ADP7118

RECOMMENDED FOR NEW DESIGNS

20 V, 200 mA, Low Noise, CMOS LDO Linear Regulator

Data Sheet (Rev. G) Product Selection Table
Part Models
26
1ku List Price
Starting From $0.91
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Part Details

  • Low noise: 11 µV rms independent of fixed output voltage
  • PSRR of 88 dB at 10 kHz, 68 dB at 100 kHz, 50 dB at 1 MHz, VOUT ≤ 5 V, VIN = 7 V
  • Input voltage range: 2.7 V to 20 V
  • Maximum output current: 200 mA
  • Initial accuracy: ±0.8%
  • Accuracy over line, load, and temperature
    • −1.2% to +1.5%, TJ = −40°C to +85°C
    • ±1.8%, TJ = −40°C to +125°C
  • Low dropout voltage: 200 mV (typical) at a 200 mA load,  VOUT = 5 V
  • User programmable soft start (LFCSP and SOIC only)
  • Low quiescent current, IGND = 50 μA (typical) with no load
  • Low shutdown current: 1.8 μA at VIN = 5 V, 3.0 μA at VIN = 20 V
    • Stable with a small 2.2 μF ceramic output capacitor
  • Fixed output voltage options: 1.8 V, 2.5 V, 3.3 V, 4.5 V, and 5.0 V
    • 16 standard voltages between 1.2 V and 5.0 V are available
  • Adjustable output from 1.2 V to VIN – VDO, output can be adjusted above initial set point
  • Precision enable
  • 2 mm × 2 mm, 6-lead LFCSP, 8-Lead SOIC, 5-Lead TSOT
  • AEC-Q100 qualified for automotive applications
ADP7118
20 V, 200 mA, Low Noise, CMOS LDO Linear Regulator
ADP7118 Typical Application Circuit Diagram ADP7118 Pin Configuration ADP7118 Pin Configuration ADP7118 Pin Configuration
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Documentation

Data Sheet 1

User Guide 1

Application Note 2

Technical Articles 1

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Hardware Ecosystem

Parts Product Life Cycle Description
ADP7112
RECOMMENDED FOR NEW DESIGNS 20 V, 200 mA, Low Noise, CMOS LDO Linear Regulator
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Tools & Simulations

LTspice 1

Models for the following parts are available in LTspice:

  • ADP7118
  • ADP7118-1.8
  • ADP7118-2.5
  • ADP7118-3.3
  • ADP7118-4.5
  • ADP7118-5.0

ADI Linear Regulator Design Tool and Parametric Search

Microsoft Excel download tool from ADIsimPower to generate a power supply design complete with a schematic, bill of materials, and performance specifications.

Open Tool
LTspice

LTspice® is a powerful, fast and free simulation software, schematic capture and waveform viewer with enhancements and models for improving the simulation of analog circuits.

Evaluation Kits

eval board
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EVAL-AD7768

AD7768 Evaluation Board

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Features and Benefits

  • Full featured evaluation board for the AD7768
  • PC control in conjunction with the SDP-H1 System Demonstration Platform (EVAL-SDP-CH1Z)
  • PC software control and data analysis 
  • Time and frequency domain
  • Standalone hardware capability

Product Details

The EVAL-AD7768FMCZ evaluation kit features the AD7768 24-bit, 256 kSPS, analog-to-digital converter (ADC). A 7 V to 9 V external bench top supply is regulated to 5 V and 3.3 V to supply the AD7768 and support components. The EVAL-AD7768FMCZ board connects to the USB port of the PC via a connection to the EVAL-SDP-CH1Z motherboard.

The AD7768 evaluation software fully configures the AD7768 device register functionality and provides dc and ac time domain analysis in the form of waveform graphs, histograms, and associated noise analysis for ADC performance evaluation.

The EVAL-AD7768FMCZ is an evaluation board that allows the user to evaluate the features of the ADC. The user PC software executable controls the AD7768 over a USB cable through the EVAL-SDP-CH1Z System Demonstration Platform (SDP). The AD7768 evaluation software requires PC running Windows® 7 to Windows 10 with a USB 2.0 port.

