Description
Silicon-based electricity meters and measurement circuits have enabled a revolution in electrical energy management. Smart metering allows demand based rate schedules for more efficient energy use. Measurement system-on-chip (SoC) devices enable real-time communication of energy loads for optimal grid balance, and less downtime due to service outages.
Maxim provides a wide range of semiconductor based metering products, including complete metering SoCs as well as analog front-ends (AFE). Click the block diagram tab to view systems that use Maxim’s electric energy metering or measurement solutions.
4-Channel Analog Output
MAXREFDES24This four-channel, 16-bit, high-accuracy analog output design is fully isolated and provides all typical bipolar current and voltage output ranges, and appropriate subsets, with less than ±0.1% typical total unadjusted error. Input is digital SPI. Requires input voltage of 18 to 32VDC.
Isolated 24V to 5V, 12.5W No-Opto Flyback Power Supply
MAXREFDES120Compact 24V input module with secondary-side synchronous MOSFET driver that features 5V at 2.5A output.
Isolated 24V to 5V, 9W No-Opto Flyback Power Supply
MAXREFDES119Compact 24V input module with secondary-side synchronous MOSFET driver that features 5V at 1.8A output.
Introduction to the MAX22000 Industrial Configurable Analog I/OThis video provides an introduction to Maxim's Industrial Configurable Analog I/O - the MAX22000.
1-Wire to IIC/SPI BridgeThis video is to explain the function of DS28E18 in converting IIC/SPI to a 1-Wire network.
MAXREFDES12581: 200W DC-DC Buck Converter Using the MAX15157BThe MAXREFDES1258 is a 1200W, 12V 4-phase DC-DC buck converter that can deliver up to 100A load current.
Introduction to the MAX16171 Ideal Diode Controller with Reverse Current ProtectionThis video provides an introduction to Maxim's Ideal Diode Controller with Reverse Current Protection - the MAX16171.
Introduction to the MAX20361 Small, Single /Multi-cell Solar Harvester with MPPTThis video provides an introduction to Maxim's Small, Single /Multi-cell Solar Harvester with MPPT - the MAX20361.
electronica 2020 Keynote: Application Trends, Challenges, and Solutions on Low-Power System DesignIn this virtual electronica 2020 Keynote, Ravi Ambatipudi, VP and GM of Battery Power BU at Maxim Integrated, discusses application trends, challenges, and solutions for low-power system designs.
Intro to Hot-Swap: Key Products in Maxim’s PortfolioThis short chapter introduces the most common and useful hot-swap controllers and fully-integrated solutions from Maxim’s Cloud and Data Center business unit.
Intro to Hot-Swap Circuits: Other TopologiesThis chapter expands on the first with additional circuit topologies, including negative-supply hot-swap circuits.
Intro to Hot-Swap Circuits: High Side N-ChannelThis chapter introduces the role and necessity of hot-swap control for electrical power, and demonstrates the most common circuit: a high-side n-channel MOSFET with controlled gate slew-rate.
Introduction to the MAX25206 MAX25207 Versatile Automotive 60V/70V 2.2MHz Buck Controller with 7µA IQ and Optional Bypass ModeThis video provides an introduction to Maxim's Versatile Automotive 60V/70V 2.2MHz Buck Controller with 7µA IQ and Optional Bypass Mode
Introduction to the MAX33040E +3.3V, 4Mbps CAN Transceiver with ±40V Fault Protection, ±25V CMR, and ±40KV ESD in SOT23/8This video provides an introduction to Maxim's +3.3V, 4Mbps CAN Transceiver with ±40V Fault Protection, ±25V CMR, and ±40KV ESD in SOT23/8 - the MAX33040E.
Introduction to the MAX20360 Wearable Power Management SolutionThis video provides an introduction to Maxim's Wearable Power Management Solution - the MAX20360.
Introduction to the MAX25231 36V, 1.2A Mini Buck Converter with 3.5µA IQThis video provides an introduction to Maxim's 36V, 1.2A Mini Buck Converter with 3.5µA IQ - the MAX25231.
Introduction to the MAX25232 36V, 3A Mini Buck Converter with 3.5µA IQThis video provides an introduction to Maxim's 36V, 3A Mini Buck Converter with 3.5µA IQ - the MAX25232.
Getting to Know the MAX32665How to choose a BLE5-capable microcontroller? Learn why the MAX32665 is really the only choice!
RTC Accuracy Over TemperatureIn this demo video, a paltier device is placed on the back side of the board to heat up or cool down the RTC. Since temperature changes can affect RTC accuracy, this demo system will display the accuracy of the RTC with or without internal temperature compensation circuit enabled
Making the true wireless earbud user experience great with the DS2488!True wireless earbuds are about more than just great audio. They’re also about form factor, great battery life, and keeping the user informed about the status of the battery. The DS2488 provides control, status, charging management, and high-speed firmware updates over just two contacts between the charging box and the earbud. This video shows you how Maxim got so many functions in such a tiny package!
Introduction to the MAX77642 MAX77643 Ultra Configurable PMIC Featuring 93% Peak Efficiency Single-Inductor, 3-Output Buck-Boost, 1-LDO for Long Battery LifeThis video provides an introduction to Maxim's Ultra Configurable PMIC Featuring 93% Peak Efficiency Single-Inductor, 3-Output Buck-Boost, 1-LDO for Long Battery Life - the MAX77642 MAX77643.
