 61000-4-7 harmonic measurement standard (50/60 Hz)
• Selectable wiring configurations: 1P3W, 3P3W, 3P4W, 3V3A
• Harmonic measurement and analysis up to the 50th order
• Auto-ranging function for integration mode
• Screen capture via USB Host
• External current sensor input support (EXT1 / EXT2)

Interfaces

Standard Interfaces:

• RS-232C
• USB Device / USB Host
• LAN

Optional Interface:

• GPM-DA12 – GPIB + Digital I/O interface (factory installed only)

References

• GPM-8320-60 : Digital Power Meter 60A, two measurement modules
• GPM-8320-60G : Digital Power Meter 60A, two measurement modules, GPIB, DA12
• GPM-8330-60 : Digital Power Meter 60A, three measurement modules
• GPM-8330-60G : Digital Power Meter 60A, three measurement modulesGPIB, DA12

Key Features

• 5” TFT LCD display
• Voltage/Current test bandwidth: DC, 0.1 Hz to 100 kHz
• Direct input current up to 60 A
• Waveform display: Voltage (V), Current (I), Power (P)
• Distorted current/voltage measurement: full range CF=3, half range CF=6 (or 6 A)
• Compliant with IEC 61000-4-7 harmonic measurement (50 Hz / 60 Hz)
• Wiring selection button: 1P3W, 3P3W, 3P4W, 3V3A
• Harmonic measurement & analysis up to 50 orders
• Auto-ranging function for Integration mode
• Screen capture via USB host
• External current sensor inputs (EXT1/EXT2)

Reference

• GVT-417B : High-Precision AC Millivolt Meter

Capture even the smallest voltages with outstanding accuracy! The GVT-417B is built for professionals who demand reliability and performance in every measurement.

Why Choose the GVT-417B?

• Maximum Sensitivity: Detect voltages as low as 300 μV full-scale.
• Wide Measurement Range: 10 Hz to 1 MHz for any application.
• Flexible Amplitude: -70 dB to +40 dB across 12 easy-to-select ranges.
• Dual Channels (GVT-427B): Measure simultaneously or independently.
• CE Certified: Safety and compliance guaranteed.

References

• LCR-1010 – 10 kHz Handheld LCR Meter
• LCR-1100 – 100 kHz Handheld LCR Meter

Key Features

• 2.8” TFT Touch LCD
• 50,000 counts resolution on both primary and secondary displays
• 0.2% basic accuracy
• 6 or 8 selectable test frequencies depending on the model
• 15 measurement combinations available
• Selectable test levels:
  • AC: 0.3 V / 0.7 V / 1 Vrms
  • DC: ±1 V
• Selectable measurement speeds:
  • Fast: 10 measurements per second
  • Slow: 2.5 measurements per second
• Auto LCR Mode for automatic component identification
• Data Hold function
• USB interface (Virtual COM) for remote communication
• Datalogging software available

References

• LCR-6002 : Precision LCR Meter, 10 Hz to 2 kHz
• LCR-6020 : Precision LCR Meter, 10 Hz to 20 kHz
• LCR-6100 : Precision LCR Meter, 10 Hz to 100 kHz
• LCR-6200 : Precision LCR Meter, 10 Hz to 200 kHz
• LCR-6300 : Precision LCR Meter, 10 Hz to 300 kHz

Key Features

• 3.5” color LCD display
• 5 models available (2 kHz / 20 kHz / 100 kHz / 200 kHz / 300 kHz)
• Consecutive and adjustable test frequency
• Basic accuracy up to 0.05%
• Measurement speed up to 25 ms (max.)
• OPEN/SHORT compensation across full frequency range or spot frequency
• 16 primary/secondary parameter combinations plus two monitoring parameters (up to four parameters displayed simultaneously)
• DCR measurement and internal DC bias voltage (±2.5 V)
• PASS / FAIL judgment function
• Auto Level Control (ALC)
• BIN sorting function: 9 BIN + 1 AUX (total 10 BIN)
• 10-step list testing with selectable frequency, voltage, and current conditions
• Standard interfaces: RS-232C, Handler, and USB Host / Device
• Compact design suitable for automated systems (2U, 1/2 rack)

References

• LCR-8250A : DC, 10 Hz ~ 50 MHz High Frequency LCR Meter
• LCR-8230A : DC, 10 Hz ~ 30 MHz High Frequency LCR Meter
• LCR-8220A : DC, 10 Hz ~ 20 MHz High Frequency LCR Meter
• LCR-8210A : DC, 10 Hz ~ 10 MHz High Frequency LCR Meter
• LCR-8205A : DC, 10 Hz ~ 5 MHz High Frequency LCR Meter

