Experimental equipment Product List and Ranking from 61 Manufacturers, Suppliers and Companies

Reynolds number and transition flow experimental apparatus

We will demonstrate the transition from laminar flow to turbulent flow and compare the critical Reynolds number in transitional flow with theoretical values. The setup consists of a glass head tank and glass tubes, an ink tank, and an injector, allowing us to observe the behavior of the flow using dye while adjusting the flow rate with a drainage valve located at the bottom of the apparatus. We will experiment on what happens when the flow transitions from laminar to turbulent. Additionally, experiments can be conducted by using an optional heater module (sold separately) to change the water temperature and viscosity.

Company：メガケム
Price：Other

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Water Hammer (Hydraulic Shock) Experimental Device

Water Hammer (Water Shock) Experimental Device

This is an experimental device to understand the significance of water hammer and cavitation that occur in pumps and hydraulic turbine systems. It consists of a 61-meter long coiled copper pipe, a solenoid valve, pressure sensors and Bourdon tube pressure gauges, a floating flow meter, a flow control valve, and a bypass valve. Water is supplied to a copper pipe with an inner diameter of 12.7 mm, and the flow rate inside the pipe is adjusted using the flow meter and bypass valve. The control box has a solenoid valve operation switch and a BNC terminal for pressure measurement, allowing it to be connected to an oscilloscope (sold separately) to observe the behavior.

Company：メガケム
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Series and parallel pump experimental apparatus (constant speed)

We will experiment with the operation characteristics of two centrifugal pumps in series and parallel operation, or the operation characteristics of a single pump. The setup consists of electric motors (constant speed) that drive each pump individually, a transparent acrylic water storage tank and valves, and a floating flow meter, with pressure gauges placed at the pump inlet and outlet. The impeller part of each pump is designed with a transparent cover for observation, and cavitation demonstrations can also be conducted. *There is also a PC data collection system type available with a similar experimental setup as H52. H53V Series and Parallel Pump Experimental Device (Variable Speed) H53V can vary the pump motor speed and digitally displays the rotational speed (rpm), torque (N.m), output (W), pressure (bar), flow rate (L/s), and temperature. Additionally, various data can be collected and analyzed in real-time on a PC (sold separately) using the accompanying software.

Company：メガケム
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Cavitation experimental apparatus

Cavitation experiment apparatus

This is a device for efficiently experimenting with the causes and phenomena of cavitation generated by pumps and turbines. The device consists of a water tank, an electric pump, a flow control valve, a flow meter, a pressure gauge upstream of the Venturi tube and a pressure gauge at the throat, and a Venturi tube (with a transparent window). It allows for easy observation of the occurrence of cavitation while adjusting the flow rate, helping to understand how cavitation begins based on the theory calculated from the temperature, density, and pressure of the water and experimental results.

Company：メガケム
Price：Other

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Aerodynamics experimental apparatus

This is a small wind tunnel experimental device with a test section of 100x50mm. It has a very compact design, allowing for easy movement and storage when not in use. It can be used in a wide range of experiments in combination with auxiliary equipment for demonstrations in lectures, practical training in laboratories, and student research projects. The air discharged from the blower flows into the test section through the rear duct, upper chamber, honeycomb, and converging section. The wind speed is derived using Bernoulli's theorem from the pressure in the test section and chamber. This device comes with eight types of experimental setups available for separate purchase, ranging from AF11 to AF18, which can be easily attached to the AF10. Each experimental setup can be purchased individually, and we encourage you to consider configurations that meet your needs.

Company：メガケム
Price：Other

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Series and parallel pump experimental apparatus (variable speed)

This is a compact tabletop experimental device designed to test the operation characteristics of two centrifugal pumps in series and parallel operation, or a single pump. The device consists of electric motors (variable speed) that drive each pump individually, a transparent acrylic water storage tank and valves (for each pump inlet and outlet), pressure sensors (for each pump inlet and outlet), and a flow sensor (for the drainage outlet). The impeller part of each pump is designed with a transparent cover for observation, allowing for demonstrations of cavitation. The included control box allows for variable adjustment of motor speed and digitally displays rotation speed (rpm), torque (N.m), output (W), pressure (bar), flow rate (L/s), and temperature. Additionally, the included data acquisition software VDAS can collect and analyze various data in real-time on a PC (sold separately). *There is also an analog type of experimental device similar to the H53V. H52 Series and Parallel Pump Experimental Device (Constant Speed) The H52 operates with a constant motor speed and is composed of an analog pressure gauge and a float-type flow meter.