Introduction to the MAX77597 36V, 300mA, Buck Converter with 1.1μA IQThis video provides an introduction to Maxim's 36V, 300mA, Buck Converter with 1.1μA IQ - the MAX77597.
A Sneek Peak at Maxim Integrated’s RF MUXDAC Data SourceSearching for the right RF DAC for your communications, radar, or similar application? Watch this 1-minute video to learn how Maxim Integrated’s RF MUXDAC data source (MDS) can help. The MDS tool consists of software, firmware, and hardware that provide the digital stimulus to our RF DACs that employ parallel, multiplexed LVDS data interfaces.
MAX20796 Evaluation Kit DemonstrationLearn how to set up and use the MAX20796CL2EVKIT, including Maxim’s PMBus GUI software
Introduction to the DS2488 1-Wire® Dual-Port LinkThis video provides an introduction to Maxim's 1-Wire® Dual-Port Link - the DS2488.
Introduction to the MAX2088 16 Channel, High Performance, Low Power, Fully Integrated Ultrasound ReceiverThis video provides an introduction to Maxim's 16 Channel, High Performance, Low Power, Fully Integrated Ultrasound Receiver - the MAX2088.
Introduction to the MAX11947 4 Channel AISG Integrated Modem This video provides an introduction to Maxim's 4 Channel AISG Integrated Modem - the MAX11947.
How to Use OASIS to Correlate Bench Measurements with SimulationsBen walks through how to take accurate power supply bench measurements, and how to import those measurements into OASIS. He then demonstrates how to troubleshoot and verify a design using this method and the MAX17242EVKIT.
How to Setup a Forward Channel Link with a GMSL PairChetan will outline the requirements for getting a GMSL pair to establish a forward channel link. He will then demonstrate this procedure using the MAX9275, MAX9276A, and MAX96705.
How to Test Your Design's Robustness with Voltage MarginingArun describes what voltage margining is, where its used, and how to perform voltage margining easily with a few Maxim Integrated components. He also includes a demo of the voltage margining functions on the MAX16046.
SIMPLIS versus SPICE: Which is Better for Switching Power Conversion Simulation?SIMPLIS was initially developed because SPICE did not simulate switching converters effectively. In this video, Brooks will demonstrate how SIMPLIS simulates switching power converters much faster, avoids convergence issues commonly found in SPICE, and has a built-in linearizing algorithm that quickly produces accurate frequency domain response curves (Bode plots).
Introduction to the MAX14914 High-Side Switch with Settable Current-Limiting, Push-Pull Driver Option and Digital Input ConfigurationThis video provides an introduction to Maxim's High-Side Switch with Settable Current-Limiting, Push-Pull Driver Option and Digital Input Configuration - the MAX14914.
Introduction to the MAX32655 Low-power ARM Cortex-M4F Microcontroller w/ Bluetooth 5This video provides an introduction to Maxim's Low-power ARM Cortex-M4F Microcontroller w/ Bluetooth 5 - the MAX32655.
Introduction to the MAX16984A Automotive High-Current Step-Down Converter with USB Protection/Host Charger Adapter EmulatorThis video provides an introduction to Maxim's Automotive High-Current Step-Down Converter with USB Protection/Host Charger Adapter Emulator - the MAX16984A.
Introduction to the MAX25210 Automotive Ultra Low Quiescent Current Linear Regulator FamilyThis video provides an introduction to Maxim's Automotive Ultra-Low Quiescent Current Linear Regulator Family - the MAX25210.
Introduction to the MAX49140 30ns, Low-Power, 3V/5V, Rail-to-Rail Single-Supply ComparatorThis video provides an introduction to Maxim's 30ns, Low-Power, 3V/5V, Rail-to-Rail Single-Supply Comparator - the MAX49140.
Introduction to the MAX17227A 400mV to 5.5V Input, 2A nanoPower Boost Converter with Short Circuit Protection and True ShutdownThis video provides an introduction to Maxim's 400mV to 5.5V Input, 2A nanoPower Boost Converter with Short Circuit Protection and True Shutdown - the MAX17227A.
Introduction to the MAX20028 Step-Down Controller with Dual 2.1MHz Step-Down DC-DC ConvertersThis video provides an introduction to Maxim's Step-Down Controller with Dual 2.1MHz Step-Down DC-DC Converters - the MAX20028.
Introduction to the MAX25300A MAX25300B 12μVRMS Low Noise 500mA LDO Linear Regulator This video provides an introduction to Maxim's 12μVRMS Low Noise 500mA LDO Linear Regulator - the MAX25300A MAX25300B.
Introduction to the DG1206 DG1207 Low-Leakage, Single 16-Channel and Dual 8-Channel, Analog Multiplexer This video provides an introduction to Maxim's Low-Leakage, Single 16-Channel and Dual 8-Channel, Analog Multiplexer - the DG1206 DG1207.
Introduction to the MAX25605 6 Switch Sequential LED Controller For Automotive Lighting SystemsThis video provides an introduction to Maxim's 6 Switch Sequential LED Controller For Automotive Lighting Systems - the MAX25605.
Introduction to the MAX25430 Automotive 100W USB-PD Buck-Boost Port Controller and ProtectorThis video provides an introduction to Maxim's Automotive 100W USB-PD Buck-Boost Port Controller and Protector - the MAX25430.
Introduction to the MAX20069B Automotive 4-Channel TFT Bias with 4ch 150mA/ch LED DriverThis video provides an introduction to Maxim's Automotive 4-Channel TFT Bias with 4ch 150mA/ch LED Driver - the MAX20069B.
