Well, there are several scenarios to this...
Mostly from the standpoint of "the reactance" the Relay and / or switch bypass does to the signal as a bump in impedance.
The relay is the "Added in" part that is supposed to simply switch the antenna terminals when you send a signal into the amp - the "Sense line" is a simple circuit that turns on when RF sign is present - which then it's used to turn on the relay.
The sense circuit is the only tap that the line should see ever when the amp is in bypass - and there are several versions of the "Detector" that is a basic cap that one leg is put on the line from the "To Transmitter"...
- - it's value is a chosen level of capacitance that tends to offset the inductive part of all the wiring that is from the SO-239 to the board,
- It's supposed to be transparent to RF so the sense line tap thru the relay routed back to the To ANTENNA SO-239 would pass thru any SWR reflections or Power transfer from the Transmitter without adding SWR problems to the mess..
- The Starred parts - So the Amp shouldn't be a "Bump" that affects the SWR badly
- - but if the Sense cap got "poked" with more RF than it can handle or its' shunt / Divider circuit is zapped from too much RF from a high power radio or a fault in the Relay terminals on the relay itself - it can cause an SWR issue.
- It (the SWR problem you have) can be the damage that was caused during a "flashover" from the quenching effect from the RF the amp had to deal with had to go somewhere...just as an example...
So if the amp is new and you've been diligent about keeping the contacts the Relay uses to switch in and out the amp and terminals in the circuit - you should be ok.
It's when things go wrong - do you see high SWR issues and then you have to stop and fix the damages and replace parts needed to keep the SWR Bump down to a minor hiccup...