Industrial convergence requires smarter systems. In the continuous pursuit of ever-deeper industrial convergence, we provide products to help move intelligent decision-making right to the very edge of the factory floor.
Improve your productivity using information that leads to integration, automation, and faster time to market.
Industrial control equipment such as programmable logic controllers, supervisory control and data acquisition (SCADA), distributed control, and building automation systems are presently the target of cyber-attacks. Some of these systems manage critical infrastructure such as electrical power distribution, water distribution, or sewage infrastructure where system failure is not an option. Maxim Integrated provides Security solutions that are backed by industry standards and practice.
|What is the 1- Wire Interface||Securing the Internet of Things with the DS28S60||Operate Multiple Remote I2C or SPI Sensors Over Two Wires with the DS28E18|
|Featured Parts||Description||Reference Designs|
|MAXREFDES9000||Reference design demonstrating simplicity of operating remote sensors (temperature/humidity, UV light and proximity, vibration) over two wires with 1-Wire® infrastructure.||See reference design|
|MAXREFDES9001||Reference design featuring LoRaWAN sensor endpoints with DS28S60 secured data transmission connected through a gateway with connectivity to Google Cloud Services.||See reference design|
|Featured Parts||Description||EV Kit||Buy/Sample|
|DS28E18||1-Wire to I2C/SPI bridge, with 512-byte command sequencer that stores and executes I2C/SPI peripheral commands, all power derived from 1-Wire interface.||DS28E18EVKIT||Sample|
|DS28S60||Security coprocessor providing ECC-P256, SHA-256, AES-128 with underlying ChipDNA™ physically unclonable function (PUF) protection. Operates from 20MHz SPI, 1.8V-3.3V with 100nA power down.||DS28S60EVKIT||Sample|
|Secure SHA-3 authenticator with ChipDNA PUF protection, FIPS/NIST-compliant TRNG, and decrement-only counter||
|DS28E38||ECDSA P256 authentication with ChipDNA PUF protection, authenticated decrement counter, TRNG external data source||DS28E38EVKIT||Sample|
|ECDSA P256 or SHA-256 two-way authentication, optional authentication protection of user EEPROM, TRNG source, secure GPIOs and download processing||
|DS28E07||1024-bit, 1-Wire EEPROM with guaranteed unique 64-bit ROM ID||Sample|
|DS2401||Silicon serial number with factory-lasered, 64-bit ROM||DS9090EVKIT||Sample|
|DS2484||Single-channel I2C-to-1-Wire bridge device with adjustable timing and sleep mode, built-in level translator, and built-in ESD protection (±8V human body model contact discharge on IO pin)||DS2484EVKIT||Sample|
|MAXAUTHDEMO||DeepCover secure authenticator demonstration kit||See Demo Kit||Sample|
Maxim New Breed of AI Micro Built to Enable Neural Networks to Execute at Ultra-Low Power
Artificial intelligence (AI) requires extreme computational horsepower, but Maxim is cutting the power cord from AI insights. The MAX78000 is a new breed of AI microcontroller built to enable neural networks to execute at ultra-low power and live at the edge of the IoT. This product combines the most energy-efficient AI processing with Maxim's proven ultra-low power microcontrollers. Our hardware-based convolutional neural network (CNN) accelerator enables battery powered applications to execute AI inferences while spending only microjoules of energy.
AI Camera in Action
Learn more about our Low Power Microcontrollers:
|Fundamentals of Error Correction Codes||Introducing the MAX32660 Evaluation System||Error Correcting Code Memories|
|Part Number||Flash||SRAM||No. of GPIOs||Active Current (µA/MHz)||Standby Current (µA)||Security||Features||Buy||EV Kit||Sample|
|AI Low Power Microcontroller|
|MAX78000||512KB||128KB||Up to 52||41.9 @ 3.0V||11.1 @ 3.0V||AES 128/192/256 Hardware Acceleration Engine||
|Low Power Microcontrollers|
|MAX32660||Up to 256KB||Up to 96kB||Up to 14||50 @ 0.9V||1.9 @ 1.8V||-||
|MAX32670||384KB||160kB||Up to 31||44 @ 1.8V||3.0 @ 1.8V||TPU: AES-256, Secure Boot ROM, TRNG||
|MAX32520||2MB||136kB||Up to 27||10.6mA @ 1.8V||3.84 @ 1.8V||AES, SHA, ECDSA, Secure Boot Loader, PUF-Based Keys||
 RTC enabled and SRAM retained.
 TPU = Trust Protection Unit with encryption and advanced security features.
 Running at 12MHz.
 Running at 24MHz.
 32kB of SRAM retained.
Solutions with efficient power, precision measurement, reliable connectivity, and robust protection become essential to delivering innovative industrial products. These products need to deliver long runtimes, measure quickly and accurately without calibration, provide connectivity in the toughest environments, and operate continuously even in the presence of faults. All these products need high performance essential analog integrated circuits to deliver innovative solutions that propel the industrial convergence.
