I did change how 90Hz mode works slightly [I manually tuned all 80 modes from 40hz to 120Hz] so using this will push BOE OLED panel controllers slightly more at 90hz than stock would, but it should still be well within expected panel tolerances. I would not expect any harm to come from that.
Modes that will drive BOE panels at rates higher than stock: 46-48, 50, 53-54, 58, 60-63, 65-64, 68-69, 75-79, 82-83, 86, 89-120
All other modes will drive BOE panels at rates lower than stock.
For SDC, all modes from 45 through 90 will drive panel at stock rate, for 40-44 they’ll be lower than stock, 91-120 will be higher than stock.
For LCD decks, only 61-70 would push panel harder, but there’s very little risk comparatively there, especially given many, including myself, have run LCD decks at 70hz for extended periods without issue.
Just out of curiosity long as you don’t push frame limiter up it won’t push monitor harder yeah?
Looking forward to anything VRR related would be absolutely huge if its possible
I did change how 90Hz mode works slightly [I manually tuned all 80 modes from 40hz to 120Hz] so using this will push BOE OLED panel controllers slightly more at 90hz than stock would, but it should still be well within expected panel tolerances. I would not expect any harm to come from that.
Modes that will drive BOE panels at rates higher than stock: 46-48, 50, 53-54, 58, 60-63, 65-64, 68-69, 75-79, 82-83, 86, 89-120
All other modes will drive BOE panels at rates lower than stock.
For SDC, all modes from 45 through 90 will drive panel at stock rate, for 40-44 they’ll be lower than stock, 91-120 will be higher than stock.
For LCD decks, only 61-70 would push panel harder, but there’s very little risk comparatively there, especially given many, including myself, have run LCD decks at 70hz for extended periods without issue.