R&D of RF Circuit Processing Components

Radio frequency, abbreviated as RF, refers to radio frequency current, which is a type of high-frequency alternating current electromagnetic wave. It is composed of passive components, active devices, and passive networks, which is integrated circuit board. During the processing of the circuit board, it’s necessary to limit the position with auxiliary fixing device, and then use various processing equipment to process it.

At present, the fixing devices used for circuit boards are usually too simple. The fixing device is usually fixed and installed at a certain position on the processing table. When the circuit board is processed, the processing position needs to be frequently changed, which leads to the circuit board needing to be repeatedly removed from the fixing device, resulting in cumbersome fixing of the circuit board. This not only reduces the processing efficiency, but also easily causes wear on the edges and corners of the circuit board. Therefore, our company proposed the R&D of RF circuit processing components to solve existing problems.

Rich Full Joy Technical Solution

1.The support component includes a sleeve plate, a skateboard, a fixed rod, a conical gear, and a handle. The sleeve plate is slidably connected to the skateboard, and the fixed rod rotates and is fixed at the top of the inner part of the sleeve plate with threads on the surface. The inner part of the skateboard is provided with a threaded groove that matches the surface threads of the fixed rod. The fixed rod is transmitted and connected to the handle through a set of conical gears, and the handle rotates and is fixed on the outer side of the sleeve plate. By setting a support component, the handle of the support component can be rotated. The handle is driven by a set of conical gears to rotate the fixed rod. At this time, the skateboard expands and contracts under the action of the surface threads of the fixed rod. Through this setting, the overall height of the left and right clamping plates can be adjusted, making it suitable for different processing stations.

2.Support platesarefixed below the side where the left and right clamping plates are close to each other. By setting support plates on the lower sides of the left and right clamping plates, the circuit board can be assistively supported before it is fixed.

3.The sidesof the left and right clamping plates that are close to each other is equipped with grooves, and the grooves are filled with rubber blocks. By opening grooves and filling rubber blocks on the inside of the left and right clamping plates, the edges and corners of the circuit board can be protected. At the same time, the rubber blocks can be compressed and deformed to limit the position of the circuit board and prevent it from popping up.

4.By installing a pressure sensor inside the right clamping plate to detect the pressure received by the rubber block, the clamping force between the left and right clamping plates can becontrolled to maintain a constant clamping force for circuit boards of different sizes, thereby preventing situations where the clamping force is too large or too small.

Rich Full Joy Innovative Points

1.The combination of screws and sliders allows for displacement of the circuit board in a fixed state, enabling the fixed device to switch between different workstations and improving the processing efficiency of the circuit board.

2.By setting up supporting components, the overall height of the left and right clamping plates can be adjusted, making it easier to apply to different processing stations.

3.By setting pressure sensors, the clamping force of circuit boards of different sizes can be kept constant, thereby preventing situations where the clamping force is too large or too small.

4. By setting a worm gear and worm rod, the overall placement angle of the left and right clamping plates can be adjusted, thereby improving the applicability of the fixing device.

Issues addressed by Rich Full Joy

1.Solvedthe stability issues of high-frequency signal transmission, including reducing the length of signal transmission paths, optimizing signal transmission line design, and reducing losses.

2.Solvedthe problem of signal isolation and avoid interference between different signals.

3.Solvedelectromagnetic compatibility issues to avoid electromagnetic radiation interference with other devices.

4.Capable of stable signal transmission within the high-frequency range, matching component impedance, and effectively isolating interference.

5.Improvedthe energy utilization efficiency of circuits and reduce energy consumption.

6.Has good electromagnetic compatibility, can effectively suppress electromagnetic interference, and has high reliability and stabilitytowork stably for a long time under various environmental conditions.