Cathode-ray Tubes

CATHODE-RAY TUBES Most display devices currently in use employ a cathode-ray tube (CRT) for the display screen. The following information is a review of the fictions and operation of CRTs. ELEMENTS OF A CRT The CRT is a large glass envelope that contains three basic elements: an electron gun, a deflection system, and a phosphor screen. These elements convert electronic signals into visual displays. In our discussion of CRTs, we will first cover monochrome CRTs then we cover color CRTs. All the air in the glass tube must be evacuated to form a vacuum. This is necessary for three reasons: Air molecules disrupt the electron beam as it travels from the anode to the cathode, Gases tend to ionize when subjected to high voltages and are conductive, which would short out the CRT, and Oxygen in the CRT would cause the filament to burn up. Figure 1-1 shows the three basic components: the phosphor screen, the electron gun, and a deflection system. Figure 1-1.–A cathode-ray tube (CRT). 1-2 The Phosphor Screen The inside of the large end, or face, of a CRT is coated with phosphor. Phosphor is a material that displays luminescence when excited by electrons or other sources of radiation. In other words, electrons (beta radiation) striking the phosphor will cause it to glow for a short period of time. The length of time or duration that the display remains on the screen after the phosphor has been hit with electrons is known as persistence. When the electrons are formed into a beam and directed at the phosphor, the beam produces a dot. The intensity, or brightness, of the dot is directly proportional to the intensity of the electron beam. The Electron Gun The electron gun is located in the narrow neck of the CRT. The gun acts as the source of the electron beam. Figure 1-2 illustrates the components of the electron gun. A small ac voltage is applied to the filament to heat the cathode. Heating the cathode causes vast Figure 1-2.–A CRT electron gun. numbers of electrons to be freed from the cathode. When the voltage of the control grid is more positive than the cathode, the beam is turned on, or unblanked, and the electrons are drawn to the anode (phosphor screen). When the control grid is negative with respect to the cathode, the beam is turned off, or blanked. In a monochrome CRT, the beam is either on or off and has a uniform brightness. In a black and white CRT that displays varying shades of gray, the