• LCR-8230 : DC, 10 Hz ~ 30 MHz High Frequency LCR Meter
• LCR-8220 : DC, 10 Hz ~ 20 MHz High Frequency LCR Meter
• LCR-8210 : DC, 10 Hz ~ 10 MHz High Frequency LCR Meter
• LCR-8205 : DC, 10 Hz ~ 5 MHz High Frequency LCR Meter
• LCR-8201 : DC, 10 Hz ~ 1 MHz High Frequency LCR Meter

Key Features

• Wide test frequency range :
  • LCR-8200A : DC, 10 Hz ~ 50 / 30 / 20 / 10 / 5 MHz
  • LCR-8200 : DC, 10 Hz ~ 30 / 20 / 10 / 5 / 1 MHz
• 7-inch color LCD display
• 0.08% basic accuracy
• Simultaneous display of up to 4 measurement results from 17 selectable parameters
• 15-step LIST measurement mode
• Dual-curve sweep mode
• Equivalent circuit model analysis (LCR-8200A only)
• Internal DC bias voltage ±12 V
• USB storage support
• Auto Level Control (ALC) function
• Standard interfaces : RS-232C, USB Host / Device, LAN, GPIB and Handler
• Universal power input

References

• PCS-1000i : Isolated Output High Precision Current Shunt Meter

Key Features

• 6½-digit resolution for voltage and current measurements
• Simultaneous voltage and current measurement
• Five current measurement levels (AC/DC): 30 mA / 300 mA / 3 A / 30 A / 300 A
• AC voltage measurement levels: 200 mV / 2 V / 20 V / 200 V / 600 V
• DC voltage measurement levels: 200 mV / 2 V / 20 V / 200 V / 1000 V
• Standard interfaces: USB & GPIB
• CE certified

References

• GPT-9503 – AC 150 VA Multi-Channel Hipot Tester, H or X Channel Status
• GPT-9513 – AC 150 VA Multi-Channel Hipot Tester, H, L or X Channel Status

Key Features

• 150 VA AC test capacity
• 3-in-1 tester: AC Hipot, DC Hipot, and Insulation Resistance
• Built-in 8-channel scanner
• 4.3" color TFT LCD (480 × 272 resolution)
• Test parameter import/export via USB host
• Statistical counter function
• Insulation resistance measurement up to 10 GΩ
• Open/Short Check (OSC)
• Arc detection
• Multi-language interface: English, Traditional Chinese, Simplified Chinese
• Communication interfaces: RS-232C and USB host/device

References

• GPT-9601: AC 100 VA Withstanding Voltage Safety Tester
• GPT-9602: AC/DC 100 VA Withstanding Voltage SafetyTester
• GPT-9612: AC 100 VA Withstanding Voltage / Insulation Resistance SafetyTester
• GPT-9603: AC/DC 100 VA Withstanding Voltage / Insulation Resistance SafetyTester

Key Features

• 100VA AC test capacity
• 240x48 Ice Blue dot matrix LCD
• Auto W-I or I-W mode
• ARC detection
• RMS current measurement
• Zero-crossing turn-on operation
• INTERLOCK safety function
• PWM amplifier for enhanced power efficiency and reliable testing
• Automatic input source switching for universal voltage
• Interface: remote terminal and Signal I/O ports

References

• GPT-9801: 200VA AC Withstanding Voltage Tester
• GPT-9802: 200VA AC/DC Withstanding Voltage Tester
• GPT-9803: 200VA AC/DC & Insulation Resistance Tester
• GPT-9804: 200VA AC/DC, Insulation Resistance & Ground Bond Tester

• GPT-9901A: 500VA AC Withstanding Voltage Tester
• GPT-9902A: 500VA AC/DC Withstanding Voltage Tester
• GPT-9903A: 500VA AC/DC & Insulation Resistance Tester
• GPT-9904: 500VA AC/DC, Insulation Resistance & Ground Bond Tester

Features

• AC Test Capacity: 200 VA and 500 VA
• 240x64 Ice Blue Dot Matrix LCD
• Manual and Auto Modes
• Function Key for Quick Selection
• High-Intensity Flash for Caution & Status Indication
• Safety INTERLOCK Function
• Zero-Crossing Turn-on Operation
• Controllable Ramp-Up Time
• RMS Current Measurement
• High Resolution: 1 µA for current, 2 V for voltage
• PWM Amplifier for improved power efficiency and reliable testing
• Up to 100 memory blocks for test conditions; each step individually nameable
• Front-panel remote terminal for Start/Stop control
• Interfaces: RS-232C, USB, Signal I/O, and optional GPIB

References

• GPT-12001: AC 200 VA Electrical Safety Analyzer
• GPT-12002: AC/DC 200 VA Electrical Safety Analyzer
• GPT-12003: AC/DC/IR 200 VA Electrical Safety Analyzer
• GPT-12004: AC/DC/IR/GB 200 VA Electrical Safety Analyzer

