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How to Build Your Own Quadcopter Drone at Home for Beginners- Part 1

RAMBO TECHNOLOGY SERVICES AND SOLUTIONS
in Assemblies
8 0 Beginner
BUILD A QUADCOPTER IN JUST 5 EASY STEPS. THE STEPS ARE EASY TO UNDERSTAND WITH MULTIPLE PICTURES AT EACH AND EVERY STEP. ALSO GIVEN REQUIRED COMPONENTS DETAILS IN THE YOUTUBE VIDEO DESCRIPTION. The quadcopter shown above is a simple type of multicopter, with each motor/propeller rotating in opposite directions from the two motors on either side of it (i.e. motors at opposite corners of the frame rotate in the same direction). A quadcopter can control its roll and pitch rotation by speeding up two motors on one side and slowing down the other two. For example, if the quadcopter wants to roll to the left, it will speed up the motors on the right side of the frame and slow down the two on the left. Similarly, if it wants to spin forward, it speeds up the rear two motors and slows down the front two. The copter can turn left or right by speeding up two motors that are diagonal to each other and slowing down the other two. Horizontal movement is accomplished by temporarily speeding up/decelerating some of the motors so that the vehicle leans in the desired direction of travel and increases the overall thrust of all the engines so that the vehicle moves forward. Generally, the more the vehicle leans, the faster it travels. Altitude is controlled by accelerating or decelerating all motors simultaneously. PART 2 LINK: https://www.youtube.com/watch?v=QFeuGz-820Y Warning:--- This video is for educational purposes only. Do not attempt to recreate the actions in this video as they are dangerous if not performed correctly and may result in serious injury. If you are confident on the information shown in this video, you are responsible for the results. Have fun, but always think ahead and remember that every project you attempt is at your own risk. For more details contact email: rambo.tss19@gmail.com
CATIA fpvdrone fpv vtoldrone drone uav vtol

VTOL UAV DESIGN AND FLIGHT TEST

RAMBO TECHNOLOGY SERVICES AND SOLUTIONS
in Design & CAD
8 0 Intermediate
This video contains all the design and flight testing details of the following VTOL UAVs. ➡️Coax Copter, ➡️Bi Copter, ➡️Tri Copter, ➡️Quad Copter, ➡️Hybrid Fixed-Wing VTOL UAV, ➡️Tilt Rotor VTOL UAV What is a MultiCopter and How Does it Work? A multicopter is a mechanically simple aerial vehicle whose movement is controlled by accelerating or decelerating multiple downward thrust motor/propeller units. Multicopters are aerodynamically unstable and require an onboard computer (autopilot) for stable flight. As a result, they are "fly by wire" systems and if the system doesn't work, you're not flying. The autopilot maintains a precise estimate of its orientation and position by integrating data from the gyroscopes and accelerometers of the small on-board MEMs. The quadcopter shown above is a simple type of multicopter, with each motor/propeller rotating in opposite directions from the two motors on either side of it (i.e. motors at opposite corners of the frame rotate in the same direction). A quadcopter can control its roll and pitch rotation by speeding up two motors on one side and slowing down the other two. For example, if the quadcopter wants to roll to the left, it will speed up the motors on the right side of the frame and slow down the two on the left. Similarly, if it wants to spin forward, it speeds up the rear two motors and slows down the front two. The copter can turn left or right by speeding up two motors that are diagonal to each other and slowing down the other two. Horizontal movement is accomplished by temporarily speeding up/decelerating some of the motors so that the vehicle leans in the desired direction of travel and increases the overall thrust of all the motors so that the vehicle moves forward. Generally, the more the vehicle leans, the faster it travels. Altitude is controlled by accelerating or decelerating all motors simultaneously. What is the difference between a MultiCopter and a UAV/Drone? A multicopter becomes a UAV or drone when it is capable of autonomous flight. Typically this means taking accelerometer and gyro information and combining it with barometer and GPS data so the flight controller understands not only its orientation, but also its position. For more details contact email: rambo.tss19@gmail.com
SOLIDWORKS robotics fpv vtoldrone drone uav vtol

