Data Acquisition - ADCs/DACs

Data Acquisition - ADCs/DACs - Special Purpose

Part Number	Description / PDF	Quantity
ADS1202IPWRG4 Texas Instruments	IC MODULATOR 16BIT 40K 8TSSOP	0
PCM1771RGAR Texas Instruments	DAC, SERIAL INPUT LOADING	14000
PCM1770PWR Texas Instruments	PCM1770 98DB SNR LOW-POWER STERE	137646
LDC1314RGHT Texas Instruments	IC IND TO DGT CONV 12BIT 16WQFN	423
DAC161P997TDA1 Texas Instruments	IC DAC 16BIT DIE	0
PCM1745E/2K Texas Instruments	ANALOG DATA CONVERTR	36000
PCM1751DBQR Texas Instruments	ANALOG DATA CONVERTR	8000
TLV571CDW Texas Instruments	8 BIT SAR A/D	2170
HPA00046PZP Texas Instruments	IC ADC VIDEO 100HTQFP	0
TLC2543IDBRG4HE Texas Instruments	12 BIT A/D CONVERTER	68200
PCM1851APJTG4 Texas Instruments	ADC, DELTA-SIGMA, 24-BIT, 1 FUNC	0
MLA00382DR Texas Instruments	ANALOG AUTOMOTIVE	26985
AMC60804YBHR Texas Instruments	TRUE EML MONITOR AND CONTROLLER	0
WM2630IDT Texas Instruments	ANALOG DATA CONVERTR	2440
TLV571CPW Texas Instruments	8 BIT SAR A/D	1717
P5590ED Texas Instruments	8BIT A/D PAGER IC	0
DAC161P997TDA2 Texas Instruments	IC DAC 16BIT DIE	0
AMC3306M05DWER Texas Instruments	HIGH-PRECISION, 50-MV INPUT, REI	1827
SN104195KC Texas Instruments	ANALOG AUTOMOTIVE	25479
PCM78AP Texas Instruments	16 BIT A/D CONVERTER	764

Data Acquisition - ADCs/DACs - Special Purpose

1. Overview

Special Purpose Analog-to-Digital Converters (ADCs) and Digital-to-Analog Converters (DACs) are integrated circuits designed for specific data acquisition tasks requiring tailored performance characteristics. These ICs enable precise signal conversion in specialized applications where standard converters cannot meet unique requirements such as ultra-high speed, extreme accuracy, isolation, or environmental robustness. They are critical in advanced industrial control systems, medical instrumentation, aerospace electronics, and high-frequency communication systems.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
High-Speed ADCs	Sampling rates >1 GSPS, low latency, wide bandwidth	Radar systems, 5G transceivers
High-Precision ADCs	24-bit resolution, 2ppm linearity, low noise	Medical imaging, precision test equipment
Isolated ADCs	Galvanic isolation up to 5kVRMS, CMTI >100kV/ s	Industrial motor drives, grid-tied inverters
Multi-Channel DACs	Synchronized channels, crosstalk < -100dB	Automotive LiDAR beam steering
Radiation-Hardened ADCs	Latch-up immunity, TID tolerance >100krad	Satellite payloads, nuclear instrumentation

3. Structure and Components

Typical architecture includes:

Input conditioning stage (PGA, anti-aliasing filter)
Sampling-and-Hold circuit with <10ps jitter
Conversion core (SAR, Delta-Sigma, Pipeline architecture)
Digital interface (SPI, JESD204B, LVDS)
Calibration engine for offset/linearity correction
Thermal management structures (exposed pads, thermal vias)

4. Key Technical Specifications

Parameter	Description	Importance
Effective Number of Bits (ENOB)	Actual resolution considering noise/distortion	System accuracy benchmark
Signal-to-Noise and Distortion (SINAD)	Dynamic range measurement	Determines minimum detectable signal
Integral Nonlinearity (INL)	Deviation from ideal transfer function	Essential for precision measurements
Power Supply Rejection Ratio (PSRR)	Noise immunity from power rails	System stability in varying conditions
Operating Temperature Range	-55 C to +150 C for automotive/military grades	Environmental reliability

5. Application Fields

Industrial Automation: Programmable Logic Controllers (PLCs) with 16-channel analog inputs
Medical Imaging: MRI scanners requiring 24-bit ADCs with 10nV/ Hz noise density
Aerospace: Avionics data acquisition with radiation-hardened DACs
Test & Measurement: Oscilloscopes using 8GS/s ADCs for 2GHz bandwidth
Energy Systems: Grid monitoring devices with 0.01% accurate voltage measurement

6. Leading Manufacturers and Products

Manufacturer	Product Series	Key Specifications
Analog Devices	AD7124-8	24-bit - ADC, 0.001% linearity, TUE <0.1%
TI Semiconductor	ADS54J60	16-bit, 1GSPS ADC with 74dB SNR
Maxim Integrated	MAX11156	16-channel, 18-bit SAR ADC, 0.1LSB INL
STMicroelectronics	LTC2380-24	24-bit, 2Msps ADC with 2ppm INL
NXP Semiconductors	MC12DX1080	8-channel DAC with 12.5ps jitter for LiDAR

7. Selection Guidelines

Key selection criteria:

Match sampling rate and bandwidth to signal requirements
Verify temperature stability and long-term drift specifications
Consider digital interface compatibility (e.g. JESD204C for high-speed links)
Evaluate power consumption vs. performance trade-offs
Example: For vibration analysis in jet engines, select ADC with 200dB dynamic range and -55 C to +125 C rating

Industry Trends

Emerging trends include:

3D-stacked ICs integrating ADCs with AI acceleration cores
Time-interleaved ADCs breaking 10 GSPS barriers
Self-calibrating DACs with embedded temperature sensors
Photonics-enabled converters for THz-range sampling
Energy-harvesting optimized ADCs with sub- W operation modes