Company：メガケム
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Seiki experimental device

Seiki experimental apparatus

It is a small water channel made of reinforced plastic that controls the flow by attaching different weirs and measures and analyzes the flow rate. The device is installed on the hydraulic bench H1F (sold separately) to supply water. It comes with a rectangular weir, two types of V-shaped weirs, and a height gauge. The experiment requires the H1F hydraulic bench for water supply and flow measurement (sold separately).

Company：メガケム
Price：Other

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Orifice flow experimental apparatus

The analysis of the flow through the orifice will be conducted as a function of cross-sectional area, flow velocity, and flow rate. It consists of a cylindrical glass tank and an orifice, allowing observation of the water head situation through the orifice, and the water head and its range of the jet flow will be measured using an integral pitot tube. An aluminum orifice set (6 types) is included. The experiment requires a H1F hydraulic bench for water supply and flow measurement (sold separately).

Company：メガケム
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Eddy current testing device

Vortex flow experimental device

A transparent container that creates various types of vortices, generating natural and forced vortices, and measuring their shapes and movements. The device consists of a W380mm transparent container that rotates with a variable-speed motor, a removable W286mm perforated transparent container, a traverse pitot tube, and a depth gauge. Experiments will be conducted with natural vortices using the perforated transparent container attached, and forced vortices with it removed.

Company：メガケム
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Supersonic wind tunnel experimental apparatus

Supersonic wind tunnel experimental device

Compressed air is rapidly blown from an optional (sold separately) large-capacity compressor and tank into the downstream of the experimental area. The air that passes through the settling chamber and converging chamber provides a stable flow at subsonic, Mach 1.4, and Mach 1.8 to the experimental area. The air that has passed through the experimental area mixes again with the blown air and recirculates. Excess air is discharged from the exhaust filter. The experimental area, measuring 100mm x 25mm, comes with three types of interchangeable liners for subsonic, Mach 1.4, and Mach 1.8. The included model is mounted in the center of the observation window, and experiments are conducted while changing the angle. The pressure at 25 points in the experimental area is displayed in real-time digitally in four groups, and two Bourdon tube pressure gauges show the pressure from the compressor (sold separately) and the supply pressure to the wind tunnel. *The operating time (approximately 10 to 20 seconds) varies depending on the capacity of the compressed air tank, etc.

Company：メガケム
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Solar panel experimental device

This is an experimental device designed to learn about the performance and usage of solar panels and energy storage systems, which are forms of renewable energy. It consists of a solar panel mounted on a lightweight frame with casters, which can be adjusted for angle, a solar panel unit made up of a solar panel and a pyranometer, a control unit that includes a charge controller, and an electrical load unit. The control unit digitally displays the solar panel voltage and current output, battery voltage and current output (during battery charging), voltage and current output to the electrical load unit, and solar radiation (W/m²). The electrical load device includes four filament lamps and a variable electrical load device (3-50Ω), as well as a 100W inverter for external output. Experiments using batteries with low capacity help investigate charge and discharge cycles. By using the optional (sold separately) data automatic collection system VDAS-B, various data can be collected in real-time to a PC (sold separately) and the experimental results can be analyzed.

Company：メガケム
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Solar heat collection experimental device

The device mounted on a movable cart understands the principles, advantages, and limitations of collecting solar energy. The device consists of a highly polished stainless steel parabolic reflector, an energy collector with a copper cylinder shape, a turntable, and a display unit. By adjusting the horizontal and vertical positions of the reflector, it can gather solar energy into the energy collector, and four types of collectors of different sizes allow for experiments at various concentration ratios. Additionally, a removable transparent cover enables comparison of the collector's characteristics with and without shielding. A pyranometer is installed on the reflector support, allowing measurement of solar radiation energy, and the display unit digitally shows the collector temperature, ambient temperature, and solar radiation amount. By using the optional (sold separately) data automatic collection system VDAS-B, various data can be collected in real-time to a PC (sold separately), and experimental results can be analyzed.

