Recently, Harvard engineers in the United States have recently developed a new differential gear of one-millionth of the size of a differential gear for automobiles, which can be used to control the flight of aeronautical micro- robots , which can be used to monitor environmental hazards, forest fires and other The area that threatens.
This latest technology enables micro-aircraft to passively balance aerodynamics for the first time, enabling their wings to respond to wind, wing damage and other real-world problems. Pratheev S. Sreetharan, a graduate student at the School of Engineering and Applied Science at Harvard University, is the head of the study. He said: "The powertrain of this new aerospace micro-robot is shared with two-wheel-drive vehicles. The characteristics are both that the driving force is provided from a pair of wheels or wings, but the passive aviation imbalance control differential gear (PARITy) we designed is only one millionth of the differential gear of the car, only 5 mm long. The weight is 0.01 grams, which is one-millionth of the weight of the car's differential gear."
Scientists at Harvard University described in the journal Mechanical Design that the new miniature differential gear will perform well in aerospace micro-robots and eventually be used to detect areas that are more harmful to humans.
At present, scientists from many countries are actively researching and exploring cheap aeronautical micro-robots, which can be deployed in search and rescue operations, environmental monitoring and exploration of environments harmful to humans. In order to successfully fly through unpredictable environments, aerospace micro-robots must achieve state-by-second state changes. Usually insect flight is achieved by consistently flapping wings. The basic principles of kinematics and aerodynamics are difficult to understand.
Sri Sarah and colleague Robert J. Wood believe that the insect-based aeronautical micro-robot does not require complex electronic feedback coils to precisely control the position of the wings. Wood said: "We are not interested in the position of the wing due to the torsional forces generated by the aerospace micro-robot wing. Our latest technology uses 'mechanical intelligence' to determine the calibration flight speed of the wing and to determine the flight balance affecting the robot. The amplitude produced by other forces."
They also found that even when the vital part of the aeronautical micro-robot wing was removed, the passive aviation imbalance control differential gear (PARITy) powertrain can also produce self-correction, allowing the micro-robot to maintain balance in the air. Driven by the miniature differential gear, the aerospace micro-robot can be tapped 6600 times per minute.
According to Harvard University engineers, the new differential gear can effectively regulate the forces generated during flight, and is suitable for combination with electronic sensors and computer systems. It will make the quality of modern aerospace robots smaller and more similar in size and weight to some insects.
5.08MM Wire To Board Connectors
5.08MM Wire To Board Connectors
5.08 mm Wire to Board connectors are avialable in different terminations and sizes intended for use on a variety of applications. These connectors provide power and signal with different body styles, termination options, and centerlines. To find the wire to board set required, click on the appropriate sub section below.
5.08mm Wire To Board Connectors Type
5.08mm Terminal
5.08mm Housing
Pitch 5.08mm Wafer Right Angle&SMT Type
5.08mm Wafer Straight Type
5.08mm Wafer SMT Type
5.08mm Wafer Right Angle Type
5.08mm Wafer Single Row Straight Type
5.08mm Wafer Single Row SMT Type
5.08mm Wafer Double Row Straight Type
5.08mm Wafer Double Row SMT Type
5.08mm Wafer Double Right Angle Type
5.08mm Wafer Double Right Angle&SMT Type
5.08mm Wire To Board Connectors Advantages
Small electronics with high current requirements
One of the strongest advantage of the Micro Fit series is its applicability in delivering the high current requirement in electronics with supplying high power.
Safe and Reliable
ensure safety, system protection and performance with its bonded metallic conduits and multiple grounding points preventing fire hazards, component damage, overheating and possible electrocution.
ROHS Compliant
The product does not contain restricted chemicals in concentrations not complying with ROHS standards. Thus, for its components, the products can be worked upon at high temperatures required by lead-free soldering.
5.08 mm Wire To Board Connectors Application
Motherboard Connectors
The Motherboard of a computer holds together many of the crucial components such as the central processing unit (CPU), memory and connectors for input and output devices. Microfit connectors ensure high performance electronic system in quality motherboards.
You can easily find Scondar`s Microfit in most ITX Motherboards, in which its functionality is best described for solid performance in a small footprint, and low power consumption (less than 100 Watts).
Printer Connectors
The 5.08mm Microfit can also be seen in most printers
Automotive PC Connectors
Smart, high power automotive PC power supply garners its capabilities from quality Microfit connectors, designed for general purpose battery powered applications. These are manufactured to provide power and to control the motherboards' switch based on ignition status.
Solar Panels
Microfit can also be commonly found in a solar array. A solar array is connected to each other, and to inverters through connectors to produce a successful flow of electricity.
5.08MM Wire To Board Connectors
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