Datasheet Linear Technology LTC2415-1

ManufacturerLinear Technology
SeriesLTC2415-1

24-Bit No Latency Delta Sigma ADC with Differential Input and Differential Reference

Datasheets

Datasheet LTC2415, LTC2415-1
PDF, 714 Kb, Language: en, File uploaded: Aug 21, 2017, Pages: 42
24-Bit No Latency Delta Sigma ADC with Differential Input and Differential Reference
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Prices

Packaging

LTC2415-1CGN#PBFLTC2415-1CGN#TRPBFLTC2415-1IGN#PBFLTC2415-1IGN#TRPBF
N1234
PackageSSOP-16
Package Outline Drawing
SSOP-16
Package Outline Drawing
SSOP-16
Package Outline Drawing
SSOP-16
Package Outline Drawing
Package CodeGNGNGNGN
Package Index05-08-1641 (GN16)05-08-1641 (GN16)05-08-1641 (GN16)05-08-1641 (GN16)
Pin Count16161616

Parametrics

Parameters / ModelsLTC2415-1CGN#PBFLTC2415-1CGN#TRPBFLTC2415-1IGN#PBFLTC2415-1IGN#TRPBF
ADC INL, LSB33.533.533.533.5
ADCs1111
ArchitectureDelta SigmaDelta SigmaDelta SigmaDelta Sigma
Bipolar/Unipolar InputUnipolarUnipolarUnipolarUnipolar
Bits, bits24242424
Number of Channels1111
DNL, LSB1111
Demo BoardsDC382ADC382ADC382ADC382A
Design ToolsLinduino FileLinduino FileLinduino FileLinduino File
Export Controlnononono
FeaturesNo Latency, 50Hz & 60Hz RejectionNo Latency, 50Hz & 60Hz RejectionNo Latency, 50Hz & 60Hz RejectionNo Latency, 50Hz & 60Hz Rejection
I/OSerial SPISerial SPISerial SPISerial SPI
INL ppm, ppm2222
Input DriveDifferentialDifferentialDifferentialDifferential
Input SpanВ±VREF/2В±VREF/2В±VREF/2В±VREF/2
Internal Referencenononono
Operating Temperature Range, °C0 to 700 to 70-40 to 85-40 to 85
Power, mW1111
Simultaneousnononono
Speed, ksps0.01370.01370.01370.0137
Supply Voltage Range2.7V to 5.5V2.7V to 5.5V2.7V to 5.5V2.7V to 5.5V

Eco Plan

LTC2415-1CGN#PBFLTC2415-1CGN#TRPBFLTC2415-1IGN#PBFLTC2415-1IGN#TRPBF
RoHSCompliantCompliantCompliantCompliant

Other Options

LTC2415 LTC2415

Application Notes

  • Delta Sigma ADC Bridge Measurement Techniques &mdash AN96
    PDF, 232 Kb, File published: Jan 17, 2005
    AN96 features several applications that demonstrate how to take full advantage of Linear Technology's delta sigma ADCs when interfacing to sensors. In many cases, signal conditioning can be greatly simplified or eliminated completely. This note explains where it is appropriate to use amplifiers and how to optimize amplifier gain. Also included are discussions on measuring effective number of bits (ENOB) and the relationship to instrument performance, frequency response of delta sigma ADCs, and test techniques. C source code for all of the applications is included to aid firmware development.
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Articles

  • No Latency Delta-Sigma ADC Techniques for Optimized Performance &mdash LT Journal
    PDF, 239 Kb, File published: May 1, 2001
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Model Line

Manufacturer's Classification

  • Data Conversion > Analog-to-Digital Converters (ADC) > Precision ADCs (Fs < 10Msps) > Single Channel ADCs
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