Introduction to the MAX77831 2.5V to 16V Input, 18W Output High-Efficiency Buck-Boost ConverterThis video provides an introduction to Maxim's 2.5V to 16V Input, 18W Output High-Efficiency Buck-Boost Converter - the MAX77831.
Introduction to the MAX40213 Transimpedance Amplifiers with Selectable Gain and Input Current ClampThis video provides an introduction to Maxim's Transimpedance Amplifiers with Selectable Gain and Input Current Clamp - the MAX40213.
SerDes Part 6 - Sounds good!A movie without a soundtrack isn’t much fun! In this episode, we see how GMSL provides transport for multichannel audio in addition to the video and control channels.
SerDes Part 4 - Get the picture?Getting a usable picture from a camera is more work than it appears! You have to think of color spaces, interfaces, and compatibility. In this video, we introduce the concept of color spaces and take a first look at the interfaces you might encounter as you connect video sources and displays to the ECM.
Introduction to the MAX77975 MAX77976 19VIN, 3.5/5.5A 1-Cell Li+ Battery Charger with Smart Power SelectorTM and OTG for USB-C PDThis video provides an introduction to Maxim's 19VIN, 3.5/5.5A 1-Cell Li+ Battery Charger with Smart Power SelectorTM and OTG for USB-C PD - the MAX77975 and MAX77976.
What is a SerDes and why do I need one?Cameras and other sensors are being used in automotive applications more and more frequently. That means there’s a lot of data flowing into and out of the electronics control module in the vehicle. In this first episode, we discover how Maxim’s GMSL SerDes products help manage the flood of data and make a fully integrated system possible.
SerDes part 3: All about line codingThree issues – DC balance, clock recovery, and EMI mitigation – can confound the successful deployment of a high-speed communication link. In this video, we see how Maxim GMSL devices use scrambling, coding, and spread spectrum techniques to address those issues.
SerDes part 2 The Signaling QuagmireTo send a signal of several megahertz down a cable, you need more than conventional logic classes. You need CML – current mode logic. In this video, you’ll get to know CML and some of the issues that arise when you’re sending multi-megabit data streams down a cable in a harsh environment.
SerDes - Part 5: Control freak!Devices that connect to the serial link require configuration, management during operation, and status monitoring. Maxim’s GMSL serializers and de-serializers provide a control channel in both the forward and reverse direction that provides transport for this critical function. This video shows you how that works.
SerDes - Part 7: Pixels and the Serial StreamVideo sources vary greatly in resolution, pixel depth, and frame rates. But the GMSL serial bit stream typically operates over a fairly narrow range of bit rates. How do we reconcile the pixel data rates to the serial bit stream? This video shows you how!
SerDes Part 8 - Start Me UpIn a perfect world, you’d just apply power to the serializer and deserializer and everything would just work! But in the real world, things have to be configured before data begins to flow! In this video, we look at five real-world parts and discover how they configure themselves at power-up.
SerDes Part 9 - InterfacesGMSL moves video around an automotive environment quickly and accurately. But getting the video into and out of a GMSL system depends on interfaces. In this episode, we start with legacy parallel interfaces and then investigate the interfaces that connect cameras, displays, and video players to a GMSL-connected system.
Introduction to the MAX22245 MAX22246 Reinforced, Fast, Low-Power, Two-Channel Digital IsolatorsThis video provides an introduction to Maxim's Reinforced, Fast, Low-Power, Two-Channel Digital Isolators - the MAX22245 and MAX22246.
Case Study: Design and Optimize Your Power Supply in Under an HourSee how a senior applications engineer can create a custom DC-DC converter design, run simulations, make improvements, and iterate to a hardware-ready design in under an hour using the EE-Sim Design Tools.
How to Use Simple Tips and Tricks to Simulate Most Effectively in EE-Sim OASISPrathamesh presents simple tips and tricks to use Maxim’s EE-Sim® OASIS Simulator effectively and easily. In this video, he explains how to plot simulation curves on a new tab, add probes to a circuit, stack waveforms, and much more.
MAXREFDES104#: Health Sensor Platform 3.0Enables quick evaluation of our portfolio of wearable products to significantly shorten the development time for custom fitness, health, and clinical applications.
Introduction to the MAXM22510/11 2.5kVRMS Complete Isolated RS-485/RS-422 Module Transceiver + PowerThis video provides an introduction to the MAXM22510 and MAXM22511, isolated RS-485/ RS-422, full-duplex, transceiver modules providing 2500VRMS (60s) of galvanic isolation between the cableside (RS-485/RS-422 driver/receiver side) and the UARTside of the device. An integrated DC-DC powers the cable-side of the module. No external components are required.
Introduction to the MAX17526A 5.5V to 60V, 6A Current-Limiter with OV, UV, Reverse Protection, and Power LimitThis video provides an introduction to the MAX17526A, the industry's smallest and robust integrated system protection solutions. The MAX17526A adjustable power limiter offers a unique feature to limit power drawn from supplies or delivered to loads, amongst a host of protection features.
Ultra-Low Power Octal, Digital Input Translator/Serializer
MAX31910Translates, conditions, and serializes digital output of industrial sensors and switches.
Octal, High-Speed, Industrial, High-Side Switch
MAX14900EFast 24V driver, low propagation delay, and 100kHz load-switching speed for high-speed PLCs.
In The Lab: High-Efficiency Power Supply Reference DesignsLet's face it: with tighter schedules and the complexity of today's board designs, you're being asked to do a lot in a short amount of time.
