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Digital Instrumentation 101

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Digital instrumentation used for test and measurement provides faster data input and output, and more robust analytics. Interface offers several types of digital instrumentation devices that transform load cell and strain bridge input into digital data output in numerous protocols and bus formats.

Instrumentation that utilizes analog output has long been the standard in the industry. As new requirements for use cases and applications grow, test and measurement engineers and professionals find digital instrumentation advantageous because of the lower cost, easy integration and scalability. They also like the advantage of daisy-chaining multiple sensors together on a single cable run.

Advancements in sensor technologies coincide with growing demands to gather more testing data. This is seen through the use of multi-axis sensors, along with requirements for multi-channel instrumentation that can integrate into existing systems already designed with specific digital connections and protocols, as highlighted in using Interfaces BX8 with our 6-Axis sensors. Change is also coming with a strong desire to utilize instrumentation that can easily work within cable free environments or in remote locations.

In addition to improving speed of data output, digital instrumentation offers an abundance of benefits. This is primarily due to the digital signal, as they are less susceptible to noise and are more secure. Digital instrumentation typically has built in error detection. Digital signals are best for transmitting signals across longer distances or when you need to allow for simultaneous multi-directional transmissions. Many people like the ease of integration, both into existing networks as well as with other testing devices.

Types of Interface Digital Instrumentation

  • Indicators and Bidirectional Indicators
  • Portable and Programmable Indicators
  • Battery Powered Indicators and Bidirectional Indicators
  • Single and Multi-Channel Transmitters
  • Controllers and Programmable Controllers
  • USB Output Modules
  • PC Interface Modules
  • Sensor to USB Output Converters
  • Data Acquisition Systems
  • Wireless Instrumentation

Connection options available for Interface Digital Instrumentation include, RS232, RS485, RS422, Wi-Fi, USB, Bluetooth, and Ethernet Protocols. The types of data output protocols available include ASCII, Modbus, CANopen, DeviceNet, Profibus DP Modbus/TCP, Ethernet TCP/IP, Ethernet/IP, EtherCAT and several others. See the complete list of connections and protocols in our Digital Instrumentation Overview.

Top selling digital instrumentation models from Interface, with many available in various protocols:

Do you have questions about the type of instrumentation that will support your application?  You can see more of the solutions by visiting our instrumentation selection guide.  Here are six questions begin evaluating your instrumentation options:

  • Where are you going to connect your sensor technology and how?
  • Do you need to store your data?
  • Do you prefer an analog or digital output device?
  • Are you going to plug-in your instrumentation or use hand-held, wireless or Bluetooth connectivity?
  • How will your data output be displayed?
  • How many channels do you need for your project or program?

For additional help with instrumentation, please contact our application engineers.

ADDITIONAL RESOURCES

Digital Instrumentation for Force Measurement

Ultimate BlueDAQ Software Guide for Interface Instrumentation

Interface Instrumentation Definitions

Instrumentation Selection Guide

Advancements in Instrumentation Webinar

Interface Instructional on Instrumentation Event

Instrumentation

Recap of Inventive Multi-Axis and Instrumentation Webinar

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Interface’s resident solutions experts Keith Skidmore and Ken Bishop detailed a series of multi-axis products and advanced instrumentation options in our latest ForceLeaders webinar. They topics discussed during this recorded event included detailed features and benefits of the line of 3-Axis and 6-Axis Multi-Axis Sensors available from Interface. In summary, if you are looking for more data, to maximize your return on testing investments and need a compact solution compared to using multiple single load cells, multi-axis load cells may be the right solution for your application or testing project.

Pairing your sensor with right type of instrumentation that is best suited for the device and your data requirements is an important consideration.  During event, Keith shares why the BX8 Data Acquisition System and Amplifier provides 8-channel synchronized sampling and internal calculation of axis load values for 6-axis sensors. The BX8 provides high-speed synchronous sampling that is critical for dynamic measurements. It is high resolution and low noise and comes with our BlueDAQ software for data viewing and analysis. There is an option to also use BlueDAQ PRO! with MathScript. Multiple BX8 can be synchronized for use with 12-channel 6-axis sensors and force plates, which are discussed later during the event. For large capacity 6-axis sensors, you can also use two BX8’s to create a 72-coeffecient matrix. Watch the event to learn more and read about 6-Axis and BX8 powerful measurement solution.

In contrast to the BX8, Keith details the Interface BSC4 and shares important features that make it a good instrumentation choice to use with our model 3A, 3AR 3-Axis load cells. It can be used with up to four mV/V or VDC output sensors. It is a compact and convenient instrumentation option, compared to using multiple single-channel amplifiers. Our BSC4D comes with BlueDAQ software and is LabView compatible. Learn more about 3-Axis and BSC4.

You will also get the first look at our latest instrumentation solution, the BX6-BT Wireless 6-Axis Data Logger.  This new product is miniature in size, offers 7-channels with Bluetooth functionality. It logs to micro-SD card and is BlueDAQ compatible. It also does matrix math.

Further in the webinar, get the latest tips on mounting multi-axis sensors and using mounting plates and why we are seeing more use cases for Interface custom force plates. You don’t want to miss out on these important set-up instructions, frequently asked questions, and tips for ensuring you don’t compromise accuracy and reliability in your testing.

Watch the webinar and you’ll also learn about applications that use multi-axis and advanced instrumentation, including for structural testing, friction testing, seat testing and special condition calibration. We will be posting addition blogs from the learnings of this in-depth expert discussion, including top 10 FAQs, calibrating multi-axis sensors and the future of test and measurement using multi-axis load cells.