crwdns2933803:017crwdne2933803:0
crwdns2933797:0Tarun Thirumacrwdnd2933797:0crwdne2933797:0
crwdns2936043:0crwdne2936043:0 crwdns2933505:0crwdne2933505:0 Tarun Thiruma
- crwdns2933769:0crwdne2933769:0
- crwdns2933771:0crwdne2933771:0
- crwdns2933801:0crwdne2933801:0
crwdns2933807:0crwdne2933807:0
| [* black] This isn't your grandmother's trigger button. Let's take a closer look at all the moving parts: | |
| - | [* red] Buttons! R1 on the left and R2 on the right. R2 seems to use the same analog-type sensor as the Dualsense's d-pad, while R1 is just a plain Jane digital switch. |
| + | [* red] Buttons! R1 on the left and R2 on the right. R2 seems to use the same [https://d3nevzfk7ii3be.cloudfront.net/igi/OlMOr1dcpFbcuFTR.full|analog-type sensor|new_window=true] as the Dualsense's d-pad, while R1 is just a plain Jane digital switch. |
| [* orange] Plastic frame, metal pin and spring for R2 trigger action | |
| [* yellow] Gear system. White worm gear (from green bullet) spins the circular gear, which drives the arm up to resist R2's lever action. | |
| [* green] Gear housing. Silver motor drives the worm gear. Its leads are soldered to the trigger module board. | |
| [* light_blue] Trigger module board. 2 ribbon cable connections (one to buttons, one to main board). The black encoder measures the rotation of the circular gear from yellow bullet. |