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crwdns2933797:0Scott Havardcrwdnd2933797:0crwdne2933797:0
crwdns2936043:0crwdne2936043:0 crwdns2933505:0crwdne2933505:0 Scott Havard
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| [* black] What do you do when presented with a haptic mechanism that is tough to understand? You X-ray it. And that is exactly what we did with the Taptic Engine. | |
| - | [* black] Taptic Engine sounds like something found on an [https://giphy.com/gifs/star-trek-enterprise-KuuoMkguCWK1W/fullscreen|intergalactic warship|new_window=true]. But we really are just working with some zig zag springs shaking a weight. |
| - | [* black] The Taptic Engine senses touch and responds appropriately. If someone death grips the button the spring will shake that weight to make sure hercules feels as if a button is clicked. |
| + | [* black] Taptic Engine sounds like something found on an [https://giphy.com/gifs/star-trek-enterprise-KuuoMkguCWK1W/fullscreen|intergalactic warship|new_window=true]. But we really are just working with some zig-zag springs that shake a weight. |
| + | [* black] By using a force sensor, the Taptic Engine interprets the contact made on the home button. The strength of the contact determines how much the springs shake the weight. |
| + | [* black] The [guide|29206|iPhone 6|stepid=69186|new_window=true] used a mechanical button. By using some fancy vibrating motors coupled with some electromagnetic signals, the button-clicking sensation that we all love is recreated. |