Item Number | Load Capacity | Thread Size | Outer Diameter In Inches | Height In Inches | Length In Inches | Width In Inches | Features | Output Type | Connection Type | # Of Bridges/channels | Connector Type | Cable Type | Cable Length | Load Directions | Nonrepeatability | Max Operating Temperature | Min Operating Temperature | Max Excitation | Nonlinearity | Input Resistance | Safe Overload | Ip / Nema Rating | Material | Weight In Lb | Custom Special | Temperature Shift Span | Max Compensated Temperature | Temperature Shift Zero | Min Compensated Temperature |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
7500 lb | 3/4-16 | 1.12 | 2.77 | 1.12 | 1.12 | RoHS | mV/V | Cable | 1 | 28 Awg 4 conductor Braided Shielded PVC Cable | 10 ft | Tension & Compression | 0.1 %RO | 200 F | -45 F | 18 VDC | 0.5 %RO | 350 Ohm | 150 %RO | IP64 | 17-4 PH S.S. | 0.39 | N | 0.02 TSS | 160 F | 0.005 TSZ | 60 F | ||
7500 lb | M16x2 | 1.12 | 2.77 | 1.12 | 1.12 | RoHS | mV/V | Cable | 1 | 28 Awg 4 conductor Braided Shielded PVC Cable | 10 ft | Tension & Compression | 0.1 %RO | 200 F | -45 F | 18 VDC | 0.5 %RO | 350 Ohm | 150 %RO | IP64 | 17-4 PH S.S. | 0.39 | N | 0.02 TSS | 160 F | 0.005 TSZ | 60 F | ||
10000 lb | 3/4-16 | 1.12 | 2.77 | 1.12 | 1.12 | RoHS | mV/V | Cable | 1 | 28 Awg 4 conductor Braided Shielded PVC Cable | 10 ft | Tension & Compression | 0.1 %RO | 200 F | -45 F | 18 VDC | 0.5 %RO | 350 Ohm | 150 %RO | IP64 | 17-4 PH S.S. | 0.39 | N | 0.02 TSS | 160 F | 0.005 TSZ | 60 F | ||
10000 lb | M16x2 | 1.12 | 2.77 | 1.12 | 1.12 | RoHS | mV/V | Cable | 1 | 28 Awg 4 conductor Braided Shielded PVC Cable | 10 ft | Tension & Compression | 0.1 %RO | 200 F | -45 F | 18 VDC | 0.5 %RO | 350 Ohm | 150 %RO | IP64 | 17-4 PH S.S. | 0.39 | N | 0.02 TSS | 160 F | 0.005 TSZ | 60 F | ||
10000 lb | M16x2 | 1.12 | 2.77 | 1.12 | 1.12 | RoHS | mV/V | Connector | 1 | 4 Position Micro Circular Receptacle | Tension & Compression | 0.1 %RO | 200 F | -45 F | 18 VDC | 0.5 %RO | 350 Ohm | 150 %RO | IP64 | 17-4 PH S.S. | 0.39 | N | 0.01 TSS | 160 F | 0.005 TSZ | 60 F | |||
10000 lb | 3/4-16 | 1.12 | 2.77 | 1.12 | 1.12 | mV/V | Cable | 1 | 28 Awg 4 conductor Braided Shielded PVC Cable | 10 ft | Tension & Compression | 0.1 %RO | 200 F | -45 F | 18 VDC | 0.5 %RO | 350 Ohm | 150 %RO | IP64 | 17-4 PH S.S. | 0.39 | N | 0.02 TSS | 160 F | 0.005 TSZ | 60 F | |||
10000 lb | M16x2 | 1.12 | 2.77 | 1.12 | 1.12 | Fatigue Rated | mV/V | Cable | 1 | 28 Awg 4 conductor Braided Shielded PVC Cable | 10 ft | Tension & Compression | 0.1 %RO | 221 F | -60 F | 18 VDC | 0.5 %RO | 350 Ohm | 150 %RO | IP65 | 17-4 PH S.S. | 0.55 | Y | 0.02 TSS | 221 F | 0.005 TSZ | -40 F |
> LCM375
With a cover height of 1.03" (26.2mm) tall and a diameter of 1.12" (28.3mm), LCM 375 is a highly accurate, reliable and stable miniature load cell for tension and compression measurement. Boasting a nonlinearity of ±0.5%, this fast-response sensor has a robust construction that makes it suitable for a wide range of endurance, press, or inline applications and environments.
The LCM375 is now available with an integrated connector that makes it fully IP67-rated for high water resistance and temporary submersibility. The connectorized 4-position micro receptacle allows you to easily remove the wire from the sensor like a plug from a socket. This new feature protects the sensor from cable damage, as you can easily replace a faulty wire.
The center covers are seam-welded to the sensor body, providing outstanding strength and enhanced protection against physical damage in addition to withstanding other harsh environmental conditions. A special heat treatment process has been applied to the flexure to improve durability, extending the life-cycle of the sensor.
The updated version of the LCM375 now has an integrated 4-position micro receptacle that easily disconnects a damaged cable, which saves time, leads to higher system availability and reduces total cost of ownership.
The 4-position micro cable connector is shown here on another sensor model.
For the standard versions with an integrated cable, a braided shield physically covers the signal wires while blocking any interference from stray magnetic and static electric fields. Additionally, the metallic load cell housing blocks all interference and unwanted environmental conditions that would reduce the accuracy and reliability.
The robust assembly process of the 4-position micro receptacle version eliminates moisture ingress through the connection location. With an IP67 rating, the product can withstand submersion in one meter of water for up to 30 minutes. This opens up more options for applications as it will allow outdoor usage in wet, rainy, or highly humid conditions.
The LCM375 has a high stiffness and high natural frequency response rates, hence maintaining accuracy over its entire service life. Together with the robust construction, this feature makes this sensor an ideal load cell for dynamic applications.
The LCM375 has male threads on both ends for easy and flexible mounting options. Also, the compact design allows you to mount it in locations that require a small footprint, especially those applications with limited vertical space. The lightweight load cell weighs 8 oz (227g).
The LCM375 load cell provides enhanced accuracy, performance, and long-term stability. In particular, it has a nonlinearity of ±0.5% and a low deflection of 0.002" nominal.
The exceptional quality of this sensor makes it highly durable and reliable. Its body is made of aerospace-grade 17-4 precipitation hardened stainless steel, which provides high strength, high hardness, low hysteresis and creep properties, and corrosion resistance over a wide temperature range.
Designed and manufactured in-house, using US-sourced materials. Our multidisciplinary engineering teams, high precision machining center, state-of-the-art quality assurance systems, and R&D and manufacturing facilities are all under one roof, allowing us to continuously reinvent and refine our products and processes.
Every single sensor we make is rigorously tested by FUTEK’s world class calibration department, whose proprietary and innovative processes that exceed the stringent ANSI Z540-1 and ISO 17025 standards. We can also reduce your setup time by calibrating your sensor of choice with an amplifier.