Reference Designs

Note

We are in the process of moving the reference design documentation from wiki.analog.com to ADI Documentation repository. We apologize for any inconvenience that may occur due to this migration.

Analog Devices has developed hundreds of reference designs to help solve our customers’ system level application challenges from mixed signal designs, to software drivers, and algorithm development.

Our development boards for Battery Management Systems (BMS), Gigabit Multimedia Serial Link (GMSL), and 10BASE-T1L applications are now available in the following pages:

  • AD-ACEVSECRDSET-SL

    Type 2 EVSE 3.6 kW Charging Cable.

  • AD-APARD32690-SL

    Arduino Form-factor Development Platform Based on MAX32690 ARM Cortex-M4.

  • AD-BMSE2E3W-SL

    72 V to 96 V Battery Management System for Electric 2- and 3-Wheelers.

  • AD-CELLPACKBM-SL

    Cell and Pack Monitoring Kit for Broad Market Applications.

  • AD-ETHERNETAPLDEVICE-SL

    Ethernet-APL Field Platform for Intelligent, Secure, and Connected Industrial Devices.

  • AD-FMCDAQ2-EBZ

    Dual 14-bit 1 GSPS ADC and quad 16-bit 2.8 GSPS DAC FMC evaluation board.

  • AD-FMCDAQ3-EBZ

    Dual 14-bit, 1.25 GSPS JESD204B ADC and dual 16-bit, 2.5 GSPS JESD204B DAC FMC Board.

  • AD-FMCLIDAR1-EBZ (Obsolete)

    Prototyping platform for LiDAR applications with FMC HPC connector and JESD204B support.

  • AD-FMCOMMS1-EBZ (Obsolete)

    Analog Devices uses six designations to inform our customers where a semiconductor product is in its life cycle. From emerging innovations to products which have been in production for twenty years, we understand that insight into life cycle status is important. Device life cycles are tracked on their individual product pages on analog.com, and should always be consulted before making any design decisions.

  • AD-FMCOMMS3-EBZ

    AD9361 Wideband Software Defined Radio Board.

  • AD-FMCOMMS6-EBZ (Obsolete)

    400 MHz to 4.4 GHz Direct Conversion Receiver.

  • AD-GMSL-D-E-ADP#

    GMSL oLDI/LVDS to HDMI Adapter.

  • AD-GMSL522-SL

    GMSL Carrier Board.

  • AD-GMSL716MIPI-EVK

    GMSL2-to-MIPI Deserializer Board for SoC Camera Systems.

  • AD-GMSL717MIPI-EVK

    GMSL2 Serializer Board for Raspberry Pi Cameras.

  • AD-GMSL792MIPI-EVK

    GMSL3/2 Deserializer Board for MIPI CSI-2 Cameras

  • AD-GMSL793MIPI-EVK

    GMSL3/2 Deserializer Board for MIPI CSI-2 Cameras

  • AD-GMSLCAMRPI-ADP#

    GMSL EV Kit Adapter Board.

  • AD-IMP2501-SL

    1 Hz to 1.5 MHz impedance analysis evaluation and technology solution.

  • AD-JUPITER-EBZ

    Software-Defined Radio Module.

  • AD-M2KBNC-EBZ

    ADALM2000 BNC Adapter Board.

  • AD-M2KCBL-EBZ

    ADALM2000 Cable Assembly.

  • AD-MAX32LRWISE-SL

    Long Range Wireless Radio Development Kit based on MAX32670 MCU and LR1110 RF Transceiver.

  • AD-MAX32SXWISE-SL

    Long Range Wireless Radio Development Kit based on MAX32670 MCU and SX1261 RF Transceiver.

  • AD-PAARRAY3552R-SL

    RF Front-end GaN Power Amplifier Biasing, Protection, and Control Reference Design.

  • AD-PQMON-SL

    Power Quality Analyzer.

