Speed Eddy Current Dynamometer with Water Cooling LCD Display 100 Hz Data Sampling Rate
The WD series eddy current dynamometer is designed to be used in high speed, medium to high power motor testing. This dynamometer is perfect for testing motors that require a high level of power. The dynamometer is constructed with eddy current technology, which means that the torque of the dynamometer will increase proportionally to the rotating speed of the motor being tested.
This makes the WD series eddy current dynamometer an excellent choice for testing high speed motors, as it will be able to provide an accurate reading of torque even at high speeds. The eddy current technology used in the construction of the dynamometer also ensures that it is highly reliable, providing consistent and accurate results every time it is used.
Whether you are in the automotive industry, the aerospace industry, the marine industry or any other industry that requires high power motors, the WD series eddy current dynamometer is the ideal tool to ensure that your motors are functioning as they should. With its advanced technology and accurate readings, you can be confident that your motors are performing at their best and that you are getting the results you need to make informed decisions about your equipment.
When it comes to testing high speed motors, having the right equipment is crucial. One of the most important types of testing equipment for these motors is load performance testers. These devices enable operators to assess the performance of the motor under high load conditions, providing key data about its efficiency and durability.
Load performance testers typically come with a range of features, including adjustable loading capacity, variable speed control, and integrated data logging systems. They are designed to handle a wide range of motor types, including AC, DC, and servo motors.
Using a load performance tester can help operators identify potential problems with a motor before they become serious issues. By providing detailed data about the motor's performance under load, the tester enables operators to make informed decisions about maintenance and repairs.
In addition to load performance testers, there are a number of other types of testing equipment that may be useful for testing high speed motors. These include torque transducers, speed sensors, and vibration analysis systems. When used in combination, these tools can provide a comprehensive picture of the motor's performance, helping operators to optimize speed, reduce wear and tear, and improve efficiency.
Ultimately, the right testing equipment can make all the difference when it comes to ensuring the performance and longevity of high speed motors. By investing in high-quality testing tools, operators can achieve more accurate results, minimize downtime, and maximize the return on their equipment investments.
When it comes to testing high speed motors, having the right equipment is crucial. One of the most important types of testing equipment for these motors is load performance testers. These devices enable operators to assess the performance of the motor under high load conditions, providing key data about its efficiency and durability.
Load performance testers typically come with a range of features, including adjustable loading capacity, variable speed control, and integrated data logging systems. They are designed to handle a wide range of motor types, including AC, DC, and servo motors.
Using a load performance tester can help operators identify potential problems with a motor before they become serious issues. By providing detailed data about the motor's performance under load, the tester enables operators to make informed decisions about maintenance and repairs.
In addition to load performance testers, there are a number of other types of testing equipment that may be useful for testing high speed motors. These include torque transducers, speed sensors, and vibration analysis systems. When used in combination, these tools can provide a comprehensive picture of the motor's performance, helping operators to optimize speed, reduce wear and tear, and improve efficiency.
Ultimately, the right testing equipment can make all the difference when it comes to ensuring the performance and longevity of high speed motors. By investing in high-quality testing tools, operators can achieve more accurate results, minimize downtime, and maximize the return on their equipment investments.
The following table lists and compares the specifications of different models of a device:
Model | MAXIMUM TORQUE RANGE (N.M) | DRAG TORQUE DE-ENERGIZED AR 1000RPM (mN.M) | NOMINAL INPUT INERTIA (Kg.m2) | Rated Voltage (VDC) | Excitation Current(A) | Rated Power(w) | Rated Speed(rpm) | Max speed(rpm) | BRAKE COOLING METHOD |
---|---|---|---|---|---|---|---|---|---|
WD-302 | 0.3 | 6 | 2.33*10-5 | 24 | 1.2 | 500 | 22000 | 50000 | WATER |
WD-452 | 0.45 | 9 | 3.18*10-5 | 24 | 1.5 | 750 | 22000 | 50000 | WATER |
WD-602 | 0.6 | 12 | 4.03*10-5 | 24 | 2 | 1000 | 9500 | 50000 | WATER |
WD-303 | 3 | 30 | 2.18*10-4 | 24 | 2 | 3000 | 9500 | 50000 | WATER |
WD-503 | 5 | 50 | 3.01*10-4 | 24 | 2 | 4500 | 5730 | 50000 | WATER |
WD-104 | 10 | 100 | 0.82*10-3 | 24 | 2.5 | 6000 | 5730 | 30000 | WATER |
WD-204 | 20 | 200 | 1.55*10-3 | 24 | 5 | 12000 | 5730 | 30000 | WATER |
WD-504 | 50 | 500 | 1.27*10-2 | 24 | 2.5 | 15000 | 2865 | 18000 | WATER |
WD-105 | 100 | 1000 | 2.57*10-2 | 24 | 5 | 3000 | 2865 | 18000 | WATER |
The use of application units is prevalent in motor load performance testing. These units are used as a means of facilitating testing processes, and as such, are crucial components of performance testing in various industries. Some of these industries include universities, motor manufacturers, laboratories, motor testing centers, and the medical equipment industry.
In universities, application units are used to evaluate the performance of electric motors, which are commonly used in many research projects. By using application units, researchers can gain valuable insight into the performance of these motors, allowing them to make informed decisions on the best motor for their specific research needs.
Motor manufacturers also make use of application units to test the performance of the motors they produce. By doing so, they can ensure that their motors meet the standards required by their customers. Laboratories and motor testing centers use application units for similar purposes, ensuring that motors are tested thoroughly and efficiently.
Finally, the medical equipment industry also utilizes application units to test the performance of motors used in medical equipment. This helps to ensure that medical equipment operates effectively and safely, providing optimal care to patients.
The Eddy Current Dynamometer product technical support and services include:
- Assistance with installation and setup of the product
- Troubleshooting assistance for any issues that may arise
- Repair and maintenance services for the product
- Calibration services to ensure accurate readings
- Technical training and support for operators and maintenance personnel
Product Packaging:
The Eddy Current Dynamometer will be securely packaged in a cardboard box with foam inserts to protect it from damage during transit.
Shipping:
Our company uses trusted shipping carriers to ensure quick and safe delivery of the product. Shipping times may vary depending on the destination, but we will provide a tracking number so you can track your package.
Q: What is an Eddy Current Dynamometer?
A: An Eddy Current Dynamometer is a type of dyno that uses electromagnetic force to apply resistance to a rotating shaft, allowing for measurement of power output.
Q: What are the dimensions of the Precision Motive WD Eddy Current Dynamometer?
A: The dimensions of the Precision Motive WD Eddy Current Dynamometer are 18" x 12" x 12".
Q: What is the maximum horsepower rating for the Precision Motive WD Eddy Current Dynamometer?
A: The Precision Motive WD Eddy Current Dynamometer has a maximum horsepower rating of 500.
Q: Where is the Precision Motive WD Eddy Current Dynamometer manufactured?
A: The Precision Motive WD Eddy Current Dynamometer is manufactured in China.
Q: What types of shafts can the Precision Motive WD Eddy Current Dynamometer accommodate?
A: The Precision Motive WD Eddy Current Dynamometer can accommodate shafts with a diameter ranging from 0.5" to 2".