• GPT-15001: AC 500 VA Electrical Safety Analyzer
• GPT-15002: AC/DC 500 VA Electrical Safety Analyzer
• GPT-15003: AC/DC/IR 500 VA Electrical Safety Analyzer
• GPT-15004: AC/DC/IR/GB 500 VA Electrical Safety Analyzer

• GPT-15012: DC 12kV / IR 5kV Electrical Safety Analyzer

Main Features

• GPT-12000 Series : AC Test Capacity: 200 VA
• GPT-15000 Series : AC Test Capacity: 500 VA
• GPT-15012 : DC 12kV / IR 5kV
• Compliant with IEC 61010-2-034
• 7” TFT LCD Display
• Manual and Automatic Modes
• RMS Current Measurement
• Zero Crossing Turn-on Function
• Controllable Ramp-up and Ramp-down Time
• Capacitive Load Testing up to 47 μF
• Statistics and Analysis Function
• Sweep Function for DUT Characteristic Analysis
• Convenient AUTO mode for easy result reading
• Internal and USB Storage
• Barcode Function Available
• Export/Import of Test Settings
• Rear Panel Output Available
• Interfaces: RS-232C, USB host/device, Signal I/O, optional GPIB or LAN
• Universal Power Input

References

• MFG-2110 – 10 MHz single-channel arbitrary function generator with pulse generator.
• MFG-2120 – 20 MHz single-channel arbitrary function generator with pulse generator.
• MFG-2120MA – 20 MHz single-channel arbitrary function generator with pulse generator, modulation, and power amplifier.
• MFG-2130M – 30 MHz single-channel arbitrary function generator with pulse generator and modulation.
• MFG-2160MF – 60 MHz single-channel arbitrary function generator with pulse generator, modulation, and 160 MHz RF signal generator.
• MFG-2160MR – 60 MHz single-channel arbitrary function generator with pulse generator, modulation, and 320 MHz RF signal generator.

• MFG-2230M – 30 MHz dual-channel arbitrary function generator with pulse generator and modulation.
• MFG-2260M – 60 MHz dual-channel arbitrary function generator with pulse generator and modulation.
• MFG-2260MFA – 60 MHz dual-channel arbitrary function generator with pulse generator, modulation, 160 MHz RF signal generator, and power amplifier.
• MFG-2260MRA – 60 MHz dual-channel arbitrary function generator with pulse generator, modulation, 320 MHz RF signal generator, and power amplifier.
• MFG-2220HM – 200 MHz dual-channel arbitrary function generator with pulse generator and modulation.

MFG-2000 Series Multi-Channel Function Generator

The MFG-2000 Series is a range of high-performance multi-channel arbitrary function generators designed for testing, measurement, and electronic development applications. These instruments provide excellent signal quality, advanced modulation capabilities, and flexible output configurations suitable for laboratory and industrial environments.

Key Features

• Up to five output channels available.
• Two high-performance arbitrary waveform channels with frequency ranges from 1 µHz to 10 / 20 / 30 / 60 / 200 MHz depending on the model.
• RF channel (FG/ARB/MOD) with frequency up to 160 MHz or 320 MHz.
• Pulse generator with a maximum frequency of 25 MHz.
• Low-frequency power amplifier (up to 100 kHz) with 20 W output power.
• True point-by-point arbitrary waveform generation:
  • MFG-2220HM: 250 MSa/s sampling rate with 125 MHz repetition rate.
  • Other models: 200 MSa/s sampling rate with 100 MHz repetition rate.
• 14-bit resolution with 16k points memory depth.
• Earth ground isolation between I/O terminals and the instrument chassis (except MFG-2220HM).
• Built-in frequency counter up to 150 MHz with 8-digit frequency resolution.
• Supported modulation types: AM, FM, PM, ASK, FSK, PSK, SUM, and PWM.
• Built-in medical and automotive electronic waveforms (except MFG-2220HM).
• Communication interfaces: USB Host, USB Device, and LAN (MFG-22XX models only).

MPS 400-1 System – Festo Didactic

Comprehensive, modular learning factory for advanced education in mechatronics, automation, and Industry 4.0

The MPS 400-1 system developed by Festo Didactic is a fully integrated and highly realistic training solution designed to replicate the structure, behavior, and complexity of modern industrial production systems. Based on the modular and industry-proven MPS 400 platform, this learning factory provides a complete environment for teaching and experimenting with the core technologies of Industry 4.0.

The system is composed of three main stations — Distribution Pro, Assembly, and Inline Sorting — forming a coherent and fully automated production line. Each station represents a key stage of industrial manufacturing, from raw material handling to assembly and quality control.

