Are you curious about how the right inductive position sensor can transform your projects? Comparing the top factories is essential for making informed decisions. Discovering the best options means enhanced reliability and performance. Dive into our guide to find the perfect factory for your needs!
Inductive Linear Position Sensor – Design Engineering
Product Details: ILPS-27 Series inductive linear position sensors by H.G. Schaevitz LLC, designed for factory automation and heavy-duty industrial applications.
Technical Parameters:
– Contactless operation prevents wear out from dither or cycling
– 4 Ranges from 25 to 150 mm (1 to 6 inches), LRL series for ranges 200 to 450 mm…
– 27 mm (1.05 inch) diameter anodized aluminum housing sealed to IP-67
– Radial cable exit version with swivel rod eye ends, axial termination versions w…
– Operating from a variety of DC voltages with four analog outputs
Application Scenarios:
– Solar cell positioners
– Wind turbine prop pitch and brakes
– Chute or gate positioners on off-road or agri-vehicles
– Robotic arm position feedback
– Packaging equipment
Pros:
– Compact yet robust design
– Excellent stroke-to-length ratio
– Superior performance
– Field scalability feature
Cons:
– Limited to specific ranges (25 to 450 mm)
– Potentially higher cost compared to contact sensors
Inductive Position Sensors – Microchip Technology
Product Details: Inductive Position Sensors from Microchip Technology provide accurate position measurements and are suitable for high-reliability and safety-critical applications in automotive and industrial sectors.
Technical Parameters:
– Operating Temperature: -40C to 150C (Grade 0)
– ISO26262 Support: ASIL B and ASIL C
Application Scenarios:
– Automobile throttle body sensing
– Electronic power steering
Pros:
– Very low temperature drift and dynamic signal compensation
– No external magnets required, reducing system costs
Cons:
– Limited to specific temperature ranges
– Potential complexity in integration with existing systems
Inductive Positioning Systems (PMI) – Pepperl+Fuchs
Product Details: PMI inductive positioning systems are designed to detect linear positions and measure rotation angles, suitable for dusty and dirty environments with extreme temperature fluctuations. They feature a patented configuration with multiple coils for maximum precision and efficiency, and are equipped with IO-Link for Industry 4.0 applications.
Technical Parameters:
– Measuring range: Various lengths (40 mm, 80 mm, 120 mm, etc.)
– Protection class: IP67
Application Scenarios:
– Battery cell manufacturing for maintaining web tension
– Monitoring platform position in tank car wash systems
Pros:
– High precision and efficiency in various environments
– Integration of multiple functions in a single device
Cons:
– Limited to specific measurement ranges
– Potential complexity in installation and configuration
Inductive position sensing – Infineon Technologies
Product Details: Infineon’s XENSIV™ inductive position sensing products offer contactless designs for high accuracy and safety in various applications, utilizing electromagnetic coupling to determine the position of a metallic target.
Technical Parameters:
– Broad temperature range
– Meets ISO 26262 Safety Element out of Context (SEooC) for ASIL D
Application Scenarios:
– Automotive applications
– Industrial automation
Pros:
– Contactless design ensures longevity and minimal wear
– High accuracy with integrated signal conditioning and DSP
Cons:
– Limited availability of some products (coming soon)
– Potential complexity in integration with existing systems
Factory Automation Linear Position Sensors
Linear Position Sensor | LZ-95 Series | Alliance Sensors | US Made
Product Details: LZ-9.5 Series LVIT Miniature Inductive Linear Position Sensor
Technical Parameters:
– Full Scale ranges from 6.4 to 150 mm (0.25 to 6 inches)
– Operating Temperature: -20 to 105° C
Application Scenarios:
– Factory Automation
– Assembly Machinery
Pros:
– Contactless operation prevents internal wearout from dithering or rapid cycling
– Excellent stroke-to-length ratio
Cons:
– Limited to specific measuring ranges
– Requires DC input for operation
LR-19 Series LVIT Linear Position Sensor: Automation Duty
Product Details: LR-19 Series LVIT Linear Position Sensor: Automation Duty by Alliance Sensors Group, designed for factory automation and various industrial applications.
Technical Parameters:
– Full scale ranges from 25 to 200 mm (1 to 8 inches)
– Operating from a variety of DC voltages with four analog outputs
Application Scenarios:
– Factory automation
– Motorsport vehicles, automotive testing, solar cell positioners, wind turbine pr…
Pros:
– Long lasting, contactless operation prevents internal wearout
– Excellent stroke-to-length ratio and proprietary SenSet™ field recalibration fea…
Cons:
– Limited to specific full scale ranges
– May require additional installation accessories for optimal use
Inductive Linear Position Sensing Booster Pack (Rev. A) – Texas Instruments
Product Details: Inductive Linear Position Sensing Booster Pack using LDC1101 and MSP430F5528.
Technical Parameters:
– Measurement range: 100 mm, usable range: 70 mm
– Operating frequency: < 1 MHz, sensor frequency range: 500 kHz to 10 MHz
Application Scenarios:
– Factory Automation and Process Control
– Building Automation
Pros:
– Non-contact detection and measurement
– Insensitive to environmental contaminations
Cons:
– Requires careful coil design for optimal performance
– Limited usable travel range due to non-monotonic behavior at extremes
Inductive Position Sensors – Sensor Methods
Product Details: Inductive Position Sensors by Sensor Methods
Technical Parameters:
– Utilizes AC current at MHz frequencies to produce an alternating magnetic field
– Can be configured with multiple independent sensing channels for redundancy and…
Application Scenarios:
– Control and automation applications, such as valve positioners
– Safety critical applications requiring redundancy
Pros:
– Low cost and robust to environmental factors
– High reliability with automotive-standard components
Cons:
– Potential reduction in accuracy with segment sensors
– Requires careful configuration for specific applications
Rotary inductive position sensors – Cambridge IC
Product Details: CambridgeIC’s inductive position sensors provide absolute rotary position measurement using resonant inductive position sensing technology, integrated into conventional PCBs.
