Waarom zijn RF-PCB's moeilijk te ontwerpen??

I am a project procurement. Kort geleden, Our project is to develop a television. Of all the materials supply, PCB was the slowest one. And even our engineer took part in the discussion with PCB supplier to push them. Is it really hard to make a RF PCB?

Omdat radiofrequentie ervoor zorgt dat elektronen zich anders gedragen dan bij lagere frequenties of bij gelijkstroom.

Bij lagere frequenties, resistieve effecten domineren. Echter, bij hogere frequenties, impedantie en capaciteit beginnen te domineren. Ook, bij hogere frequenties, electrons begin to be forced to the surface of a conductor, instead of traveling into the body of the conductor. And thematching surfaceof the dielectric insulator being used to support the conductor also has an effect on electron flow.
The electron exhibits both electronic and magnetic properties as it moves in a conductor. Then magnetic forces can also induce current and noise in nearby adjacent conductors. It causes noise, cross-talk, and eddy currents that disrupt desired operation of a complex circuit.

These effects become more expressed at higher frequencies used. To alleviate this, miniature transmission lines are designed into PCBs with specific physical size and spacing characteristics to make sure these high-speed signals are contained in the transmission lines, and also that the source impedance matches the load impedance as closely as possible.

All of these characteristics require the skilled application of mathematics, bord ontwerp, and mounted components. It includes accommodations for voltages, currents, weerstand, time constants, impedantie, impedantie aanpassing, logic, and creativity, as well as an innate understanding of the interaction between these interrelated factors.

Lees verder: Hoogfrequente printplaat

#Consumer Electronic #PCB Design

Picture of Olivier Smit

Olivier Smit

Oliver is een ervaren elektronica-ingenieur met kennis van PCB-ontwerp, analoge circuits, ingebedde systemen, en prototyping. Zijn diepgaande kennis omvat schematisch vastleggen, firmware-codering, simulatie, indeling, testen, en probleemoplossing. Oliver blinkt uit in het omzetten van projecten van concept naar massaproductie met behulp van zijn elektrische ontwerptalenten en mechanische vaardigheden.
Picture of Olivier Smit

Olivier Smit

Oliver is een ervaren elektronica-ingenieur met kennis van PCB-ontwerp, analoge circuits, ingebedde systemen, en prototyping. Zijn diepgaande kennis omvat schematisch vastleggen, firmware-codering, simulatie, indeling, testen, en probleemoplossing. Oliver blinkt uit in het omzetten van projecten van concept naar massaproductie met behulp van zijn elektrische ontwerptalenten en mechanische vaardigheden.

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