Tech2025 said:
I noticed some parts of the PCB aren't even connected to anything. How do the different shapes and sizes of the PCB interact with each-other to transmit microwaves?
not sure which parts you are specifically referring to ?
but here is an annotated version of your pic that I have done that explains different parts
OK, the core of this transceiver is the DRO Dielectric Resonator Oscillator ….
this directly generates the required 10GHz frequency. The RF out goes down that stripline to that surface mount component
most likely a capacitor. Then it is split to the left to the Transmit Antenna and to the right to a mixer device … possibly a dual gate GaAs-FET
To the right of the mixer is the Receive Antenna. The incoming signal from the RX Ant. is mixed with a small amount of RF from the
DRO and produced an IF (Intermediate Frequency) that goes to the rest of the receiver circuit.
So the DRO is providing BOTH the transmit signal as well as the LO ( Local Oscillator ) signal.
You will note I have also arrowed a number of small stripline matching stubs … these are for impedance matching
so as to get maximum power transfer along the line
Those 2 little fan shaped circuit tracks to the left of the DRO puck are RF chokes
DRO's are found in every satellite LNA that sits up at the focus of the satellite dish. Some LNA's have 2 DRO's in there
when they need to operate dual band
I have taken a Satellite LNA where the DRO is operating at around 11.3 GHz and have added/glued small lumps of ceramic to the top
of the DRO puck to lower its frequency down into the amateur (ham) radio 10.3 to 10.5 GHz bandA typical DRO layout/circuit example ….
cheers
Dave