Technical Parameters:
– Robust against dirt, dust, moisture, vibration, and shock
– Supports linear, rotary, and arc position measurement
Application Scenarios:
– Linear actuators
– Float level sensors
Pros:
– Low integration costs
– High reliability in challenging applications
Cons:
– Limited information on specific technical specifications
– Potentially higher cost compared to simpler sensors
Related Video
Comparison Table
| Company | Product Details | Pros | Cons | Website |
|---|---|---|---|---|
| Inductive Linear Position Sensor – Design Engineering | ILPS-27 Series inductive linear position sensors by H.G. Schaevitz LLC, designed for factory automation and heavy-duty industrial applications. | – Compact yet robust design – Excellent stroke-to-length ratio – Superior performance – Field scalability feature | – Limited to specific ranges (25 to 450 mm) – Potentially higher cost compared to contact sensors | www.design-engineering.com |
| Inductive Position Sensors – Microchip Technology | Inductive Position Sensors from Microchip Technology provide accurate position measurements and are suitable for high-reliability and safety-critical… | – Very low temperature drift and dynamic signal compensation – No external magnets required, reducing system costs | – Limited to specific temperature ranges – Potential complexity in integration with existing systems | www.microchip.com |
| Inductive Positioning Systems (PMI) – Pepperl+Fuchs | PMI inductive positioning systems are designed to detect linear positions and measure rotation angles, suitable for dusty and dirty environments with… | – High precision and efficiency in various environments – Integration of multiple functions in a single device | – Limited to specific measurement ranges – Potential complexity in installation and configuration | www.pepperl-fuchs.com |
| Inductive position sensing – Infineon Technologies | Infineon’s XENSIV™ inductive position sensing products offer contactless designs for high accuracy and safety in various applications, utilizing elect… | – Contactless design ensures longevity and minimal wear – High accuracy with integrated signal conditioning and DSP | – Limited availability of some products (coming soon) – Potential complexity in integration with existing systems | www.infineon.com |
| Factory Automation Linear Position Sensors | alliancesensors.com | |||
| Linear Position Sensor | LZ-95 Series | Alliance Sensors | US Made | LZ-9.5 Series LVIT Miniature Inductive Linear Position Sensor |
| LR-19 Series LVIT Linear Position Sensor: Automation Duty | LR-19 Series LVIT Linear Position Sensor: Automation Duty by Alliance Sensors Group, designed for factory automation and various industrial applicatio… | – Long lasting, contactless operation prevents internal wearout – Excellent stroke-to-length ratio and proprietary SenSet™ field recalibration fea… | – Limited to specific full scale ranges – May require additional installation accessories for optimal use | alliancesensors.com |
| Inductive Linear Position Sensing Booster Pack (Rev. A) – Texas Instruments | Inductive Linear Position Sensing Booster Pack using LDC1101 and MSP430F5528. | – Non-contact detection and measurement – Insensitive to environmental contaminations | – Requires careful coil design for optimal performance – Limited usable travel range due to non-monotonic behavior at extremes | www.ti.com |
| Inductive Position Sensors – Sensor Methods | Inductive Position Sensors by Sensor Methods | – Low cost and robust to environmental factors – High reliability with automotive-standard components | – Potential reduction in accuracy with segment sensors – Requires careful configuration for specific applications | www.sensormethods.com |
| Rotary inductive position sensors – Cambridge IC | CambridgeIC’s inductive position sensors provide absolute rotary position measurement using resonant inductive position sensing technology, integrated… | – Low integration costs – High reliability in challenging applications | – Limited information on specific technical specifications – Potentially higher cost compared to simpler sensors | www.cambridgeic.com |
Frequently Asked Questions (FAQs)
What is an inductive position sensor and how does it work?
Inductive position sensors are devices that detect the position of metallic objects without direct contact. They work by generating an electromagnetic field and measuring changes in the field when a metal object enters the sensing area. This change is then converted into an electrical signal, allowing you to determine the object’s position accurately.
What are the main applications of inductive position sensors?
Inductive position sensors are widely used in various industries, including automotive, manufacturing, and robotics. They are ideal for applications like detecting the position of moving parts, monitoring assembly lines, and ensuring safety in automated systems.
How do I choose the right inductive position sensor for my needs?
When selecting an inductive position sensor, consider factors such as the sensing range, the size of the target object, environmental conditions, and the required output signal. It’s also essential to assess the installation space and compatibility with your existing systems.
What are the advantages of using inductive position sensors over other types?
Inductive position sensors offer several advantages, including high reliability, long lifespan, and resistance to dust and moisture. Since they operate without physical contact, they reduce wear and tear, making them ideal for applications where precision and durability are crucial.
How can I maintain my inductive position sensor?
Maintaining your inductive position sensor is relatively simple. Regularly inspect the sensor for any signs of damage or wear, ensure that the sensing area is clean, and avoid exposure to extreme temperatures or electromagnetic interference. Following the manufacturer’s guidelines will help ensure optimal performance.