  • AD-PS3803-RD

    PoE+ with Ideal Diode Bridge to Isolated Flyback DC/DC (12V, 2A).

  • AD-R1M

    The AD-R1M Open Mobile Robot Platform Reference Design is a modular, extensible, and fully open-source framework developed to accelerate the design, prototyping, and deployment of autonomous mobile robots.

  • AD-RPI-T1LPSE-SL

    2-port 10BASE-T1L Field Switch with SPoE PSE.

  • AD-SWIOT1L-SL

    Software-configurable Analog and Digital I/O with 10BASE-T1L Evaluation and Development Platform.

  • AD-SYNCHRONA14-EBZ

    Multichannel System Clocking Device.

  • EVAL-AD4050/AD4052-ARDZ

    Compact, Low Power, 12-Bit/16-Bit, 2 MSPS Easy Drive SAR ADCs.

  • EVAL-AD4060/AD4062-ARDZ

    Compact, Low Power, 12-Bit/16-Bit, 2 MSPS Easy Drive SAR ADCs.

  • EVAL-AD7405FMCZ

    16-Bit, Isolated Sigma-Delta Modulator, LVDS Interface.

  • EVAL-AD7768-1FMCZ & EVAL-ADAQ7768-1FMC1Z

    Single-Channel, 24-Bit, Simultaneous Sampling Σ-Δ ADC.

  • AD9084-FMCA-EBZ (Apollo)

    Apollo MxFE Quad, 16-Bit, 28GSPS RF DAC and Quad, 12-Bit, 20 GSPS RF ADC.

  • AD9208-DUAL-EBZ

    Dual 14-Bit, 3 GSPS, JESD204B, Analog-to-Digital Converter Evaluation Board.

  • AD9209-FMCA-EBZ

    The AD9209 is a quad, 12-bit, 4 GSPS analog-to-digital converter (ADC), similar to ADCs found in the AD9081, AD9082, AD9986, and AD9988 parts. Thus, the evaluation of the AD9209 is done using only the Rx path of the EVAL-AD9081, EVAL-AD9082, EVAL-AD9986, and EVAL-AD9988 evaluation boards.

  • EVAL-AD9695

    14-Bit, 1300 MSPS, JESD204B Analog-to-Digital Converter Evaluation Board.

  • ADALP2000

    ADALP2000 Analog Parts Kit.

  • EVAL-ADAQ7980-SDZ

    16-Bit SAR ADC Subsystem with Integrated Signal Conditioning.

  • ADMV96S-WGBE-EK1

    60 GHz Wireless Connector.

  • ADMX1001 & ADMX1002

    Ultra-low distortion, low noise signal generator and acquisition evaluation modules.

  • EVAL-ADMX2001EBZ

    The EVAL-ADMX2001EBZ is an easy-to-use evaluation and development breakout board for the ADMX2001B High-Performance Precision Impedance Analyzer Measurement Module. It enables resistance measurements at DC and impedance measurements from 0.2 Hz to 10 MHz with 18-bit acquisition channels.

  • EVAL-ADMX6001-EBZ

    DC-Coupled 10 GSPS Digitizer Evaluation Board.

  • ADPS40099-RD

    Power Supply Reference Design

  • ADRD3161-01Z

    The ADRD3161-01Z is an FOC motor driver board based on the TMC9660, capable of driving Stepper, BLDC, and brushed DC motors with optional quadrature (ABN) and/or Hall encoders. It communicates via CANopen CiA 402 over 500 kbaud CAN. For development, the TMC9660 may also be accessed directly via UART and thus controlled / configured via TMCL-IDE.

  • ADRD4161-01Z

    The ADRD4161-01Z is a robotics perception embedded compute carrier board designed for platforms such as Raspberry Pi 5 and Nvidia Jetson/Orin/AGX, featuring the Raspberry Pi 40-pin header. It provides isolated power supplies and a number of connectivity options: ADI IMU, CAN 2.0B, UART, GPIOs, and two SPDT relays.