Company：メガケム
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Solar collector experimental device

We will conduct measurement experiments on solar thermal efficiency and heat loss regarding the use of renewable and environmentally friendly energy sources. Similar to devices used for residential heating and swimming pools, the system consists of pipes arranged on a plate, a transparent acrylic cover, a portable frame with an angle adjustment mechanism, a mixing pump, a pressure relief valve, and a control unit. The back of the plate is treated with insulation to reduce heat loss. Cold water supplied from sources such as tap water passes through a flow meter and valve, is heated by the solar collector plate, and enters the pump. The hot water discharged from the pump mixes with the supplied cold water and heads back to the solar collector plate. The pressure relief valve operates based on the water supply pressure, releasing hot water to limit the internal pressure. The control unit digitally displays the flow rate of cold water, solar radiation, cold water temperature, inlet/outlet temperatures of the solar collector plate, and ambient temperature, clarifying the energy efficiency and heat loss of the solar collector plate. By using the optional (sold separately) data automatic collection system VDAS-B, various data can be collected in real-time to a PC (sold separately), allowing for the analysis of experimental results.

Company：メガケム
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Cooling Tower Experimental Equipment

Cooling tower experimental apparatus

This is a tabletop experimental device for an open cooling tower (counterflow type) that cools the cooling water for building air conditioning and heating systems. Temperature-controlled warm water is sprayed from the top of the cooling tower and is cooled by air while passing through the packing material before returning to the water tank. The orifice at the intake measures the air volume, and the air sent by a variable speed fan is discharged from the bottom to the top of the cooling tower (counterflow). The measurement values from each sensor (temperature/humidity/flow/pressure) are digitally displayed on the control panel, and data can be collected and automatically calculated using the accompanying software on a PC (sold separately). The device comes with one standard cooling tower that is transparent, allowing for observation of the internal conditions. Additionally, a wide range of experiments can be conducted using four optional cooling towers available for separate purchase.

Company：メガケム
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HVAC-R Experimental Equipment

HVAC-R Air Conditioning System Experimental Equipment

The air conditioning systems widely used in various industries not only maintain the comfort of life but also refer to the control of industrial process environments, contributing to the improvement of living standards. The EC1550V is an apparatus equipped with an HVAC-R air conditioning system that demonstrates the thermodynamic processes of heating and humidifying, cooling, and refrigeration within ducts. The portable experimental device, using R134a as the refrigerant and equipped with movable casters, draws air from the intake grille on the left side of the duct. It passes through a manually operated damper, a variable speed axial fan, a primary heater, a steam humidifier, a heat exchanger (water-cooled), a water mist sprayer, a mist eliminator, and a secondary heater before being discharged from the exhaust grille on the right side of the duct. The temperature and humidity for each air conditioning process, the air velocity at one location within the duct, the refrigerant pressure (high and low), temperature, refrigerant flow rate, and compressor power consumption are displayed digitally. The chilled water tank, temperature-controlled by the refrigeration system, sends chilled water to the heat exchanger in the duct via a variable speed pump, and the inlet and outlet temperatures and flow rates of the heat exchanger are displayed digitally. The primary and secondary heaters, controlled by PID, can be compared in performance with different power inputs.

Company：メガケム
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TD360 Heat Exchange Experiment Device

Heat exchange experimental device

This is a tabletop experimental device that demonstrates heat transfer (overall heat transfer) between adjacent fluids and verifies the effects of flow rate and temperature difference. The heat exchange experimental device TD360 offers optional (sold separately) experimental items including four types of double-pipe, plate, and multi-tube cylindrical heat exchangers, as well as a tank jacket (coil) type heat exchanger, with one of these being installed for experiments. The hot water system and cooling system are composed of a flow control valve and flow meter, with temperatures and flow rates displayed digitally. The hot water system consists of a PID-controlled tank with a heater, a pump, and a water level gauge, ensuring stable temperature and flow rate. The digital display shows the inlet and outlet temperatures of hot and cold water, the temperature of thermocouples integrated into the heat exchanger (sold separately), and the flow rates of hot and cold water, allowing experiments to be conducted without a PC (sold separately). The four types of heat exchangers (sold separately) have the same heat transfer area (0.02 m²) and wall thickness (1 mm), making it easy to compare each exchanger.