Learn how we can help you meet these challenges with power supply reference designs that will get you to market sooner while saving cost, space and power. Features of these complete designs include industrial level input voltages, high efficiency operation, very small board size and programmable settings.
Smaller, Cooler, High-Voltage DC-DC ConvertersGet heat dissipation 50% lower than any competing product! Keep designs smaller and cooler with these regulators that include integrated MOSFETS and compensation. This board features seven tiny regulators, from 100 milliamps to 3.5 amps.
In The Lab: Himalaya Buck ConvertersIntroducing something new: Synchronous DC-DC converters that replace traditional asynchronous converters’ external diode with an integrated MOSFET. The result is a cooler, smaller, simpler solution that lowers your total system cost.
2.75kVRMS Isolated RS-485 Transceiver
MAX14853Full-duplex, 500kbps RS-485 with ±35kV ESD protection and integrated transformer driver
[Sales Rep] Digital Input Module - Level 1Introduction to Digital Input Modules. Defines what a digital input module is, where it is used, what’s inside, some product examples and design trends.
[Sales Rep] Understand 4-20mA Data TransmissionIntroduction and overview of 4-20mA current loop communications. Explains the fundamentals and operation of 4-20mA including why current used as the basis, system issues, signaling, power and voltage issues. Hart modems are also discussed.
[Sales Rep] 4-Channel AFE Solution Customer PresentationDiscussion of analog front ends with focus on the MAXREFDES5 (Sante Fe) reference design. After an overview of AFEs, details of the Sante Fe reference design is discussed including architecture, performance and setup.
[Sales Rep] Himalaya Buck Converter Customer Engineering PresentationThe Himalaya product line is a series of DC-to-DC power supply modules. This presentation explains the use and applications of DC-to-DC power modules, the design challenges that they solve and the advantages that Maxim’s devices offers. The use of Maxim’s EE-Sim System Power Tool to ease the design process is also presented.
[Sales Rep] Undervoltage and Overvoltage Protection Level 1 Industrial TrainingThis training explains undervoltage and overvoltage protection as they apply to interface devices and analog switches. Both are first defined, then it’s shown how they are implemented in ICs. Finally, a few examples of Maxim parts which implement this protection are shown.
[Sales Rep] What is a PLC?Basic introduction to Programmable Logic Controllers (PLC). Provides a history of automation, what PLCs do, where they are found and what they do.
[Sales Rep] Himalaya Branch Training PresentationThe Himalaya product line is a series of DC-to-DC power supply modules. This presentation explains the use and applications of DC-to-DC power modules, the markets they serve, the design challenges that they solve and the advantages that Maxim’s devices offers. Finally, tips on overcoming customer objections are offered.
[Sales Rep] Digital Output Module Level 1Introduction to Digital Output Modules. Defines what a digital output module is, where it is used, what’s inside, some product examples and design trends.
[Sales Rep] Industrial and Healthcare UpdateUpdate on Industrial Automation. Discusses the Industrial strategy, a top level overview of the product line and target markets. Products discussed in more detail are motor control products.
[Sales Rep] Fieldbus Module Level 1Introduction to Field Bus Modules. Defines what a field bus module is, where it is used, what’s inside, some product examples and design trends.
[Sales Rep] 4-Channel Analog Output - Design Accelerator KitThis presentation focuses on the Analog Output Design Accelerator kit. Explains what an analog output is, where it is used and options available for designing an analog output module. Finally, it is shown how Maxim’s Design Accelerator kit makes it easy to demonstrate and evaluate Maxim’s solution.
[Sales Rep] Isolated Buck FAE TrainingTechnical presentation on isolated buck converter. The Iso-Buck feature implemented in several Maxim devices is discussed. Includes a detailed explanation of Iso-Buck operation, application issues and examples.
[Sales Rep] LiveLab Training on MAXREFDES67 Universal Analog Input uPLCLiveLab training on the MAXREFDES67 = Universal Analog Input uPLC board. After a presentation on the board, students follow along to perform various calibration and measurement exercises.
[Sales Rep] Solutions for Factory AutomationThis session discusses Maxim’s technology as it enables next generation automation systems and contains information relevant for discussions with customer executives. Topics covered include customs alignment, factory automation trends, solution leadership and operational excellence.
[Sales Rep] Himalaya Module Customer PresentationThe Himalaya product line is a series of DC-to-DC power supply modules. This presentation explains the use and applications of DC-to-DC power modules, the design challenges that they solve and the advantages that Maxim’s devices offers
[Sales Rep] Analog Output Branch TrainingThis presentation is focused on industrial analog output devices and intended for distributors. Covered are: Where analog outputs are used and their applications, design approaches, solutions from competitors and reference designs/tools available.
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[Sales Rep] Analog Signal Chain - Multiplexer (Mandarin)Basic introduction to key element of signal chain multiplexer and analog switch. Note - this course is delivered in Mandarin.
[Sales Rep] Protection ICs Field TrainingTechnical deep dive into Maxim’s Protection ICs from the Industrial Power team. The first section covers what protection ICs are, where they fit in a design and the advantages that Maxim’s protection ICs offer. The second section is applications oriented and discusses completing a design, details of operation, example applications, application problems and common questions.
[Sales Rep] Precision Data Converter UpdateUpdate on precision data converters including a review of the overall product line, focus markets and end equipment and product portfolios and road maps.
[Sales Rep] Slew Rates Level 1 Industrial TrainingUnderstanding slew rates in industrial products. Discusses why slew rates are important, when slew rates need to be considered in a design and a few examples.
