2306 FPV Motor

Whether it's intense fpv racing, fpv freestyle enjoying the freedom of the air, or long range fpv exploration, VSD's FPV Motor provides powerful power support for your aircraft. As a permanent magnet external rotor brushless Motor, VSD's FPV motor with its high speed, high power, high torque characteristics, to meet the demanding needs of a variety of FPV aircraft for power, to ensure that you get excellent control experience during the flight.

 

VSD FPV motor uses advanced electronic controller reversing technology to accurately control the position and potential changes of the rotor to achieve accurate adjustment of motor speed and steering. This precise control enables the aircraft to maintain smooth control under the limit speed, ensuring that every flight is carefree. From high-speed racing to aerial stunts, the VSD FPV Motor provides stable and reliable power support.

 

In order to ensure that the Motor runs stably under high load for a long time, VSD FPV Motor adopts dual bearing design and is equipped with IP53 dustproof and waterproof bearings, which improves the durability of the motor and reduces the impact of the external environment on the motor. This design not only extends the service life of the motor, but also can effectively resist the common dust, moisture and other factors in the flight process, making the motor in a variety of complex environments can be stable play.

 

VSD offers a variety of FPV Motor models and specifications, and supports custom motor sizes, KV values and winding modes according to customers' specific needs. This means that whether you are running fpv racing or long range fpv for long flights, VSD can provide you with the most suitable motor configuration to help you maximize the performance of your aircraft, push the limits and fly further.

 

 

In FPV flight, the design of the motor directly affects the maneuverability, thrust and stability of the vehicle. Designed for extreme flight, VSD's FPV Motor uses advanced dual bearing technology and precision motor assembly design to ensure that your aircraft can cope with a variety of high-intensity flight requirements. Especially in fpv freestyle, fpv racing and long range fpv flight.

 

dual bearing design: The core guarantee of stability and durability

The dual bearing system of VSD FPV Motor is the key to ensure the long-term stable operation of the motor. We adopt IP53 dustproof and waterproof bearing placement design, which can effectively resist the influence of external environmental factors, greatly extending the service life of motor bearings. During the flight, the bearings are in a state of high-speed operation. The dustproof and waterproof design of the VSD ensures that the interior of the bearings is not susceptible to dust and moisture, and maintains the smooth operation of the motor. This design is particularly suitable for fpv racing and freestyle flying, providing solid support for the motor and maintaining stability without vibration even under high load and high speed conditions. For those who make long range FPV flights, VSD motor bearings provide long time reliable support to ensure efficient performance in continuous flight.

 

The high-strength bearings and steel shafts are suitable for various flight requirements

The motor bearings of the VSD FPV Motor are equipped with a high-strength 5mm steel shaft, especially suitable for the various specifications of 5 inch, 7 inch, 9 inch and 13 inch drones. This design ensures that the motor can withstand a strong thrust load, while improving the durability and wear resistance of motor bearings, to avoid the bearing damage caused by long-term high-speed flight. Especially in fpv racing and freestyle flight, high-strength bearings can withstand the challenges of rapid acceleration, sharp turns and high impact of the aircraft, and maintain the long-term stability of the motor. For users of long range FPV that require higher thrust and continuous operation, this motor ensures that the UAV does not suffer from stutters or power losses during long-range flight.

 

Precision design of motor components

The housing of VSD FPV motor is made of high-strength acrylic or aluminum alloy material, which provides solid protection for the internal components and can quickly dissipate heat to avoid high temperature damage to the motor. The design of the housing not only effectively protects the internal structure of the motor, but also ensures the rapid cooling of the motor, helping to maintain the efficient operation of the motor.

 

The winding inside the motor adopts a precision electromagnetic coil design, which excites the electromagnetic field through the current to provide a strong driving force. The number of slots in the winding can be customized according to the needs, the more slots, the higher the efficiency of the motor, to adapt to the demanding flight needs.

 

Servo level control and precise manipulation

VSD's FPV Motor uses advanced electronic controller reversing technology to adjust the motor's steering and speed by precisely controlling the rotor position and potential changes. This allows the motor to provide different flight modes and control accuracy, whether it is fpv racing, which performs rapid steering, or long range fpv, which maintains a stable heading in the air, for an exceptional flight experience.

 

Tailor-made to meet multiple application needs

VSD's FPV Motor not only has a variety of specifications and models, but also can customize the motor size, KV value and winding type according to the actual application needs, to provide the best power configuration for every FPV flight enthusiasts. Whether you are pursuing ultra-fast racing flight or enjoying long distance flight in open space, VSD can meet your individual needs.