Company：メガケム
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TD1000 Boyle's Law Experiment Apparatus

Boyle's law experimental apparatus

This is a tabletop device that demonstrates the relationship between pressure and volume of an ideal gas at a constant temperature (Boyle's Law). It consists of a test cylinder and a reservoir tank, a mechanical pressure gauge, a thermocouple with a digital display, and a digital level gauge, along with a manual pressure pump and a vacuum pump for pressure variation. The experiment is conducted using dry air from the atmosphere while keeping the air temperature constant. The pressure in the reservoir tank (on the left) is increased or decreased using the manual pump, which moves the liquid piston (oil) in the test cylinder (on the right). Boyle's Law is verified through the changes in air pressure, temperature, and volume contained within the test cylinder. The device comes with pressure and temperature sensors, as well as level gauge connection cables, and can utilize an optional (sold separately) data acquisition system (VDAS-B) to collect and analyze various data in real-time on a PC (sold separately).

Company：メガケム
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TD1006 Boiler Experimental Equipment

Boiler experimental apparatus

This is a tabletop experimental device designed to clarify the relationship between saturated vapor pressure and temperature, and to compare theoretical values. The device, composed of a stainless steel heating container (boiler) and a control unit, is compactly designed for tabletop experiments and conducts tests on the variations of saturated vapor pressure with temperature, as well as the verification of the Antoine equation. When water is added to the boiler and heated, the temperature and pressure of the water rise. Sensors read the temperature and pressure, displaying them digitally, while a mechanical Bourdon tube pressure gauge also shows the pressure inside the boiler. Additionally, a front observation window allows for the observation of the boiling process inside the boiler and the checking of the water level. For safety, the heating element is equipped with a thermostat to limit the heater temperature and a relief valve to limit the boiler pressure. In the space on the right side of the device, an optional (sold separately) data automatic collection system (VDAS-F) can be installed. By using the data automatic collection system, various data can be collected in real-time to a PC (sold separately), allowing for the analysis of experimental results.

Company：メガケム
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TD1007 Air-Cooled Heat Exchanger Experimental Device

Air-cooled heat exchange experimental device

This is a system commonly used in heating and cooling air conditioning equipment for buildings and houses, as well as radiators. It is a tabletop experimental device where heated hot water circulates through copper pipes in a heat exchanger and exchanges heat with the air flowing through a wind tunnel. The device comes with a 32-tube heat exchanger, and as an option (sold separately), 16-tube and 16-tube fin-type heat exchangers are available, allowing experiments to be conducted with either type of heat exchanger installed. The hot water system consists of a tank with a PID-controlled heater, a pump, and a water level gauge, and it digitally displays the inlet and outlet temperatures and flow rate of the hot water. The air supply duct system is made up of an orifice and pressure holes for flow measurement, an electric fan, and a slide valve, and it digitally displays the temperatures at the duct inlet and the inlet and outlet of the heat exchanger, as well as the differential pressure across the orifice. In the empty space on the right side of the device, an optional (sold separately) data automatic collection system (VDAS-F) can be installed. By using the data automatic collection system, various data can be collected in real-time to a PC (sold separately), allowing for the analysis of experimental results.

Company：メガケム
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TD1011V Natural Convection and Heat Radiation Experimental Device

Natural convection and thermal radiation experimental apparatus

This device experiments on how heat is transmitted by large changes in pressure, clarifying the differences between radiation and natural convection. It consists of a steel pressure vessel (cylindrical), a control device, a vacuum pump, and a regulator for compressed air. A small heater is suspended in the center of the pressure vessel, and thermocouples for temperature measurement are attached to the heater surface and the vessel wall. The temperatures of the heater and vessel, as well as the pressure, are displayed digitally. Additionally, the heater surface and the inside of the vessel are blackened to act as ideal thermal radiators. In the experiment, compressed air can be filled up to a maximum of 125 kPa (gauge pressure), and a vacuum of approximately -100 kPa (gauge pressure) can be achieved. Creating a vacuum state reduces heat loss due to convection, allowing for more accurate measurements of heat transfer. The emissivity of the surface is measured, demonstrating Stefan-Boltzmann's law, and understanding dimensionless characteristics using the Nusselt number, Grashof number, Prandtl number, and Knudsen number. By using the accompanying data acquisition system (VDAS), various data can be collected and analyzed in real-time on a PC (sold separately).

