diff --git a/vitepress/docs/src/custom/theme/index.ts b/vitepress/docs/src/custom/theme/index.ts index 52fe380..ce3c467 100644 --- a/vitepress/docs/src/custom/theme/index.ts +++ b/vitepress/docs/src/custom/theme/index.ts @@ -30,6 +30,7 @@ const theme = { items: [ { text: "Introduction", link: "/getting_started/intro" }, { text: "Things to know before you start", link: "/getting_started/things_to_know" }, + { text: "LED Safety", link: "/misc/led_safety" }, ], }, { @@ -70,7 +71,6 @@ const theme = { items: [ { text: "VR Chat Avatar Setup", link: "/misc/vrc_avatar_setup" }, { text: "FAQ", link: "/misc/faq" }, - { text: "LED Safety", link: "/misc/led_safety" }, ], }, { diff --git a/vitepress/docs/src/pages/misc/led_safety.md b/vitepress/docs/src/pages/misc/led_safety.md index 87dca63..bf79cba 100644 --- a/vitepress/docs/src/pages/misc/led_safety.md +++ b/vitepress/docs/src/pages/misc/led_safety.md @@ -87,6 +87,6 @@ Now, we need to account for distance. My number is based on a worst case scenari Now, this is only for 1 LED, in the case of V4 we have 4 so we can: > 0.6 mW/cm2 * 4 = 2.4 mW/cm2 -This value is well below the limit, and close to normal sun exposure outside. -If the LEDs were further than 1cm (which they typically are) the exposure would be even less. +This value is well below the limit, and not far from sun exposure. +If the LEDs were further than 1cm (which they typically are) the exposure would be even less. And with typical eye movement they are less.