Digi-Key Electronics (DigiKey)
OEM : Retail
Headquartered in Thief River Falls, Minnesota, USA, Digi-Key Electronics is recognized as both the leader and continuous innovator in the high service distribution of electronic components and automation products worldwide. Founded in 1972, Digi-Key was a pioneer in the mail-order catalog business and a key resource for design engineers. Today, Digi-Key offers the world’s largest selection of electronic components in stock and available for immediate shipment. Beyond the products that drive technology innovation, Digi-Key also supports design engineers and procurement professionals with a wealth of digital solutions and tools to make their jobs more efficient. From prototype to production, we are here to fuel innovation all over the world.
Assembly Line
Water Scarcity Problems Solved with Advanced Agricultural Irrigation
Over the last decade, agricultural irrigation controls have become increasingly sophisticated. Now, many growers have replaced traditional irrigation timers and hydraulic regulators with advanced control and connectivity components adapted from those for industrial applications — including systems employing programmable logic controllers (PLCs), industrial PCs, and increasingly economical automation components with the ability to connect with and leverage common industrial communication protocols. These controllers and components can accept inputs from sources including soil moisture sensors, weather stations, and freeze sensors to prompt adaptive digital-farming responses in real time.
Sophisticated irrigation solutions abound for today’s large industrial farmers. In fact, automation technologies have also rendered advanced irrigation methods affordable enough for smaller farmers as well as food producers that specialize in vegetables and delicate crops with tighter profit margins.
🗜️ How to Monitor Material Levels in Tanks to Improve Supply Chain Management
Sensing and measuring the amount of solid, fluid, or granulated materials stored in tanks has become increasingly important due to supply chain challenges and the need to monitor inventory levels and control manufacturing processes closely. Depending on the application, level sensors can be required to be food-safe, withstand high pressures, temperatures, or vibrations, be used in corrosive environments with high resistance to acids and bases, and have a high degree of electrical and thermal isolation to ensure safe operation.
While it’s possible to design level sensors, it’s a complex task fraught with risk. The process begins with matching the measurement technology, such as capacitive, magnetic, ultrasonic, or optical sensing, with the application. The next step is selecting the housing, components, and other materials to support the operating environment. It’s also often necessary to gain safety and regulatory approvals and ensure that the design achieves the required ingress protection (IP) rating. Instead, designers can turn to pre-engineered level sensing solutions that ensure accurate and reliable measurements and speed time to market.
Enabling the Factory of the Future
Automation is an equalizer and is spawning a rapidly growing trend that’s advancing the use of robots to smaller factories. Manufacturers using Robotics as a Service (RaaS) gain the benefits of robotic process automation by leasing robotic devices and accessing a cloud-based subscription service rather than purchasing the equipment. Digi-Key’s state-of-the-art distribution facility, the new Product Distribution Center Expansion (PDCe), is held up as a prime example of a factory of the future.
Application Layer Protocol Options for M2M and IoT Functionality
With adoption of Internet of Things (IoT) and Industry 4.0 functions, devices are increasingly connected via industrial protocols. What’s more, today’s machine to machine (M2M) communications are rapidly standardizing on these protocols. Complicating matters is that IoT protocols don’t describe a single application-layer protocol, as several standards are in operation. So while early IoT implementations used standard internet protocols, there are also dedicated IoT protocols now available.
Modeling communication structures and identifying the right protocol for a particular application can be daunting. This article outlines what various protocols do as well as the options available for these protocols — so design engineers can more easily select the most suitable to integrate.