NPTEL – Mechanical – Mechatronics and Manufacturing Automation. Joint initiative of IITs and IISc – Funded by MHRD. Page 16 of 56. Moina Normal Font on this page. Module 2: Sensors and signal processing. Displacement, position and proximity sensors. Eddy current proximity sensors. Figure 2.3.1 Schematic of Inductive Proximity Sensor. Inductive Sensing is a contact-less, short-range sensing technology that enables low-cost, high-resolution sensing of conductive targets in the presence of dust, dirt, oil, and. Magnet-Free Operation; Sub-Micron Precision; Adjustable Sensing Range (Through Coil Design); Lower System Cost; Remote Sensor Placement.

Recommended alternative parts • - The device has SIMILAR FUNCTIONALITY but is not functionally equivalent to the compared device. 1.8V, High Resolution Inductance to Digital Converter • - The device has SIMILAR FUNCTIONALITY but is not functionally equivalent to the compared device. 2-channel, lower power, next generation LDC to enable simpler system design and lower system cost • - The device has SIMILAR FUNCTIONALITY but is not functionally equivalent to the compared device. 4-channel, lower power, next generation LDC to enable simpler system design and lower system cost. Inductive Sensing is a contact-less, short-range sensing technology that enables low-cost, high-resolution sensing of conductive targets in the presence of dust, dirt, oil, and moisture, making it extremely reliable in hostile environments. Using a coil which can be created on a PCB as a sensing element, the LDC1000 enables ultra-low cost system solutions.

Inductive sensing technology enables precise measurement of linear and angular position, displacement, motion, compression, vibration, metal composition, and several other applications in markets including automotive, consumer, computer, industrial, medical, and communications. Inductive sensing offers better performance and reliability at lower cost than other competitive solutions. The LDC1000 is the world’s first inductance-to-digital converter, offering the benefits of inductive sensing in a low-power, small-footprint solution. The product is available in a SON-16 package and offers several modes of operation. A serial peripheral interface (SPI) simplifies connection to an MCU. • Magnet-Free Operation • Sub-Micron Precision • Adjustable Sensing Range (Through Coil Design) • Lower System Cost • Remote Sensor Placement (Decoupling the LDC From Harsh Environments) • High Durability (by Virtue of Contact-Less Operation) • Insensitivity to Environmental Interference (Such as Dirt, Dust, Water, Oil) • Supply Voltage, Analog: 4.75 V to 5.25 V • Supply Voltage, I/O: 1.8 V to 5.25 V • Supply Current (Without LC Tank): 1.7 mA • R P Resolution: 16-Bit • L Resolution: 24-Bit • LC Frequency Range: 5 kHz to 5 MHz.