Surveillance wifi jammer wins gold technology award

Surveillance wifi jammer wins gold technology award

Yingying is green and red, and Amy Technology has won new awards. This year’s wifi jammer industry invention awards belong to our company again. The final product is the company’s main surveillance camera jammer. We started this instrument in 2015. After R&D and production, the finished product is sold in the market. It was once continuously upgraded to strive for the most perfect high-tech invention. This kind of product can be used for traffic cameras, city cameras, home cameras, factory cameras, and concealment. The camera can achieve the shielding effect, and for some users with special needs, the data packets of the transmission video line are shielded, so that the previous video and the subsequent video can be completely connected, but the time period when the user needs to be interfered is intercepted. Meet the final requirements of the majority of buyers.

12 Bands Signal Jammer

The signal jammer structure of the high-frequency power transformer used in this design is composed of three parts: the magnetic circuit, the winding installed on the magnetic circuit, and the shielding cover of the outer surface layer of the field strength structure, which includes most of the electrical characteristics and the magnetic circuit Completely consistent continuous magnetic loop and partial winding components. At the same time, in order to prevent arcing, air gaps and epoxy resin should be used to increase the thickness of the shielding layer in the strong electric field area at a certain distance from the surface of the winding component with higher electric field intensity.

Here is a typical design example of this kind of shielding: set a continuous shielding loop on the electrical characteristics in the lower electric field area close to the high-frequency transformer winding; set another continuous on the electrical characteristics in the higher electric field area near the periphery of the winding For the shielding loop, it should maintain a sufficient space distance from the winding to prevent electrical breakdown of the dielectric (here, air and epoxy resin) inside the shielding loop. In this way, it is possible to select the shape of the same field strength in combination with the appropriate selection of the number of continuous loops on the electrical characteristics, the shape of the shielding ring and its spacing, so that the high-frequency power transformer can obtain a relatively complete shielding effect. On the basis of this structural form, we can appropriately change the size and layout of the shielding ring to provide a distributed radiator for the transformer and enhance the cooling effect of the transformer.