Thanks to its modular architecture, the MPS 403-1 system can be extended with one or two additional stations, such as the Measure Pro station for industrial metrology and the Robotic Assembly station for advanced robotics applications. This scalability allows educators to adapt the system to different levels of training, from basic automation to highly advanced smart factory scenarios.

All stations are interconnected through modern industrial communication protocols, including OPC UA, IO-Link®, PROFINET, and TCP/IP. The entire system is orchestrated by a didactic Manufacturing Execution System (MES), enabling real-time production control, order management, traceability, and data-driven decision-making. 

Integrated Technologies

• Didactic MES system with web-based interface
• RFID technology for product traceability
• IO-Link smart sensors for advanced diagnostics
• OPC UA and PROFINET for industrial communication
• IIoT solutions with camera and embedded systems
• Machine learning algorithms for process optimization
• Modern HMI systems including touchscreen and web interfaces
• Augmented Reality (AR) support for interactive learning

Applications

The MPS 403-1 system is suitable for a wide range of educational and industrial training environments:

• Universities and engineering schools
• Technical and vocational training centers
• Industry 4.0 laboratories and innovation hubs
• Corporate training programs
• Advanced research and development projects

By combining modular hardware, modern software, and cutting-edge industrial technologies, the MPS 403-1 system provides a future-proof platform for training the next generation of engineers and technicians.

Reference : ACS-102

General Description

The ACS-102 is a wet cooling tower system designed to replicate industrial cooling processes using forced draft ventilation. This complete educational unit enables detailed study of thermal and air-water interactions within a cooling column.

The system includes a full water circuit with pump, filter, valve, and spray nozzle, along with a radial fan and a three-stage electric heater with thermostat control.

Applications

• Technical and university education
• Heat transfer studies
• Psychrometric analysis
• HVAC and energy engineering training

Key Features

• Wet cooling tower with interchangeable column
• Optional interchangeable wet deck surfaces
• Forced ventilation via radial fan
• Airflow control via throttle valve
• Demister to reduce water losses
• Make-up water tank for compensation
• Display of temperature, pressure, flow rate, humidity
• ADF software for USB data acquisition (Windows)

Educational Capabilities

Process Analysis

• Full industrial process simulation
• Evaporation process observation
• Water distribution visualization

Reference : DM-102

Overview

The DM-102 Pump Variations Training Set is a comprehensive educational system designed for the study and analysis of various pump types and their operating principles.

Educational applications

• Study of centrifugal and positive displacement pumps
• Comparison of pump types
• Series and parallel operation
• Pipeline pressure losses
• Performance measurement (flow, pressure, torque, power)

Integrated pump types

Centrifugal pumps

Two centrifugal pumps allowing individual, series, or parallel operation.

Piston pump

Positive displacement pump for controlled flow experiments.

Side-channel pump

Self-priming, capable of handling gases depending on liquid level.

Drive system

Each pump is driven by a three-phase AC motor. Speed control is achieved via frequency converters.

Additional position

One free position with reversible motor allows integration of additional pumps.

Reference : FM-150.08 - Bernoulli’s Theorem and Flow Measurement

Overview

The training unit is designed to demonstrate Bernoulli’s theorem and to perform flow measurement calculations using a variety of flow measurement devices.

Features

This self-contained system includes its own storage tank, integrated pump, and support frame, allowing it to operate independently without the need for external equipment.

Reference : FM-204

Overview

The FM-204 is a training unit designed for the comprehensive study of pressure losses in piping systems. It enables the visualization and analysis of hydraulic resistance effects caused by pipe elements such as elbows, valves, and cross-section variations.

With its modular design and interchangeable components, this system is ideal for technical and higher education laboratories.

When water flows through a piping system, hydraulic resistances lead to pressure losses, particularly at fittings, valves, and other pipe components.

The FM-204 unit is designed to study and visualize these pressure losses in various piping elements. This experimental setup enables the analysis of how different pipe geometries influence fluid flow.

Equipment Description

The FM-204 experimental unit consists of a pipe section incorporating several elements with different flow resistances, as well as contraction and expansion sections. A ball valve is also integrated into the system.

Pressure measuring points equipped with annular chambers are positioned upstream and downstream of the pipe elements to ensure accurate pressure measurements.

These measuring points can be connected in pairs to six tube manometers, allowing the determination of pressure losses across each piping element.

Educational Applications

- Study of major and minor pressure losses
- Flow analysis in different materials and pipe diameters
- Understanding pressure and flow behavior
- Practical training in measurement and instrumentation
- Fluid mechanics laboratory experiments

Reference : FM-300

Référence : CE-100 Series

Overview

The reactor is the core component of any chemical production system. Within the reactor, initial substances (reactants) interact to form a new substance (product). The reactor must ensure optimal reaction conditions, particularly with regard to temperature control. Various reactor types are used depending on process requirements.

