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10 Products
Item Number | Torque Capacity | Torque Sensor Type | Mounting Type | Output Type | Height In Inches | Length In Inches | Width In Inches | Features | Max Operating Temperature | Min Operating Temperature | Nonrepeatability | Nonlinearity | Max Excitation | Safe Overload | Connection Type | Ip / Nema Rating | Rotary Type | Connector Type | # Of Bridges/channels | Material | Temperature Shift Zero | Description | Weight In Lb | Custom Special |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
8.8507 in-lb | Rotary | Shaft | Encoder TTL, VDC | 2.04 | 2.28 | 1.10 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 1 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 10mm Shaft , 12 Pin Binder Receptacle, 09-0331-90-12 | 0.7 | N | |
17.7014 in-lb | Rotary | Shaft | Encoder TTL, VDC | 2.04 | 2.28 | 1.10 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 2 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 10mm Shaft , 12 Pin Binder Receptacle, 09-0331-90-12 | 0.7 | N | |
44.2537 in-lb | Rotary | Shaft | Encoder TTL, VDC | 2.04 | 2.28 | 1.10 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 5 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 10mm Shaft , 12 Pin Binder Receptacle, 09-0331-90-12 | 0.7 | N | |
88.5074 in-lb | Rotary | Shaft | Encoder TTL, VDC | 2.04 | 2.28 | 1.10 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 10 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 10mm Shaft , 12 Pin Binder Receptacle, 09-0331-90-12 | 0.7 | N | |
177.015 in-lb | Rotary | Shaft | Encoder TTL, VDC | 2.28 | 2.32 | 1.49 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 20 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 16mm Shaft w/ 5mm Feather Keyway , 12 Pin Binder Receptacle, 09-0331-90-12 | 1.3 | N | |
442.537 in-lb | Rotary | Shaft | Encoder TTL, VDC | 2.28 | 2.32 | 1.49 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 50 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 16mm Shaft w/ 5mm Feather Keyway , 12 Pin Binder Receptacle, 09-0331-90-12 | 1.3 | N | |
885.075 in-lb | Rotary | Shaft | Encoder TTL, VDC | 2.99 | 2.52 | 2.28 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 100 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 28mm Shaft w/ 8mm Feather Keyway , 12 Pin Binder Receptacle, 09-0331-90-12 | 2.3 | N | |
1770.15 in-lb | Rotary | Shaft | Encoder TTL, VDC | 2.99 | 2.52 | 2.28 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 200 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 28mm Shaft w/ 8mm Feather Keyway , 12 Pin Binder Receptacle, 09-0331-90-12 | 2.3 | N | |
4425.37 in-lb | Rotary | Shaft | Encoder TTL, VDC | 3.54 | 2.87 | 2.87 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 500 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 42mm Shaft w/14mm Feather Keyway , 12 Pin Binder Receptacle, 09-0331-90-12 | 6.4 | N | |
8850.75 in-lb | Rotary | Shaft | Encoder TTL, VDC | 3.54 | 2.87 | 2.87 | RoHS | 176 F | -13 F | 0.2 %RO | 0.2 %RO | 26 VDC | 150 %RO | Connector | IP40 | Non Contact | 12 Pin Binder Receptacle, 09-0331-90-12 | 1 | Alloy Steel | 0.01 TSZ | TRS605 , 1000 N-m , Non-Contact Shaft to Shaft Rotary Torque Sensor w/ Encoder , 42mm Shaft w/ 14mm Feather Keyway , 12 Pin Binder Receptacle , 09-0331-90-12 | 6.4 | N |
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> TRS605
High stiffness and accuracy with built-in encoder
- Height: 52 to 90mm
- Length: 92 to 197mm
- Shaft (dia): 10 to 42mm
- Capacity: 1 to 1000 Nm
The TRS605 is a compact shaft-to-shaft rotary torque sensor that provides highly accurate and repeatable torque measurements for high speed applications in both clockwise and counterclockwise directions. The unit features a built-in encoder, which offers the streamlined all-in-one functionality of measuring both rotational speed and torque, eliminating the need for an external encoder. Its 10 capacities (which come in different sizes) cover speeds up to 7000 RPM and have a wide torque range of 1 Nm to 1000 Nm. The design allows for overload protection for up to 150% of the rated output.
Made to be accurate
Due to its high stiffness and low inertia, TRS605 has a nonlinearity of ±0.2% of rated output and is able to maintain accuracy. The high stiffness of the design allows for measurements of dynamic torque changes, including monitoring of intermittent shaft rotations.
Reliable strain gauge technology
TRS605 uses bonded foil strain gauge technology, which offers higher reliability, longer product life, and more immunity to vibrational damages than competing technologies. It also performs well under a wider operational temperature range. Its reactionary shaft is capable of measuring torque with and without rotation, giving plenty of flexibility for stationary or dynamic applications.
Non-Contact Signal Transfer
Unlike traditional torque sensors with brushes that make contact with slip rings, TRS605 is equipped with non-contact technology for signal and power transfer, which increases durability with minimal maintenance.
Embedded quadrature encoder
TRS605’s integrated quadrature encoder generates 2 x 360 pulses per revolution (PPR) at 0 to 5 VDC. The quadrature leading/lagging pulses (TTL type) are offset by 90 degrees, allowing TRS605 to measure rotation direction and speed with ¼ degree resolution.
Excellent thermal performance
The TRS605 provides reliable performance over a wide temperature range of -13 to 176°F ( -25 to 80°C) and compensates for temperature variation data in the 41 to 122°F (5 to 50°C) range, allowing you to use the sensor in various applications and environments.
Easy installation
Inline shaft-to-shaft design allows for simple and easy installation and a robust 12-pin binder connector provides the connectivity for signal output. The higher capacities feature detachable keys. Please ensure the use of couplings to achieve proper inline positioning.
Horsepower output
Because TRS605 features a built-in encoder, it also measures angular speed enabling direct measurement of mechanical power output of a motor when paired to FUTEK’s IHH500 Pro or USB520, which have encoder signal inputs. See here how to use TRS605 to calculate electric motor efficiency.
Low power consumption
The TRS600 has a low power consumption of just 1 W. This is especially valuable for any applications that are battery operated or are embedded in tight spaces where heat generation could become an issue.
Streamlined connectivity
TRS605 is equipped with an embedded signal conditioner which outputs an analog signal in the +/- 5 VDC range, setting it apart from sensors with only low voltage mV/V output. Because of this capability, no additional signal amplification or conditioning is required to support interconnection with Data Acquisition Systems DAQs and PLCs.
Wide range of applications
The TRS rotary torque sensor series is suited for inline measurement of motor torque applications like electric motor efficiency testing, inline motor torque measurement, industrial robotic automation, monitoring of regenerative braking efficiency (in electric vehicles), fatigue testing of hinges, and numerous other laboratory and industrial applications.
Calibration available
A certificate of conformance can be supplied on request. The sensor will be rigorously tested by FUTEK’s world class calibration department whose proprietary and innovative processes 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.
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