[Sales Rep] MM 2017 Secure Authentication PreworkIntroduction to DeepCover Secure Authentication product line. Includes how to approach your customers, identifying a product fit as well as security fundamentals
Introduction to the MAX22088 Homebus Transceiver This video provides an introduction to Maxim's Homebus Transceiver - the MAX22088.
Introduction to the MAX22518 Self-Powered, Two-Channel, 3.5kVRMS Digital IsolatorThis video provides an introduction to Maxim's new Self-Powered, 2 channel 3.5kV digital isolator - the MAX22518.
Introduction to the DS1964S DeepCover® Secure Authenticator iButton with SHA-256DeepCover® embedded security solutions cloak sensitive data under multiple layers of advanced physical security to provide the most secure key storage possible. The DeepCover Secure Authenticator iButton® (DS1964S) combines crypto-strong bidirectional secure challenge-and-response authentication functionality.
Introduction to the MAX17303 MAX17313 1-Cell ModelGauge m5 EZ Fuel Gauge with ProtectorThis video provides an introduction to Maxim's 1-Cell ModelGauge m5 EZ Fuel Gauge with Protector - the MAX17303 and MAX17313.
Introduction to the MAX17670 MAX17671 MAX17672 Integrated 4V-60V, 150mA, High-Efficiency, Synchronous Step-Down DC-DC Converter with 50mA Linear RegulatorThis video provides an introduction to the MAX17670/71/72, a dual-output regulator integrating a 4V to 60V, 150mA high-voltage, high-efficiency synchronous step-down converter with internal MOSFETs and a high-PSRR, low-noise, 2.35V to 5V, 50mA linear regulator.
Introduction to the MAXM17552/MAXM17900 4.0V to 60V, 100mA Himalaya uSLIC Step-Down Power ModulesThis video provides an introduction to the MAXM17552 and MAXM17900, step-down DC-DC power modules built in a compact uSLIC™ package.
Introduction to the MAX41460-64 300-960MHz sub-GHz TransmitterThis video provides an introduction to the MAX41460 using a SPI programming interface while the MAX41461 thru MAX41464 parts feature an I2C interface as well as preset modes (pin-selectable output frequencies using only one crystal frequency)
Introduction to the MAX22192 Octal Industrial Digital Input with Diagnostics and Digital IsolationThis video provides an introduction to the MAX22192 Small digital input device that translates 8 industrial inputs to an isolated serialized SPI output.
Introduction to the MAX14882 5kVRMS Isolated CAN Transceiver with Integrated Transformer DriverThe MAX14882 isolated high-speed CAN transceiver improves communication and safety by integrating galvanic isolation between the CAN-protocol controller-side of the device and the physical wires of the CAN network.
Introduction to the MAX17262 5.2µA 1-Cell Fuel Gauge with ModelGauge m5 EZ and Internal Current Sensing The MAX17262 is an ultra-low 5.2µA operating current fuel gauge which implements Maxim ModelGauge™ m5 EZ algorithm. The MAX17262 monitors a single cell battery pack with integrated internal current sensing for up to 3.1A pulse current.
Introduction to the MAX17260 5.1µA 1-Cell Fuel Gauge with ModelGauge m5 EZ and Optional High-Side Current SensingThis video provides an introduction to the MAX17260, an ultra-low power fuel gauge IC which implements the Maxim ModelGauge™ m5 algorithm. The IC monitors a single-cell battery pack and supports both high-side and low-side current sensing
Introduction to the MAX33053E/54E +3.3V, 2Mbps CAN Transceiver with ±65V Fault Protection, ±25V CMR, and ±25kV ESDThis video provides an introduction to the MAX33053E and MAX33054E, +3.3V CAN (Control Area Network) transceivers with integrated protection for industrial applications.
The Future of PoE LED LightingSee examples of what the future holds for power over ethernet (PoE) LED lighting in the internet of things (IoT).
In the Lab: Bluetooth Control of Power-over-Ethernet Lighting See how simple it is to develop Power-over-Ethernet (PoE) based lighting. This video demonstrates an easy way to provide on/off and dimming control for an LED bulb using a smartphone with bluetooth connection. The simple design is made possible by the MAX5969 powered device controller and the MAX16832 high-voltage LED Driver IC.
4.5V to 42V, 300mA, uSLIC Step-Down Power Module
MAXM154620.9V to 5V output with integrated controller, FETs, inductor and compensation in a 2.6mm x 3mm x 1.5mm package
In the Lab: Eliminate Flicker for MR16 LED LightingDesigning circuits for MR16 LED lighting has two big challenges: dimming the lamp without flicker, and compatibility with electronic low-voltage transformers (ELVT). This video demonstrates how the MAX16840 LED Driver's current control scheme eliminates MR16 flicker at all dimming levels, even when used with a variety of electronic transformers.
1A Adjustable Overcurrent and Overvoltage Protector with High Accuracy
MAX17523Industry's most integrated OCP and OVP solution with more robust reverse current-blocking capability.
60V, No-Opto Isolated Flyback Controller
MAX17690Compact, cost-effective, and easy-to-implement isolated DC-DC controller.
4.5 to 60V, 5A, High-Efficiency Step-Down Converter
MAX17506Includes integrated high-side MOSFET with output from 0.9V up to 0.9 x VIN in a 5mm x 5mm TQFN
Introduction to the MAX17634A, MAX17634B and MAX17634C 4.5V to 36V, 4.25A, High-Efficiency, Synchronous Step-Down DC-DC ConverterThis video provides an introduction to Maxim's 4.5V to 36V, 4.25A, High-Efficiency, Synchronous Step-Down DC-DC Converter - the MAX17634A, MAX17634B and MAX17634C.
