Content deleted Content added
m +cs |
|||
Line 26:
[[Image:Egun.jpg|200px|thumb|Electron gun]]
The source of the electron beam is the [[electron gun]], which produces a stream of electrons through [[thermionic emission]], and focuses it into a thin beam. The gun is located in the narrow, cylindrical neck at the extreme rear of a CRT and has electrical connecting pins, usually arranged in a circular configuration, extending from its end. These pins provide external connections to the cathode, to various grid elements in the gun used to focus and modulate the beam, and, in electrostatic deflection CRTs, to the deflection plates. Since the CRT is a [[Hot cathode|hot-cathode]] device, these pins also provide connections to one or more [[filament heaters]] within the electron gun. When a CRT is operating, the heaters can often be seen glowing orange through the glass walls of the CRT neck. The need for these heaters to 'warm up' causes a delay between the time that a CRT is first turned on, and the time that a display becomes visible. In older tubes, this could take fifteen seconds or more; modern CRT displays have fast-starting circuits which produce an image within about two seconds, using either briefly increased heater current or elevated cathode voltage. Once the CRT has warmed up, the heaters stay on continuously. The electrodes are often covered with a [[black layer]], a patented process used by all major CRT manufacturers to improve electron density.
The electron gun is often mounted slightly off-axis, as it accelerates not only electrons but also ions present in the imperfect [[vacuum]] (some of which result from [[outgassing]] of the internal tube components). These ions are heavier than electrons, and therefore are deflected less by the magnetic field from the deflection coils; in older constructions with in-axis guns, the ions bombard the phosphor in the center of the screen and accelerate deterioration. Some very old black and white TV sets show browning of the center of the screen, known as ion burn, from this bombardment. The combination of an off-axis mounting of the electron gun and permanent magnets bending the electron beam back in the desired direction forms an [[ion trap]]. The particles are deflected towards the side of the neck of the tube, and only the lighter electrons are deflected sufficiently back towards the screen; the heavier ions hit the side of the tube and dissipate (this system was later replaced by the aluminium coating mentioned below).
| |||