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Data Acquisition - Analog to Digital Converters (ADC)

Image Part Number Description / PDF Quantity Rfq
AD572BD

AD572BD

Analog Devices, Inc.

12-BIT SAR PARALLEL ADC

67
LTC2386CUH-18#PBF

LTC2386CUH-18#PBF

Analog Devices, Inc.

IC ADC 18BIT SAR 32QFN

467
LTC2320IUKG-16#PBF

LTC2320IUKG-16#PBF

Analog Devices, Inc.

IC ADC 16BIT SAR 52QFN

1431
5962-89518012A

5962-89518012A

Analog Devices, Inc.

DUAL MARKED (AD7821TE/883B)

1
TLC1542CDWR

TLC1542CDWR

Texas Instruments

TLC1542 10-BIT, 38 KSPS ADC SERI

4000
LTC2353CLX-18#PBF

LTC2353CLX-18#PBF

Analog Devices, Inc.

IC ADC 18BIT SAR 48LQFP

215
LTC2183CUP#PBF

LTC2183CUP#PBF

Analog Devices, Inc.

IC ADC 16BIT PIPELINED 64QFN

34
MAX11624EEG+

MAX11624EEG+

Maxim Integrated

IC ADC 10BIT SAR 24QSOP

184
TLC0838CPWRG4

TLC0838CPWRG4

Texas Instruments

IC ADC 8BIT SAR 20TSSOP

0
MAX1075ETC

MAX1075ETC

Analog Devices, Inc.

MAX1070 10-BIT ADC

3096
AD7450ARZ

AD7450ARZ

Analog Devices, Inc.

IC ADC 12BIT SAR 8SOIC

91
LTC2412IGN#PBF

LTC2412IGN#PBF

Analog Devices, Inc.

IC ADC 24BIT SIGMA-DELTA 16SSOP

90
AD7276BUJZ-REEL7

AD7276BUJZ-REEL7

Analog Devices, Inc.

IC ADC 12BIT SAR TSOT23-6

2500
JM38510/14001BXA

JM38510/14001BXA

Analog Devices, Inc.

ADC, SUCCESSIVE APPROXIMATION, 1

440
LTC2150CUJ-12#PBF

LTC2150CUJ-12#PBF

Analog Devices, Inc.

IC ADC 12BIT PIPELINED 40QFN

15
MAX1240AESA+

MAX1240AESA+

Maxim Integrated

IC ADC 12BIT SAR 8SOIC

250
ADS5527IRGZR

ADS5527IRGZR

Texas Instruments

ADS5527 12-BIT, 210-MSPS ANALOG-

2500
ADS8327IBRSAR

ADS8327IBRSAR

Texas Instruments

ADS8327 2.7V-TO-5.5V 16-BIT 500K

8480
AD7274BUJZ-500RL7

AD7274BUJZ-500RL7

Analog Devices, Inc.

ADC, SUCCESSIVE APPROXIMATION, 1

5087
LTC2313HTS8-12#TRPBF

LTC2313HTS8-12#TRPBF

Analog Devices, Inc.

IC ADC 12BIT SAR TSOT23-8

0

Data Acquisition - Analog to Digital Converters (ADC)

1. Overview

Analog-to-Digital Converters (ADCs) are semiconductor devices that convert continuous analog signals into discrete digital values. This core functionality enables digital systems to process real-world signals such as temperature, pressure, audio, and sensor data. ADCs are fundamental components in modern electronics, serving critical roles in communication systems, medical equipment, industrial automation, and consumer electronics. Their performance directly impacts system accuracy, speed, and overall efficiency.

2. Main Types and Functional Classification

TypeFunctional CharacteristicsApplication Examples
Successive Approximation ADCMedium-speed, high accuracy, moderate power consumptionIndustrial control systems, precision measurement
Integrating ADCHigh noise rejection, low speed, excellent linearityDigital multimeters, weigh scales
Pipeline ADCHigh-speed operation with moderate resolutionWireless communication base stations, video processing
Delta-Sigma ( ) ADCHigh resolution, low noise, oversampling architectureAudio processing, precision sensor interfaces
Flash ADCExtremely high-speed conversion, limited resolutionRadar systems, high-speed oscilloscopes

3. Structure and Components

Typical ADC architecture includes: - Sample-and-Hold Circuit: Captures and stabilizes input signal - Quantizer: Maps analog values to discrete levels - Encoder: Converts quantized values to binary code - Reference Voltage Circuit: Provides stable voltage Modern ADCs integrate additional components like programmable gain amplifiers and digital filters. Fabricated using CMOS or BiCMOS processes, they come in packages like QFP, TSSOP, and BGA with pin counts ranging from 8 to 256.

4. Key Technical Specifications

ParameterDescriptionImportance
ResolutionNumber of digital output bitsDetermines measurement precision
Sampling RateMaximum conversion speed (SPS)Defines signal bandwidth capability
Signal-to-Noise Ratio (SNR)Dynamic range measurementImpacts signal fidelity
Integral Nonlinearity (INL)Deviation from ideal transfer functionCritical for measurement accuracy
Power ConsumptionOperating current/voltage requirementsAffects system efficiency and thermal design

5. Application Fields

  • Telecommunications: 5G base stations, optical transceivers
  • Medical Equipment: MRI scanners, patient monitoring systems
  • Industrial Automation: PLC systems, precision sensors
  • Consumer Electronics: Smartphones, wearables
  • Automotive: LiDAR systems, battery management

6. Leading Manufacturers and Products

ManufacturerRepresentative ProductKey Specifications
TI (Texas Instruments)ADS928324-bit ADC, 2MSPS, 2LSB INL
Analog DevicesAD762116-bit SAR ADC, 3MSPS, 85dB SNR
Maxim IntegratedMAX1190516-bit pipeline ADC, 125MSPS
STMicroelectronicsLTC2389-1818-bit SAR ADC, 1MSPS, rail-to-rail input

7. Selection Guidelines

Key considerations include: - Application Requirements: Match resolution/speed to system needs - Environmental Conditions: Temperature range, vibration resistance - Cost Constraints: Balance performance with budget - Supply Chain: Availability, package compatibility - Support Features: Required interfaces (SPI, I2C), calibration capabilities

8. Industry Trends

Emerging trends include: - Development of 32-bit ADCs for precision applications - Integration with AI acceleration for edge computing - Energy-efficient designs for IoT devices - High-temperature ADCs for automotive applications - Advanced packaging technologies (3D stacking) - Software-defined radio ADCs with tunable bandwidth

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