Introduction to the MAXM22510/11 2.5kVRMS Complete Isolated RS-485/RS-422 Module Transceiver + PowerThis video provides an introduction to the MAXM22510 and MAXM22511, isolated RS-485/ RS-422, full-duplex, transceiver modules providing 2500VRMS (60s) of galvanic isolation between the cableside (RS-485/RS-422 driver/receiver side) and the UARTside of the device. An integrated DC-DC powers the cable-side of the module. No external components are required.
Introduction to the MAX22513 Surge Protected Dual Driver IO-Link Device Transceiver with DC/DCThis video provides an introduction to the MAX22513 dual-channel low power IO-Link device transceiver which features a selectable control interface, internal high-efficiency DC-DC buck regulator, two internal linear regulators, and integrated surge protection for robust communication.
Introduction to the MAX6079/MAX6279/MAX6226 Low-Noise, High-Precision Series Voltage Reference in Ceramic PackageThis video provides an introduction to the MAX6079, MAX6279, and MAX6226, which offer a very low noise and low-drift voltage reference in a small 3x3mm ceramic package.
Introduction to the MAXM15462 4.5V to 42V, 300mA Himalaya uSLIC Step-Down Power ModuleThis video provides an introduction to the MAXM15462 which saves space and reduces heat, with this 4.5V-42V, 300mA synchronous buck, highly efficient, power module in a new micro-SLIC package.
Ultra-Accurate Local Temperature Sensor
MAX31726This IC converts the temperature measurements to digital form using a high-resolution, sigma-delta, analog-to-digital converter (ADC). Accuracy is ±0.5°C from -40°C to +105°C. Communication is through an I2C-compatible 2-wire serial interface.
24-Bit, Low Power, Low Noise, Delta-Sigma ADC with Integrated PGA
MAX11270The MAX11270 is a 24-bit delta-sigma ADC that achieves excellent 130dB SNR while dissipating an ultra-low 10mW. Sample rates up to 64ksps allow both precision DC and AC measurements. Integral non-linearity is guaranteed to 4ppm maximum.
RTD-to-Digital Converter with Fault Detection
MAX31865Easy-to-use converter features integrated fault detection, high accuracy, and system cost-lowering integration.
RTD-to-Digital Temperature Sensor Interface
MAX31865Provides 0.5°C total accuracy with fault detection and ±45V input protection
Introduction to the MAX14483 6-Channel, Low-Power, 3.75kVRMS SPI Digital IsolatorThis video provides an introduction to the MAX14483; a 6-channel, 3.75kVRMS digital galvanic isolator using Maxim’s proprietary process technology.
Introduction to the DS28E16 DeepCover® 1-Wire SHA-3 Secure AuthenticatorThis video provides an introduction to the DS28E16 DeepCover® 1-Wire SHA-3 Secure Authenticator
Introduction to the MAX31341B MAX31341C Low-Current, Real-Time Clock with I2C Interface and Power ManagementThis video provides an introduction to Maxim’s Low-Current, Real-Time Clock with I2C Interface and Power Management – the MAX31341B and MAX31341C.
Introduction to the MAX14829 Low-Power IO-Link Device Transceiver with Dual Drivers This video provides an introduction to Maxim's Low-Power IO-Link Device Transceiver with Dual Drivers - the MAX14829.
Introduction to the MAX33012E +5V, 5Mbps CAN Transceiver with ±65V Fault Protection, Fault Detection and Reporting, ±25V CMR, and ±45kV ESD ProtectionThis video provides an introduction to Maxim's +5V, 5Mbps CAN Transceiver with ±65V Fault Protection, Fault Detection and Reporting, ±25V CMR, and ±45kV ESD Protection - the MAX33012E.
Introduction to the MAX22520 One-Time Programmable (OTP) Industrial Sensor Output DriverThis video provides an introduction to Maxim's One-Time Programmable (OTP) Industrial Sensor Output Driver - the MAX22520.
Introduction to the MAXM17630 MAXM17631 MAXM17632 4.5V to 36V, 1A Himalaya uSLIC Step-Down Power ModulesThis video provides an introduction to Maxim’s 4.5V to 36V, 1A High Efficiency, Synchronous DC-DC Step-Down uSLIC Power modules – the MAXM17630/1/2.
Introduction to the MAX22515 IO-Link Transceiver with Integrated ProtectionThis video provides an introduction to Maxim's IO-Link Transceiver with Integrated Protection - the MAX22515.
Introduction to the MAXM17903/MAXM15462/MAXM15064 Himalaya uSLIC Step-Down Power ModulesThis video provides an introduction to the MAXM15064, MAXM15462, and MAXM17903, high-efficiency, synchronous step-down DC-DC modules with integrated circuit and inductor that operate over a wide input-voltage range.
Industrial Power Step-down Power Modules
High-efficiency, high-voltage DC-DC step-down power modulesThese power modules combine an efficient Maxim switching regulator, a fully shielded inductor, and numerous other passive components into one low-profile, thermally-efficient system-in-package (SiP). These modules operate over the industrial temperature range.
60V In, Low Parts Count Switching Regulator Provides 2.5A
MAX17503Providing output currents up to 2.5A, this synchronous step-down switching regulator handles input voltages of up to 60V. In addition, this product features very efficient internal synchronous FET switches so you can reduce your power supply board space to a minimum.