 

VSD FPV motor with its outstanding dual bearing structure and precision motor component design, can bring more durable aircraft and higher control accuracy. No matter what your flight goals are, the VSD motor will be your ideal power assistant for a more stable and reliable flight experience.

 

 

VSD's 2306.5 FPV motor is designed for UAV aircraft with strong power and excellent stability to support high-speed flight and difficult flight maneuvers. The "2306.5" of this model refers to the motor's diameter of 23 mm and length of 6.5 mm, and the size can be customized according to demand. The 2306.5 FPV motor uses brushless technology to ensure stable power output, effectively extend battery life, and has high efficiency and low noise characteristics. This permanent magnet external rotor motor has the advantages of high speed, high power and large torque, which can meet the demand for strong power of FPV aircraft.

 

With excellent performance and stability, the 2306.5 FPV Motor is suitable for a variety of FPV UAV application scenarios. Including fpv freestyle, fpv racing and long range fpv flying, enabling pilots to complete more challenging flight operations and enjoy an unparalleled flying experience. VSD also offers a wide selection of motor models, including 2206, 2207, 2208, 2806, 2807, 2810, 3110, 3115, etc., to meet the needs of different aircraft.

 

2306.5 FPV motor design and parameters

Design drawings

Specification parameters

KV	1800	Configuration	12N14P
Internal resistance	63.7mΩ	Dimensions	27.9*32.7mm
Shaft Diameter	5mm	Silicone Wire	20# 150mm
Rated Voltage	4~6S	Weight(Excl.Cable)	31.5g
Max.Power	870.9W	Peak Current	38.3A

 

KV	1960	Configuration	12N14P
Internal resistance	60.7mΩ	Dimensions	27.9*32.7mm
Shaft Diameter	5mm	Silicone Wire	20#150mm
Rated Voltage	4~6S	Weight(Excl.Cable)	31.5g
Max.Power	901W	Peak Current	40.6A

 

KV	2400	Configuration	12N14P
Internal resistance	41mΩ	Dimensions	27.9*32.7mm
Shaft Diameter	5mm	Silicone Wire	20#150mm
Rated Voltage	4~6S	Weight(Excl.Cable)	31.5g
Max.Power	690.1W	Peak Current	44.9A

 

Test data

MOTOR Type	PROPS	Throttle	Voltage(V)	Current(A)	Thrust(g)	RPM	Power(W)	Effciency(g/W)
2306.5 1800KW	4943.5-3B	30%	24.07	2.8	191	1165	67.4	2.84
		40%	24.02	6.6	435	15358	158.1	2.75
		50%	23.97	10.5	677	19138	252.4	2.68
		60%	23.91	14.5	885	22220	347.7	2.55
		70%	23.8	19	1104	25537	452.9	2.44
		80%	23.75	24	1340	27234	570	2.35
		90%	23.58	32.1	1529	28012	756.9	2.02
		100%	23.5	36.4	1642	29327	854.7	1.92
	51466-3B	30%	24.02	2.7	194	11168	65.6	2.97
		40%	23.98	6.7	452	14549	160.9	2.81
		50%	23.95	11.4	724	17712	272.6	2.66
		60%	23.86	15.5	926	21071	370.1	2.5
		70%	23.83	20	1117	24442	475.6	2.35
		80%	23.67	24.7	1277	26507	584.6	2.18
		90%	23.51	33.5	1618	27680	786.6	2.06
		100%	23.43	38.3	1683	28100	897.8	1.87
	HQJ37	30%	24.03	2.7	192	11655	65.8	2.92
		40%	23.98	6.4	418	15498	154.2	2.71
		50%	23.92	10.7	657	18885	255.9	2.57
		60%	23.85	15.2	880	21992	363	2.42
		70%	23.77	19.7	1067	25385	467.8	2.28
		80%	23.72	24.7	1260	26764	586.8	2.15
		90%	23.52	32.9	1526	28141	772.6	1.98
		100%	23.43	37.2	1621	29122	870.9	1.86

 

