Thanks for your comment! The motor is the Titan Air TA130 by Xoar. Here is some of our data from tests using this motor: database.tytorobotics.com/motors/3x6/xoar-ta130-25-kv80
What is the Market prise of this types drone+ propaler+ controlpanel + cerki + leghium. Battery . please more videos. For complit. Chart .🎉🎉🎉motor and. Battery longibity / lifetimes ???
Hi Shivansh, that's a good question. I pulled some data from our motor/propeller testing database (database.tytorobotics.com/tests), and used the filters to look at motors providing at least 5.5 kg of thrust. Motors that reached 5.5 kg included KV120, KV80, KV29. Hope that helps!
Hi @Natthaphon, thanks for your comment. I think you will find this article from our website helpful for making your calculations: www.tytorobotics.com/blogs/articles/how-to-increase-drone-flight-time-and-lift-capacity
@@tytorobotics -- Thanks for this wonderful article! Question - As you know hover ratio Hr = T(thrust kgf)/P (W) is proportional to 1/D (prop diameter m). So shouldn't the first thing to improve efficiency Hr be to use a longer propeller -- which may require a larger frame and a stronger motor? I can understand that some people already have a frame and must use it. But others may be in a position to purchase a frame. Aside from the issue of practicality, what stops us from having a larger and larger propeller and boundless efficiency? Is there a physical law that limits large diameter props efficiency?
@@customdevelopment136 Hello! I am one of the tool's designer. You are right that increasing the propeller size is on of the first option to look at to increase efficiency. The limit of propeller size is the impracticality of having larger propellers. They are slower to react to disturbances, heavier, and require a bigger airframe. For extremely large and efficient propellers, look at the records of human powered helicopters; ruclips.net/video/syJq10EQkog/видео.html! You can see how such vehicles would not be very practical outside of those competitions.
Nice stuff! Could you please tell me the power to mass (thrust) function you use? P = F(M, D, rho) where D is prop diameter. I have seen 3 different versions, and do not know which is correct. Thanks!
Hello! I am one of the tool's designer. The formulas you find online and in research papers are great approximations for starting out and selecting which range of prop will be needed. You'll will typically then need experimental data to obtain exact and comparable figures. You can look at our database (database.tytorobotics.com) for such data or use one of our tools.
Thanks for your question! You can select settings for the product here and get a quote from our sales department: www.tytorobotics.com/collections/all/products/series-1780-thrust-stand?.com
Hi Babuthapa, thanks for your comment! The price will depend on which size and configuration you need. We don't give out pricing information on RUclips, but you can contact our sales team with your requirements if you want a quote: www.tytorobotics.com/pages/request-a-quote
Lauren, thanks to you and the guys for the set-up demo and tests.
Beautiful experiment to test thrust.
thank you!
Thử nghiệm động cơ mạnh mẽ rất tuyệt vời xin cảm ơn đã chia sẻ với khán giả
🎉🎉 can you please tell me more about the motor
Thanks for your comment! The motor is the Titan Air TA130 by Xoar. Here is some of our data from tests using this motor: database.tytorobotics.com/motors/3x6/xoar-ta130-25-kv80
Maa syaa الله.....bagus kali ini mas bro...mantap...trimakasih
Красивая девочка! И умненькая!
Nice 🎉
Good work
Ive always watch how you di it ❤❤❤🎉🎉🎉😮😮😮😮😮
Good test
❤❤❤
Conducting a test inside a room where the trust hits a wall must greatly effect readings compared to test outside?
in Austria we called it "Bodeneffekt"
and I belive your right.
They have a chimney or something unless it's all for a single video.
Excelente 👏👏👏👏
What is the Market prise of this types drone+ propaler+ controlpanel + cerki + leghium. Battery . please more videos. For complit. Chart .🎉🎉🎉motor and. Battery longibity / lifetimes ???
👍👍👍👍👍👍👍👍Siuper
How much is motor and propeller cost price
How much KV motor would be sufficient for providing 5.5kg thrust
Hi Shivansh, that's a good question. I pulled some data from our motor/propeller testing database (database.tytorobotics.com/tests), and used the filters to look at motors providing at least 5.5 kg of thrust. Motors that reached 5.5 kg included KV120, KV80, KV29. Hope that helps!
Hi please help me for calculating power of quadcopter into fly hovering
Hi @Natthaphon, thanks for your comment. I think you will find this article from our website helpful for making your calculations: www.tytorobotics.com/blogs/articles/how-to-increase-drone-flight-time-and-lift-capacity
@@tytorobotics -- Thanks for this wonderful article!