System Description

The CE-100 is designed as a supply unit compatible with six different reactor types. The reactor under investigation is mounted onto the unit and secured in place using two fixing pins. For continuous operation, two tanks for reactants are integrated into the system.

The supply unit and the reactor are hydraulically connected via hoses equipped with quick-release couplings for easy installation. Two pumps deliver the reactants into the reactor, and the retention time can be adjusted by controlling the pump speed.

Inside the reactor, the reactants are converted into a product. An additional tank and pump are provided for product collection. The unit is also equipped with a heating water circuit, including a pump, tank, and heater, allowing precise temperature control within the reactor.

Features and Instrumentation

The cold-water circuit can be supplied by the CS-100.20 water chiller. Conductivity and temperature within the reactor are measured using a combined sensor. The control cabinet includes all necessary components to operate the stirrers in the different reactors.

Measured values are displayed digitally on the control cabinet and can also be transmitted to a PC via Ethernet. This enables detailed analysis using the data acquisition software included with the system.

Learning Objectives and Experiments

In conjunction with a reactor (CE-100.01 to CE-100.06):

• Understanding the design and operation of various reactor types
• Analysis of conversion based on reactor type
• Effect of retention time on conversion
• Effect of temperature on conversion
• Effect of concentration on conversion
• Fundamentals of saponification reaction
• Determination of retention time distribution

Référence : FM-151

Reference : HS-105

References

• 08493-93 : Immersion Thermostat

The PHYWE 08493-93 immersion thermostat is a high-performance temperature control device designed to meet the requirements of laboratory and industrial applications. Its robust construction and high precision ensure reliable and reproducible results.

Key Benefits

• Wide temperature range suitable for various applications.
• User-friendly digital settings for easy operation.
• Robust pump ensuring reliable performance at high temperatures.
• Designed for use with water as the heat transfer fluid.
• Screw clamp suitable for bath walls up to 25 mm thick.
• Durable construction using high-quality stainless steel and heat-resistant polymer.
• Wear-free system with integrated overload protection.

Reference

• P2110105 : Measurement Techniques

Principle

Measuring instruments such as vernier calipers, micrometers, and spherometers enable highly accurate measurements of lengths, thicknesses, diameters, and radii of curvature. This educational module demonstrates measurement procedures, as well as the concepts of measurement accuracy and reading precision.

Key Benefits

• Provides a fundamental basis for practical science laboratory courses
• Supports the acquisition of essential skills in measuring basic mechanical quantities
• Raises awareness of measurement accuracy limitations
• Encourages the combination of multiple measurements to determine a physical quantity
• Enables determination of radii of curvature using a spherometer

Reference

• P2130305 : Newton’s Second Law with Low-Friction Track

Principle

The distance-time law, the velocity-time law, and the relationship between mass, acceleration, and force are investigated using a demonstration track designed to study uniformly accelerated rectilinear motion.

Advantages

• High-precision results thanks to measurements performed under very low friction conditions, ensured by a cart equipped with sapphire bearings.
• Adjustable feet along the entire length of the track, allowing easy and precise alignment, even on small laboratory tables.
• Highly robust accessories, designed to prevent overloading of the cart through an elastic bearing system on the base plate, thereby reducing unnecessary failures.
• Detailed, illustrated step-by-step manual for easy implementation of experiments.
• The 4-4 timer provides great versatility and can be used for a wide range of experimental applications, including:
  • distance-time law measurements at four distances,
  • velocity measurements at four positions,
  • collision principles,
  • measurement of rotational motion period,
  • direct measurement of the duration of a full oscillation of a mechanical pendulum,
  • short- and long-term measurements using two 8-digit displays by connecting two timers.

Reference : 91030

General Description

This oil-lubricated compressor is characterized by its exceptionally quiet operation, with a noise level of only 45 dB(A). It is ideally suited for use in educational environments, such as classrooms and laboratories. The unit is equipped with a pressure regulator and a water separator, ensuring a clean and stable air supply.

Reference : FM-303

Reference : SM-400

Reference : TE-101

Reference : TE-102

Reference : TE-105

Reference : TE-106

References :

• 539028 With one profile plate 1100 x 700 mm and ER frame
• 539030 With one profile plate 700 x 700 mm and ER frame
• 572155 With two profile plates 700 x 700 mm and ER frame

A Comprehensive System for Technical Education

With Learnline, you benefit from a fully integrated organizational concept designed for immediate use in teaching pneumatics, hydraulics, and electrical engineering. Every detail combines functionality and design to meet the demands of modern education.

The Learnline range includes mobile and fixed base units equipped with cable compartments and oil trays, various mounting systems with extensions, mobile and stationary cabinets, specialized storage solutions, mounting elements, and a wide range of accessories.

