Digital Factory

Accelerate your digital transformation with Analog Devices

The digital factory is a factory whose operations are built on data. Operational data from factory devices, robots and machines are combined and analysed to rapidly derive new insights and inform decision-making. These insights are integral to unlocking capacity in the factory through higher utilisation, optimised manufacturing flows, increased energy efficiency and reduced raw material usage.

Within the smart factory, Analog Devices’ IO-Link master and device transceiver portfolio offers a flexible means of moving intelligence from the PLC closer to the sensors on the factory floor. While process plants, often an extension of the smart factory, are being modernised by adding high speed Ethernet to field instruments often deployed in remote and intrinsically safe environments, using the Ethernet-APL standard.

Digitize and seamlessly connect your digital factory’s automation equipment with ADI’s proven, easy-to-adopt measurement and connectivity solutions.

Analog Devices enables the digital factory of the future

Learn how ADI is bridging the physical world of the factory floor with centralised control, by precisely sensing, measuring, and interpreting the environment, then securely delivering data throughout the factory network.

Smart Factory: Featured products

ADIN2299 Evaluation Kit

Multiprotocol Two-Port Industrial Ethernet Platform

The evaluation kits provide an end to end evaluation of the communication path from the host processor to the programmable logic controller (PLC) or PC-based tool.

The evaluation kits can completely verify the communication path between the host processor and a PLC before integrating the network interface into the end field device.

PRODUCT HIGHLIGHTS

  • Multiprotocol support
  • Pre-certified protocol support
  • Secure boot and secure update
  • Module and embedded design for small and unique form factors
  • Low power and low latency
  • Robust network policing ensures passing PROFINET Netload Class 3

Applications

  • Industrial and process automation
  • Motion control
  • Transportation
  • Energy
  • Building automation

MAXREFDES278

IO-Link 8-Channel Solenoid Actuator

Reference Design Evaluation Kit (MAX17608, MAX22200, MAX22514) IO-Link Transceiver, Communication

Designed, Built, Tested Board pictured here has been fully assembled and tested.

The MAXREFDES278# is a complete IO-Link® 8-Channel solenoid actuator reference design based on a MAX22514 IO-Link transceiver with integrated protection. It demonstrates an 8-Channel solenoid actuator using the MAX22200 1A Octal Integrated Serial-Controlled Solenoid Driver with integrated FETs.

Applications

  • Industrial Automation
  • Actuator Modules
  • PLC and DCS Systems
  • Smart Actuators

EVAL-AD4130-8

AD4130-8 Evaluation Board

The EVAL-AD4130-8WARDZ evaluation kit features the AD4130-8 24-bit, ultra-low power, low noise analog-to-digital converter (ADC).

The EVAL-AD4130-8WARDZ board connects to the USB port of the PC by connecting to the EVAL-SDP-CK1Z motherboard. A 5V USB supply via the PC is regulated to 3.3 V to supply the AD4130-8 and support all necessary components.

Applications

  • Temperature measurements, such as thermocouple, RTD and thermistors
  • Pressure measurement, such as bridge transducers
  • Smart transmitters in healthcare and wearables

EVAL-AD7124-8-PMDZ

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

The PMOD compatible evaluation/prototyping board is a small form factor, low cost, low noise, 24-Bit, Sigma-Delta ADC board. When prototyping, this board is used in conjunction with the ADICUP3029 or any other PMOD compatible development platform.

PRODUCT HIGHLIGHTS

  • 24-Bit Sigma-Delta ADC
  • Low Noise, Low Power
  • Connectable to FPGA and MCU Platforms

Applications

  • Industrial Automation Technology (IAT)
  • Intelligent Building Solutions
  • Healthcare Solutions

Industrial Ethernet Physical Layer Devices

Internal Power Switch Buck Regulators

High Input Voltage Buck Regulators

DC Motor Drivers

SPoE Powered Device (PD)

Ultra Low Power Microcontrollers

All about application

Smart Factory: IO-Link sensor/actuator

Smart factory sensors and actuators facilitate better decision making to support flexible and readily optimized manufacturing processes. Analog Devices, Inc. (ADI)’s IO-Link® technology transforms traditional sensors into smart sensors to upgrade industrial facilities into real-time configurable smart factory floors.