Design in EE-Sim
Pocket IO Redefines the PLC for Industry 4.0Learn how the MAXREFDES150 Pocket IO™ is 30% more efficient and 2½ times smaller than previous PLC platforms. The Pocket IO is a complete industrial platform equipped with 30 IOs featuring three different sensor inputs and motor controls for manufacturing or process automation applications.
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4.5V to 42V Input, High-Efficiency, Iso-Buck DC-DC
MAX17681Provides up to 5W isolated power, reduces power dissipation with > 90% peak efficiency and 0.9µA shutdown current.
Low-Power, Fully Differential 20 bit SAR ADC
MAX11905This ADC provides excellent static and dynamic performance with best-in-class power consumption that directly scales with throughput.
IO-Link master transceiver
MAX14824This IO-Link master transceiver is integrated with an auxiliary digital input and two linear regulators and is scalable to 16 channels.
産業用電源Himalayaスイッチングレギュレータ
MAX17504这款同步降压型开关稳压器能够支持高达60V的输入电压,提供高达3.5A电流。此外,该产品集成了高效同步FET开关,使电源设计的电路板空间降至最小。
Industrial Power Himalaya Switching Regulators
MAX17504这款同步降压型开关稳压器能够支持高达60V的输入电压,提供高达3.5A电流。此外,该产品集成了高效同步FET开关,使电源设计的电路板空间降至最小。
[Sales Rep] RS-485 -- Half or Full Duplex? Level 1 Industrial TrainingThis session explains the difference between half and full duplex transceivers. Includes: explaining the RS-422 and RS-485 standards, half duplex, full duplex and what applications use RS-422 and RS-485.
[Sales Rep] RS-485 Driving Loads Level 1 Industrial TrainingIntroduction to RS-485 with an emphasis on load requirements and drive capabilities. Reviews the basics RS-485 standard and where it is used, then defines an RS-485 load and how that affects the performance.
[Sales Rep] PMFI Sensor Module - Level 1Introduction to Process Measurement and Field Instruments (PMFI). Defines what a sensor module is, where it is used, what’s inside, some product examples and design trends.
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[Sales Rep] Himalaya Customer Engineering Presentation (Mandarin)The Himalaya product line is a series of DC-to-DC power supply modules. This presentation explains the use and applications of DC-to-DC power modules, the design challenges that they solve and the advantages that Maxim’s devices offers. The use of Maxim’s EE-Sim System Power Tool to ease the design process is also presented.
[Sales Rep] Analog Output Module - Level 1Introduction to Analog Output Modules, one of the building blocks used in Programmable Logic Controllers (PLC). Discusses what an analog output is, what its function is, what’s inside it and where it is used. Finally, some product examples are shown along with design trends.
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[Sales Rep] 4-Channel Analog Output - Design Accelerator Kit (Mandarin)This presentation focuses on the Analog Output Design Accelerator kit. Explains what an analog output is, where it is used and options available for designing an analog output module. Finally, it is shown how Maxim’s Design Accelerator kit makes it easy to demonstrate and evaluate Maxim’s solution.
[Sales Rep] FAE Technology Workshop: IO-Link Smart Sensors (PRE-WORK)_This session was developed as pre-work for the 2016 Tech Workshop and is a simple introduction to IO-Link. Discussed are: what is IO-Link and why it is used.
Introduction to the MAX17613A MAX17613B MAX17613C 4.5V to 60V, 3A Current Limiter with OV, UV, and Reverse ProtectionThis video provides an introduction to the MAX17613A MAX17613B MAX17613C, a 4.5V to 60V, 3A Current Limiter with OV, UV, and reverse protection.
Empowering Intelligent Automation and Motion Control – Chapter 1: What is Convergence? AI, IoT, Cloud, Adaptive IOIn the first part of this series, learn how industrial convergence is driving new discussions in the automation industry, calling for more Intelligent at the Edge devices. Review how artificial intelligence, IoT, cloud computing, and adaptive IO technologies work together to provide better real-time information to optimize entire factories as well as individual machines.
Evaluation Kit for the MAX44284
MAX44284EVKITDemonstrates the high-precision real-time current monitoring of the MAX44284 current-sense amplifier.
DeepCover Embedded Security in IoT Authenticated Sensing and Notification
MAXREFDES143Demonstrates an authenticated data chain from a protected sensor node to a web server.
Secure Authentication Design with 1-Wire ECDSA and Xilinx Zynq SoC
MAXREFDES44Protects IP and authenticates peripherals to Xilinx Zynq™ FPGAs.
SHA-256 Secure Authentication Design
MAXREFDES34 (Alcatraz)This design implements SHA-256 authentication function using the 1-Wire protocol.
Human Body Temperature Sensor
MAX30205Clinical-grade temperature sensor offers ±0.1°C accuracy for thermometer applications
Meet DARWIN: A New Breed of Low-Power IoT MCUsSmarter. Leaner. Tougher. DARWIN MCUs are built to thrive in the evolving IoT. This new breed of IoT MCU combines Maxim’s wearable-grade power technology with the biggest embedded memories in their class and some of the most advanced embedded security in the world. Watch this video to learn how DARWIN MCUs can help you succeed in the fast-moving IoT market.
2.75V to 4.8V Input, 10mA Output, 35μVRMS Ultra Low Noise and Ripple Boost Regulator
MAX77231Compact boost with only 35µVRMS ripple and noise.