Thanks to its modular design, the Learnline workstation system offers a wide variety of configurations and integration possibilities. Used in more than 50 countries, it is supported by experienced consultants who provide tailored solutions.

Festo Quality Standards

No compromises are made when it comes to quality. Both workmanship and functionality meet the highest standards. The torsion-resistant structure, combined with a high-quality coating of the work surface and frame, ensures long service life even under heavy use.

Learnline is designed to withstand both everyday training conditions and dynamic loads, such as those generated during hydraulic positioning adjustments. It easily absorbs high mechanical forces, for example those produced by hydraulic control systems, proportional pneumatics, or robotic applications.

Scalability, Versatility, and Flexibility

Learnline’s design enables it to meet a wide range of technical and educational requirements. Carefully engineered individual components allow configurations to be tailored to user needs, available space, and specific technical challenges.

The functional profile column is at the core of the modular system. As a central mounting point, it offers numerous configuration possibilities. All elements can be securely and easily mounted on the profile plate without the need for force or special tools, using T-nuts or the patented Quick-Fix fastening system.

This fastening system is compatible with all technologies and application areas.

Reference

• DW-K9860 : Kjeldahl Analyzer

Reference

• DW-AA320N : Atomic Absorption Spectrophotometer

Features

• Built-in computer and LCD display: Integrated data processing ensuring stability and reliability. Functions include integral holding, peak height and area measurement, auto zero adjustment, deuterium lamp background correction, multi-linear and nonlinear curve fitting, display of parameters and calibration curves on screen, and report printing. Interface for external PC connection.
• Excellent stability: Double-beam system automatically compensates for light source and wavelength drift due to temperature variations and electronic drift, ensuring high baseline stability.
• Fast analysis: Hollow cathode lamp requires no long preheating. Samples can be analyzed immediately, ideal for multi-element rapid analysis.
• High measurement precision: Gas path system equipped with pressure and current stabilizers to maintain a stable flame and low noise. Finely focused light beam passes through the flame for high-precision analysis and low characteristic concentration.
• High-energy optical path: Total reflection system eliminates chromatic aberration across the full spectrum. Light beam is converted to an elongated spot optimizing slit passage and increasing double-beam flux.
• Durable and corrosion-resistant atomization system: Burner made of new titanium alloy, corrosion-resistant and thermally stable, no water cooling required, providing excellent measurement sensitivity.
• Multi-functional analysis modes: Flame atomic absorption, flame emission, graphite furnace atomic absorption, and hydride generation.
• Safe and reliable gas system: Quick gas switching and safety devices enable use of air-acetylene and nitrous oxide-acetylene flames, analyzing over 60 elements.
• Complete accessories: Supplied with the instrument, ready to use upon installation.

General Description

The electric thermostatic water bath is a commonly used laboratory device for sample pre-treatment. It is widely applied in medical, chemical, biological fields, as well as in research institutions and laboratories.

The unit consists of an outer housing, a water tank, an electric heating system, and a temperature control system.

Working Principle

The temperature sensor converts the water temperature into a resistance value. After amplification and comparison through an integrated circuit, a control signal is generated to regulate the heating power effectively. This ensures that the water temperature remains constant with high accuracy.

Advantages

• Stainless steel tubular heating elements positioned horizontally.
• Perforated aluminum shelves for stable placement of laboratory containers.
• Top cover with interchangeable concentric rings suitable for different flask diameters.
• Side drain outlet for easy water discharge.
• High-quality temperature control system ensuring precision, reliability, and ease of use.

Reference

• MX-S : Vortex Mixer

General Description

The MX-S vortex mixer is a laboratory device designed for fast and efficient mixing of liquid components in tubes. It operates using an eccentric mechanism that generates a vortex motion, making it ideal for resuspending cells or chemical precipitates.

This equipment is widely used in biological and chemical laboratories, particularly for vigorous resuspension of cells or pellets in tubes up to 15 ml.

Key Features

• Stepless speed control from 0 to 3000 rpm
• Smooth and continuous speed adjustment
• Suitable for various mixing applications with optional adapters
• Specially designed suction feet for excellent stability
• Robust die-cast aluminum construction

Reference

• DW-5000ADQ : Multi-Manifold Rotary Evaporator

General Description:
The DW-DQ series is a new generation of rotary evaporators developed by our company, capable of simultaneously concentrating up to 5 samples.

Featuring a compact and elegant design, this device offers ease of use, precise temperature control, reliability, ergonomic operation, and long-lasting durability.