Full specifications on the AD7768 are available in the product data sheet, which should be consulted in conjunction with this user guide when working with the evaluation board.

eval board
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EVAL-AD7768-1

AD7768-1 Evaluation Board

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Features and Benefits

  • Full featured evaluation board for the AD7768-1
  • PC control in conjunction with EVAL-SDP-CH1Z
  • PC software control and data analysis
  • Time and frequency domain
  • Standalone hardware capability

Product Details

The EV-AD7768-1FMCZ evaluation kit features the AD7768-1 24-bit, 256 kSPS analog-to-digital converter (ADC). The EVAD7768-1FMCZ board connects to the USB port of the PC via the EVAL-SDP-CH1Z motherboard. By default, power is supplied from the EVAL-SDP-CH1Z supply, which is regulated to 5 V and 3.3 V to supply the AD7768-1 and support components.

The EV-AD7768-1FMCZ software fully configures the AD7768-1 device register functionality and provides dc and ac time domain analysis in the form of waveform graphs, histograms, and associated noise analysis for ADC performance evaluation.

The EV-AD7768-1FMCZ is an evaluation board that allows the user to evaluate the features of the ADC. The user PC software executable controls the AD7768-1 over USB through the system demonstration platform (EVAL-SDP-CH1Z).

eval board
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EVAL-ADP7118

ADP7118/ADP7142 Evaluation Board

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Features and Benefits

  • Input voltage range: 2.7 V to 20 V (40V for ADP7142)
  • Output current range: 0 mA to 200 mA
  • Output voltage accuracy: ±0.8 %
  • Operating temperature range: −40°C to +125°C
  • Adjustable option voltage set with two external resistors VOUT = 1.2 V × (1 + R1/R2)

Product Details

The ADP7118/ADP7142 evaluation board is used to demonstrate the functionality of the ADP7118/ADP7142 series of linear regulators.

Simple device measurements such as line and load regulation, dropout, and ground current can be demonstrated with just a single voltage source, a voltmeter, an ammeter, and load resistors.

eval board
schematic 10
EVAL-ADA8282

ADA8282 Evaluation Board

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Features and Benefits

  • Ready SPI interface for setup and control
  • Easy connection to test equipment

Product Details

The ADA8282CP-EBZ is designed to aid in the evaluation of the ADA8282 radar receive path analog front-end (AFE). The board connects to the system demonstration platform (SDP) for easy configuration of registers through SPI, along with headers to allow configuration using other platforms. It also includes on-board options to provide manual reset capability to the part.

This user guide provides quick start instructions for working with the board.

Full specifications for the ADA8282 are available in the product data sheet, which should be consulted in conjunction with this user guide when using the evaluation board.

eval board
schematic 11
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AD-FMCXMWBR1-EBZ

FMC X-Microwave Compatible Level Translator and Power Supply Kit

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Features and Benefits

  • FMC-compatible form factor
  • Powered from FMC connector with external supply possibility
  • Provides level translation and various supply values
  • Compatible with RaspberryPi X-MW controller 

Product Details

The AD-FMCXMWBR1-EBZ is a level translator and power supply board, with FMC-compatible form factor. It is powered from the FMC connector, with the possibility to add an external supply, for application that require higher load currents. In this case, the external supply is prioritized. 

AD-FMCXMWBR1-EBZ allows multiple level translated digital communications paths between a controller/FPGA device and X-MW blocks. The module provides multiple supply voltages with high current capability, that can be used to bias the X-MW blocks or other IC’s in a prototype design.

APPLICATIONS

  • RF and Microwave designs
  • Voltage level translation
  • General-purpose software radios
  • Radar systems
  • Point to point communication systems
  • Multiple input/multiple output (MIMO) radios
  • Automated test equipment

eval board
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EVAL-AD7768-4

AD7768-4 Evaluation Board

Buy Now View Details

Features and Benefits

  • Full featured evaluation board for the AD7768-4
  • PC control in conjunction with the SDP-H1 system demonstration platform (EVAL-SDP-CH1Z)
  • PC software control and data analysis
  • Time and frequency domain
  • Standalone hardware capability

Product Details

The EVAL-AD7768-4FMCZ evaluation kit features the AD7768-4 24-bit, 256 kSPS, analog-to-digital converter (ADC). A 7 V to 9 V external bench top supply is regulated to 5 V and 3.3 V to supply the AD7768-4 and support components. The EVAL-AD7768-4FMCZ board connects to the USB port of the PC via a connection to the EVAL-SDP-CH1Z motherboard.