3.5V – 36V, 2A/3A, Synchronous Buck Converter with 15μA Quiescent Current and Reduced EMI
MAX17242Reliable Operation (42V Input Transient Protection), Long Battery Life (15µA IQ) and EN55022 EMI Performance.
300mA, Buck Converter with 1.1μA IQ
MAX77596This small, synchronous buck converter with integrated switches can deliver up to 300mA with input voltages from 3.5V to 24V, while using only 1.1μA quiescent current at no load.
Ultra-Low-Power Arm Cortex-M4 Processor with FPU-Based Microcontroller with Convolutional Neural Network Accelerator
MAX78000EVKITThe 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.
Smart Force Sensor Human Machine Interface DemoWatch a demo of our new concept for human-machine interfaces. Traditional touchscreens are fragile and don’t work well with gloves. Our smart force sensor reference design measures mass and center of mass to provide location and downward force of the touch input. MAXREFDES82 is a rugged, low power design that works in harsh environments where gloves may be required and glass is not allowed.
Introduction to the MAX40662 Quad Transimpedance Amplifier with Input Current Clamp and Multiplexer for LiDARThis video provides an introduction to Maxim's Quad Transimpedance Amplifier with Input Current Clamp and Multiplexer for LiDAR - the MAX40662
Introduction to the DS28C16 Low Voltage SHA-3 AuthenticatorThis video provides an introduction to the DS28C16 Low Voltage SHA-3 Authenticator
Introduction to the MAX77655 Low IQ SIMO PMIC with 4-Outputs Delivering up to 700mA Total Output CurrentThis video provides an introduction to Maxim's Low IQ SIMO PMIC with 4-Outputs Delivering up to 700mA Total Output Current - the MAX77655.
Get started with the MAX11131BOB boardThe MAX11131BOB Breakout Board provides for rapid prototyping and development with the MAX11131 (a 12-bit, 3Msps, 16-channel ADC). It interfaces to any Arduino™-compatible or mbed.org™ compatible platform system with expansion ports configurable for SPI communication.
Ultra-Low Power Biopotential HR Detection AFE
MAX30004For wearable applications, especially for chest straps and patches, provides R-R intervals for heart-rate detection.
Ultra-Low-Power Biopotential AFE for ECG and HR
MAX30003Clinical-grade with high-resolution ADC (5µVP-P noise) ideal for chest straps and patches.
Shrinking the Size of Precise Optical Sensors with a µSLIC Power Module
"Using Maxim’s MAXM15462 ultra-small power module and the tiny MAX14827A IO-Link device transceiver, we were able to achieve the design of one of the tiniest PCBs by meeting our very tough power consumption requirements due to the high efficiency of the power module and the low RON of the IO-Link PHY”
- Alexander Bohli, Senior Engineer R&D Electronics, SICK AG
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Automotive 100W USB-PD Buck-Boost Port Controller and Protector
MAX25430Industry's First Single-IC 100W Automotive USB-PD Power, Charger and Protector
Automotive 40V, 2.2MHz, H-Bridge Buck-Boost Controller
MAX25431Industry's Lowest IQ Buck-Boost Controller with Best in Class Transient Response
How to Quickly Research Essential Analog ICs On the GoWatch this video for a walk-through of how Maxim Integrated’s Essential Analog mobile app will help you quickly access a wealth of information about our high-performance analog building blocks. The app, with parts filtering, online ordering, technical resources, and more, is perfect for any engineer who needs to look up specs on-the-fly.
Getting Started with the MAX78000EVKITThe MAX78000EVKIT is perfect for getting started in the nascent world of machine learning. In this video Shawn Brooks shows you how to set up the system and run the sample applications to begin using the MAX78000 machine learning microcontroller.
25mA, Ultra-Small, High-Efficiency, Synchronous Step-Down DC-DC Converter
MAX17550This high-efficiency, high-voltage, synchronous step-down DC-DC converter has integrated MOSFETs and operates over a 4V to 60V input and has an adjustable Switching Frequency range of 100kHz to 2.2MHz with external synchronization.
Design in EE-Sim60V In, Ultra Small Design Footprint Switching Regulator provides 300mA
MAX15062A300mA, output current and up to 60V input, this ultra-small, high-efficiency, synchronous step-down DC-DC converter. This is the industry’s smallest high-voltage synchronous buck voltage regulator.
Design in EE-Sim
Introduction to the MAX25221 Automotive 4-Channel TFT-LCD Power Supply with VCOM BufferThis video provides an introduction to Maxim's Automotive 4-Channel TFT-LCD Power Supply with VCOM Buffer - the MAX25221.
Introduction to the MAX20004E MAX20006E MAX20008E 36V, 220kHz to 2.2MHz, 6A/8A Fully Integrated Step-Down Converters with 15µA Operating CurrentThis video provides an introduction to Maxim’s 36V, 220kHz to 2.2MHz, 6A/8A Fully Integrated Step-Down Converters with 15µA Operating Current – the MAX20004E, MAX20006E and MAX20008E.
Latch-Up Phenomenon BasicsDemystifying latch-up by highlighting the origin of the phenomenon.
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Benefits of SIMO ArchitectureDiscover how Single-Inductor Multiple-Output (SIMO) switching regulator technology enables incorporating multiple rails and power efficiency into the limited PCB area of today's small devices.
Automotive USB Power Delivery Port Protector
MAX25410Industry's First Automotive USB Power Delivery High-Voltage Protector with up to 24V Over-Voltage Protection