I fired up some equipment on my garage floor to test the loss through a pair of 2-way splitters in both splitter and combiner mode.
The first pic is the 50MHz reference signal at 0dBm or 1 milliwatt I will be using from an HP8920 service monitor.
The second pic is feeding a 2-way splitter/divider and measuring its loss as a splitter with the unused port terminated which comes out to 3.26dB loss in this case.
The next pic is measuring the splitter/combiner as a combiner with only one port fed and the unused port terminated. The through loss in this case is 3.33dB.
The next pic is the same setup as a combiner but with the termination taken off the unused port. In this case the loss went up to 4.37dB and that will vary across the frequency range of the splitter/combiner. At some other frequency it could be less than 3dB and its due to reflections within the splitter that combine in or out of phase causing something different than the expected 3dB loss.
The next pic is with the setup changed where the source is now feeding splitter to create two in phase signals to send to the next splitter/divider and the power was recalibrated for 0dBm out of the splitter and cable which takes about 3dB more drive.
The next pic is feeding a splitter/combiner as a combiner with 0dBm at its input and only one port which has about 3dB loss. Remember this one.
Here is the same setup as last but the termination removed from the unused port to show its not necessarily the load that is absorbing half the power and the combiner still has about 3dB loss or 3.30dB in this case.
Now the final pic with the combiner receiving 0dBm into each port and each path has about 3dB loss shown in previous pics but the resulting combined power is 2.82dBm or close to 3dB gain with some other small losses.
Here is the point I am trying to help you understand. If each path through the combiner has 3dB loss and you feed it two signals at 0dBm, that gets knocked down to -3dBm of level from each input port which should give a combined output level close to 0dBm if combining in phase results in a 3dB gain. But we are getting close to 3dBm output level meaning the process is producing a 6dB gain for combining two identical signals in phase then we loose 3dB in the hardware doing it. Does this make sense?
