Analog Devices has built one of the longest standing, highest growth companies within the technology sector utilizing cultural pillars such as innovation, performance, and excellence. Acknowledged industry-wide as the world leader in data conversion and signal conditioning technology, Analog Devices serves over 100,000 customers, representing virtually all types of electronic equipment. Celebrating over 50 years as a leading global manufacturer of high-performance integrated circuits used in analog and digital signal processing applications, Analog Devices is headquartered in Norwood, Massachusetts, with design and manufacturing facilities throughout the world. Analog Devices’ is included in the S&P 500 Index.
Chalk Talks Featuring Analog Devices
Building Trusted Industrial Automated Control Systems with MAXQ1065
Sponsored by Mouser Electronics and Analog Devices
In this episode of Chalk Talk, Christophe Tremlet from Analog Devices and Amelia explore how we can build trusted industrial automated control systems with the MAXQ1065 Ultra-Low-Power Cryptographic Controller with ChipDNA™ for Embedded Devices. They investigate how this solution utilizes physical unclonable function encrypted memory, secure key storage and asymmetric crypto public key deployment to provide a great solution for industrial automated control systems.
Gigaspeed isolated LVDS: Unlocking New Possibilities
Sponsored by Mouser Electronics and Analog Devices
Analog Devices’ Gigaspeed Isolated LVDS family of devices offers versatility when designing isolation for gigaspeed applications. In this episode of Chalk Talk, Fabio Bottinelli from Analog Devices and Amelia Dalton explore the history of isolation technologies at Analog Devices. They also investigate which technology solutions are best suited for safe and robust communications, and how the isolation technology, components, and system expertise of Analog Devices Gigaspeed Isolated LVDS solutions can improve your next design.
Signal Conditioning Schematics with Signal Chain Designer
Sponsored by Mouser Electronics and Analog Devices
In this episode of Chalk Talk, Matt Duff from Analog Devices and Amelia Dalton walk through the steps involved to create an analog front end with Analog Devices Signal Chain Designer. With this tool, they demonstrate how you can quickly create circuits, simulate how the amplifier, filter and ADC interact and easily export to LTSpice with this multifaceted tool.
Mounted Robotics End of Arm Tools
Sponsored by Mouser Electronics and Analog Devices
In this episode of Chalk Talk, Rajan Sharma and Rafael Marengo from Analog Devices and Amelia Dalton chat about the challenges associated with motor control, industrial vision and real-time connectivity for industrial robotic designs. They also investigate the variety of solutions Analog Devices offers for mounted robotics designs and the role that Gigabit Multimedia Link (GMSL) plays in these applications.
ADI Pressure Sensing Solutions Enable the Future of Industrial Intelligent Edge
Sponsored by Mouser Electronics and Analog Devices
The intelligent edge enables greater autonomy, sustainability, connectivity, and security for a variety of electronic designs today. In this episode of Chalk Talk, Amelia Dalton and Maurizio Gavardoni from Analog Devices explore how the intelligent edge is driving a transformation in industrial automation, the role that pressure sensing solutions play in IIoT designs and how Analog Devices is reshaping pressure sensor manufacturing with single flow calibration.
It’s the little things that get you; Light to Voltage Converters
Sponsored by Mouser Electronics and Analog Devices
In this episode of Chalk Talk, Amelia Dalton and Ed Mullins from Analog Devices chat about the what, where, and how of photodiode amplifiers. They discuss the challenges involved in designing these kinds of components, the best practices for analyzing the stability of photodiode amplifiers, and how Analog Devices can help you with your next photodiode amplifier design.
Audio Design for Augmented and Virtual Reality (AR/VR) Glasses
Sponsored by Mouser Electronics and Analog Devices
Open ear audio can be beneficial to a host of different applications including virtual reality headsets, smart glasses, and sports and fitness designs. In this episode of Chalk Talk, Amelia Dalton and Ryan Boyle from Analog Devices explore the what, where, and how of open ear audio. We also investigate the solutions that Analog Devices has for open ear audio applications and how you can design open ear audio into your next application.
Silence of the Amps: µModule Regulators
Sponsored by Mouser Electronics and Analog Devices
In this episode of Chalk Talk, Amelia Dalton and Younes Salami from Analog Devices explore the benefits of Analog Devices’ silent switcher technology. They also examine the pros and cons of switch mode power supplies and how you can utilize silent switcher µModule regulators in your next design.
Featured Content from Analog Devices
Libby's Lab
Libby's Lab - Scopes out: Analog Devices DEMO-ADIN1100D2Z Media Converter Boards
Mouser Electronics presents Libby's Lab - scoping out Analog Devices DEMO-ADIN1100D2Z Media Converter Boards for long-run Ethernet connectivity.
featured paper
USB-C and USB Power Delivery Solutions
Every electronic market is rapidly adopting the latest USB Type-C® and USB Power Delivery (USB-PD) specifications. The new USB Type-C cable and connector specifications dramatically simplify the way we interconnect and power electronic gadgets. With the proliferation of battery-operated devices for consumer, medical, automotive, and industrial applications, USB-C is increasingly becoming the preferred universal standard for charging and powering devices.
featured paper
Enhancing PSAP Audio Performance and Power Efficiency in Hearables with Anti-Noise
PSAP enhances user's listening experiences with hearables in challenging environments. Long delay in the audio system creates distortion known as comb effect in PSAP. This paper investigates the root cause of the comb effect and explains how a new anti-noise device yields a superior system performance compared to conventional PSAP solutions.
featured paper
Add Authentication Security to Automotive Endpoints Using the 1-Wire Interface
By adding a single authentication IC, automotive designers can authenticate a component with only one signal between an ECU and endpoint component. This is particularly important as counterfeit and theft are increasingly problems in automotive applications. This application note describes how to implement the DS28E40 Deep Cover 1-Wire Authenticator in a system to provide authentication for optical cameras, headlamps, EV Batteries, occupancy sensors, and even steering wheels, and more.
featured paper
Building Automation and Control Systems (BACS)
Analog Devices' industrial communication products provide building automation engineers with a broad range of Analog IO, Digital IO, Isolation, and communication interfaces that combine low power, robust performance, and improved diagnostics in the smallest possible form factors.
featured paper
MAX22005 Universal Analog Input Enables Flexible Industrial Control Systems
This application note provides information to help system engineers develop extremely precise, highly configurable, multi-channel industrial analog input front-ends by utilizing the MAX22005.
featured paper
How to Fast-Charge Your Supercapacitor
Supercapacitors (or ultracapacitors) are suited for short charge and discharge cycles. They require high currents for fast charge as well as a high voltage with a high number in series as shown in two usage cases: an automatic pallet shuttle and a fail-safe backup system. In these and many other cases, the fast charge is provided by a flexible, high-efficiency, high-voltage, and high-current charger based on a synchronous, step-down, supercapacitor charger controller.
featured paper
Using the MAX66242 Mobile Application, the Basics
This application note describes the basics of the near-field communication (NFC)/radio frequency identification (RFID) MAX66242EVKIT board and an application utilizing the NFC capabilities of iOS and Android® based mobile devices to exercise board functionality. It then demonstrates how the application enables the user with the ability to use the memory and secure features of the MAX66242. It also shows how to use the MAX66242 with an onboard I2C temperature sensor which demonstrates the energy harvesting feature of the device.