Datasheet Texas Instruments LDC1312DNTR

ManufacturerTexas Instruments
SeriesLDC1312
Part NumberLDC1312DNTR
Datasheet Texas Instruments LDC1312DNTR

2-channel, 12-bit Inductance-to-Digital Converter with I2C for Inductive Sensing 12-WSON -40 to 125

Datasheets

LDC1312, LDC1314 Multi-Channel 12-Bit Inductance to Digital Converter (LDC) for Inductive Sensing datasheet
PDF, 1.8 Mb, File published: Dec 12, 2014
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Prices

Status

Lifecycle StatusActive (Recommended for new designs)
Manufacture's Sample AvailabilityYes

Packaging

Pin12
Package TypeDNT
Industry STD TermWSON
JEDEC CodeS-PDSO-N
Package QTY4500
CarrierLARGE T&R
Device MarkingLDC1312
Width (mm)4
Length (mm)4
Thickness (mm).75
Pitch (mm).5
Max Height (mm).8
Mechanical DataDownload

Parametrics

# Input Channels2
Active Supply Current(Typ)2.1 mA
Analog Supply (V)2.7 Max
InterfaceI2C
L (Inductance) Resolution12 Bits
Operating Temperature Range-40 to 125 C
Oscillation Amplitude(Max)1.8 V
Oscillation Amplitude(Min)0.7 V
Package GroupWSON
Package Size: mm2:W x LSee datasheet (WSON) PKG
RatingCatalog
Response Time(Max)N/A 1/fsensor
Response Time(Min)75 1/fsensor
Rp (Parallel Resonance Impedance) ResolutionN/A Bits
Sensor Frequency1k to 10M Hz
Sensor Rp Range(Max)100K Ohms
Sensor Rp Range(Min)250 Ohms
Stand-By Current(Typ)35 uA

Eco Plan

RoHSCompliant

Design Kits & Evaluation Modules

  • Evaluation Modules & Boards: LDC1312EVM
    LDC1312 Evaluation Module for Inductance to Digital Converter with Sample PCB Coils
    Lifecycle Status: Active (Recommended for new designs)

Application Notes

  • Optimizing L Measurement Resolution for the LDC1312 and LDC1314
    PDF, 149 Kb, File published: Feb 12, 2016
  • Power Reduction Techniques for the LDC131x/161x for Inductive Sensing
    PDF, 215 Kb, File published: Mar 18, 2016
    Inductive sensing is a contactless technique for applications ranging from position or motion measurement of a conductive target to detection of spring compression or extension. Depending on the specific application, there are different system requirements regarding sensitivity, responsiveness, and power. Power consumption is a key parameter for many applications, including wearables, consumer ele
  • LDC1312, LDC1314, LDC1612, LDC1614 Sensor Status Monitoring
    PDF, 102 Kb, File published: Oct 9, 2016
    TI’s multichannel inductance-to-digital converters (LDCs) LDC1612, LDC1614, LDC1312 and LDC1314feature three different methods for reporting conversion status information including errors, warnings, andcompleted conversion results. Information is available through the data registers, the status registers, andthe INTB pin of the device. This application note explains usage and interpretation
  • Configuring Inductive-to-Digital-Converters for Parallel Resistance (RP) Variati (Rev. A)
    PDF, 255 Kb, Revision: A, File published: Jun 1, 2015
    This application note reviews sensor RP configuration for LDC devices. LDC1000, LDC1041, LDC1051, LDC1312, LDC1314, LDC1612, LDC1614 are covered in this note. Clear understanding on how to set the RP_MIN and RP_MAX registers is necessary for not only RP measurements, but also for optimum L measurements. The fundamental principle of RP measurements is that magnetic fields from an LC circuit ge
  • Setting LDC1312/4, LDC1612/4, and LDC1101 Sensor Drive Configuration
    PDF, 298 Kb, File published: Apr 5, 2016
  • EMI Considerations for Inductive Sensing
    PDF, 151 Kb, File published: Feb 22, 2017
    This application note explains various EMI reduction techniques to help improve EMI performance for TI'sInductance-to-Digital Converters (LDC). Each section details a general technique with references to otheruseful online documents. A list of relevant EMI reduction techniques is provided for specific devices withinthe LDC family of products.
  • LDC Device Selection Guide (Rev. B)
    PDF, 360 Kb, Revision: B, File published: Mar 21, 2017
  • LDC Sensor Design
    PDF, 1.0 Mb, File published: Mar 24, 2015
    Getting the best performance out of an LDC requires a sensor suitable for the measurement. This app-note covers the parameters to consider when designing a sensor for a specific application. Specific areas of focus include the physical routing characteristics of PCB based sensors, considerations for the sensor capacitor, and techniques to minimize or compensate for parasitic effects.
  • LDC1xxx LDC Target Design (Rev. A)
    PDF, 907 Kb, Revision: A, File published: May 9, 2017
    Texas Instruments’ Inductive-to-Digital Converter (LDC) technology can accurately measure with a wide variety of target sizes, shapes, and material composition. There are several target design guidelines to maximize the effectiveness of an LDC measurement system. This application note covers the relevant factors of target design that affect inductive sensing, and provides guide
  • Measuring Rp of an L-C Sensor for Inductive Sensing
    PDF, 205 Kb, File published: Oct 1, 2015
    When designing an application using TI’s LDC series of inductive sensors, it is necessary to know the L-C sensor’s equivalent parallel resistance RP at the sensor’s resonant frequency. The RP value changes as the target is moved; the minimum RP occurs when the metal target is closest to the sensor. The maximum RP occurs when the target is at the farthest distance. Accordingly, both values should b

Model Line

Series: LDC1312 (2)

Manufacturer's Classification

  • Semiconductors > Sensing Products > Inductive Sensing > Inductance to Digital Converters