5 Sources of Electrical Hazards for Base Station PCB
Printed circuit boards (PCBs) are used in a wide range of electronics. These include 5G base stations, which provide wireless data connectivity to mobile devices. However, these bases need to be protected against five sources of electrical hazards.
Fortunately, this can be achieved by conducting a thorough Design for Manufacture (DFM) check before production. This article will discuss some of the key steps in this process.
Colors
While green PCBs were the standard color for a printed circuit board in the past, it’s now possible to create them with a variety of different colors. This is due to advances in solder mask technology.
A PCB is a series of interconnected copper layers and other components that carry Base station PCB power, signals and data. The most important layer is the copper base, which provides conductivity. Other layers include a silkscreen, solder mask, and other overlays.
The silkscreen layer adds the numbers, symbols, and letters that identify the circuit board. It is usually positioned on top of the solder mask. The silkscreen is printed using formulated inks and corresponds to the Gerber file.
Depending on the application, different PCB colors are available. Blue PCBs provide excellent contrast between empty traces and planes, making them ideal for complicated electrical devices. They also offer good protection for the copper layer.
Black PCBs, however, are more problematic to use. They have low contrast, making them difficult to inspect and repair. They are also prone to absorbing heat, which can cause them to fail during the manufacturing process. Despite these issues, many companies choose to use black PCBs because they’re more visually appealing. However, these boards are best used in applications that don’t require the board to be inspected frequently. For instance, they can be useful for telecommunications companies that use 5G networks.
Layout
Base station PCB is a complex printed circuit board used in telecommunication base stations. It is designed to carry multiple signals with high frequency and low latency. These signals must be transmitted without loss or EMI interference, which requires advanced materials and design techniques. The recent development of 5G technology is accelerating the construction of communication base stations, which will drive demand for PCBs with higher frequencies and speeds.
A base station is a wireless transmitter that connects telecommunications network clients to the public switched telephone network (PSTN) or the internet. It transmits signals over a specific geographical area, called a cell. It is a key component in mobile telephone networks and many professional two-way radio systems. Base stations are also used in cordless home telephones and whole room virtual reality systems.
The basic structure of a base station PCB is similar to that of a traditional circuit board. The bare laminate is coated with photosensitive film, which is imaged to expose the desired pattern. After the exposed film is developed, copper ions are bonded to the exposed areas of the laminate by electroplating. The resulting substrate is then assembled with other components using an additive method.
A standard 4G macro base station consists of a BBU, RRU, and antenna feeder system. It has a three-level structure and supports massive MIMO. It can increase capacity by ten times and reduce transmission latency by one-third.
Materials
There are a wide variety of materials that can be used to make PCBs. The most common is a FR-4 epoxy system reinforced with woven or non-woven glass fibers. The material is then coated with copper which is plated using the additive or subtractive process. Choosing the right material is critical for high-frequency digital circuits. A low-loss material allows the signal to travel farther without degradation. However, a lower-loss material also tends to be more expensive.
The choice of dielectric material is important for both thermal performance and electrical characteristics. There are a number of options available, including FR-4, polyimide (Kapton), PTFE (Teflon), and quartz. These materials can be coated with various resins to provide specific desired properties.
In addition to the basic construction material, the circuit board must be able to withstand high temperatures and have good mechanical durability. In the past, silkscreen printing epoxy ink was the established method for this, but liquid photo imaging is now the preferred technique. This process produces a legend on one or both sides of the board that contains component designators, switch settings, and other indications helpful in assembling, testing, servicing, and using the circuit board.
A base station requires a variety of special circuit boards for different functions. These include the phase shifter, wiper board, power board, and surge board. Jove Enterprise Ltd provides a large variety of these boards, including multilayer PCBs for 5G technology.
Testing
The Printed Circuit Boards (PCB) that are used in electronic equipment are crucial to its functionality. They provide the electrical connections for various components and carry analog and digital signals, power, RF and microwave signal transmission and reception, and other business functions. This is Base Station PCB Supplier why it is important for PCB manufacturers to maintain strict testing procedures.
During the QA process, PCBs are subjected to a variety of tests. These include automated optical inspection, which uses cameras or microscopes to analyze the surface of a PCB and compare it with reference images. Optical inspection is a fast and accurate way to ensure that all the components on the PCB are in the correct position and that they’re soldered properly. It also checks the dimensions of the PCB.
Another type of test is environmental testing, which looks for signs of corrosion or moisture. This can be done using a weight comparison before and after placing the board in a wet environment. If there’s a significant change in the weight of the PCB, it’s considered to be defective.
Lastly, PCBs are tested for compliance with UL 796, which outlines safety requirements for printed wiring boards. This includes checking for components that are flammable, the maximum operating temperature, electrical tracking, and heat deflection. It can also be used to inspect soldering quality and to identify anomalies in the circuitry.