  • ADRD5161-01Z

    The ADRD5161-01Z is a battery management/ monitoring system compatible with 3S LiPo battery packs. It communicates via CANopen CiA 419 over 500 kbaud CAN.

  • ADRD8012-01Z

    FPGA-based 8x GMSL to 10 Gb Ethernet Adapter.

  • ADRV9364-Z7020 System on Module (SOM) SDR

    The ADRV9364-Z7020 is built on a portfolio of highly integrated System-On-Module (SOMs) based on the Xilinx Zynq®-7000 All Programmable (AP)SoC. Built on the AD9364, it is schematically & HDL similar to the AD-FMCOMMS4-EBZ.

  • ADRV9371x

    The ADRV9371-W/PRBZ, ADRV9371-N/PCBZ, ADRV9375-W/PRBZ, and ADRV9375-N/PCBZ are FMC radio cards for the AD9371 and AD9375, highly integrated RF Transceivers™. The ADRV9375-N/PCBZ has the same matching network as the ADRV9371-N/PRBZ. The ADRV9375-W/PCBZ has the same matching network as the ADRV9371-W/PRBZ. While the complete chip level design package can be found on the ADI website, information on the card and how to use it, the design package that surrounds it, and the software which can make it work can be found here.

  • ADV7511

    225 MHz High-Definition Multimedia Interface (HDMI®) transmitter

  • ADV7513

    165 MHz, High-Definition Multimedia Interface (HDMI®) transmitter

  • EVAL-ADXL355-PMDZ

    Low Noise, Low Drift 3-axis Accelerometer PMOD Board.

  • ARRADIO

    The ARRADIO board is an HSMC board by Arrow & Terasic for the AD9361, a highly integrated RF Agile Transceiver™. While the complete chip level design package can be found on the the ADI web site. Information on the card, and how to use it, the design package that surrounds it, and the software which can make it work, can be found on this page.

  • CN0549

    Condition-Based Monitoring Development Platform

  • DAC-FMC-EBZ

    High-Speed JESD204B Digital-to-Analog Converter Evaluation Boards.

  • DC2677A

    High Voltage, 18-Bit, 8-Channel Data Acquisition Reference Design.

  • DC2903A

    LTC2672 Demo Board | Five-Channel Current Output DAC, with Internal Reference and SPI Interface (Requires DC2026C)

  • EVAL-AD353XR

    16-Bit, 4/8-Channel, Low Power, Voltage Output DAC with On-Chip Reference.

  • EVAL-AD35XXR

    16-Bit / 12-Bit, Dual-Channel, 33 MSPS Ultrafast Current Output DAC Evaluation Board.

  • EVAL-AD408x-FMCZ

    The EVAL-AD4080-FMC, EVAL-AD4083-FMC, and EVAL-AD4086-FMC are designed to demonstrate the performance of the AD4080, AD4081, AD4083, AD4084, AD4086, and AD4087 analog-to-digital converters (ADCs) and provide access to a limited set of device configuration features through the ACE Software environment. The EVAL-AD4080-FMC, EVAL-AD4083-FMC, and EVAL-AD4086-FMC evaluation kits support the following AD4080, AD4083, and AD4086 features:

  • EVAL-AD4110-1

    Universal Input Analog Front End with 24-Bit ADC for Industrial Process Control Systems.

