Vector Scan

Figure 1-4.—Noninter1aced scan of a CRT. Vector Scan Vector scan CRTs are used extensively in the Data Display Group ANK/UYA-4(V) plan position indicators (PPIs). The circular display screens provide control and display of conventional radar sweep and video data and computer-generated symbology. The CRTs used in the PPIs use electrostatic deflection The methods used to develop the deflection and unblinking signals for radar sweep and video are similar because the same CRT beam is used to develop both presentations. However, the methods used to develop the radar sweep and video are different from the two methods used to develop symbology. In the following paragraphs, you will learn how the X/Y coordinate system is used to position the CRT beam. The X/Y coordinate system uses a grid as a frame of reference. Figure 1-5 illustrates the concept of the X/Y coordinate system. The horizontal line is the X axis, and the vertical line is the Y axis. The intersection of the two lines is the origin of all deflection signals. The origin is normally located at the center of the CRT, but may be offset from the center by operator action. Figure 1-5.—The X/Y coordinate system. The origin is the starting point for measuring along both axes. To the right of the origin, values on the X axis are positive; to the left, values are negative. The values above the origin on the Y axis are positive; below the origin, they are negative. A point anywhere on the screen of the CRT may be defined by two values: an X coordinate and a Y coordinate. The X coordinate is used to develop the horizontal deflection of the CRT beam. A positive X value will move the beam to the right of the origin; a negative X value will move the beam to the left of the origin. Vertical deflection is derived from the Y coordinate value. A positive Y value will deflect the beam upward from the origin, and a negative value will move the beam down. The appropriate X and Y values can be used to position the beam to any point on the CRT. The combination of positive and negative X and Y signals divides the CRT into the four quadrants illustrated in figure 1-5. A third signal is required to control the blanking of the electron beam. The Z (unblank) signal is used 1-5