Components of Optical drive
An optical drive in a computer system allows you to use CDs, DVDs, and Blu-ray discs to listen to music or watch a movie. Most drives also allow you to write data to a disc, so you can create your own music CDs or create a backup copy of important data. Buying Refurbished and New Optical Drives helps you save money.
Optical Disk Drive Defined
An optical disk drive (ODD) uses a laser light to read data from or write data to an optical disc. These include CDs, DVDs, and Blu-ray discs. This allows you to play music or watch movies using pre-recorded discs. Computer software also often comes on one of these discs, so you need an optical drive to install software. Most modern drives allow you to write to an empty disc, so you can create your own music CDs or create a backup copy of important data.
An optical disk drive uses a laser to read and write data. A laser in this context means an electromagnetic wave with a very specific wavelength within or near the visible light spectrum. Different types of discs require different wavelengths. For compact discs, or CDs, a wavelength of 780 nanometers (nm) is used, which is in the infrared range. For digital video discs, or DVDs, a wavelength of 650 nm (red) is used, while for Blu-ray discs a wavelength of 405 nm (violet) is used.
An optical drive that can work with multiple types of discs will therefore contain multiple lasers. The mechanism to read and write data consists of a laser, a lens to guide the laser beam, and photodiodes to detect the light reflection from the disc.
The optical mechanisms for reading CDs and DVDs are quite similar, so the same lens can be used for both types of discs. The mechanism for reading Blu-ray discs, however, is quite different. An optical drive that works with all types of discs will therefore have two separate lenses: one for CD/DVD and one for Blu-ray.
An optical disc drive with separate lenses for CD/DVD and for Blu-ray discs
optical drive lenses
In addition to the lens, an optical drive has a rotational mechanism to spin the disc. Optical drives were originally designed to work at a constant linear velocity (CLV) – this means that the disc spins at varying speeds depending on where the laser beam is reading, so the spiral groove of the disc passes by the laser at a constant speed. This means that a disc spins at around 200 rotations per minute (rpm) when the laser is reading near the outer rim of the disc and at around 500 rpm when reading near the inner rim.
This constant speed is very important for music CDs and movie discs, since you want to listen to music or watch a movie at the regular speed. For other applications, however, such as reading or writing other types of data, working at this speed is not needed. Modern optical drives can often spin much faster, which results in higher transfer speeds.