Learn more about our Low Power Microcontrollers!
|Troubleshooting a CAN Network||ADC in Crank Arm||Home Automation||Curent Sense Amplifier for DC Motors|
|Buck||Wired or Wireless Industrial Products||MAX38640||Tiny 1.8V to 5.5V Input, 330nA IQ, 700mA nanoPower Buck Converter||Sample|
|Continua||Handheld Industrial Equipment||MAX38888||2.5V–5.0V, 0.5A/2.5A Reversible Buck/Boost Regulator for Backup Power Applications||Sample|
|Power Meter||Servers||MAX34417||SMBus Four-Channel Very Wide Dynamic Range Power Accumulator||Sample|
|ADC||Current Sensing in Motors, Encoders, LVDT, PLC, Resolvers||MAX11198||12-/14-/16-Bit, 2Msps, Dual Simultaneous Sampling SAR ADCs with Internal Reference||Sample|
|Op Amp||Industrial IOT (Pressure, Flow, Level, Temperature, Proximity)||MAX40108||1V, Low-Power, Precision Operational Amplifier||Sample|
|CSA||PWM H-Bridge Motor In-line/In-phase/Winding Current Sensing||MAX40056T||
||MAX14780E||+5.0V, ±30kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceiver||Sample|
||MAX33012E||+5V, 5Mbps CAN Transceiver with ±65V Fault Protection, Fault Detection and Reporting, ±25V CMR, and ±40kV ESD Protection||Sample|
|Wireless||Building Automation and Security||MAX41460||300MHz–960MHz ASK and (G)FSK Transmitter with SPI Interface||Sample|
|Wireless Receiver||Home Automation and Security||MAX41470||290MHz to 960MHz ASK/FSK Receiver with SPI Interface||Sample|
|Supervisor||Portable/Battery-Powered Equipment||MAX16158||nanoPower, Tiny Supervisor with Manual Reset Input||Sample|
|Temp Sensor||RTD Replacement||MAX31889||±0.25°C Accurate I2C Temperature Sensor||Sample|
|RTC||Industrial||MAX31343||±5ppm, I2C Real-Time Clock with Integrated MEMS Oscillator||Sample|
By evolving not only motor and motion control, but also advanced diagnostics and real-time capabilities of interconnected drives, Trinamic empowers the intelligent factory. From standalone applications to connected, synchronized drives, Trinamic drives industrial automation with plug-and-play solutions transforming digital information into perfect physical motion.
|Trinamic SpreadCycle™ and StealtChop™ Technology for Silent Stepper Motors Explained||TMCM-1636 Product Training||TMC5160 Product Training||TMC4671 Product Training|
|Part Number||Description||Controller Interface||Features||Buy/Sample|
|TMC2209||Single-axis stepper motor driver for 5 - 29 V and 2.0 A (RMS)||
Single Wire UART
|StallGuard4, CoolStep, SpreadCycle, StealthChop2, Passive Breaking, Standalone mode (without µC)||Go to TMC2209|
|TMC5130||Single-axis stepper motor driver and motion controller for 5 - 46 V and 1.4 A (RMS)||
Single Wire UART
|Ramping Profiles (Linear, SixPoint), StallGuard2, CoolStep, SpreadCycle, MicroPlyer, StealthChop, DcStep, Passive Breaking||Go to TMC5130|
|TMC5160||Single-axis stepper motor driver and motion controller for 8 - 60 V and up to 20 A RMS using external MOSFETs||
Single Wire UART
|Ramping Profiles (Linear, SixPoint), StallGuard2, CoolStep, SpreadCycle, MicroPlyer, StealthChop2, DcStep Passive Breaking||Go to TMC5160|
|TMC4361||Single-axis stepper motor servo controller designed for an operating voltage of 3.3V or 5V||PWM, SPI, SSI, Step/Direction||
Ramping Profiles (Trapezoidal, SixPoint and S-shaped), Closed Loop Control, DcStep, ChopSync,
ABN Encoder Interface
|Go to TMC4361|
|TMC4671||Single-axis servo controller IC for BLDC and PMSM motors featuring integrated vector control||SPI, Step/Direction, UART, RTMI||
Field Oriented Control
Fast PWM Engine (25 - 100 kHz)
|Go to TMC4671|
|TMC6140||3-phase predriver IC for 5 - 30 V with integrated shunt amplifiers and 3V3 switching regulator||UART||3V3 Switching Regulator (0.5 A) with internal Schottky diode (up to 100 mA), Charge pump pin to utilize buck converter for step-up converter, 3 bottom shunt amplifiers, 2 low power modes with 0.25 mA standby current consumption, Diagnostics output via UART-TxD||Go to TMC6140|
|TMCM-1617||Low-weight and compact single-axis servo drive for 3-phase BLDC motors up to 18 A (RMS) and +24 V supply||RS485, CAN, EtherCAT, CoE||Servo driver, Customization options, Cooling via aluminum housing||Go to TMCM-1617|
|TMCM-3110||3-axis stepper motor controller and driver module for 9 - 52 V and up to 4 A from each output||RS485, Step/Direction, CAN, USB, EtherCAT||StallGuard2, CoolStep, SpreadCycle, Trapezoidal Ramping Profile||Go to TMCM-3110|
|TMCM-3351||3-axis stepper servo controller and driver module for 18 - 53 V and up to 9.5 A from each output||RS232, RS485, SPI, CAN, USB||Closed-Loop Control, DcStep, ChopSync||Go to TMCM-3351|
|TMCM-6110||6-axis stepper motor controller and driver module for 9 - 28 V and up to 1.6 A from each output||RS485, CAN, USB||StallGuard2, CoolStep, SpreadCycle, Trapezoidal Ramping Profile||Go to TMCM-6110|
|TMCM-1240||Single-axis stepper motor controller and driver board for 10 - 30 V and up to 2 A (RMS)||RS485, Step/Direction, CAN, USB, GPIO||DcStep, CoolStep, StallGuard2, StalthChop, SixPoint Ramping Profile||Go to TMCM-1240|
|PD42-1-1243-IOLINK||PD42-1-1243-IOLINK intelligent actuator reducing power consumption by 75 percent and drive size by 2.5x, while monitoring 33 percent more configuration and performance parameters||IO-Link||CoolStep, SpreadCycle, StealthChop, StallGuard||Go to PD42-1-1243-IOLINK|