MOTOR Type	PROPS	Throttle	Voltage(V)	Current(A)	Thrust(g)	RPM	Power(W)	Effciency(g/W)
2306.5 1960KV	51477-3B	30%	22.2	5.3	412	15730	117.7	3.5
		40%	22.2	8	550	18120	177.6	3.1
		50%	22.2	11.3	730	21600	250.9	2.91
		60%	22.2	14.5	860	22120	321.9	2.67
		70%	22.2	20	1090	24400	444	2.45
		80%	22.2	26.9	1320	26365	597.2	2.21
		90%	22.2	33.9	1535	27860	752.6	2.04
		100%	22.2	39.8	1640	30412	883.6	1.86
	51466-3B	30%	22.2	5.1	370	15912	113.2	3.27
		40%	22.2	7.8	542	18520	173.2	3.13
		50%	22.2	11.4	710	20900	253.1	2.81
		60%	22.2	14.6	852	22090	324.1	2.63
		70%	22.2	19.7	1030	24701	437.3	2.36
		80%	22.2	26.3	1253	27105	583.9	2.15
		90%	22.2	33.8	1410	28350	750.4	1.88
		100%	22.2	40.6	1615	29618	901.3	1.79

 

MOTOR Type	PROPS	Throttle	Voltage(V)	Current(A)	Thrust(g)	RPM	Power(W)	Effciency(g/W)
2306.5 2400KV	51466-3B	30%	16.14	2.9	190	11514	46.8	4.1
		40%	16.08	6	356	15276	96.3	3.7
		50%	16.02	10.2	534	18318	163.4	3.3
		60%	15.95	15.4	720	21071	244.8	2.9
		70%	15.85	22.1	930	23763	350	2.7
		80%	15.74	29	1123	25845	455.7	2.5
		90%	15.58	37.8	1337	27957	588.6	2.3
		100%	15.47	43.2	1455	28007	667.7	2.2
	51477-3B	30%	16.09	3.1	208	11346	49.7	4.2
		40%	16.05	6.3	377	14904	100.6	3.7
		50%	15.99	10.8	556	17859	172.7	3.2
		60%	15.87	16.4	745	20564	260	2.9
		70%	15.75	23.4	965	23184	368.7	2.6
		80%	15.64	30.7	1146	24725	480.1	2.4
		90%	15.47	39.5	1363	27332	611.4	2.2
		100%	15.38	44.9	1464	28327	690.1	2.1

 

 

Step 1: Determine motor size and design

Our professional research and development team according to the specific needs and limitations of customers, motor size and design determination. Through close communication with our customers, we ensure that the motor is designed to fit their usage requirements perfectly, whether for fpv racing, fpv freestyle or long range fpv flying. Every detail has been carefully considered in order to provide the best motor design solution for the customer's needs.

 

Step 2: Make the copper wire of the motor

The production of copper wire is a key step in the manufacturing process of FPV Motor. First, we will precisely thread into a coil, and then wrap small copper wires around the outside to form a larger coil. In order to enhance the winding space of the motor, we will apply adhesive to the top of the copper wire to ensure that the coil is strong. This process is essential to improve the power density and current carrying capacity of the motor, ensuring stable operation of the motor under high load conditions.

 

Step 3: Machining the motor housing

The machining of the motor housing is done with large automation equipment. We use sophisticated machines to ensure that every index of the motor housing is up to high quality standards. The processing accuracy of the housing has an important impact on the stability and heat dissipation performance of the motor. In this step, we pay attention to detail to ensure that the motor housing remains consistent and of high quality throughout the production process.

 

Step 4: Install the internal components

In this stage, we will install the key internal components of the motor, including magnets, shaft rotors, axial flow fans and governors, among others. The installation of each component is strictly inspected and debugged to ensure that the motor can be smooth and efficient when running. We take great care during the installation process to ensure that each motor achieves optimal performance, reduces friction and vibration, and promotes the durability and efficiency of the motor.

 

Step 5: Test and inspect rigorously

Finally, each FPV motor is subjected to rigorous quality control and testing to ensure that it can perform its intended tasks and provide the power and flexibility required. The testing covers various performance indicators of the motor, including power output, efficiency, stability and durability, among others. We know that the failure of any motor can lead to the crash of the drone and affect flight safety, so we strictly control every inspection step to ensure that every motor meets high standards of quality.

 

 

As a professional FPV motor manufacturer with its own factory and advanced production equipment, VSD is committed to providing high quality FPV motor and is able to provide customized services according to customer needs. Our production process is strictly controlled, and every link strives for excellence to ensure that we can provide customers with high-performance and long-life motor solutions.

 

As a professional FPV motor manufacturer with its own factory and advanced production equipment, VSD is committed to providing high quality FPV motor and is able to provide customized services according to customer needs. Our production process is strictly controlled, and every link strives for excellence to ensure that we can provide customers with high-performance and long-life motor solutions.

 

Leave a message today and let us provide you with the best motor solutions and favorable quotes!