Text preview for : 20030612163200171_CH4_ADJUSTMENT.pdf part of MEDION MD*9090 CAMCORDER DVCAM
Back to : Md-9090_med ok.part1.rar | Home
4. Alignment and Adjustment
4-1 VCR Adjustment
4-1-1 VCR Adjustment Preparation
1. How to get into the VCR adjust mode. STEP 1 1. Connect the power source. 2. Set the mode switch of the video camera to "VCR" position. 3. Push the "TAPE EJECT" switch so that Door Housing is opened. STEP 2 1. Press and hold the "F.ADV" button on the remote control and "DISPLAY" button on the video camera at the same time for more than 5 seconds. 2. When monitor OSD appears as shown below, VCR adjustment mode has been activated successfully. 3. When changing the adjustment item, please press the "PHOTO/Self Timer" button on the Remote controller. 4. You can press "T/W" button on the remote controller to change adjustment value. 5. After setting adjustment value, please press "START/STOP" button on the remote controller to confirm DATA.
SP : : : VCR ADJ EPR:FF 01 EVR:FF Indicates current adjustment item. Indicates the adjusted values Indicates preset values
4-1
Alignment and Adjustments
Fig.1. RIGHT CASE
SAMSUNG
Display Tape Eject
Fig.2. REMOCON KEY
START/ STOP
DISPLAY
COUTER RESET
WIDE
SELF TIMER
STILL
ZERO RETURN
TELE
STILL
X2 SLOW F.ADV
STEP 3 . If you want to finish the adjustment mode, you have to do Power Reset. The Power Reset means that you pull out the power source and pull in it again.
4-2
Alignment and Adjustments
4-1-2 VCR Adjustment
1. VCR Adjustment Items NO 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 10 11 12 13 14 15 16 17 19 1A 1B 40 1F MODEL DATA DEW D.ZOOM HEAD SW ADJUST COPY PROTECT DIF INITIAL NAME SWP POSITION 1 SWP POSITION 2 EQC ch0 EQC ch1 GDH ch0 GDH ch1 GDL ch0 GDL ch1 AF-REC OFFSET REC CURRENT REC CURRENT MP Y LEVEL C LEVEL AGC-MARK ACC-MARK S-AGC-MARK-OFFSET S-ACC-MARK-OFFSET LCD COLOR OFFSET Value Adjustment Adjustment 88 88 80 80 88 88 00 90 90 78 C0 00 00 00 00 05 FF FF FF FF FF 45 Description HEAD SW 1 HEAD SW 2 CH1 EQ Initial Value (FIX) CH2 EQ Initial Value (FIX) CH1 "Group Delay High" Initial Value (FIX) CH2 "Group Delay High" Initial Value (FIX) CH1 "Group Delay Low" Initial Value (FIX) CH2 "Group Delay Low" Initial Value (FIX) AFTER REC OFFSET (FIX) REC CURRENT (FIX) REC CURRENT MP (FIX) LUMI LEVEL (FIX) COLOR LEVEL (FIX) FIX FIX FIX FIX FIX FIX FIX FIX FIX FIX MODEL INITIAL Adj. Value : 01 FIX D.ZOOM Adj. Value: 03 HEAD SW Adjustment NTSC: 20 PAL: 12
2. How to adjust Head Switching Position. 1) Get into VCR ADJUST mode. 2) Move to the VCR ADJUST address "40". 3) Play standard tape, and "Head Switching Position" will be adjusted automatically.