The AD7768-4 evaluation software fully configures the AD7768-4 device register functionality and provides dc and ac time domain analysis in the form of waveform graphs, histograms, and associated noise analysis for ADC performance evaluation.

The EVAL-AD7768-4FMCZ is an evaluation board that allows the user to evaluate the features of the ADC. The user PC software executable controls the AD7768-4 over a USB cable through the EVAL-SDP-CH1Z system demonstration platform (SDP).

Full specifications on the AD7768-4 are available in the product data sheet, which should be consulted in conjunction with this user guide when working with the evaluation board.

eval board
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EVAL-AD7761

AD7761 Evaluation Board

Buy Now View Details

Features and Benefits

  • Full featured evaluation board for the AD7761
  • PC control in conjunction with the SDP-H1 system demonstration platform (EVAL-SDP-CH1Z)
  • PC software control and data analysis
  • Time and frequency domain
  • Standalone hardware capability

Product Details

The EVAL-AD7761FMCZ evaluation kit features the AD7761 16-bit, 256 kSPS, analog-to-digital converter (ADC). A 7 V to 9 V external bench top supply is regulated to 5 V and 3.3 V to supply the AD7761 and support components. The EVAL-AD7761FMCZ board connects to the USB port of the PC via a connection to the EVAL-SDP-CH1Z motherboard.

The AD7761 evaluation software fully configures the AD7761 device register functionality and provides dc and ac time domain analysis in the form of waveform graphs, histograms, and associated noise analysis for ADC performance evaluation.

The EVAL-AD7761FMCZ is an evaluation board that allows the user to evaluate the features of the ADC. The user PC software executable controls the AD7761 over a USB cable through the EVAL-SDP-CH1Z system demonstration platform (SDP).

Full specifications for the AD7761 are available in the product data sheet, which should be consulted in conjunction with this user guide when working with the evaluation board.

eval board
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AD-T1LUSB2.0-EBZ

USB2.0 to 10BASE-T1L Interface Board

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Features and Benefits

  • Easy-to-use USB2.0 to 10BASE-T1L interface
  • Efficient data communication utilizing LAN9500A USB Ethernet Controller and MAC connected via MII to the ADIN1100 PHY
  • On-board EEPROM for saving and recalling MAC configurations
  • LEDs indicating MAC link status and user-programmable PHY status flags
  • Operates without an external power supply, powered directly from the USB bus

Product Details

The AD-T1LUSB2.0-EBZ is a board ready for use out-of-the-box to quickly control any system with a 10BASE-T1L interface. The current hardware configuration provides a straightforward architecture with a USB Ethernet Controller and MAC (LAN9500A) connected through MII to the ADIN1100 PHY.

The design also includes an EEPROM for saving and recalling MAC configurations and status LEDs to indicate link status (MAC) and user-programmable status flags from the PHY.

The AD-T1LUSB2.0-EBZ board does not require any configuration to be functional and ready for use.

A couple of design examples that have a 10BASE-T1L interface that will work together with the AD-T1LUSB2.0-EBZ board are:

  • AD-SWIOT1L-SL - Software-configurable Analog and Digital I/O with 10BASE-T1L Evaluation and Development Platform
  • AD-APARD32690-SL - Arduino Form-factor Development Platform Based on MAX32690 ARM® Cortex®-M4 Microcontroller

Applications:

  • Industrial Ethernet Application Development
  • Building Automation
EVAL-AD7768
AD7768 Evaluation Board
EVAL-AD7768FMCZ SDP-H1 evaluation board layout EVAL-AD7768FMCZ Sample Board Configuration EVAL-AD7768FMCZ Sample FFT AD7768 Power THD Combinations
EVAL-AD7768-1
AD7768-1 Evaluation Board
EV-AD7768-1FMCZ - Angle View EV-AD7768-1FMCZ - Bottom View EV-AD7768-1FMCZ - Top View
EVAL-ADP7118
ADP7118/ADP7142 Evaluation Board
ADP7142-ADP7118 Evaluation Board
EVAL-ADA8282
ADA8282 Evaluation Board
ADA8282CP Evaluation Board
AD-FMCXMWBR1-EBZ
FMC X-Microwave Compatible Level Translator and Power Supply Kit
AD-FMCXMWBR1-EBZ FMC X-Microwave Protoplate Board AD-FMCXMWBR1-EBZ-KIT
EVAL-AD7768-4
AD7768-4 Evaluation Board
EVAL-AD7768-4FMCZ SDP-H1 evaluation board layout EVAL-AD77648-4 Evaluation software main window AD7768 Power THD Combinations
EVAL-AD7761
AD7761 Evaluation Board
EVAL-AD7761FMCZ - Angle View EVAL-AD7761FMCZ - Bottom View EVAL-AD7761FMCZ - Top View
AD-T1LUSB2.0-EBZ
USB2.0 to 10BASE-T1L Interface Board
AD-T1LUSB2.0 Evaluation Board Block Diagram AD-T1LUSB2.0 Evaluation Board Angle View AD-T1LUSB2.0 Evaluation Board Top View AD-T1LUSB2.0 Evaluation Board - Bottom View

Reference Designs

Figure 1. CN0582 Simplified System Block Diagram
Figure 1. CN0582 Simplified System Block Diagram
EVAL-CN0582-USBZ
EVAL-CN0582-USBZ - Top View
EVAL-CN0582-USBZ - Bottom View
CN0582 Circuits from the lab

USB 3.0 Quad-Channel IEPE Vibration Sensor Measurement System

View Detailed Reference Design

Features and Benefits

  • 4-Channels of Analog Input
  • IEPE, 4-20mA Sensor Compatible
  • Frequency Generator Output

Part Used

Design & Integration Tools

Videos

  • lazy blur
    VIDEO · 2023-03-07 01:00
    CN0582: USB 3.0 Quad-Channel IEPE Vibration Sensor Measurement System​
Isolated Multichannel Data Acquisition Simplified Circuit
Isolated Multichannel Data Acquisition Simplified Circuit
EVAL-CN0385-FMCZ Evaluation Hardware
CN0385 Circuits from the lab

Isolated, Multichannel Data Acquisition System with PGIA for Single-Ended and Differential Industrial Level Signals

View Detailed Reference Design

Features and Benefits

  • Multichannel Isolated Data Acquisition System
  • Industrial Signal Levels
  • 18-bit, 2MSPS Conversion
  • 750kHz Channel Switching Rate

Simplified Circuit Block Diagram
Simplified Circuit Block Diagram
EVAL-CN0398-ARDZ Evaluation Board
EVAL-CN0398-ARDZ Evaluation Board - Top View
EVAL-CN0398-ARDZ Evaluation Board - Bottom View
CN0398 Circuits from the lab

Soil Moisture and pH Measurement System with Temperature Compensation

View Detailed Reference Design

Features and Benefits

  • Complete Soil Moisture, pH, and Temperature Measurement 
  • Low Power 
  • Arduino-Compatible Form Factor 

Figure 1. CN0566 Simplified Block Diagram
Figure 1. CN0566 Simplified Block Diagram
EVAL-CN0566-RPIZ Phased Array Development Kit
EVAL-CN0566-RPIZ Phased Array Development Kit
EVAL-CN0566-RPIZ KIT - Angle View
EVAL-CN0566-RPIZ KIT - Angle View
CN0566 Circuits from the lab

Phased Array (Phaser) Development Platform

View Detailed Reference Design

Features and Benefits

  • 10 GHz to 10.5 GHZ Beamsteering Platform
  • 360 degree Phase Shift w/ 2.8 Degree Resolution
  • 31 dB Amplitude Tuning Range w/ 0.5 dB Resolution.
  • 8-Element Linear Array Antenna
  • Digitized with PlutoSDR
  • Runs directly on a Raspberry Pi
Figure 1. CN0579 Simplified Block Diagram
Figure 1. CN0579 Simplified Block Diagram
EVAL-CN0579-ARDZ Evaluation Board - Angle View
EVAL-CN0579-ARDZ Evaluation Board - Top View
CN0579 Circuits from the lab

