This ultrasonic level transmitter is intrinsically safe (IS) and CSA rated for Class I Division 1 hazardous areas in the US and Canada. It has a maximum range of 25 feet (7.62 meters) and is typically used for tank level measurement but can also be used for other hazardous area applications such as measuring the roll diameter on coating machinery. The transmitter sensing element is chemically resistant and the electrical connection is a two-wire loop-powered 4-20 mA output. The SafeSonic 25-L is pre-calibrated from 1 and 25 feet but can be user-calibrated to other ranges using optional accessories.
The ToughSonic 14 ultrasonic sensor has a maximum range of 14 feet (4.3 meters). Like all ToughSonic sensors, it’s built for durability and ease of use in tough industrial environments. It’s fully submersible, corrosion resistant, shock resistant and all around tough. It’s also fully configurable with our SenixVIEW software. ToughSonic 14s include our famous “Teach” feature for push button configuration. This compact sensor is used around the world on remote liquid level systems, heavy equipment, factory automation applications and more. This is our most popular sensor. For longer range applications or for chemically resistant sensors, please see our full line of ToughSonic and ToughSonic CHEM sensors.
The ToughSonic CHEM 10 is a chemically resistant ultrasonic sensor designed for applications where corrosive liquids or gasses are present, but it is an excellent choice for benign environments as well. With a maximum range of 10 feet (3 meters), it is the smallest sensor in the ToughSonic CHEM sensor family. The ToughSonic CHEM 10 is sealed in a PVDF (Kynar®) housing. It is fully submersible, chemical resistant and shock resistant. It has a permanently attached, potted-in-place 9-wire cable that allows up to six simultaneous serial, analog and/or switch outputs. It is fully configurable with SenixVIEW configuration and analysis software. Chem series sensors and SenixVIEW software put the power of ultrasonics in your hands. You can quickly adjust, optimize, save and clone your applications quickly without calibration! These sensors are housed in a rugged, chemically inert PVDF sealed housing for long life. They mount above the material surface and measure distance downward without contact. Outputs respond to that measured distance. Applications include pump control, bulk inventory, batch processing, water management and high/low level alarms.
The ToughSonic CHEM 20 is an ultrasonic sensor designed for measurement applications involving corrosive chemical liquids or gasses, but it is an excellent choice for benign materials as well. With a maximum range of 20 feet (6.1 meters), it is the mid-range option within the ToughSonic CHEM sensor family. The sensor is sealed in a PVDF (Kynar®) housing. It’s fully submersible, chemical resistant and shock resistant. The ToughSonic CHEM 20 has a permanently attached, potted-in-place 9-wire cable that allows up to six simultaneous serial, analog and/or switch outputs. It’s fully configurable with SenixVIEW configuration and analysis software. CHEM series sensors and SenixVIEW software put the power of ultrasonics in your hands. You can quickly adjust, optimize, save and clone your applications quickly without calibration! These sensors are housed in a rugged, chemically inert PVDF sealed housing for long life. They mount above the material surface and measure distance downward without contact. Outputs respond to that measured distance. Applications include pump control, bulk inventory, batch processing, water management and high/low level alarms.
The ToughSonic CHEM 35 ultrasonic sensor is designed for distance measurement applications where corrosive chemical liquids or gasses are present, but it is an excellent sensor for benign environments as well. With a maximum range of 35 feet (10.7 meters), it is the longest range member of the ToughSonic CHEM sensor family. The sensor is sealed in a PVDF (Kynar®) housing. It’s fully submersible, chemical resistant and shock resistant. The ToughSonic CHEM 35 has a permanently attached, potted-in-place 9-wire cable that allows up to six simultaneous serial, analog and/or switch outputs. It’s fully configurable with SenixVIEW configuration and analysis software. CHEM series sensors and SenixVIEW software put the power of ultrasonics in your hands. You can quickly adjust, optimize, save and clone your applications quickly without calibration! These sensors are housed in a rugged, chemically inert PVDF sealed housing for long life. They mount above the material surface and measure distance downward without contact. Outputs respond to that measured distance. Applications include pump control, bulk inventory, batch processing, water management and high/low level alarms.
