Detalles del producto

Applications Encoders/event counters, Inductive touch buttons, Metal proximity detection Number of input channels 4 Vs (max) (V) 3.6 Vs (min) (V) 2.7 Rating Catalog Operating temperature range (°C) -40 to 125
Applications Encoders/event counters, Inductive touch buttons, Metal proximity detection Number of input channels 4 Vs (max) (V) 3.6 Vs (min) (V) 2.7 Rating Catalog Operating temperature range (°C) -40 to 125
WQFN (RGH) 16 16 mm² 4 x 4
  • Easy-to-Use – Minimal Configuration Required
  • Up to 4 Channels With Matched Sensor Drive
  • Multiple Channels Support Environmental and Aging Compensation
  • Remote Sensor Position of >20 cm Supports Operation In Harsh Environments
  • Pin-Compatible Medium and High-Resolution Options:
    • LDC1312/4: 2/4-ch 12-Bit LDC
    • LDC1612/4: 2/4-ch 28-Bit LDC
  • Supports Wide Sensor Frequency Range of 1 kHz to 10 MHz
  • Power Consumption:
    • 35 µA Low Power Sleep Mode
    • 200 nA Shutdown Mode
  • 2.7 V to 3.6 V Operation
  • Multiple Reference Clocking Options:
    • Included Internal Clock For Lower System Cost
    • Support for 40 MHz External Clock For Higher System performance
  • Immunity to DC Magnetic Fields and Magnets
  • Easy-to-Use – Minimal Configuration Required
  • Up to 4 Channels With Matched Sensor Drive
  • Multiple Channels Support Environmental and Aging Compensation
  • Remote Sensor Position of >20 cm Supports Operation In Harsh Environments
  • Pin-Compatible Medium and High-Resolution Options:
    • LDC1312/4: 2/4-ch 12-Bit LDC
    • LDC1612/4: 2/4-ch 28-Bit LDC
  • Supports Wide Sensor Frequency Range of 1 kHz to 10 MHz
  • Power Consumption:
    • 35 µA Low Power Sleep Mode
    • 200 nA Shutdown Mode
  • 2.7 V to 3.6 V Operation
  • Multiple Reference Clocking Options:
    • Included Internal Clock For Lower System Cost
    • Support for 40 MHz External Clock For Higher System performance
  • Immunity to DC Magnetic Fields and Magnets

The LDC1312 and LDC1314 are 2- and 4-channel, 12-bit inductance to digital converters (LDCs) for inductive sensing solutions. With multiple channels and support for remote sensing, the LDC1312 and LDC1314 enable the performance and reliability benefits of inductive sensing to be realized at minimal cost and power. The products are easy to use, only requiring that the sensor frequency be within 1 kHz and 10 MHz to begin sensing. The wide 1 kHz to 10 MHz sensor frequency range also enables use of very small PCB coils, further reducing sensing solution cost and size.

The LDC1312 and LDC1314 offer well-matched channels, which allow for differential and ratiometric measurements. This enables designers to use one channel to compensate their sensing for environmental and aging conditions such as temperature, humidity, and mechanical drift. Given their ease of use, low power, and low system cost these products enable designers to greatly improve on existing sensing solutions and to introduce brand new sensing capabilities to products in all markets, especially consumer and industrial applications. Inductive sensing offers better performance, reliability, and flexibility than competitive sensing technologies at lower system cost and power.

The LDC1312 and LDC1314 are easily configured via an I2C interface. The two-channel LDC1312 is available in a WSON-12 package and the four-channel LDC1314 is available in a WQFN-16 package.

The LDC1312 and LDC1314 are 2- and 4-channel, 12-bit inductance to digital converters (LDCs) for inductive sensing solutions. With multiple channels and support for remote sensing, the LDC1312 and LDC1314 enable the performance and reliability benefits of inductive sensing to be realized at minimal cost and power. The products are easy to use, only requiring that the sensor frequency be within 1 kHz and 10 MHz to begin sensing. The wide 1 kHz to 10 MHz sensor frequency range also enables use of very small PCB coils, further reducing sensing solution cost and size.

