What kind of spark will the drone be combined with the robot?

Korean scientist Ilhan Bae has long dreamed of merging drones and robots to create a new kind of flying robot. After years of dedicated research, he finally brought the Robot Drone Man to life. This unique machine can fly remotely like a drone, move on the ground with its wheels, and even interact with people using its two robotic arms. It’s a fascinating blend of aerial and ground capabilities. Visually, the Robot Drone Man looks like a hybrid between a drone and a robot. It features a flat drone-like body on top with robotic arms and three wheels at the bottom. Standing at 0.9 meters tall and weighing 11 kilograms, it can move across the ground at a speed of 3 kilometers per hour. Though its design may seem a bit unusual, it offers practical advantages by combining the strengths of both drones and robots. This robot can fly in the air or roll on the ground, making it more adaptable to different environments and reducing the impact of terrain and obstacles. It's designed to navigate through spaces that traditional robots or drones might struggle with. When the robot reaches its destination, it can use its video function and two robotic arms to interact with people remotely. This allows users to communicate and perform tasks from a distance, breaking down physical barriers. According to the researchers, the main goal is to create a future where robots and drones are no longer separate entities but work seamlessly together. They hope to open up a new market for these hybrid machines. Unlike humanoid robots such as SoftBank’s Pepper, which are limited to indoor spaces, the Robot Drone Man can reach customers anywhere, offering greater flexibility and accessibility.

Off-Grid Solar Inverter

The Off-Grid Solar Inverter is compact, efficient, and reliable, with built-in MPPT charge controller and pure sine wave output.Off-grid solar inverters are essential components of off-grid solar power systems, which are designed to provide electricity in remote areas where grid power is unavailable.

Materials used in off-grid solar inverters typically include:

1. Printed circuit boards (PCBs) – These are used to mount and interconnect electronic components such as resistors, capacitors, transistors, and integrated circuits.

2. Power semiconductors – These components, such as MOSFETs and IGBTs, are used to switch the DC input from the solar panels into AC output for use in household appliances.

3. Transformers – These are used to step up or step down the voltage levels of the AC electricity produced by the inverter.

4. Cooling fans – These are used to dissipate heat generated by the inverter during operation.

The production process of off-grid solar inverters typically involves the following steps:

1. Design and prototyping – Engineers design the circuitry and layout of the inverter using computer-aided design (CAD) software. Prototypes are then built and tested to ensure functionality and efficiency.

2. Sourcing components – Manufacturers source the necessary electronic components, PCBs, transformers, and cooling fans from suppliers.

3. Assembly – Workers assemble the components onto the PCBs using automated pick-and-place machines or manual soldering techniques.

4. Testing – Each inverter is subjected to rigorous testing to ensure that it meets safety and performance standards. This includes testing for efficiency, voltage regulation, overload protection, and temperature control.

5. Packaging – Once the inverters have passed testing, they are packaged and prepared for shipment to customers.

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Bosin Power Limited , https://www.bosinsolar.com