Examples of Using the AZ Series mini Driver for Space Saving Genetic Testing Equipment
| Industries | Medical, biochemical, biological |
|---|---|
| Process and Equipment Name | Genetic testing equipment |
| Issue | Space saving, increases productivity, and reduces time |
Issue: To reduce the size of genetic testing equipment and shorten restoration time
Conventional Problems
- Because genetic testing equipment is used stand-alone in laboratories, the overall footprint of the equipment must be kept as small as possible. However, conventional drivers are large in size, making it difficult to secure control cabinet space
- The equipment is equipped with a safety mechanism that shuts off the power supply when the door is opened, requiring time to perform return-to-home and operational confirmation
- Reduction of work by equipment maintenance personnel and downtime was an issue for this equipment
Solution: Motor equipped with a battery-free built-in absolute encoder, and compact driver to space saving and reduce downtime
At sites where genetic testing equipment is operated, emphasis is placed on reducing equipment downtime and space saving, in addition to ensuring safety. The AZ Series mini Driver is highly effective in addressing these issues.
Safety, operability, and design freedom are improved with the position information retention function using a battery-free absolute encoder and the palm-sized mini Driver smaller and lighter than single-axis drivers.
The Downsized Driver Significantly Reduces Equipment Size
The AZ Series mini Driver, which contribute to space saving of equipment, realize a compact size with external dimensions of W 47 mm × D 53 mm × H 24 mm (for RS-485 communication type).
Compared to the size of a typical servo motor driver, it is small, allowing a significant reduction in equipment size.
Image of Installation Space Reduction With αSTEP AZ Series Motor and mini Driver
Size and Mass Comparison of Single-axis Driver and mini Driver
The mini Driver (RS-485 communication type), which is 75% smaller in volume than conventional single-axis drivers, can be installed in free space near the motor, for example, to meet the need for downsizing the entire equipment by installing drivers and control systems in a distributed manner.
| Single Axis Driver (Built-in controller type) | mini Driver RS-485 Communication Type |
|---|---|
|
|
| W 35 mm x D 70 mm x H 100 mm | W 47 mm x D 53 mm x H 24 mm |
| Mass: 150 g | Mass: 56 g |
Reduced Downtime
The AZ Series battery-free absolute encoder retains position information even when power is interrupted, eliminating the need for initialization (return-to-home operation) after power-on. In the past, it took several minutes for each axis to detect the home sensor after an abnormal stop, making initialization time a major burden. The AZ Series retains stop location information, allowing immediate restart without initialization. This reduces downtime and contributes to improved work efficiency and equipment uptime.
Image of Downtime Reduction Using αSTEP AZ Series mini Driver
Right: Unit not equipped (It takes time to perform the return-to-home for each axis in sequence)
Product Proposal: αSTEP AZ Series mini Driver
Combinable Motors
- AZ Series DC input (Frame size: □20 mm, □28 mm, □42 mm, □60 mm)
Combinable Electric Actuators
- *Products for EtherCAT, EtherNet/IP, Ethernet type/CC-Link IE Field Basic and PROFINET are available.
In addition to product inquiries, please contact us about any issues you may have, or to request materials and samples.
Technical Guide Handbook on Stepper Motor to Support Equipment Development is Now Available
For those who handle motors for mass production equipment. This book contains technical explanations of torque characteristics, vibration/heat generation measures, etc., as well as customize information on our product lineup, advantages of using the equipment, and more. This is an essential resource for equipment research, development and design.
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