Company：メガケム
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TE93 Direct Flow Heat Exchange Experimental Device

Direct flow thermal exchange experimental device

The amount of heat transfer due to forced convection is measured, and the cooling rate of a heated object in the airflow is observed. The air inhaled from the bell mouth is released into the atmosphere after passing through the experimental area (pin-shaped module), diffusion body, constant-speed fan and flow control valve, and silencer. A thermocouple is used to measure the temperature of the incoming air at the wind tunnel entrance, and there are two static pressure ports and a pitot tube mounting point before and after the pin-shaped module. The pitot tube can be mounted either in front or behind to measure the velocity distribution in the cross-sectional direction. In the experimental area, pins are arranged perpendicular to the wind direction, and one of them can be removed and replaced with a pin-type heater. The pin-type heater is equipped with a thermocouple, allowing for the measurement of heat transfer based on the time it takes for the temperature to decrease and the wind speed. The control unit has thermocouple connection ports (two), pressure connection ports (differential pressure, two), and a heater power switch, and it digitally displays the temperatures from the two locations, the differential pressure before and after the pin-shaped module, and the differential pressure between the total pressure and static pressure of the pitot tube. By using the optional (sold separately) data automatic collection system VDAS-B, various data can be collected and analyzed in real-time on a PC (sold separately).

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Mini-Lab: Small Experimental Device for Research and Development

Affordable and ultra-compact experimental equipment suitable for IC and MEMS experiments! We propose ready-to-use experimental devices!

"Mini-Lab" is a service jointly launched by our company and Lithotech Japan Co., Ltd., which has a proven track record in lithography research and development. We propose ultra-compact experimental equipment suitable for IC and MEMS experiments that can be operated immediately at a low cost. We handle small equipment for all processes. We offer compact and high-performance small devices with functionalities comparable to large experimental equipment, standing against the headwinds of research budget reductions with our motto of affordability, miniaturization, high performance, and short delivery times. [Features] - Provision of small equipment for all processes - A range of supply products - Mini cleanroom facilities available - A wide lineup of compact and high-performance small devices *For more details, please refer to the PDF materials or feel free to contact us.

Company：アシストナビ
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Coater
Etching Equipment
Circuit board processing machine
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Dynamically reproducing dust explosions with a Hartmann-type dust explosion device!

Published on YouTube, secret technique, absolutely fail-proof Hartmann-type dust explosion device.

If there are combustible powders (such as cornstarch), air, and an ignition source, a dust explosion can occur. This time, we conducted an explosion experiment using cornstarch. We also introduce various tips on how to create impressive explosions!

Company：ファイク・ジャパン
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Microwave Plasma Experimental Device MiPC-500

Introducing the plasma experimental equipment using microwaves handled by Arios Corporation. Arios Corporation, which designs all components such as plasma sources and microwave power supplies in-house, offers flexible designs that only we can provide. We will design and manufacture according to the specifications required by our customers. 【Features】 ○ Microwave experimental equipment capable of various plasma exposure experiments, including DLC films, carbon nanotubes, plasma sterilization, and vacuum ultraviolet irradiation, can be produced in a wide variety. ○ The substrate movement mechanism allows for arbitrary positioning of the substrate and plasma, enabling compatibility with various processes. ○ By inserting the substrate into the plasma, it is heated by the plasma, eliminating the need for a heater during diamond thin film production. ○ The exhaust system can accommodate rotary pumps and mechanical boosters, and can even support ultra-high vacuum conditions. ● For other functions and details, please download the catalog.

Company：アリオス
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Testing Equipment and Devices
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RF Plasma Experiment Device RFPC-550

RF Plasma Experimental Device RFPC-550

This is an introduction to the plasma experimental equipment using an RF 13.56MHz excitation plasma source handled by Arios Corporation. A flexible design that only Arios Corporation, which designs its own plasma sources, can provide. We will design and manufacture according to the specifications required by our customers. 【Features】 - Easy operation with automatic matching - Compact chamber and simple structure for easy maintenance - Equipped with interlocks for high voltage electric shock prevention against PF - Mechanisms that safely stop in case of high-frequency leakage or power outages - Option to add a load lock mechanism ● For other functions and details, please download the catalog.

Company：アリオス
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Testing Equipment and Devices
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Atmospheric Pressure Plasma Experimental Device ATMP-1000

Atmospheric Pressure Plasma Experiment Device ATMP-1000

An atmospheric pressure plasma experimental device that allows for experiments with atmospheric pressure plasma simply by connecting the power supply and the gas to be plasma-activated. 【Features】 ○ Reliable ignition achieved by equipping a powerful ignition device and an electron source. ○ High maintenance efficiency due to a simple structure. ○ High plasma ignition capability provided by the ignition device. ● For other functions and details, please download the catalog.