The SGR510/520 series torque sensors are suitable for torque measuring, testing, feedback control of drive mechanisms and process control applications.
The SGR series transducers use modern strain gauge signal conditioning techniques to provide a high bandwidth low-cost torque measuring solution with high over range and overload capabilities.
The SGR570 PTO Torque Transducers are perfect for monitoring torque in PTO-driven applications, such as agricultural machinery and industrial equipment.
They offer accurate torque and speed measurement, simple installation, and robust IP65 protection against environmental challenges.
With features like transducer configuration software, PC connectivity for data logging, and user-configurable output limits, the SGR570 ensures reliable performance in demanding conditions.
Additionally, the anti-rotation eye hook prevents the transducer from spinning with the shaft, ensuring stable and reliable operation.
The wide input voltage range (11V – 32V) and available analogue and digital outputs make it a versatile solution for various PTO applications.
The AP10 position indicator with communication interface is used for monitored format adjustment to reduce setup times and increase machine efficiency. Readability is optimized for intuitive user prompting: The backlit display clearly shows the setpoint and actual value, and the two LEDs clearly indicate the direction in which the adjustment must be made. The IO link interface enables easy and reliable integration into modular machines
The IK360 inclination sensor is an absolute inclination sensor for accurate angle or inclination measurement based on MEMS technology. Thanks to the robust design up to IP6K9K and the integrated temperature compensation, the inclination sensor can also be used in applications with substantial external influences. In addition, the free programming of system parameters as well as the teach-in function for measuring range, zero point setting and direction change provides a high degree of flexibility and easy integration into the overall system. The IK360 is available in a single- and two-axis version and with a variety of interfacess.
For small SIKO handwheelsScale 51.7mm, reinforced plastic housing either dust-tight, oil filled or waterproof, scale and pointer
Setpoint display with communication interface visualizes instructions for the operator during product change or format changes. Readability is optimized for intuitive user prompting: The red/green LEDs indicate whether a format part change is required. With the help of the backlit display, designations or setpoint and actual value can be clearly displayed. The operator confirms the changeover using an acknowledgment button. This means that faulty machine settings with the setpoint display AP10T can be avoided in the future, making flexible production machines more process-reliable.
The AAP20 position indicator with Industrial Ethernet interface intuitively guides the operator to the correct machine setting when changing products or changing formats. The backlit display shows setpoint and actual values precisely. Two LEDs clearly show the machine operator the direction in which the adjustment must be made. With the AP20 position display, faulty machine settings can thus be avoided in the future, making flexible production machines completely process-reliable.
The DE04 is a freely programmable and battery-powered position indicator. The position indicator DE04 provides maximum flexibility, since the always same basic device can be parameterized to the desired spindle pitch, display accuracy and reading position in an application-specific manner. Parameterization is conveniently performed via programming software via an external interface.
The DE10 is a freely programmable and battery-powered position indicator. The position indicator DE04 provides maximum flexibility, since the always same basic device can be parameterized to the desired spindle pitch, display accuracy and reading position in an application-specific manner. Parameterization is conveniently performed via programming software via an external interface.
The DE10P position indicator is a freely programmable and battery-powered position indicator. The DE10P position indicator provides maximum flexibility, since the always same basic device can be parameterized to the desired spindle pitch, display accuracy and reading position in an application-specific manner. The parameterization is performed directly on the device using operating keys.
Absolute position display with communication interface for linear or slide adjustment intuitively guides the operator to the correct machine setting when changing products or changing formats. Readability is optimized for intuitive user prompting: The backlit display clearly shows the setpoint and actual value, and the two LEDs clearly indicate the direction in which the adjustment must be mad.
The MSC500 magnetic sensor has a large, multi-color status LED that makes commissioning and function monitoring easier for users. The correct distance between the gage and the sensor can be visually monitored. With the plug connection directly on the sensor head, the MSC500 is also suitable for use in very confined spaces. As a result installation is fast and simple, which naturally means lower costs. In addition, the MSC500 sensor includes all digital square wave signals. This enables evaluation of the A/B signals, the inverted signals and the periodic index signals with the same sensor.