Quad-Channel IEPE Vibration Sensor Measurement System

View Detailed Reference Design

Features and Benefits

  • Quad Channel IEPE-Compatible Vibration Sensor Interface
  • Channel Independent Excitation Source and Sensor Bias Removal Circuitry
  • Analog Overvoltage and Undervoltage Protection
  • Sensor Frequency Response from DC up to 54 kHz
  • Synchronized, Full Bandwidth Data Measurement and Capture
CN-0393 Simplified Schematic Diagram
CN-0393 Simplified Schematic Diagram
Photograph of EVAL-CN0393-FMCZ Board
CN0393 Circuits from the lab

Bank Isolated, 2-Channel, 16-Bit, 500 kSPS, Simultaneous Sampling Signal Chain Featuring μModule Data Acquisition System

View Detailed Reference Design

Features and Benefits

  • 2-channel, 16-bit 500kSPS simultaneous sampling
  • Bank isolated
  • Complete data acquisition system

Part Used

Design & Integration Tools

Videos

  • lazy blur
    VIDEO · 2017-01-26 02:28
    Reducing Challenges in the Precision Conversion Design Cycle
Thermocouple Measurement System
Thermocouple Measurement System
EVAL-CN0391-ARDZ Evaluation Board
EVAL-CN0391-ARDZ Evaluation Board - Top View
EVAL-CN0391-ARDZ Evaluation Board - Bottom View
CN0391 Circuits from the lab

Flexible, Low Power, 4-Channel Thermocouple System with Arduino-Compatible Digital Interface

View Detailed Reference Design

Features and Benefits

  • Flexible 4-channel thermocouple system 
  • Cold junction compensation 
  • 24-bit digitization 
  • Low power 
  • Arduino-compatible form factor 
Condition-Based Monitoring Signal Chain for an IEPE Piezoelectric Vibration Sensor
Condition-Based Monitoring Signal Chain for an IEPE Piezoelectric Vibration Sensor
EVAL-CN0540 24-Bit Data Acquisition System for IEPE Sensors
EVAL-CN0540 24-Bit Data Acquisition System for IEPE Sensors - Top View
EVAL-CN0540 24-Bit Data Acquisition System for IEPE Sensors - Bottom View
CN0540 Circuits from the lab

24-Bit Data Acquisition System for IEPE Sensors

View Detailed Reference Design

Features and Benefits

  • IEPE compatible data acquisition system
  • Piezo and MEMs sensors
  • 54 kHz analog input bandwidth
  • Arduino form factor compatible

Part Used

Resources

Design & Integration Tools

Videos

  • lazy blur
    VIDEO · 2022-09-21 01:06
    Easily Connect Sensors with ADI's Robust Industrial Signal Chains
  • lazy blur
    VIDEO · 2021-01-29 02:43
    CN0549 - CbM Development Platform
Figure 1. EVAL-CN0560-FMCZ Simplified Block Diagram
Figure 1. EVAL-CN0560-FMCZ Simplified Block Diagram
EVAL-CN0560-FMCZ Evaluation Board
EVAL-CN0560-FMCZ Evaluation Board - Top View
EVAL-CN0560-FMCZ Evaluation Board - Bottom View
CN-0560 and SDP-H1
CN0560 Circuits from the lab

High Precision, Wide Bandwidth Current Measurement Signal Chain

View Detailed Reference Design

Features and Benefits

  • Selectable Current Input Range with Protection
  • 10 A, 10mA, 10uA Measurement Range
  • Oversampling Enables up to 111 dB of Dynamic Range
CN0513 Board
CN0513 Board
CN0513 Block Diagram
AD4020 Reference Design Block Diagram
CN0513 Circuits from the lab

20-Bit, 1.8 MSPS, ±2.5 ppm INL, Low Drift, High Accuracy Data Acquisition Solution