Company：アリオス
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Other physicochemical equipment
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Shape analysis experimental device 'HAVER CPA2-1'

Demo tests and rentals available! New software and innovative interface! Efficient for use in laboratories.

The "HAVER CPA2-1" is an experimental device for particle size and shape analysis with a measurement range of 20μm-30μm. It features easy setup with the new CpaServ software and user-friendly menu navigation. Equipped with the new HAVER CPA software, it operates under the current Windows operating system. Additionally, its consistent modular structure allows for integration with various HAVER peripheral devices. 【Features】 ■ Latest HAVER CpaServ software, user-friendly operation, and diverse analysis options ■ Compact structure and lightweight for easy portability ■ Very good reproducibility with short measurement times ■ Automatic feeder cleaning ■ LED light source, durable, and energy-efficient *For more details, please refer to the PDF document or feel free to contact us.

Company：コーレンス
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Analytical Equipment and Devices
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Simulation Microgrid Experimental Device 'MGS-7800 Series'

Visualization and understanding of electrical equipment! Introducing a device developed as a new experimental system.

We would like to introduce the 'MGS-7800 Series' handled by Fuji Enterprise. This device simulates the operation of existing or newly installed electric motors (3 units) in parallel with hydro, wind, and solar power. It controls load shifting, faults, and the power consumption of each generator using a control computer, enabling data acquisition and various waveform observations with a digital oscilloscope (visualization and understanding). Additionally, this system employs electric generators, producing waveforms with minimal harmonics and accurately reproducing real-world systems. 【Features】 ■ Electric generator type ■ Visualization and understanding of power equipment ■ Device that enables various waveform observations (visualization and understanding) ■ Waveforms with minimal harmonics, accurately reproducing real-world systems *For more details, please refer to the PDF document or feel free to contact us.

Company：富士エンタープライズ
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Other physicochemical equipment
Testing Equipment and Devices
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Computer Automatic Measurement Experiment Device "MG-5000 Series"

The specifications comply with IEEE488 or IEC! Manual measurements are also possible, allowing for learning in both automatic and manual modes.

The "MG-5000 Series" is a device constructed using a measurement interface bus designed to facilitate easy data processing and management, with the aim of standardizing not only the input and output signals and control methods among measurement equipment but also the connector cables internationally. The specifications comply with IEEE488 or IEC standards, allowing for both manual measurements and learning in both automatic and manual modes. Additionally, we also offer the electric motor generator experimental device "MG5000PC Series." 【Features】 ■ Uses standard models with 2.2kW for the motor and 2kW for the generator ■ Capable of generating data with minimal errors such as wind loss and mechanical loss ■ Detachable using a front-operating clamp mechanism with a clutch coupling ■ Good operability and safe structure ■ Supports both manual operation and computer GP-IB measurement control, with the adoption of a shielded room to prevent mutual interference of signals *For more details, please refer to the PDF materials or feel free to contact us.

Company：富士エンタープライズ
Price：Other

Other physicochemical equipment
Testing Equipment and Devices
Experimental equipment

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MiniLab Series Flexible Thin Film Experiment Device

Due to its modular embedded design, it is possible to flexibly assemble dedicated equipment according to the required film formation method. A compact thin-film experimental device that can accommodate various research applications.

**Flexible System** The MiniLab thin film experimental device series allows for easy construction of a compact device configuration without waste, even as a customized product, by incorporating suitable components (such as deposition sources and stages) and control modules according to the required deposition methods and materials from a wide range of options. By configuring the device with a modular control unit in a Plug&Play manner, the application range expands, enabling various thin film process experiments. The MiniLab series is a high cost-performance system that caters to a wide range of applications from research and development to small-scale production. **Small Footprint & Space Saving** - Single Rack Type (MiniLab-026): 590(W) x 590(D)mm - Dual Rack Type (MiniLab-060): 1200(W) x 590(D)mm - Triple Rack Type (MiniLab-125): 1770(W) x 755(D)mm **Excellent Operability & Intuitive Operation Screen** Windows PC or 7” touch panel. Easy operation that does not require advanced skills, while ensuring maximum safety.

Company：テルモセラ・ジャパン本社
Price：Other

Sputtering Equipment
Experimental equipment

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Experimental equipment Product List and Ranking from 61 Manufacturers, Suppliers and Companies

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