ZhuoHe Intrumentation HomePage > Technical article > >USB Load Cell offers 16-bit resolution

USB Load Cell offers 16-bit resolution

2009-12-07 16:20   Article Source:N/A   View Times:

LSB200 Miniature S Beam USB Load Cell incorporates USB Digital Interface featuring 16-bit resolution and offers plug-and-play operation. It is suited for strain gage-based load cells,Standard model has female threads, 2024 aluminum or 17-4 stainless steel construction, and 5 ft 29 AWG 4 conductor shielded silicone cable. Measuring 0.75 in. high, USB Load Cell uses metal foil strain gauge technology and exhibits ±0.1% nonlinearity, 0.005 in. deflection, and -60 to +200°F operating temperature.

FUTEK USB Load Cell

FUTEK Advanced Sensor Technology, Inc is pleased to present its LSB200 S-Beam Jr. USB Load Cell with a brand new USB Digital Interface with 16 bits resolution. With this improvement, FUTEK has once again shown its innovation by becoming one of the first Sensor manufacturers to offer a USB type solution for Strain Gage Based Load Cells. FUTEK's USB Sensor Solution provides an easy "Plug & Play" with basic software making the System Integration even simpler.

The Miniature S Beam USB Load Cell has become one of the signature products in the FUTEK Load Cell Series. This model is widely used in Medical Bag Weighing Applications as well as automated feed back control and inline processing applications. The perfect mixture of size, accuracy and of course the assurance of an overload protection feature makes this one of our most sought after models. With a height of only 0.75", the LSB200 Miniature S Beam USB Load Cell is a great selection where tight environments or space is a challenge. The Standard LSB200 Miniature S Beam Load Cell model has female threads, comes in 2024 Aluminum construction (10 gram - 10 lb) or 17-4 Stainless Steel (25 lbs - 100lbs), and a 5 ft 29 AWG 4 conductor shielded silicone cable. It is also available in metric threads.

With all of its design features the Miniature S Beam USB Load Cell has a high accuracy with a Nonlinearity of ±0.1%, deflection of 0.005" nominal and an operating temperature of -60° F to 200° F. Similar to our entire USB Load Cell product line this model is manufactured in the U.S. and uses metal foil strain gauge technology.

Product Highlights:
o Compact sized USB Load Cell
o Available in both Aluminum or Stainless Steel
o USB output in 16 bits resolution
o External Matched output option available
o Built In Overload Protection
o Metric Threads Available
o In both Tension & Compression
o Utilizes Metal Foil Strain Gauge Technology
o Weight: 0.3 oz (aluminum) / 0.9 oz (Steel)

FUTEK also offers Donut Load Cells, Pancake Load Cells, and In Line Load Cells as additional solutions in the Load Cell line. In addition to our USB Load Cells, FUTEK carries over 400 products covering various Pressure Sensors, Torque Sensors, Force Sensors and related Instruments.

If these standards don't match your precise need, please contact us to see how we can customize this model for you. FUTEK Advanced Sensor Technology Inc. has an in house engineering and manufacturing team. Hence, we can provide full system solution (Load Cells, Torque Sensors, Force Sensors, Pressure Sensors, and Instruments) with standard product or design a completely new model to meet your custom needs. Our team can help you meet your requirements for any test stand, process control application or low cost OEM requirements no matter what industry you're in.

Available in both anodized aluminum or 17-4 stainless steel, Standard S-Beam load cells suit medical bag weighing applications as well as automated feed back control and inline processing applications. Aluminum version weighs 7.5 oz, where as steel version of product weighs 18 oz. Customizable units have nonlinearity of ±0.05%, deflection of 0.003" nominal, and operating temperature of -60 to 200°F.




Respective topics: Weighing Accuracy   Load Cells  
  • Previous:Batch Weigh Controller F805 has up to 100 groups of set points
  • Next:Belt scale designed for little headroom applications
  •