Automotive Electronics: Drive-by-Wire (DBW) Technology
Drive-by-wire (DBW) electronics, also known as electronic throttle control (ETC), is a technology used in modern vehicles to replace the traditional mechanical linkages between the accelerator pedal and the throttle body with electronic sensors and actuators. When you press the accelerator pedal in a traditional…
Automotive Electronics: 11 Advanced Driver Assistance Systems (ADAS)
Advanced Driver Assistance Systems (ADAS) are a set of technologies and features designed to assist drivers in operating their vehicles safely and more efficiently. These systems use a combination of sensors, cameras, radar, and other electronic manufacturing technologies to monitor the vehicle’s surroundings, provide real-time…
Electrical Drive System in Electric Vehicles (EVs)
An electric vehicle (EV) electrical drive system converts energy from the vehicle’s battery into mechanical power to drive the wheels. The critical components of an EV drive system include the electric motor, power electronics, the battery pack, and a controller. Here’s a detailed explanation of…
Automation Control: Ladder Logic Programming Simplified
Ladder Logic Programming is a graphical programming language commonly used in industrial automation and control systems, particularly in programmable logic controllers (PLCs). It was initially developed to mimic traditional control systems’ electrical relay logic diagrams. Ladder Logic is intuitive and easy for control engineers, electricians,…
Renewable Energy Systems: 12 Replenishable Sources
Several renewable energy systems harness energy from naturally occurring, replenishable sources. These systems are considered environmentally friendly because they produce little to no greenhouse gas emissions and reduce our reliance on fossil fuels. Here are some common renewable energy systems: These renewable energy systems are…
Switch-Mode Power Supply: 17 Design Steps
Designing a Switch-Mode Power Supply (SMPS) or switching power supply can be a complex process that requires a good understanding of power electronics and electrical engineering principles. Here are the general steps involved in designing a Switch-Mode Power Supply (SMPS): Designing an SMPS can be…
Understanding Power Electronics in PCB Assembly
PCB assembly in power electronics refers to assembling printed circuit boards (PCBs) specifically designed to control and manage electrical power in various electronic devices and systems. Power electronics deals with converting, controlling, and distributing electrical energy, and PCB assembly plays a crucial role in creating…
IPC Standards Compliance: ANZER’s 8 Important Reasons
IPC (Institute for Printed Circuits) standards are a set of guidelines and specifications that govern the design, manufacturing, and testing of electronic assemblies, including printed circuit boards (PCBs) and electronic components. IPC standards compliance is essential at ANZER to help ensure the reliability and safety…
Wire and Cable Assemblies: Connectors and Terminations
Wire and cable assemblies are crucial components in various electrical and electronic systems. They consist of wires or cables that are connected to one another or other components using connectors and terminations. These connectors and termination methods are selected based on factors like the application,…
Manufacturing Wires and Cables: 10 Basics
Wires and cables are manufactured through various processes involving materials and technologies. The specific methods can vary depending on the type and purpose of the wire or cable, but here is a general overview of how wires and cables are made: It’s important to note…
Battery Technology Evolution: Electrified Future
Battery technology evolution has been driven by the demand for portable power sources in various applications, including electronics, transportation, and renewable energy storage. Here is an overview of the key milestones and developments in battery technology: Battery technology evolution continues as researchers address issues like…
Q: What is a J1772 Charging Adapter
A: A J1772 charging adapter is used in electric vehicle (EV) charging to enable compatibility between different charging standards. J1772 is a standard for Level 2 charging in North America, and it defines the physical connector and communication protocol for charging electric vehicles. Suppose you…
PCB Electronics: 15 Design for Test (DFT) Strategies
Design for Test (DFT) is essential for electronics assembly and PCB (Printed Circuit Board) design. DFT strategies are techniques and practices employed during the design phase to ensure that electronic circuits and components are easily testable and can be efficiently diagnosed for faults and defects…
Residential EV Installations: 15 Considerations
Residential EV installations, often called home Electric Vehicle (EV) charging stations or electric vehicle supply equipment (EVSE), require some important considerations. Here are some key things to know about EV installations at homes: Before proceeding with an EV charger installation at your home, it’s advisable…
PCB Assembly: Controlling Moisture in Semiconductor Devices
Controlling moisture in semiconductor devices during PCB (Printed Circuit Board) assembly is crucial for several reasons: Manufacturers often use techniques such as vacuum-sealed packaging, humidity-controlled storage, and careful handling procedures in controlling moisture in semiconductor devices during PCB assembly. These measures help ensure that the…
Troubleshooting Cable Assemblies: 15 Important Steps
Troubleshooting cable assemblies can be challenging but essential to ensure reliable electrical connections and prevent potential safety hazards. Here are some steps to help you troubleshoot common issues with wire and cable assemblies: Remember that safety is paramount when working with electrical systems. Always disconnect…
Wireless Telemetry Systems: Real-Time Monitoring
Wireless telemetry systems are communication systems designed to transmit data wirelessly from remote or hard-to-reach locations to a central monitoring or control station. These systems are commonly used in various industries and applications where real-time data acquisition, monitoring, and control are essential. Here are some…
Importance of Electronics Assembly in Robotics
Electronics assembly in robotics involves the process of building and integrating electronic components and circuits into robotic systems. This process is essential for ensuring that robots can function effectively, efficiently, and reliably. Here are some key aspects of electronics assembly in robotics: In summary, electronics…
Motion Control Systems: Example Applications
Motion control systems is a technology that uses various components to regulate the movement of machines or mechanisms. It is widely used in various industries and applications to precisely control objects’ position, speed, and acceleration. Here are some common applications of motion control: These are…
PCB Assembly: Components on Both Sides
Surface Mount Technology (SMT) components can be placed on both sides of a printed circuit board (PCB) for several reasons: Not all PCBs require components on both sides, and the decision to use both depends on the specific design requirements and constraints. Additionally, designers must…