The LDC1312 and LDC1314 offer well-matched channels, which allow for differential and ratiometric measurements. This enables designers to use one channel to compensate their sensing for environmental and aging conditions such as temperature, humidity, and mechanical drift. Given their ease of use, low power, and low system cost these products enable designers to greatly improve on existing sensing solutions and to introduce brand new sensing capabilities to products in all markets, especially consumer and industrial applications. Inductive sensing offers better performance, reliability, and flexibility than competitive sensing technologies at lower system cost and power.

The LDC1312 and LDC1314 are easily configured via an I2C interface. The two-channel LDC1312 is available in a WSON-12 package and the four-channel LDC1314 is available in a WQFN-16 package.

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Documentación técnica

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Tipo Título Fecha
* Data sheet LDC1312, LDC1314 Multi-Channel 12-Bit Inductance to Digital Converter (LDC) for Inductive Sensing datasheet (Rev. A) PDF | HTML 25 may 2018
Application note Common Inductive and Capacitive Sensing Applications (Rev. B) PDF | HTML 22 jun 2021
Application note Simulate Inductive Sensors Using FEMM (Finite Element Method Magnetics) (Rev. A) PDF | HTML 16 jun 2021
Application note LDC Device Selection Guide (Rev. D) PDF | HTML 15 jun 2021
Application note Sensor Design for Inductive Sensing Applications Using LDC (Rev. C) PDF | HTML 21 may 2021
Application note LDC Target Design (Rev. B) PDF | HTML 13 may 2021
Application note Configuring Inductive-to-Digital-Converters for Parallel Resistance (RP) Variati (Rev. B) 11 nov 2019
Application note EMI Considerations for Inductive Sensing 22 feb 2017
Technical article How to use the LDC calculations tool PDF | HTML 10 nov 2016
Application note LDC1312, LDC1314, LDC1612, LDC1614 Sensor Status Monitoring 09 oct 2016
EVM User's guide LDC131x and LDC161x EVM User’s Guide (Rev. A) 21 sep 2016
Application note Setting LDC1312/4, LDC1612/4, and LDC1101 Sensor Drive Configuration 05 abr 2016
Application note Inductive Sensing Touch-On-Metal Buttons Design Guide PDF | HTML 30 mar 2016
Technical article Inductive sensing: setting the sensor current-drive without a fancy impedance anal PDF | HTML 24 mar 2016
Application note Power Reduction Techniques for the LDC131x/161x for Inductive Sensing PDF | HTML 18 mar 2016
Application note Optimizing L Measurement Resolution for the LDC1312 and LDC1314 12 feb 2016
Technical article Inductive sensing: target size matters PDF | HTML 16 nov 2015
Application note Measuring Rp of an L-C Sensor for Inductive Sensing 01 oct 2015
Technical article Inductive sensing: How to design an inductive sensor with the new WEBENCH Coil Des PDF | HTML 19 ago 2015
Technical article Inductive sensing: How to sense spring compression PDF | HTML 13 jul 2015
Technical article Inductive sensing: Improve the ENOB of a multichannel LDC by 4 bits in 3 simple st PDF | HTML 24 jun 2015
Technical article Inductive sensing: How far can I sense? PDF | HTML 17 jun 2015
User guide LDC Reference Coils User’s Guide 14 may 2015
Technical article Inductive sensing: How to configure a multichannel LDC system - part 2 PDF | HTML 11 may 2015
Technical article Inductive sensing: How to configure a multichannel LDC system - part 1 PDF | HTML 04 may 2015
Technical article Inductive sensing: Meet the new multichannel LDCs PDF | HTML 27 abr 2015

Diseño y desarrollo

Para conocer los términos adicionales o los recursos necesarios, haga clic en cualquier título de abajo para ver la página de detalles cuando esté disponible.

