RP & RH DeviceNet
PROFILE- AND ROD-STYLE POSITION SENSORStroke Length: 1 to 300 in (25 to 7620 mm)
Operating Pressure: 5000 PSI (350 bar)
Temposonics linear-position sensors use the time-based magnetostrictive position sensing principle developed by MTS. Within the sensing element, a sonic-strain pulse is induced in a specially designed magnetostrictive waveguide by the momentary interaction of two magnetic fields. One field comes from a moveable permanent magnet that passes along the outside of the sensor. The other field comes from an “interrogation” current pulse applied along the waveguide. The resulting strain pulse travels at sonic speed along the waveguide and is detected at the head of the sensing element.
The position of the magnet is determined with high precision and speed by accurately measuring the elapsed time between the application of the interrogation pulse and the arrival of the resulting strain pulse with a high-speed counter. The elapsed time measurement is directly proportional to the position of the permanent magnet and is an absolute value. Therefore, the sensor's output signal corresponds to absolute position, instead of incremental, and never requires recalibration or re-homing after a power loss. Absolute, non-contact sensing eliminates wear, and guarantees the best durability and output repeatability.
R-Series model RH and RP sensors are extremely robust and are ideal for continuous operation under harsh industrial conditions.
MTS offers two standard sensor housings, rod and profile extrusion. The rod housing is capable of withstanding high pressures such as those found in hydraulic cylinders.
The profile extrusion housing provides convenient mounting options and captive sliding magnets which utilize slide bearings of special material that reduce friction, and help mitigate dirt build up. The sensor head contains the active signal conditioning and a complete integrated electronics interface. Double shielding is used to ensure EMI protection for unsurpassed reliability and operating safety.
Controller Area Network (CAN) is a standard for device level communications and the foundation of fieldbus systems like DeviceNet, CANopen and CANbus.These fieldbus systems can provide high speed transmission appropriate for position indication and for motion control in industrial applications.
DeviceNet allows users to interface up to 64 devices using a single cable, thus eliminating the need for conventional methods of multiple wire runs. DeviceNet provides a way to define how, and in which priority, data will be transmitted over the network. The result is a lower complexity, cost-effective communications network linking industrial measurement and control devices. Together, the open DeviceNet protocol and the MTS “smart” R-Series sensors offer an effective, high-precision data transfer system that is well suited for industrial automation.
|Stroke Length||RP||1 to 200 in||25 to 5080 mm|
|RH||1 to 300 in||25 to 7620 mm|
|Static Operating Pressure||5000 psi||350 bar|
|Peak Operating Pressure||10000 psi||690 bar|
|Operating Temperature||-40 to +167 °F||-40 to +75 °C|