  • EVAL-AD4134FMCZ

    24-Bit, 4-Channel Simultaneous Sampling 1.5 MSPS Precision Alias Free ADC

  • EVAL-AD4170-4ARDZ

    Customer Evaluation Board for the AD4170-4 Sigma-Delta ADC

  • EVAL-AD4630-16/24FMCZ / EVAL-AD4030-24FMCZ

    The EVAL-AD4630-24FMCZ, EVAL-AD4030-24FMCZ and EVAL-AD4630-16FMCZ evaluation boards enable quick and easy evaluation of the AD4X3X family of 24-bit and 16-bit precision successive approximation register (SAR) analog-to-digital converters (ADCs). The AD4630-24 and AD4630-16 are 2 MSPS per channel, low power, dual channel 24-bit or 16-bit SAR ADCs while the AD4030-24 is a single channel 24-bit precision SAR ADC that supports up to 2 MSPS per channel. The evaluation boards demonstrate the performance of either the AD4630-24, AD4030-24 or AD4630-16 and provide a configurable analog front end (AFE) for a variety of system applications.

  • EVAL-AD488X-FMC

    Evaluating the AD488x Family of Dual-Channel, Low Noise, High Speed SAR ADC

  • EVAL-AD5592R-PMDZ

    8-channel, 12-Bit, Configurable ADC/DAC/GPIO with on-chip Reference, SPI Interface Pmod Module.

  • EVAL-AD5593R-PMDZ

    8-channel, 12-Bit, Configurable ADC/DAC/GPIO with on-chip Reference, I2C interface Pmod Module

  • EVAL-AD5766-SDZ

    16-Channel, 16-Bit Voltage Output denseDAC

  • EVAL-AD7124-8-PMDZ

    8-Channel, Low Noise, Low Power, 24-Bit, Sigma-Delta ADC with PGA and Reference Pmod Board

  • EVAL-AD7134-FMCZ

    24-Bit, 4-Channel Simultaneous Sampling 1.5 MSPS Precision Alias Free ADC

  • EVAL-AD719x-ASDZ

    Evaluation Boards for the AD719x Family of Ultralow Noise 24-Bit Sigma-Delta ADCs.

  • EVAL-AD738xFMCZ

    Evaluating the AD738x Family of Simultaneous Sampling SAR ADCs.

  • EVAL-AD7606x

    The AD7606 family is an 8-/6-/4-channel simultaneous sampling ADC with 16-bit, bipolar input. Each device includes analog input clamp protection (±16.5 V tolerance), a second-order antialiasing filter (22 kHz, 3 dB cutoff), track-and-hold amplifier, 16-bit successive approximation ADC, flexible digital filter, 2.5 V reference and reference buffer, and high-speed serial/parallel interfaces. The family operates from a single 2.7 V to 5.25 V supply and supports ±10 V and ±5 V true bipolar inputs with synchronized sampling at up to 200 kSPS (300 kSPS for AD7605-4). All devices feature 1 MΩ analog input impedance regardless of sampling frequency. Single supply operation, on-chip filtering, and high input impedance eliminate the need for driver op-amps and external bipolar supplies.

  • EVAL-AD7768FMCZ / EVAL-AD7768-4FMCZ

    8/4 Channel, 24-Bit, 256 kSPS Simultaneous Sampling Sigma-Delta ADC.

  • EVAL-AD777X

    8-Channel, 24-Bit Simultaneous Sampling Sigma-Delta ADC Evaluation Board.

  • AD9081 & AD9082

    MxFE™ Quad, 16-Bit, 12GSPS RFDAC and Quad, 12-Bit, 4/6 GSPS RFADC.

  • EVAL-AD9083

    16-Channel, 125 MHz Bandwidth, Continuous Time Σ-Δ ADC.

  • EVAL-AD916X

    AD9161/AD9162/AD9163/AD9164 high speed RF DAC reference design.

  • EVAL-AD9213-DUAL

    Dual 12-bit, 10 GSPS RF ADC platform with 20 GSPS interleaving via MCS.

  • EVAL-AD9213

    12-Bit, 6 GSPS/10.25 GSPS, JESD204B, RF Analog-to-Digital Converter.

