Inductance-to-Digital Converters offer 28-bit resolution.

Press Release Summary:

Offering 2 or 4 matched channels in single IC, Series LDC1614 provides precise position and motion sensing in almost any environment. Multiple, well-matched channels enable differential and ratiometric measurements, allowing designers to compensate for environmental aging conditions. With up to 28-bit resolution, devices can detect submicron changes in distance. Converters are powered by 3.3 V supply, consume 6.9 mW during standard operation, and support frequency range of 1 kHz to 10 MHz.

Original Press Release:

TI introduces World's First Multichannel Inductance-to-digital Converters

New devices enable precise position and motion sensing in almost any environment

DALLAS -- Texas Instruments (TI) (NASDAQ: TXN) today announced the world's first multichannel inductance-to-digital converters (LDCs). The four new devices in the LDC1614 family expand the innovative LDC portfolio, a data converter category that TI first introduced in 2013. The devices offer two or four matched channels and up to 28-bit resolution in a single integrated circuit (IC). For information about the new LDCs and access to a full suite of design resources, visit

The combination of precision and multichannel functionality will allow engineers to design high dynamic range position and motion sensing solutions with simpler system designs and reduced cost. Unlike other technologies, LDC-enabled inductive sensing employs low-cost, high-reliability inductors as sensors, which can be located remotely from the IC. By integrating up to four channels in a single IC, the LDC1614 family allows designers to distribute sensors throughout a system, while centralizing electronics on fewer printed circuit boards (PCBs). This can benefit precision linear or rotational sensing and metal detection in a variety of end equipment including white goods, printers, cameras and automotive infotainment consoles.

Key benefits of the LDC1614 family:

--  Multiple, well-matched channels: Enables differential and ratiometric measurements, allowing designers to easily compensate for environmental and aging conditions such as temperature, humidity and mechanical drift.

--  Precision measurement capability: With up to 28-bit resolution, the devices can detect submicron changes in distance.

--  Wide sensor frequency range: By supporting a frequency range of 1 kHz to 10 MHz, designers have flexibility to use many types of inductors as sensors. This frequency range also enables use of very small PCB coils, which reduces overall sensing solution cost and size.

--  Low system power: Powered by a 3.3-V supply, the LDC1614 family consumes approximately 6.9 mW during standard operation and 0.12 mW while in shutdown mode.

--  High reliability: Offers contactless sensing that is immune to nonconductive contaminants, such as oil, dirt and dust, which can shorten equipment life.

Tools and support to jump-start design

The LDC1614EVM, which includes the ultra-low power MSP430F5528 microcontroller (MCU), is available to evaluate the LDC1614 and can be purchased today in the TI store for US$29.

System designers can build sensors in minutes with TI's WEBENCH® Inductive Sensing Designer.

This online tool simplifies sensor coil design based on application and system requirements. The optimized design can be easily exported to a variety of computer-aided design (CAD) programs to quickly incorporate the sensor coil into an overall system layout.

The 16-button keypad reference design (TIDA-00509) uses the LDC1314 in a multiplexed inductive keypad system, which can be easily scaled to allow for up to 64 buttons. This reference design uses stainless steel, snap dome-based keys, a low-cost technology option for buttons. The contactless solution supports simultaneous button press and provides a more robust and reliable design compared to mechanical keypad solutions. Other inductive sensing reference designs are available by searching the TI Designs reference design library.

Package, availability and pricing

Each device in the LDC1614 family measures 4 mm by 4 mm and is easily configured via its I(2)C interface. Pricing and packaging of each device is listed below.

Device name

Input channels
























*Unit price listed is for quantities of 1,000.

Learn more about TI's inductive sensing portfolio by visiting the links below:

--  Download the data sheet for the LDC1614.

--  Learn more about inductive sensing at .

--  Read design tips in the inductive sensing series on the Analog Wire blog.

--  Search for answers and get help with your designs in the Inductive Sensing Forum of the TI E2E((TM)) Community.

--  Explore TI's large portfolio of innovative sensing solutions at

About Texas Instruments

Texas Instruments Incorporated (TI) is a global semiconductor design and manufacturing company that develops analog ICs and embedded processors. By employing the world's brightest minds, TI creates innovations that shape the future of technology. TI is helping more than 100,000 customers transform the future, today. Learn more at

About WEBENCHInductive Sensing Design Tools

WEBENCH Inductive Sensing design tools support TI's ground-breaking family of LDC products. The Inductive Sensing Designer and new Coil Designer tools enable develops to easily generate custom PCB boards and export to popular PCB CAD tools. TI's award-winning WEBENCH design tools are the industry's only online environment that enables end-to-end circuit design, simulation and optimization for footprint, price and efficiency, with the ability to download schematic and PCB layout files directly into CAD tools. Component libraries include more than 40,000 components from 120 manufacturers, and TI's distribution partners update price and availability hourly. Offered in eight languages, users can compare complete system designs and make supply chain decisions in minutes. Click here to start a cost-free inductive sensing design.


TI E2E is a trademark of Texas Instruments. All other trademarks and registered trademarks belong to their respective owners.


Andrea Fasano

Texas Instruments



Tara Stratton



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