If VSWR = 1, then voltage on load is the "lowest" and RF matching is ok (RF amplifiers are designed delivering "always" maximum power on load). If VSWR gets higher, then voltage on output of amplifier may also be higher "some time" because of the reflected wave. And if it is higher, it can cause higher non-linearities (by clipping and/or breakdown)... Some solid RF amplifiers are protected through special circuitry which measure VSWR and protect them as soon as possible (quasi instantaneous).

If VSWR = 1, then voltage on the output amplifier is the "lowest" and RF matching is ok (RF amplifiers are designed delivering "always" maximum power on load). If VSWR gets higher, then voltage on output of amplifier may also be higher "some time" because of the reflected wave. And if it is higher, it can cause higher non-linearities (by clipping and/or breakdown)... Some solid RF amplifiers are protected through special circuitry which measure VSWR and protect them as soon as possible (quasi instantaneous).

If VSWR = 1, then voltage on load is the "lowest" and RF matching is ok (maximum power on load). If VSWR gets higher, then voltage on output of amplifier may also be higher "some time". And if it is higher, it can cause higher non-linearities (by clipping and/or breakdown)... Some solid RF amplifiers are protected through special circuitry which measure VSWR and protect them as soon as possible (quasi instantaneous).

If VSWR = 1, then voltage on load is the "lowest" and RF matching is ok (RF amplifiers are designed delivering "always" maximum power on load). If VSWR gets higher, then voltage on output of amplifier may also be higher "some time" because of the reflected wave. And if it is higher, it can cause higher non-linearities (by clipping and/or breakdown)... Some solid RF amplifiers are protected through special circuitry which measure VSWR and protect them as soon as possible (quasi instantaneous).