I'm doing a bit of RF PCB design, and one of the things that caught my eye is the "Controlled Impedance" option. Checking more boxes always costs more, so I want to know if this is worth the extra money to ensure functionality on arrival. For the RF portion, I'm using 50 ohm microstrip-line on a 4 layer board. (Top layer [1] is signal, top inner layer [2] is a ground plane)
Most board vendors have made their laminate stack-up contents and thicknesses available on their website, and I have been able to calculate the width of the transmission line to my satisfaction using their numbers.
- What is the benefit of using
"controlled impedance" or "controlled
dielectric"? - At small distances (about 1/10 wavelength), would the impedance bump matter? (I get about 2 ohms difference in Zo from changing the dielectric constant by +-0.4)
- Is this something that should be done for production boards but isn't necessary for one-off prototypes?
- Have you ever used this feature?
Best Answer
If you specify controlled impedance/controlled dielectric, they will test your board to ensure that the traces are at the specified impedance. In your fabrication notes on your PCB printout, specify the nets and their targeted impedance (with tolerance, e.g., 50 ohms +/- 2 ohms).
They will either test a small test strip that is manufactured on the same panel as your boards; or they will test all nets as needed. This will help catch boards that do not meet spec, before they end up being stuffed with components.
BTW, the "weave" of the board may affect the actual impedance of any particular trace, even when the traces are built to spec (see PCB Dielectric Material Selection and Fiber Weave Effect on High-Speed Channel Routing - Altera Application Note).
Your board fabrication note should specify what the target impedance is, and on which traces those impedance values apply to. (Example: Trace width of 8 mils shall be at 50 ohms +/- 10%.) The fabricator may adjust your trace width slightly to meet the target impedance.