Smart Factory Sensor Use-Case

Field Instruments

Welcome to the frontlines of Industry 4.0. Field Instruments combine sensors, actuators, intelligent signal processing, and robust communications while often operating in the harshest of environments. These Intelligent Edge devices are responsible for capturing, interpreting, and communicating data to the cloud, where algorithms and analytics transform it into insights and actions.

Field Instruments Use-Case

Smart Factory Sensor AFE and Measurement

Industrial smart sensors with IO-Link communication are common across a broad range of measurement modalities such as pressure, temperature, angle, and position. With pre-selected technology combinations, tools, and expertise, ADI’s precision signal chains offer a simplified design journey, with optimizations for key smart sensor performance specifications such as noise, bandwidth, density, and power efficiency. Our analog front end (AFE) sensor signal chains can be quickly evaluated and tuned to exact application needs, with complete LTspice® circuits, technical articles, and power management solutions available for download.

Part #Device primary functionInterface protocolCommentsSupply voltage rangePackage
MAX14828IO-Link Device TransceiverIO-LinkLow-Power, Ultra-Small, IO-Link Device Transceiver9V to 65VThin Quad Flatpack, No Leads,25-WLCSP-N/A
MAX14827AIO-Link Device TransceiverIO-LinkLow-Power, Ultra-Small, Dual Driver, IO-Link Device Transceiver9V to 65VThin Quad Flatpack, No Leads,25-WLCSP-N/A
MAX22513IO-Link Device TransceiverIO-LinkSurge Protected Dual Driver IO-Link Device Transceiver with DC/DC9V to 36V28-LFCSP-3.5X5.5X0.75,32-WLCSP-N/A
MAX22514IO-Link Device Transceiver, IO-Link Master TransceiverIO-LinkSurge Protection IO-Link Device Transceiver with DC-DC8V to 36V24-LFCSP-4X5X0.75,25-WLCSP-N/A
MAX22515IO-Link Device Transceiver, IO-Link Master TransceiverIO-LinkIO-Link Transceiver with Integrated Protection9V to 36VThin Quad Flatpack, No Leads,20-WLCSP-N/A

IO-Link generic temperature sensor signal chain

IO-Link generic temperature sensor signal chain

AFE

Part #Resolution (bits)Sample rate (max) (SPS)Device ArchitectureInput typeData output interfacePower (typ) (W)Package
AD7124-42419.2kSigma-DeltaDifferential, Pseudo-Differential, Single-EndedSerial SPI842µ32-Lead LFCSP (5mm x 5mm x 0.75mm w/ EP),32-Lead LFCSP (5mm x 5mm x 0.95mm w/ EP),24-Lead TSSOP
AD7124-82419.2kSigma-DeltaDifferential, Pseudo-Differential, Single-EndedSerial SPI842µ32-Lead LFCSP (5mm x 5mm x 0.75mm w/ EP),32-Lead LFCSP (5mm x 5mm x 0.95mm w/ EP)

IO-Link Transceivers

IO-Link Distance Sensor Signal Chain

IO-Link Distance Sensor Signal Chain

Precision Microcontrollers

Part #Sample rate (max) (SPS)Package
MAXQ7667250k48-LQFP-7X7X1.4

IO-Link Transceivers

IO-Link Actuator (Solenoid Driver)

IO-Link Actuator (Solenoid Driver)

DC Motor Drivers

Part #Motor TypeNo. of DriversPeak Motor Current (A)RMS CurrentIntegrated Current SensingVSUPPLY (min) (V)VSUPPLY (max) (V)Total RON (typ) (mO)ISUPPLY (typ) (mA)Direction ControlCurrent RegulationInternal CR ReferencePackage
MAX22200Solenoid81.51Yes4.5362002.5IndependentInternalYes32-LFCSP-5X5X0.75