The DW-DQ series rotary evaporator (available in 5 × 50 ml, 5 × 100 ml, or 5 × 150 ml configurations) includes the following features:

Technical Features:

• Large LCD screen with menu interface displaying multiple parameters; rotary knob for easy operation.
• Heating bath with Teflon coating, easy to clean, corrosion-resistant, and high-temperature resistant.
• Maximum temperature up to 99 °C with automatic shut-off in case of overheating.
• Special flask removal system for easy disassembly of the evaporation flask.
• Sealing made of imported PTFE with advanced technology.
• Dual control modes: touchscreen and button-operated automatic lift for safe and convenient use.
• 70 W DC motor ensuring smooth and stable start-up.
• Vertical condenser with drip point design to prevent backflow.
• Intermittent clockwise/counterclockwise rotation with timer function for drying, maximum speed up to 310 rpm.
• Vacuum control via vacuum gauge and vacuum valve to prevent pump oil backflow and improve experiment success rate.
• Heating bath with insulated handle to prevent burns; optimized volume for fast heating.
• Protective cover for heat preservation, energy saving, and spill/boil-over prevention.

Reference : TE-107

Reference : TE-109

Reference : TE-110

General Description

The TE-110 is a complete experimental unit designed for studying the laws of radiant heat transfer. Thermal radiation is an energy transfer mechanism via electromagnetic waves emitted by any body above absolute zero.

This educational system allows investigation of thermal and light radiation, including UV, visible, and infrared radiation, making it ideal for physics and thermal science laboratories.

Main Features

The system includes two radiation sources: a thermal radiator and a light source. Detection is carried out using a thermopile for thermal radiation and a photodiode-based lux meter for light radiation.

Optical components such as filters, diaphragms, and absorption plates can be mounted on a graduated optical bench for precise distance measurements.

Measurement and Analysis

All components can be rotated to analyze the effect of angle of incidence on radiation intensity. Measured values are digitally displayed and transferred to a PC via USB for analysis.

Experiments

• Lambert’s law (direction and distance)
• Stefan-Boltzmann law
• Kirchhoff’s laws
• Radiation absorption and reflection
• Thermal and light radiation studies
• Influence of distance and angle
• Wide experimental range

Reference : TE-121

TE-121 - Heat Exchanger Training Bench

General Description

The TE-121 is an educational laboratory equipment designed for studying the construction, operation, and performance of various types of heat exchangers used in industrial applications.

Educational Applications

Experiments and Studies

• Study of heat exchanger operating principles
• Thermal performance analysis
• Understanding heat transfer mechanisms
• Evaluation of heat losses

Types of Heat Exchangers Studied

• Shell and tube heat exchanger
• Plate heat exchanger
• Air/water heat exchanger
• Pipe-in-pipe heat exchanger
• Jacketed stirred vessel heat exchanger

Included Modules

• TE-121.01 – Tubular Heat Exchanger Module
• TE-121.02 – Plate Heat Exchanger Module
• TE-121.03 – Shell & Tube Heat Exchanger Module
• TE-121.04 – Jacketed Stirrer Module

Référence : TFM-500

General Description

The TFM-500 is a complete educational system designed for studying thermodynamic cycles of reciprocating machines, particularly compressed air generation systems. It enables analysis of a two-stage compressor and visualization of compression processes using a p-V diagram.

Applications

• Technical and engineering education
• Industrial pneumatic system training
• Energy and mechanical engineering laboratories
• Thermodynamic cycle demonstrations

Main Features

• Recording characteristics of a two-stage compressor
• Visualization of compression processes (p-V diagram)
• Measurement of pressure, temperature, and electrical power
• Determination of intake volumetric flow rate
• Intercooling between compression stages
• Touchscreen control with intuitive interface
• PLC-based system control
• Remote operation via integrated router (up to 10 devices)
• Internal data storage via USB

Référence : CP-120

General Description

The CP-120 is a complete laboratory and pilot-scale unit designed for batch conversion of starch-based raw materials into ethanol. It integrates mashing, fermentation, and distillation processes with advanced automation control.

Main Features

Integrated Process

• Mash tank with agitator and water jacket cooling
• Steam injection for thermal processing
• Closed fermentation tank with thermal control
• Distillation unit with 3 bubble cap trays

Control and Automation

• pH control via metering pumps (acid and caustic)
• PID regulation for temperature and flow rates
• PLC control with touchscreen interface
• Data acquisition software via USB (Windows 8/10)

Reference : CBT-100B

General Description

The CBT-100B is a fully functional aircraft cockpit simulation system designed for advanced training in aircraft instrumentation, maintenance, and system understanding.

It is ideal for aviation training centers, PART 147 organizations, and technical institutions requiring hands-on cockpit instrumentation training.