Question - As you know hover ratio Hr = T(thrust kgf)/P (W) is proportional to 1/D (prop diameter m). So shouldn't the first thing to improve efficiency Hr be to use a longer propeller -- which may require a larger frame and a stronger motor? I can understand that some people already have a frame and must use it. But others may be in a position to purchase a frame. Aside from the issue of practicality, what stops us from having a larger and larger propeller and boundless efficiency? Is there a physical law that limits large diameter props efficiency?
@@customdevelopment136 Hello! I am one of the tool's designer. You are right that increasing the propeller size is on of the first option to look at to increase efficiency. The limit of propeller size is the impracticality of having larger propellers. They are slower to react to disturbances, heavier, and require a bigger airframe. For extremely large and efficient propellers, look at the records of human powered helicopters; ruclips.net/video/syJq10EQkog/видео.html! You can see how such vehicles would not be very practical outside of those competitions.
What is the name of the aluminum block rod, that you're used in the video
If we understand your question correctly, they are called T-slotted beams
I am interesting this video
How can i get the more information for this video
Thanks, Jaelani
Batam Indonesia
Hi Jaelani, you can visit this page here for more information: www.tytorobotics.com/pages/series-1780
@@tytorobotics
How money price for this produck
@@batamkepri2109 Contact our sales team and they can prepare you a quote: www.tytorobotics.com/pages/request-a-quote
@@tytorobotics semoga sukses ya ka' trimakasih
Nice stuff! Could you please tell me the power to mass (thrust) function you use? P = F(M, D, rho) where D is prop diameter. I have seen 3 different versions, and do not know which is correct.
Thanks!
Hello! I am one of the tool's designer. The formulas you find online and in research papers are great approximations for starting out and selecting which range of prop will be needed. You'll will typically then need experimental data to obtain exact and comparable figures. You can look at our database (database.tytorobotics.com) for such data or use one of our tools.
Power calculated via current and voltage, from what I recall. Thrust measured from a load cell thrust sensor. Torque measured by load cell.
@@LydellAaron -- Hi is there a formula? I don't have thrust or torque sensors.
@@customdevelopment136 oh, I thought you bought one of their units, and were asking which equation they used in their system? (P = IV). My mistake.
@@LydellAaron The equation looks something like P=(Mg3/npi)^1/2/r. If you have prop diameter and load, then you can calculate power needed.
Where do you get the propellers from ?
We get them from a couple different sources, mainly Xoar and Mejzlik.
@@tytorobotics Xoar don’t sell to individual buyers !
haw to mak
How to buy the product
Thanks for your question! You can select settings for the product here and get a quote from our sales department: www.tytorobotics.com/collections/all/products/series-1780-thrust-stand?.com
Boa noite quanto custa o kit para o Brasil 🇧🇷
Nosso distribuidor no Brasil poderá responder sua dúvida: www.tytorobotics.com/pages/distributors
whats the name of that motor .please send contacts for ordering them
The motor is the Titan Air TA130 by Xoar: www.xoarintl.com/brushless-electric-motors/titan-air/titan-air-TA130-light-weight-pro-series/
Where we can buy that motor madam
BUILD YOUR OWN. YOU ONLY NEED SOME TOOLS. :3
@@melonshop8888 how to build
It is necessary to buy batteries that cost tons of money, not not, we will look for a simpler option.
Price
Hi Babuthapa, thanks for your comment!
The price will depend on which size and configuration you need. We don't give out pricing information on RUclips, but you can contact our sales team with your requirements if you want a quote: www.tytorobotics.com/pages/request-a-quote
What motor and esc is this?
It's the Pulse P200 ESC and the TA130 motor, both by Xoar
и где 75 кг???
Я так понял, что приспособа расчитана на максимальную тягу 75 кг. Но тогда у них должен быть движок киловатт на 20.
❤️❤️❤️🇮🇱⚘️🌷⚘️🇮🇱🙏🙏😊😊😊👍👍👍
SOUND!
How much thrust gives that size propeller? , I mean the maximum thrust
Good question. It depends on a lot of factors, but a prop of this size (48" diameter), would probably max out around 50 - 60 kgf of thrust
@@tytorobotics thanks so much😁
@@thestrongman11 we had about 55 kgf thrust with our 1,07 m prop at 17 h.p. on our motorhangglider
@@tytorobotics YOU CAN YOU THIS IN YOUR NAPSACK.