IO-Link Transceivers

IO-Link Temperature Sensor Signal Chain

IO-Link Temperature Sensor Signal Chain

Digital Temperature Sensors

Part #Device Primary FunctionTemp Sensor InterfaceMax Error Over Temp (Deg)Resolution (bits)25°C Temp Error (typ) (Deg)Temp Resolution (typ) (°C/LSB)Data Output InterfaceVs+ (min) (V)Vs+ (max) (V)Package
MAX31875Temperature SensorLocal212Serial 2C1.63.64-WLCSP-N/A
ADT7420Temperature SensorInternal Temp Sensor0.5160.250.0078Digital, Serial 2C2.75.516-Lead LFCSP (4mm x 4mm)

IO-Link Transceivers

IO-Link Pressure Sensor Signal Chain

IO-Link Pressure Sensor Signal Chain

Multiplexed A/D Converters

Part #Resolution (bits)Sample Rate (max) (SPS)ADC SNR in dBFS (typ) (dBFS)ADC INL (max) (LSB)Device ArchitectureInput TypeData Output InterfacePower (typ) (W)Package
AD7124-42419.2kSigma DeltaDifferential, Pseudo-Differential, Single-EndedSerial SPI842µ32-Lead LFCSP (5mm x 5mm x 0.75mm w/ EP),32-Lead LFCSP (5mm x 5mm x 0.95mm w/ EP),24-Lead TSSOP
AD4130-8242.4k97.9251.7Sigma DeltaDifferential, Pseudo-Differential, Single-EndedSerial SPI57.6µ35-Ball WLCSP (2.70 mm x 3.56mm x 0.50 mm)

IO-Link Transceivers

IO-Link RTD Temperature Sensor Signal Chain

IO-Link RTD Temperature Sensor Signal Chain

RTD Interface

Part #Device Primary FunctionMax Error Over Temp (Deg)Temp Sensor InterfaceVs+ (max) (V)Vs+ (min) (V)Package
MAX31865RTD Interface, Temperature Sensor0.5Remote3.6320-SSOP-5.3_MM,20-LFCSP-5X5X0.75

IO-Link Transceivers

IO-Link Thermocouple Temperature Sensor Signal Chain

IO-Link Thermocouple Temperature Sensor Signal Chain

Thermocouple Interface

Part #Device Primary FunctionTemp Sensor InterfaceMax Error Over Temp (Deg)Resolution (bits)25°C Temp Error (typ) (Deg)Data Output InterfacePackage
MAX31855Temperature Sensor, Thermocouple InterfaceRemote214Serial SPISmall-Outline IC, Narrow (0.15in)

IO-Link Transceivers

IO-Link Angular Position (AMR) Sensor

IO-Link Angular Position (AMR) Sensor

Magnetic Field Sensors

Part #Resolution (bits)Sample Rate (max) (SPS)ADC SNR in dBFS (typ) (dBFS)ADC INL (max) (LSB)Device ArchitectureInput TypeData Output InterfacePower (typ) (W)Package
AD4680161M92.51.5SARDifferentialSerial SPI29.4m16-Lead LFCSP (3mm x 3mm x 0.75mm w/ EP)
AD468116500k92.51.5SARDifferentialSerial SPI18.7m16-Lead LFCSP (3mm x 3mm x 0.75mm w/ EP)

IO-Link Transceivers

IO-Link Angular Position (Encoder) Sensor

IO-Link Angular Position (AMR) Sensor

Magnetic Field Sensors

Part ## of AmpsGBP (typ)Slew Rate (typ) (V/µs)Vos (max)Ibias (max)Current Noise Density (typ) (A/rtHz)VNoise Density (typ) (V/rtHz)Rail to RailIq/Amp (typ) (A)Vs span (min) (V)Vs span (max) (V)Package
AD8656228M11250µ10p1f2.7nBoth4.5m2.75.58-Lead SOIC,8-Lead MSOP

ADC Driver

Part #BW -3 dB (typ) (Hz)Slew Rate (typ) (V/us)Gain SetIs (typ) (A)Vs span (min) (V)Vs span (max) (V)Package
ADA4945-1 full power145M600Resistor4m31016-Lead LFCSP (3mm x 3mm w/ EP)