Training Applications

• Aircraft instrument maintenance training
• Gyroscopic and pitot-static system demonstration
• Instrument removal and installation training
• EASA PART 147 ATA-31-00-00 practical tasks

Main Features

• Complete cockpit simulation (analog + digital)
• Digital ADAHRS with GPS
• 3 DOF instrument panel (roll, pitch, yaw)
• High-resolution touch PFD/MFD display
• Electronic sensor simulation
• Fully instrumented engine monitoring system

Smart PFD/MFD Display

Specifications

• Resolution: 1280 x 800 pixels
• Brightness: 1200+ nits
• Capacitive multi-touch screen
• Dimensions: 7.64” x 5.59” x 3.13”

Functions

• Flight and engine data display
• GPS moving map
• Synthetic vision
• Split-screen capability
• Integrated timer
• Auto brightness control

Reference : CBT-100D

General Description

AIRCRAFT EFIS/EICAS Trainer (CBT-100D) is a complete and fully functional simulation of a typical aircraft cockpit. It includes essential flight, engine, and pitot-static instruments.

This training system provides hands-on maintenance training while also functioning as a demonstration tool for instructors. It demonstrates the principles of gyros, altimeter, and engine instruments, and can also be used for teaching instrument removal and replacement.

Important Notes

If you wish to upgrade this system with navigation systems such as VOR/ILS/VHF, please contact us.

The trainer can be customized with sensors and indicators according to your training needs. Please contact us for special requests.

This trainer also allows performing practical tasks of EASA PART 147 ATA-31-00-00.

Features

• The system combines primary flight instrumentation, aircraft systems instrumentation, and engine instrumentation.
• Trainer uses the latest GPS and Digital ADAHRS (Air Data and Attitude Heading and Reference Systems).
• ADAHRS provides highly accurate and reliable aircraft position, rate, vector, and acceleration data.
• Three degrees of freedom instrument panel enables full demonstration of attitude and directional gyro functions.
• Functional engine monitoring system can be connected to engine sensors.
• Primary flight display mounted on a panel simulating roll, pitch, and yaw controlled by a control yoke.
• Provision of engine sensor simulation.
• Pitot-static system for conducting pitot-static checks.
• Instructor panel for fault insertion.

Reference : CBT-100E

General Description

The Aircraft EFIS Trainer is a complete and fully functional simulation of a typical aircraft cockpit. It includes essential flight instruments and pitot-static instruments.

This training system provides hands-on maintenance training while also functioning as a demonstration tool for instructors. It demonstrates the principles of gyros, flight instruments, and can be used for teaching display removal and replacement procedures.

NOTE: The system can be upgraded with engine monitoring systems, CBT-100D
NOTE: The trainer can be customized with sensors and indicators according to training requirements.

Reference : CBT-100F

General Description

The CBT-100F is a complete and fully functional analogue cockpit instrumentation training system, designed to replicate a typical aircraft cockpit. It includes essential flight instruments, engine instruments, and a pitot-static system.

This training system provides hands-on maintenance training and serves as a demonstration platform for instructors. It allows understanding of gyroscopic principles, altimeter operation, and engine instrumentation, as well as instrument removal and replacement procedures.

Customization

The trainer can be customized with various sensors and indicators according to specific training requirements.

Training Applications

Practical Training

• Instrument maintenance training
• Removal and installation procedures
• Fault simulation exercises

Compliance Training

Supports practical tasks compliant with EASA PART 147 ATA-31-00-00.

Reference : GSC-100A

Overview

The GSC-100A Aircraft Glass Cockpit Trainer is a fully functional simulation platform replicating a modern aircraft cockpit environment. It integrates essential flight, engine, autopilot, and pitot-static instruments.

Applications

• Pilot training
• Avionics technician training
• Aviation training centers
• Technical institutes

Reference :

P2150605

This complete educational system is designed to measure the speed of sound in air using a Kundt’s tube and a digital function generator. The experiment demonstrates the formation of standing waves inside an air column and allows direct visualization of pressure nodes through the movement of cork powder inside the glass tube.

When the sound frequency matches one of the natural frequencies of the air volume inside the tube, a standing wave is formed. The cork powder then arranges itself into a pattern showing pressure nodes and areas of maximum vibration. Based on the length of the air column and the number of observed pressure nodes, the speed of sound can be calculated for different natural frequencies.

Educational Applications

This educational setup is particularly suitable for physics laboratories in secondary schools, universities, technical institutes, and higher education institutions.

Possible Experiments

• Measurement of the speed of sound in air
• Study of longitudinal waves
• Observation of standing waves
• Analysis of the natural frequencies of an air column
• Study of wavelength
• Determination of pressure nodes
• Study of natural vibrations
• Influence of air column length on resonance frequency

Educational Objectives

• Determine the speed of sound in air for different air column lengths
• Understand the relationship between frequency, wavelength, and propagation speed
• Visualize nodes and antinodes in a standing wave
• Compare different resonance frequencies
• Develop experimental and measurement skills