Datasheet Texas Instruments LDC1612QDNTTQ1

Manufacturer	Texas Instruments
Series	LDC1612-Q1
Part Number	LDC1612QDNTTQ1

2-channel, AEC-Q100 qualified, 28-bit Inductance-to-Digital Converter with I2C for Inductive Sensing 12-WSON -40 to 125

Datasheets

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PDF, 1.8 Mb, File published: Apr 29, 2016

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Status

Lifecycle Status	Active (Recommended for new designs)
Manufacture's Sample Availability	No

Packaging

Pin	12	12
Package Type	DNT	DNT
Industry STD Term	WSON	WSON
JEDEC Code	S-PDSO-N	S-PDSO-N
Package QTY	250	250
Carrier	SMALL T&R	SMALL T&R
Device Marking	LDC1612	Q1
Width (mm)	4	4
Length (mm)	4	4
Thickness (mm)	.75	.75
Pitch (mm)	.5	.5
Max Height (mm)	.8	.8
Mechanical Data	Download	Download

Parametrics

# Input Channels	2
Active Supply Current(Typ)	2.1 mA
Analog Supply (V)	2.7 Max
Interface	I2C
L (Inductance) Resolution	28 Bits
Operating Temperature Range	-40 to 125 C
Oscillation Amplitude(Max)	1.8 V
Oscillation Amplitude(Min)	0.7 V
Package Group	WSON
Package Size: mm2:W x L	See datasheet (WSON) PKG
Rating	Automotive
Response Time(Max)	N/A 1/fsensor
Response Time(Min)	245 1/fsensor
Rp (Parallel Resonance Impedance) Resolution	N/A Bits
Sensor Frequency	1k to 10M Hz
Sensor Rp Range(Max)	100K Ohms
Sensor Rp Range(Min)	250 Ohms
Stand-By Current(Typ)	35 uA

Eco Plan

RoHS

Compliant

Design Kits & Evaluation Modules

Evaluation Modules & Boards: LDC1612EVM
LDC1612 Evaluation Module for Inductance to Digital Converter with Sample PCB Coils
Lifecycle Status: Active (Recommended for new designs)
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Application Notes

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LDC1612 LDC1614 Linear Position Sensing
PDF, 239 Kb, File published: Apr 20, 2015
This application note explains how both approaches can be used to determine the position of a target that is moved laterally above the sensor coil and provides system design guidelines for each approach. Resolution calculations are based on the 28-bit devices LDC1612 and LDC1614, but the same principles apply to other LDCs such as LDC1000, LDC1041, LDC1312, and LDC1314.
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Optimizing L Measurement Resolution for the LDC161x and LDC1101
PDF, 108 Kb, File published: Feb 12, 2016
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LDC1312, LDC1314, LDC1612, LDC1614 Sensor Status Monitoring
PDF, 102 Kb, File published: Oct 9, 2016
TIвЂ™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
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Setting LDC1312/4, LDC1612/4, and LDC1101 Sensor Drive Configuration
PDF, 298 Kb, File published: Apr 5, 2016
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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.
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Measuring Rp of an L-C Sensor for Inductive Sensing
PDF, 205 Kb, File published: Oct 1, 2015
When designing an application using TIвЂ™s LDC series of inductive sensors, it is necessary to know the L-C sensorвЂ™s equivalent parallel resistance RP at the sensorвЂ™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: LDC1612-Q1 (2)

LDC1612QDNTRQ1 LDC1612QDNTTQ1

Manufacturer's Classification

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