Symmetric Stripline Transmission Lines on Sprint Boost PCB Board Cloning

Symmetric Stripline Transmission Lines on Sprint Boost PCB Board Cloning

A method of Sprint Boost PCB Board Cloning preferred from many viewpoints is a multilayer PCB. This arrangement embeds the signal trace between a power and a ground plane, as shown in the cross-sectional view of below Figure. The low impedance ac-ground planes and the embedded signal trace form a symmetric stripline transmission line.

A Symmetric Stripline Transmission Line With Defined Impedance

As can be noted from the figure, the return current path for a high frequency signal trace is located directly above and below the signal trace on the ground/power planes. The high frequency signal is thus contained entirely inside the PCB, minimizing emissions, and providing natural shielding against incoming spurious signals.

The characteristic impedance of this arrangement is again dependent upon geometry and the εr of the PCB dielectric. An expression for ZO of the stripline transmission line is:

Here, all dimensions are again in mils, and B is the spacing between the two planes. In this symmetric geometry, note that B is also equal to 2H + T. Reference 17 indicates that the accuracy of this Reference 16 equation is typically on the order of 6%.

Another handy guideline for the symmetric stripline in an år = 4.0 case is to make B a multiple of W, in the range of 2 to 2.2. This will result in an stripline impedance of about 50 Ù. Of course this rule is based on a further approximation, by neglecting T. Nevertheless, it is still useful for ballpark estimates.