The commonly known helicopter has one motor, while multicopter is an unique kind of aircraft that is equipped with two or more motors. In this post we will introduce you to some popular types of multirotor, and explore the pros and cons of these configurations. Article first created in Oct 2013, last updated in Nov 2016. Multicopters (as known as multirotors) often use fixed-pitch propellers, so the control of vehicle motion is achieved by varying the relative speed of each motor. Radio controlled multicopters are increasingly popular for aerial photography, and land surveying. More recently Drone Racing is a hot topics, where multicopters are used in racing and free-style competition. There are many types of multirotor. They are generally categorized by the number of motors used, for example a three-motored multicopter is a called a tricopter, and the configuration can be refereed to as Y3. The number of motors and configuration have impact on flight performance.

For instance the more motors, the more power (more lift capacity), which means you could carry more payload. More motors also means better redundency in case of motor failure. But the downside is decrease in energy efficiency, and increase in cost for purchasing additional motors and associated parts. The BiCopter has two motors that can be moved by servos. It is similar to the “Avatar Gunship” (if you have seen the movie Avatar). Here is an example of the bicopter avatar gunship. Bicopter could be the cheapest multicopter config among all because it only uses two motors and two servos, but it’s also the most difficult platform to stabilize in flight. It also has the least lifting power given the fact that it has only 2 motors. Bicopter is not a very popular configuration for hobbyists, and there isn’t much information to be found on the internet. The Tricopter has 3 motors in a “Y” shape, where the arms are usually 120 degrees apart. Tricopters can sometimes have a “T” shape. 

Two propellers on the front arms spins the opposite direction to counter each other out. The rear motor can be tilted left and right by a servo to enable the yaw mechanism. Here is a “Y3” tricopter I built before. Here is a “T3″ Tricopter example. It’s a popular yet relatively cheap configuration because it only requires 3 motors, although you also need an additional servo but they are generally cheaper than brushless motors. Generally speaking, tricopters are less stable than other multirotors with more motors, and it’s not as robust due to the vulnerability of the tail servo and mechanics in crashes. For hobbyists, it’s also harder to build because of the yaw mechanism. Tricopter has more yaw authority comparing to a quadcopter. What that means is when a quadcopter or hexacopter yaws, they do so by slowing down half of the motors and speeding the other half. If the copter is already at full speed (all motors at 100%), it will have to lower the speed to make yaw happens.

However on a Tricopter, it uses a servo to achieve yaw so it loses less thrust when the same situation happens. It also has lower lifting power because of the smaller motor numbers. A quadcopter has 4 motors mounted on a symmetric frame, each arm is typically 90 degree apart for the X4 config. Two motors rotate CW (clockwise), and the other two rotate CCW (counter clockwise) to create opposite force to stay balance. parrot ar drone boulangerQuadcopter is the most popular multirotor configuration, with the simplest mechanical structure.aibotix aibot x6 uav drone price There are 2 main configurations: X or +. parrot ar drone 2 reichweite erhöhenX config is more popular as you can keep the propellers out of the camera’s view (for FPV and aerial filming). parrot ar drone costco

Some people fly the plus (+) config because it’s more intuitive, and flies like an airplane. It’s easier to figure out the orientation. There is also the H configuration, which allows a camera to be placed on the frame well forward to avoid having propellers in the view of the camera. There are always debates about whether X or H are better, especially in the mini quad community.parrot ar drone 2 fiyat It looks like a tricopter but without the tail servo. parrot ar drone sixaxisThere are two normal propellers and motors in front on separate arms and two coaxial motors in the rear mounted to one arm. Mechanically it’s simpler than tricopters because of the absence of the and yaw mechanism. While they weigh almost the same they have about 1/3 more lifting power than tricopters. They are usually more reliable than Tricopters because there is no potential servo issues.

The V-Tail and A-Tail are basically quadcopter config with the front motors on normal quadcopter arms, while the rear motors located in close proximity, tilted at an vertical angle either inward or outward. It’s a mix between a quadcopter and a tricopter and very similar to Y4 config. This is not a popular configuration because it gives lower power efficiency (air flow interference at the tail motors). However VTail/ATail certainly looks awesome and provides a better orientation visibility. There isn’t much information on this config because it’s not a popular setup. But there have been people building this and verified the feasibility of this cool looking config. One obvious advantage of the pentacopter is the wide angle of the two front arm which allows the propellers to stay out of the camera view as far as possible. Check out this post about an example pentacopter project. The hexacopter has 6 motors mounted typically 60 degree apart on a symmetric frame, with three sets of CW and CCW motors/propellers.

Hexacopters are very similar to the quadcopters, but they provide more lifting capacity with the extra motors. There is also improvement in redundancy: if one motor fails, the aircraft can still remain stable enough for a safe landing. The downside is that they tend to be larger in size and more expensive to build. The Y6  has 6 motors on a “Y” shape frame. They are similar in shape to a tricopter but it has two motors on per arm, one above and the other. It uses both CW and CCW propellers on the same arm rather than a servo to enable yaw. This type of multicopter can be made really compact (similar size to a tricopter), but with similar lifting capability as a hexacopter. However Y6 config is less efficient due to the coaxial motor arrangement. A typical octocopter has 8 motors on the same level with four sets of CW and CCW propellers. Octocopters are similar to quadcopters and hexacopters. It’s like an upgrade version of the hexacopter with even more lifting capacity and redundancy.

However the large number of motors means they draw more current, and you will probably need to carry multiple battery packs. Also it’s going to be expensive. They are very popular as aerial photography platforms and carrying heavy, professional filming gears. An X8 octocopter uses 8 motors that are mounted on four arms,  on an “X” shaped frame with four sets of CW and CCW props. Characteristics are similar to the Y6. It depends on what you are going to do with it. For racing or freestyle, you won’t go wrong with a quadcopter or tricopter. Even if you crash there are fewer props to replace (which happens more often when you fly fast and in close proximity). For aerial photography you can probably use get away with a quadcopter if you are just recording with a GoPro. But if you want to carry heavier gear like a gimbal, or you want a more stable and reliable platform, you might want to consider a Hexacopter or even Octocopter. In Y6, X8, Y4 multicopter configurations, we encounter something called coaxial motor-arrangement.