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CONVERGENCE ADJUSTMENT
(To be done after the purity adjustment)
BGR B G R RGB R G B
CRT CUT-OFF, BACKGROUND AND SUB-CONTRAST ADJUSTMENT
1. CRT CUT-OFF ADJUSTMENTS
Adjusting Point Sub-Brightness: R890 1. Receive E-5CH "MONOSCOPE PATTERN" signal. 2. Using the remote controller, call up the Video Normal mode. 3. Go to the service mode (Make short-circuit between TP1001 and TP1002.) and select the cutoff/background mode. 4. Connect the oscilloscope to TP852 (RED cathode). 5. Set the screen control to 0/10 position. 6. Press the "�/��" key on the remote controller to reach the horizontal centering mode. 7. Adjust the sub-brightness control (R890) so that the blanking pulse on the oscilloscope screen be 10 ± 1Vp-p. 8. Disconnect the oscilloscope from TP852. 9. Turn the screen control counterclockwise until the horizontal raster glimmers. 10.Adjust the cut-off data of the other two colours until the horizontal raster becomes whitish. Note: The data can be turned up and down with the above keys. � R CUT OFF UP "1" key � G CUT OFF DOWN "5" key � R CUT OFF DOWN "4" key � B CUT OFF UP "3" key � G CUT OFF UP "2" key � B CUT OFF DOWN "6" key 11.Turn the screen control counterclockwise until the horizontal raster disappears. Note: Before starting this adjustment, warm up the unit for 30 minutes or longer at a beam current of 1900 ± 50µA. 12.Press the "�/��" key on the remote controller to call the normal mode.
1. Receive the E-2CH "CROSSHATCH PATTERN" signal. 2. Using the remote controller, call the Normal mode. STATIC CONVERGENCE 1. Turn the 4-pole magnet to a proper opening angle in order to superimpose the blue and red colours. 2. Turn the 6-pole magnet to a proper opening angle in order to superimpose the green colour over the blue and red ones. DYNAMIC CONVERGENCE 1. Adjust the convergence on the fringes of the screen in the folloeing steps. a) Fig. a: Drive the wedge at point "a" and swing the deflection coil upward. b) Fig. b: Drive the wedge at points "b" and "c" and swing the deflection coil downward. c) Fig. c: Drive the "c"wedge deeper and swing the deflection coil rightward. d) Fig. d: Drive the "b"wedge deeper and swing the deflection coil leftward. 2. Fix all the wedges on the CRT and apply glass tape over them. 3. Apply lacquer to the deflection yoke lock screw, magnet unit (purity, 4-pole and 6-pole magnets) and magnet unit lock screw.
Fig. a
Fig. b
10 ± 1Vp-p
RGB B G R R G B
BGR
Fig. c
Fig. d
Wedge "a"
About 100°
About 100°
Lacquer
9
Wedge "b"
Wedge "c"
2. WHITE BALANCE and BACKGROUND (I2C bus adjustment)
4-pole magnet 6-pole magnet CRT neck
Purity magnet
Lacquer
Receive the E-5CH "MONOSCOPE PATTERN" signal. Using the remote controller, call the Video Normal mode. Connect the ammeter between TP601 and TP602. Roughly adjust R1631 (Max beam adjustment) to have a beam current of about 1.9 mA. Receive the J-12CH (window pattern) signal. (Or receive the white balance pattern signal.) Adjust the G-drive and B-drive data to have a colour temperature of 12,300°K. (white). �12,300°K. X: 0.272 Y: 0.275 (with a Minolta colour temperture meter CA-100) Note: The data can be turned up and down with the above keys. � G-DRIVE UP "7" key � B-DRIVE UP "8" key � G-DRIVE DOWN " " key � B-DRIVE DOWN "0" key 7. Using the R-CUT OFF, G-CUT OFF, and B-CUT OFF controls, adjust the white/dark portion to 12,300°K. 8. Readjust the color temperature at the white peak. 9. Check the white/dark portion to make sure the colour temperature is 12,300°K. Note: Before starting this adjustment, warm up the unit for 30 minutes or longer at a beam current of 1900 ± 50µA.
1. 2. 3. 4. 5. 6.
SX80J9
9-1
9-2
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