  • EVAL-AD9434-FMC

    The EVAL-AD9434 is an evaluation board for the AD9434, single 12-bit ADC. This reference design provides all the support circuitry to operate devices in their various modes and configurations. It is designed to interface directly with the EVAL-SDP-H1 data capture card, allowing users to download captured data for analysis. The Visual Analog software package, which is used to interface with the device’s hardware, allows users to download captured data for analysis with a user-friendly graphical interface. The SPI controller software package is also compatible with this hardware and allows the user to access the SPI programmable features of the AD9434. The EVAL-AD9434 evaluation board is also supported on ZedBoard and ZC706 using ADI’s HDL infrastructure.

  • EVAL-AD9656

    Quad, 16-Bit, 125 MSPS, Serial Output ADC with JESD204B Interface.

  • EVAL-AD9694

    14-Bit, 500 MSPS, Quad, JESD204B Analog-to-Digital Converter Evaluation Board.

  • EVAL-ADA4355-FMC

    Evaluating the ADA4355/ADA4356 Receive uModule.

  • EVAL-ADAQ8092-FMCZ

    Dual-Channel, 14-Bit, 105 MSPS, Data Acquisition uModule.

  • EVAL-ADBMS2950-BASIC

    Battery Pack Monitoring Evaluation Board for Bidirectional Current Measurement.

  • EVAL-ADBMS6830BMSW

    16-Channel Battery Stack Monitor Evaluation Board for Broad Market Applications.

  • EVAL-ADPD410X-ARDZ

    ADPD4100/ADPD4101 Arduino Shields

  • ADRV9009 & ADRV9008

    Integrated Dual RF Tx, Rx, and Observation Rx.

  • EVAL-ADRV902X

    Integrated, Quad RF Transceiver with Observation Path.

  • EVAL-ADRV9032

    Integrated 2T2R TDD and FDD RadioVerse Transceiver with Dual Observation Paths.

  • EVAL-ADRV904x

    Integrated 8T8R RF Transceiver with Digital Pre-Distortion and Crest Factor Reduction.

  • EVAL-ADXRS290-PMDZ

    Ultralow Noise, Dual-Axis MEMS Gyroscope for Stabilization Applications

  • EVAL-CN0359-EBZ

    Fully Automatic High Performance Conductivity Measurement System.

  • EVAL-CN0363-PMDZ

    The EVAL-CN0363-PMDZ is a dual channel colorimeter featuring a modulated light source transmitter, programmable gain transimpedance amplifiers on each channel, and a very low noise, 24-bit sigma delta ADC. The output of the ADC connects via a standard PMOD connector to a FPGA. The FPGA takes the sampled data from the ADC and implements a synchronous detection algorithm. By using modulated light and digital synchronous detection, rather than a constant (dc) source, the system strongly rejects any noise sources at frequencies other than the modulation frequency, providing excellent accuracy.

  • EVAL-CN0417-EBZ

    USB Powered 2.4 GHz RF Power Amplifier.

  • EVAL-CN0419-EBZ

    Universal Serial Bus (USB) Peripheral Isolator Circuit.

  • EVAL-CN0503-ARDZ

    Multiple Parameter Optical Liquid Measurement Platform.

  • EVAL-CN0511-RPIZ

    DC to 5.5 GHz Signal Generator with +/-0.5 dB Calibrated Output Power

  • EVAL-CN0518-EBZ

    USB-Powered, 915 MHz RF Low Noise Amplifier Receiver with Overpower Protection Circuit.

  • EVAL-CN0521-EBZ

    USB-Powered, 2.4 GHz RF Low Noise Amplifier Receiver with Overpower Protection Circuit.

  • EVAL-CN0523-EBZ

    USB-Powered, 5.8 GHz RF Power Amplifier with Overtemperature Management.

  • EVAL-CN0534-EBZ

    USB Powered 5.8 GHz RF LNA Receiver with Output Power Protection

  • EVAL-CN0535-FMCZ

    High Performance, Alias Free Measurement Platform for Flexible Data Acquisition System

  • EVAL-CN0540-ARDZ

    24-Bit Data Acquisition System for IEPE Sensors.

