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PCB Technical

PCB Technical - PCB circuit board design is continuous

PCB Technical

PCB Technical - PCB circuit board design is continuous

PCB circuit board design is continuous

2021-10-19
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Author:Downs

Everyone knows that the impedance must be continuous. There are always times when the impedance cannot be continuous in PCB design How to do?

Characteristic impedance: also known as "characteristic impedance", it is not a DC resistance, it belongs to the concept of long-term transmission. In the high frequency range, during signal transmission, where the signal edge arrives, an instant current will be generated between the signal line and the reference plane (power or ground plane) due to the establishment of an electric field.

If the transmission line is isotropic, then as long as the signal is transmitting, there will always be a current I, and if the output voltage of the signal is V, the transmission line will be equivalent to a resistance during the signal transmission, the size of which is V/I, Call this equivalent resistance the characteristic impedance Z of the transmission line.

In the process of signal transmission, if the characteristic impedance on the transmission path changes, the signal will be reflected at the node where the impedance is discontinuous.

pcb board

The factors that affect the characteristic impedance are: dielectric constant, dielectric thickness, line width, and copper foil thickness.

[1] Gradient line

Some RF device packages are small, SMD pad width may be as small as 12 mils, and RF signal line width may reach 50 mils or more. Gradient lines must be used, and line width mutations are prohibited. The gradient line is as shown in the figure, and the line of the transition part should not be too long.

[2] corner

If the RF signal line runs at a right angle, the effective line width at the corner will increase, and the impedance will be discontinuous, causing signal reflection. In order to reduce the discontinuity, to deal with the corners, there are two methods: chamfering and rounding. The radius of the arc angle should be large enough, generally speaking, to ensure: R>3W.

【3】Large pad

When there are large pads on the 50-ohm microstrip line, the large pads are equivalent to distributed capacitance, which destroys the characteristic impedance continuity of the microstrip line. Two methods can be taken to improve at the same time: firstly, thickening the microstrip line dielectric, and secondly, hollowing out the ground plane under the pad, which can reduce the distributed capacitance of the pad.

【4】via

Vias are metal cylinders plated outside the through holes between the top and bottom layers of the circuit board. Signal vias connect transmission lines on different layers. The via stub is the unused part of the via. Via pads are ring-shaped spacers that connect the via to the top or internal transmission line. Isolation disks are annular gaps in each power or ground plane to prevent short circuits to the power and ground planes.

Parasitic parameters of vias

After rigorous physical theory derivation and approximate analysis, the equivalent circuit model of the via can be modeled as an inductor connected in series with a grounding capacitor at both ends.

Equivalent circuit model of via

It can be seen from the equivalent circuit model that the via itself has parasitic capacitance to ground. Assume that the diameter of the via anti-pad is D2, the diameter of the via pad is D1, the thickness of the PCB board is T, and the dielectric constant of the board substrate is ε, then the parasitic capacitance of the via is approximately:

The parasitic capacitance of the via can cause the signal rise time to be prolonged and the transmission speed to slow down, thereby deteriorating the signal quality. Similarly, vias also have parasitic inductance. In high-speed digital PCBs, the harm caused by parasitic inductance is often greater than parasitic capacitance.

Its parasitic series inductance will weaken the contribution of the bypass capacitor, thereby weakening the filtering effect of the entire power system. Assume that L is the inductance of the via, h is the length of the via, and d is the diameter of the center hole. The approximate parasitic inductance of the via is similar to:

Vias are one of the important factors that cause impedance discontinuities on the RF channel. If the signal frequency is greater than 1GHz, the impact of vias must be considered.

Common methods to reduce the discontinuity of via impedance include: adopting a diskless process, selecting an outlet method, and optimizing the diameter of the anti-pad. Optimizing the anti-pad diameter is one of the most commonly used methods to reduce impedance discontinuities. Since the characteristics of vias are related to the structural dimensions such as aperture, pad, anti-pad, laminated structure, and wiring method, it is recommended that HFSS and Optimetrics be used for optimization simulation according to the specific situation during each design.

When using a parametric model, the modeling process is simple. During the review, PCB designers are required to provide corresponding simulation documents.

【5】Through hole coaxial connector

Similar to the via structure, the through-hole coaxial connector also has impedance discontinuity, so the solution is the same as that of the via. Commonly used methods to reduce the impedance discontinuity of through-hole coaxial connectors are also: adopting a diskless process, a suitable outlet method, and optimizing the diameter of the anti-pad.