Why Is The PCB Ground Plane Important?

If you do not pay attention to the ground layer during PCB design, the circuit board may not achieve the expected performance and may suffer from various forms of electrical noise and interference. Let’s take a look at what is a PCB ground plane and some tips on how to ensure a solid foundation for PCB design as a circuit board.

Why is the PCB ground plane important?

The ground plane on a PCB circuit board is usually a large area of ​​metal connected to the circuit ground. This metal area is sometimes only a small part of the board, or in a multi-layer design, it can be the entire board layer. Depending on the design needs, it may even occupy multiple layers.

The ground plane has three important purposes on the PCB circuit board:

(1.)Voltage return: Most of each component on the PCB will be connected to the power supply network, and then the return voltage will return through the grounding network. On a board with only one or two layers, the ground net usually must be routed using a wider trace. However, by dedicating the entire layer to the ground plane of the multilayer board, the process of connecting each component to the ground grid can be simplified.

(2.)Signal return: Conventional signals also need to return. For high-speed designs, it is very important to have a clear return path on the ground. Without this clear return path, these signals will cause great interference to the rest of the PCB.

(3.)Reduce noise and interference: With the increase of signal speed, there will be more and more switching states of digital circuits. This will generate noise pulses through the ground circuit, which may affect other parts of the circuit. A ground plane with a larger conductive area helps to reduce this interference because it has a lower impedance compared to the grounding net routed through wires.

By carefully planning the layer stacking configuration of a multilayer circuit board, PCB designers can use the ground plane to help control the electrical performance of the circuit board. By using a ground layer between the two active signal layers, the crosstalk between the signals on these layers can be eliminated. And by ensuring that there is an uninterrupted signal return path on the ground plane, the signal integrity of high-speed transmission lines can be improved. The ground plane is usually also connected to components that get hot to help dissipate heat

 Important elements of power supply or ground plane

As we said, the ground plane can be a designated area of ​​metal on the circuit board layer, or it can occupy the entire layer itself. How to accomplish this depends on the type of PCB design CAD system you use. Most CAD systems allow you to draw a plane so that it looks like a whole piece of metal, and you can specify any net for the plane, whether it is ground, power, or other shapes. CAD systems used to use negative image planes because they require less computing power, but today most PCB designers prefer to draw positive image planes because these tools now have sufficient functionality.

The PCB designer will draw the area of the power or ground plane on the specified layer according to the shape they want. The inner layer of the circuit board is usually the entire layer, and the outer layer of the circuit board is usually a small area to repair a specific component or group of components. In some cases, the designer may split the plane on the inner layer. This may prove to be very useful when reducing the number of layers of the circuit board to be manufactured. Usually, the power network is usually divided into planes, and the ground plane still retains a complete layer to help improve signal integrity and eliminate noise and interference.