View Detailed Reference Design

Features and Benefits

  • Data acquisition solution fully characterized over 0°C to 70°C
  • Guaranteed 20-bit no missing codes
  • INL: ±2 ppm, DNL: ±0.25 ppm
  • Throughput: 1.8 MSPS
  • Offset error drift: ±3.5 ppm/°C; gain error drift: ±6 ppm/°C
  • SNR: 98 dB at G = 1, 92 dB at G = 10, fIN = 1 kHz
  • THD: −120 dB at G = 1, −116 dB at G = 10, fIN = 1 kHz
  • Oversampled dynamic range: 102 dB at 900 kSPS, OSR = 2
  • Software programmable bipolar input ranges (±1 V to ±10 V)
    • Allows single-ended and differential signals
  • CMRR: 92 dB typical
  • GΩ input impedance allows direct interface with sensors
  • Ease of use features reduce system power and complexity
  • ADC Input overvoltage clamp protection sinks up to 50 mA
  • On-board 5 V reference and buffer
  • First conversion accurate, no latency/pipeline delay
  • Fast conversion time allows low SPI clock rates
  • SPI-/QSPI-/MICROWIRE-/DSP-compatible serial interface
CN0582
USB 3.0 Quad-Channel IEPE Vibration Sensor Measurement System
Figure 1. CN0582 Simplified System Block Diagram
EVAL-CN0582-USBZ
EVAL-CN0582-USBZ - Top View
EVAL-CN0582-USBZ - Bottom View
CN0385
Isolated, Multichannel Data Acquisition System with PGIA for Single-Ended and Differential Industrial Level Signals
Isolated Multichannel Data Acquisition Simplified Circuit
EVAL-CN0385-FMCZ Evaluation Hardware
CN0398
Soil Moisture and pH Measurement System with Temperature Compensation
Simplified Circuit Block Diagram
EVAL-CN0398-ARDZ Evaluation Board
EVAL-CN0398-ARDZ Evaluation Board - Top View
EVAL-CN0398-ARDZ Evaluation Board - Bottom View
CN0566
Phased Array (Phaser) Development Platform
Figure 1. CN0566 Simplified Block Diagram
EVAL-CN0566-RPIZ Phased Array Development Kit
EVAL-CN0566-RPIZ Phased Array Development Kit
EVAL-CN0566-RPIZ KIT - Angle View
EVAL-CN0566-RPIZ KIT - Angle View
CN0579
Quad-Channel IEPE Vibration Sensor Measurement System
Figure 1. CN0579 Simplified Block Diagram
EVAL-CN0579-ARDZ Evaluation Board - Angle View
EVAL-CN0579-ARDZ Evaluation Board - Top View
CN0393
Bank Isolated, 2-Channel, 16-Bit, 500 kSPS, Simultaneous Sampling Signal Chain Featuring μModule Data Acquisition System
CN-0393 Simplified Schematic Diagram
Photograph of EVAL-CN0393-FMCZ Board
CN0391
Flexible, Low Power, 4-Channel Thermocouple System with Arduino-Compatible Digital Interface
Thermocouple Measurement System
EVAL-CN0391-ARDZ Evaluation Board
EVAL-CN0391-ARDZ Evaluation Board - Top View
EVAL-CN0391-ARDZ Evaluation Board - Bottom View
CN0540
24-Bit Data Acquisition System for IEPE Sensors
Condition-Based Monitoring Signal Chain for an IEPE Piezoelectric Vibration Sensor
EVAL-CN0540 24-Bit Data Acquisition System for IEPE Sensors
EVAL-CN0540 24-Bit Data Acquisition System for IEPE Sensors - Top View
EVAL-CN0540 24-Bit Data Acquisition System for IEPE Sensors - Bottom View
CN0560
High Precision, Wide Bandwidth Current Measurement Signal Chain
Figure 1. EVAL-CN0560-FMCZ Simplified Block Diagram
EVAL-CN0560-FMCZ Evaluation Board
EVAL-CN0560-FMCZ Evaluation Board - Top View
EVAL-CN0560-FMCZ Evaluation Board - Bottom View
CN-0560 and SDP-H1
CN0513
20-Bit, 1.8 MSPS, ±2.5 ppm INL, Low Drift, High Accuracy Data Acquisition Solution
CN0513 Board
CN0513 Block Diagram
AD4020 Reference Design Block Diagram

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