  • EVAL-CN0550-EBZ

    Low/Full/High-Speed USB 2.0 Isolator with Isolated Power.

  • EVAL-CN0554-RPIZ

    ±10 V Analog Input and ±15 V Analog Output for Raspberry Pi Platforms.

  • EVAL-CN0555-EBZ

    USB-Powered, 433.92 MHz RF Low Noise Amplifier Receiver with Overpower Protection.

  • EVAL-CN0556-EBZ

    Programmable High Current and Voltage Source/Sink Power Supply.

  • EVAL-CN0561-ARDZ

    Monitoring the health of machinery can help predict changes in a machine’s condition. There are many methods of tracking a machine’s condition, but vibration analysis is the most commonly used one. By tracking the vibration analysis data over time, one can determine when a fault or failure is going to occur, along with the source of the fault. Knowing the condition of a certain machine will help not only increase efficiency and productivity, but create a safer working environment.

  • EVAL-CN0565-ARDZ

    Electrical Impedance Tomography Measurement System.

  • EVAL-CN0569-PMDZ

    Infrared Gesture Recognition Module

  • EVAL-CN0575-RPIZ

    10BASE-T1L Field Device Development Platform with Class 12 and 13 SPoE.

  • EVAL-CN0577-FMCZ

    Analog Front End and Digital Interface for Serial LVDS SAR ADCs.

  • EVAL-CN0579-ARDZ

    Quad-Channel IEPE Vibration Sensor Measurement System.

  • EVAL-CN0581-EBZ

    Configurable USB-C Power Sink Solution.

  • EVAL-CN0582-USBZ

    USB 3.0 Quad-Channel IEPE Vibration Sensor Measurement System.

  • EVAL-CN0583-SOM

    Multistandard Micropower Verified Smoke Detection System-on-Module.

  • EVAL-CN0584-EBZ

    Precision Low Latency Development Kit.

  • EVAL-CN0585-FMCZ

    Quad Channel, Low Latency, Data Acquisition and Signal Generation Module.

  • EVAL-CN0588-EBZ

    DC to 10 kHz MEMS-Based IEPE Vibration Sensor.

  • EVAL-ESS1-SYS

    Scalable BMS Kit for Cell and Pack Monitoring.

  • EVAL-ISOMAX

    Low-cost Integrated BMS Monitor with On-board MCU and Dual isoSPI.

  • EVAL-LTC23XX

    Low noise, high speed SAR ADC family - 16/18/20-bit, up to 2 MSPS.

  • EVAL-LTC4306

    LTC4306 Evaluation Board with PMOD Connectors on Both Upstream and Downstream

  • EVAL-LTPA-KIT (LTpowerAnalyzer™ Kit)

    Low-cost, High Performance, Compact Laboratory Tool for Evaluating and Characterizing Power Supply Designs

  • AD-FMCOMMS2-EBZ

    2x2 MIMO RF Agile Transceiver™, 70 MHz to 6.0 GHz.

  • AD-FMCOMMS5-EBZ

    For many Broadband Wireless Access (BWA) systems, Multi Input – Multi Output (SIMO / MISO / SU-MIMO / MU-MIMO) operation and RF beamforming are proven techniques for maximizing throughput and efficient spectrum utilization. Modern integrated devices with multi-channel RX and multi-channel TX capability such as the AD9361 make developing MIMO systems with high performance and linearity utilizing integrated receivers, transmitters, and synthesizers a simpler task.

  • AD-FMCOMMS8-EBZ

    Quad Wideband RF Transceiver FMC Module.

  • FTHR-PMD-INTZ

    Feather to PMOD Adaptor Board.

  • MAX11205PMB1

    MAX11205PMB1 Peripheral Module

  • Pulsar ADC

    Evaluating 14-/16-/18-Bit ADCs from the 8/10 LEAD PulSAR® Family