PCB Textolite SMT drone receiver board raspberry

Name: PCB Textolite SMT drone receiver board raspberry
Origin: China
Certified: UL, CE, RoSH
Board Thickness: 1.0-1.6mm
Copper Thickness: 1 oz, 1-12OZ
Surface Finishing: OSP/HASL/Immersion Gold
Number of Layer: 1-16 layers

Product Details

Why is the PCB Textolite SMT Drone Receiver important?

Drone receivers made of PCB Textolite SMT are crucial for the building process. They are employed for movement control of the drone and signal reception from distant sources. These receivers’ cost-effectiveness, low weight, and durability are key advantages. They also provide great precision and dependable performance across a range of applications. Specifically created for drone applications, the PCB Textolite SMT Drone Receiver is a cutting-edge electrical component. The drone’s flight controller and the remote-control transmitter can communicate thanks to its function as a receiver module. For the pilot to fly the drone in real-time, the receiver passes control signals from the transmitter that is received by it to the flight controller.

What functionalities does the SMT PCB Textolite Drone Receiver have?

  • Textolite PCB: 

High-quality Textolite, a printed circuit board (PCB) material renowned for its sturdiness and superior electrical qualities, is used to construct the receiver module. It gives the receiver’s components a solid basis and guarantees dependable operation even in challenging drone situations.

  • Surface Mount Technology (SMT): 

The receiver places electrical components on the PCB using Surface Mount Technology. Compactness, increased dependability, and higher electrical performance are just a few benefits of SMT. It makes it possible to solder directly onto the PCB and put components precisely, making the receiver design more effective and dependable.

  • Drone Compatibility: 

The PCB Textolite SMT Drone Receiver is made to work with various drones, including professional-grade and enthusiast types. It supports several drone communication protocols, including SBUS (Serial BUS), PWM (Pulse Width Modulation), and PPM (Pulse Position Modulation). The receiver may be incorporated into many drone systems thanks to this interoperability.

  • Improved Range and Signal Quality:

The receiver uses cutting-edge radio frequency (RF) electronics and antenna d to design the drone with a longer control range. It uses noise filtering techniques to reduce interference and boost signal quality, giving the drone’s movements more dependable and accurate control.

  • Compact and Lightweight:

The receiver’s small size and light weight ensure that the total weight and size of the drone are not significantly affected. This helps preserve agility and flying performance, which is crucial for smaller drones or those with severe payload restrictions.

Textolite PCB Can Be Used for SMT Drone Receivers: 

Textolite PCB can be used for surface-mount technology (SMT) drone receivers; however, there might be better options. A phenolic paper-based laminate often used for low-cost applications and prototyping is called Textolite, sometimes known as FR-2. Compared to other PCB materials, it has restricted electrical and mechanical qualities. The selection of PCB material is essential for SMT applications to guarantee dependable operation.

  • PCB materials should have strong electrical insulation qualities and minimal signal loss to enable reliable signal transmission. Their electrical performance may be subpar when comparing Textolite PCBs to specialized materials like FR-4 or high-frequency laminates.
  • While operating, SMT components produce heat, which the PCB should effectively disperse. When compared to other materials made for applications requiring greater temperatures, Textolite could have worse thermal conductivity.
  • When assembled, SMT components must be precisely aligned, and the PCB should have sufficient structural stability. Textolite may not be as mechanically strong as other materials and may be more prone to warping or bending, which might compromise solder connection reliability and SMT component positioning.


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