The Click Wheel is a touch-sensitive ring that you use to navigate through all of iPod’s menus and control all of its features. It provides two ways to input commands: by sliding your finger around the wheel and by pressing buttons located under and in the middle of the wheel.

Under the plastic surface of the Click Wheel, there are four mechanical buttons (Menu, back, forward, play/pause), and there’s one button in the center (select).

Click Wheel face


You’ve got five buttons and five corresponding contacts on the motherboard. When you press, say, the right side of the wheel while you’re listening to a song, the wheel pushes down the forward button. The underside of each rubber button is metal, so pressing it completes the corresponding circuit on the motherboard. The motherboard tells the processor this circuit is complete, and the processor tells the operating system to fast-forward through the song.

The Click Wheel’s touch-sensitive function lets you move through lists, adjust volume and fast forward through a song by moving your finger around the stationary wheel. It works a lot like a laptop touchpad. In fact, the company that supplied the Click Wheel for the 4G iPod was Synaptics, most widely known for making laptop touchpads. For the 5G, Apple created its own proprietary Click Wheel design based on the same capacitive sensing principle as the previous Synaptics-designed Click Wheel.

Behind the Click Wheel face (left) and Click Wheel contacts on the motherboard

Under the plastic cover of the Click Wheel, there is a membrane embedded with metallic channels. Where the channels intersect, a positional address is created, like coordinates on a graph.

At its most basic, a capacitive-sensing system works like this: The system controller supplies an electrical current to the grid. The metal channels that form the grid are conductors — they conductelectricity. When another conductor — say, your finger — gets close to the grid, the current wants to flow to your finger to complete the circuit. But there’s a piece of nonconductive plastic in the way — the Click Wheel cover. So the charge builds up at the point of the grid that’s closest to your finger. This build-up of an electrical charge between two conductors is called capacitance. The closer the two conductors are without touching, the greater the capacitance.

Front of membrane: Here you can see the conductive grid

The “sensing” part of the system comes in with the controller. The Click Wheel controller (see above) is programmed to measure changes in capacitance. The greater the change in capacitance at any given point, the closer your finger must be to that point. When the controller detects a certain change in capacitance, it sends a signal to the microprocessor. As you move your finger around the wheel, the charge build-up moves around the wheel with it. Every time the controller senses capacitance at a given point, it sends a signal. That’s how the Click Wheel can detect speed of motion — the faster you move your finger around the wheel, the more compacted the stream of signals it sends out.

And as the microprocessor receives the signals, it performs the corresponding action — increasing the volume, for instance. When your finger stops moving around the wheel, the controller stops detecting changes in capacitance and stops sending signals, and the microprocessor stops increasing the volume.

If your finger controls the Click Wheel because your finger is a conductor, why can’t you control the Click Wheel with a paper clip?

What can you use to control the touch-sensitive Click Wheel? Here’s an abbreviated list of what we tested:

  • Finger: Yes
  • Orange: Yes
  • Apple: Yes
  • Plastic pen cap: No
  • Silly Putty: No
  • Paper clip: No
  • Tip of Cold Heat soldering tool: No
  • Prongs from iPod charger: No

The pen cap and the Silly Putty are not conductors….

The determining factor, then, is you — the human body is a very big conductor, providing a very big neutral area for a charge to jump to. The charge difference between your body and the Click Wheel’s electrodes provides the voltage — or electrical “pressure” — that activates the Click Wheel system.

Courtesy :howstuffworks

Posted by

Mahesh (ECE 3rd yr) MGIT

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