Comparator

Part #Prop Delay V p-p (typ) (s)Output LogicVos (typ) (V)Output Rise/Fall Time (typ) (s)Iq/Amp (max) (A)Vs span (min) (V)Vs span (max) (V)CommentsPackage
LTC6702320nCMOS1m11n, 15n30µ1.75.5Tiny Micropower, Low Voltage Dual Comparators8-Lead SOT-23,8-Lead DFN (2mm x 2mm w/ EP)

ADC

Part #Resolution (bits)Sample Rate (max) (SPS)ADC SNR in dBFS (typ) (dBFS)ADC INL (max) (LSB)Device ArchitectureInput TypeData Output InterfacePower (typ) (W)Package
AD7380164M92.5SARDifferentialSerial SPI83m16-Lead LFCSP (3mm x 3mm x 0.75mm w/ EP)
AD468116500k92.51.5SARDifferentialSerial SPI18.7m16-Lead LFCSP (3mm x 3mm x 0.75mm w/ EP)

IO-Link Transceivers

IO-Link Inclinometer

IO-Link Inclinometer

Accelerometer

Part ## of AxesAccelerometer RangeBW (typ) (Hz)Output TypeSensing AxisIs (typ) (A)Vs+ (min) (V)Vs+ (max) (V)Package
ADXL357310g, 20g, 40g1kI²C, SPIX, Y, Z200µ2.253.614-Lead LCC (6mm x 6mm)

IO-Link Transceivers

Part #Device Primary FunctionInterface ProtocolCommentsSupply Voltage RangePackage
MAX14827AIO-Link Device TransceiverIO-LinkLow-Power, Ultra-Small, Dual Driver, IO-Link Device Transceiver9V to 65VThin Quad Flatpack, No Leads,25-WLCSP-N/A
MAX22513IO-Link Device TransceiverIO-LinkSurge Protected Dual Driver IO-Link Device Transceiver with DC/DC9V to 36V28-LFCSP-3.5X5.5X0.75,32-WLCSP-N/A
MAX22515IO-Link Device Transceiver, IO-Link Master TransceiverIO-LinkIO-Link Transceiver with Integrated Protection9V to 36VThin Quad Flatpack, No Leads,20-WLCSP-N/A

Empower the Intelligent Edge with Next-Generation Field Instruments

Advances in measurement, processing, security, connectivity, and power management technologies support the development of more intelligent Field Instruments, enabling data-driven insights and the digital transformation of the process industry. Unlock new data and insights and improve facility efficiency with technologies such as Ethernet-APL, smart ultra low power data converters, and highly secure microcontrollers with high efficiency AI acceleration and wireless connectivity.

ADuCM362AD5700ADUM1441AD7124-4AD7124-8ADP2360
Low Power, Precision Analog Microcontroller with Dual Sigma-Delta ADCs, ARM Cortex-M3+Low Power HART Modem+Micropower Quad-Channel Digital Isolator, Default High (3/1 Channel Directionality)+4-Channel, Low Noise, Low Power, 24-Bit, Sigma-Delta ADC with PGA and Reference+8-Channel, Low Noise, Low Power, 24-Bit, Sigma-Delta ADC with PGA and Reference+50 mA, 60 V, High Efficiency Buck Regulator

Ultrasonic Flow Transmitter

Ultrasonic Flow Transmitter

Ultrasonic Flow Transmitter Integrated AFE

Ultrasonic Flow Transmitter Integrated AFE

Pressure Transmitter

Pressure Transmitter

Electromagnetic Flow Transmitter

Electromagnetic Flow Transmitter

Electromagnetic Flow Transmitter Integrated AFE

Electromagnetic Flow Transmitter Integrated AFE

Temperature Transmitter

Temperature Transmitter

Differential Pressure Flow Transmitter

Differential Pressure Flow Transmitter

Radar Level Transmitter (24 GHz)

Radar Level Transmitter (24 GHz)