How to Build Your Own Quadcopter Drone at Home for Beginners- Part 2

RAMBO TECHNOLOGY SERVICES AND SOLUTIONS
in Assemblies
8 0 Beginner
BUILD A QUADCOPTER IN JUST 5 EASY STEPS. THE STEPS ARE EASY TO UNDERSTAND WITH MULTIPLE PICTURES AT EACH AND EVERY STEP. ALSO THE REQUIRED COMPONENTS DETAIL GIVIEN IN THE YOUTUBE VIDEO DESCRIPTION. The quadcopter shown above is a simple type of multicopter, with each motor/propeller rotating in opposite directions from the two motors on either side of it (i.e. motors at opposite corners of the frame rotate in the same direction). A quadcopter can control its roll and pitch rotation by speeding up two motors on one side and slowing down the other two. For example, if the quadcopter wants to roll to the left, it will speed up the motors on the right side of the frame and slow down the two on the left. Similarly, if it wants to spin forward, it speeds up the rear two motors and slows down the front two. The copter can turn left or right by speeding up two motors that are diagonal to each other and slowing down the other two. Horizontal movement is accomplished by temporarily speeding up/decelerating some of the motors so that the vehicle leans in the desired direction of travel and increases the overall thrust of all the engines so that the vehicle moves forward. Generally, the more the vehicle leans, the faster it travels. Altitude is controlled by accelerating or decelerating all motors simultaneously. PART 1 LINK: https://youtu.be/19V4oBooOhU PART 3 LINK: It will be uploaded soon... Warning:--- This video is for educational purposes only. Do not attempt to recreate the actions in this video as they are dangerous if not performed correctly and may result in serious injury. If you are confident on the information shown in this video, you are responsible for the results. Have fun, but always think ahead and remember that every project you attempt is at your own risk. For more details contact email: rambo.tss19@gmail.com WhatsApp:7548875553
CATIA fpvdrone fpv automobile vtoldrone drone uav vtol

Testing of Wireless Charging Module for Drone Battery.

RAMBO TECHNOLOGY SERVICES AND SOLUTIONS
in Modeling
1 0 Intermediate
Hey DIY makers Create your own Wireless Charger for your Wireless Charging Gadgets like Samsung Apple Flagship phone, or many other smartphones that support wireless charging. Moreover, you can charge up many of your wearables like Smartwatch and iPods. This portable digital wireless charging module works on 5V DC supply voltage with Micro USB port for input Supply. You can provide supply to the module from your smartphone charger or from your PC USB port. The 5V 2A wireless transmitter receiver charging coil module is for a variety of small electronic products, wireless charging, power supply development, and design, with a small size, easy to use, high efficiency, and low price characteristics. Circuit comes with LED Indicator Light. to show the status. like the GREEN LED glow showing circuit is powered up. While it has BLUE LED for showing the status of detection of the phone and charging Status.
CATIA fpvdrone fpv automobile vtoldrone drone uav vtol

How to bind FLYSKY FS-i6X transmitter with receiver and calibrate ESC for Remote Control Car?

RAMBO TECHNOLOGY SERVICES AND SOLUTIONS
in Modeling
1 0 Intermediate
Using a drone is easy but controlling a drone is a tough job that’s why a transmitter is needed. You can’t fly a multirotor without it because it uses radio signals to send commands wirelessly to a Radio Receiver, which is connected to an aircraft or multirotor that is being remotely controlled. and Flysky is one of the popular brands that only manufactures a Diverse Range of Transmitters and Receivers at a reasonable price. The AFHDS 2A (Automatic Frequency Hopping Digital System Second Generation) developed and presented by Flysky is specially developed for all radio control models. Offering superior protection against interference while maintaining lower power consumption and high reliable receiver sensitivity FrSky Transmitter and Receiver is gaining so much popularity due to its originality and compatibility in high-end drone projects. 1. 10 channel 2.4GHz radio with telemetry capability 2. Automatic Frequency Hopping Digital System (AFHDS) spread spectrum technology 3. Transmitters come pre-bound to the receiver 4. Multiple control switches including a 3-pos switch and two potentiometers 5. Easy to use and program 6. 20 model memory 7. Trainer port 8. Backlit LCD screen displays real-time transmitter and receiver voltage
CATIA fpv automobile vtoldrone drone uav
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