Placa de evaluación

LDC1314DIAL-EVM — Módulo de evaluación de convertidor inductivo a digital LDC1314: dial de 1 grado

The LDC1314DIAL evaluation module implements a contactless rotational position sensing solution that is accurate to 1 degree with 0.1 degree resolution.

This design uses the LDC1314 but can also be replicated with the LDC1312LDC1612 and LDC1614.

Placa de evaluación

LDC1314EVM — Módulo de evaluación para convertidor inductivo a digital con bobinas PCB de muestra LDC1314

The LDC1314 evaluation module demonstrates inductive sensing technology for sensing and measuring the presence of a conductive target. The evaluation module includes two example PCB sensor coils that connect to the four channels of the LDC1314, and an MSP430 microcontroller is used to interface the (...)
Guía del usuario: PDF
Placa de evaluación

LDC1314KEYPAD-EVM — Módulo de evaluación de convertidor inductivo a digital LDC1314: teclado de 16 botones

The LDC1314KEYPAD evaluation module implements a 16 snap dome button keypad using only one LDC1314 to multiplex all 16 buttons.

This design uses the LDC1314 but can also be replicated with the LDC1312, LDC1612 and LDC1614.

Placa de evaluación

LDCCOILEVM — Módulo de evaluación de placa de bobina de referencia

The LDCCOILEVM is designed to provide maximum flexibility for system prototyping and allow for experimentation with different coil sizes. It includes 19 unique types of PCB coils that range from long rectangular asymmetric coils to small circular coils 3mm in diameter. Every coil is separated by (...)

Guía del usuario: PDF
Modelo de simulación

LDC1314 IBIS MODEL

SNIM005.ZIP (26 KB) - IBIS Model
Diseños de referencia

TIDA-00508 — Diseño de referencia de dial de 1 grado con el convertidor de inductancia a digital LDC1314

The LDC1314's unique inductive sensing capability is used to implement a contactless rotational position sensing solution that is accurate to 1 degree. It uses standard PCB technology and easily manufactured components to implement a low cost solution.

This reference design uses the LDC1314.  (...)

Design guide: PDF
Esquema: PDF
Diseños de referencia

TIDA-00314 — Diseño de referencia de botones táctiles metálicos con retroalimentación háptica integrada

This reference design uses our inductance-to-digital converter technology to provide a high-precision method to sense button presses on a metal surface and our haptic drivers provide high-quality haptics feedback to the user. TIDA-00314 demonstrates techniques for system design, environmental (...)
Design guide: PDF
Esquema: PDF
Diseños de referencia

TIDA-00509 — Diseño de referencia de teclado inductivo de 16 botones con el convertidor de inductancia a digital

The LDC1314's unique inductive sensing capability is used to implement a contactless, 16 button, multi-function keypad. It uses standard PCB technology and easily manufactured components to implement a low cost solution.

This reference design uses the LDC1314.  This reference design can also be (...)

Design guide: PDF
Esquema: PDF
Diseños de referencia

TIDA-00615 — Diseño de referencia de perilla de codificador de 32 posiciones de detección inductiva utilizando LD

An inductive sensing based incremental encoder knob design can provide a robust and low-cost interface for control inputs.  It can reliably operate in environments which have dirt, moisture, or oil which would pose issues for alternate sensing technologies. This solution requires no magnets.
Design guide: PDF
Esquema: PDF
Encapsulado Pines Símbolos CAD, huellas y modelos 3D
WQFN (RGH) 16 Ultra Librarian

Pedidos y calidad

Información incluida:
  • RoHS
  • REACH
  • Marcado del dispositivo
  • Acabado de plomo/material de la bola
  • Clasificación de nivel de sensibilidad a la humedad (MSL) / reflujo máximo
  • Estimaciones de tiempo medio entre fallas (MTBF)/fallas en el tiempo (FIT)
  • Contenido del material
  • Resumen de calificaciones
  • Monitoreo continuo de confiabilidad
Información incluida:
  • Lugar de fabricación
  • Lugar de ensamblaje

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Soporte y capacitación

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