4-3
Alignment and Adjustments
4-2 Camera Adjustment
Note: How to adjust the camera system. 1) EEPROM stores confirmed adjustment value of each adjustment step. 2) DSP (Digital Signal Process : ICP06-MAIN BOARD) digitalizes the camera signal. 3) When changing ICP08-MAIN BOARD of EEPROM, readjust main board. While changing LCD board- and EVF board- always readjust each part. ince EEPROM stores confirmed adjustment value of each adjustment step, readjusting must be performed in order to store the changed data. 4) Adjust the following items after changing LENS ASSY. a. LENS ZOOM TRACK b. AUTO HALL c. AUTO IRIS 5) Adjust the following items after changing EEPROM and MAIN BOARD. a. LENS ZOOM TRACK b. ZOOM VR CENTER c. AUTO HALL d. AUTO IRIS e. AUTO WHITE BALANCE (indoor) f. AUTO WHITE BALANCE (outdoor)
4-2-1 Adjustment Preparation
1. Measuring Instrument 1) DC power supply 2) Oscilloscope 3) PAL vectorscope, NTSC Vectorscope 4) PAL wave form monitor, NTSC wave monitor 5) PAL TV or monitor, NTSC TV or monitor 6) Color bar chart Gray scale chart 2. Camera Pcb configuration 1) Main PCB 2) CCD PCB 3) EIS PCB 4) EVF PCB 5) LCD PCB 3. Before you start 1) Use the buttons on the remote control when adjusting camera. 2) Press the "START/STOP" button when storing confirmed adjustment value of each adjustment step in EEPROM. 3) The OSD shows "OK" after finishing each adjustment step. 4) To clear the adjustment mode, pull out the power source.
4-4
Alignment and Adjustments
4. Functions of each button on the Remote Control Button START/STOP (Confirm) STOP (Data Down) PLAY (Data Up) FF (Mode Up) REW (Mode Down) Description Stores changed value in the adjustment and auto adjustment mode. Changes data in the adjustment state. Changes mode.
In adjustment mode, the buttons of the remote control is as the followings.
START/ STOP
DISPLAY
COUTER RESET
WIDE
SELF TIMER
STILL
ZERO RETURN
TELE
STILL
X2 SLOW F.ADV
Note: In service adjustment mode, button names are different from those in customer function control mode. e.g.) "START/STOP" is the same as "Confirm". 5. How to set up the camera adjustment mode
STEP 1 1) Connect the power source (battery/DC cable). 2) Open Housing from video camera. 3) Set the "POWER(CAMERA/PLAYER)" switch to "CAMERA" position. 4) The OSD appears.
STEP 2 Press and hold the "DISPLAY" button on the remote control and "EDIT(+)" button on the video camera at the same time for more than 5 seconds. STEP 3
ADJ OCD Monitor OSD shows " CAMERAFF EVR : FF ". EPR : Then camera adjustment mode has been activated successfully.
Note : "XX" indicates variable values.
4-5
Alignment and Adjustments
model NTSC ADDR data
ODF 0CD 0CE 0CF 0D0 0D6 0DB 0DE 000 001 002 003 004 005 006 007 008 009 00A 00B 00C 00D 00E 00F 010 011 012 013 014 015 016 017 018 019 01A 01B 01C 01D 01E 01F 020 021 022 023 024 025 026 FF FF FF FF FF FF FF FF 00 00 80 01 00 00 00 A0 00 18 00 00 00 00 00 00 00 00 00 04 00 01 00 00 00 04 00 00 00 08 00 20 01 80 18 01 08 40 22
PAL data
FF FF FF FF FF FF FF FF 01 00 80 01 00 00 00 A0 00 18 00 00 00 00 00 00 00 00 00 04 00 01 00 00 00 04 00 00 00 09 00 03 01 80 18 01 08 40 22
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
CAMERA TABLE INITIAL( 'AA'+CONFIRM) AUTO HALL ADJUST AUTO IRIS ADJUST AUTO WB ADJUST (0D4:INDDOR, 0D5:OUTDOOR) AUTO LENS ADJUST(WARNING! DON'T USE WITHOUT AN INFINITE COLLIMATOR) ZOOM LEVER CENTER POSITION SETTING NO USED 3MM LENS AUTO ADJUST AT SERVICE FIELD(DISTANCE 3M+/-1Cm) model set( ntsc=00, pal =01) color-bar lcd-jig Iris Control Low(7-0Bit) CDS_WEIGHT CDS_CONTROL2L VALUE AT AGC VALUE CHANGE CDS_CONTROL1H CDS_CONTROL1L CDS_AGCH CDS_AGCL CDS_NC1 CDS_IRISPWM_H CDS_NC2 CDS_IRISPWM_L CDS_COARSE_OFFSETH CDS_COARSE_OFFSETL CDS_FINE_OFFSETH CDS_FINE_OFFSETL CDS_VBH CDS_VBL CDS_OPTBLACKH CDS_OPTBLACKL CDS_HOT_PIXELH CDS_HOT_PIXELL CDS_COLD_PIXELH CDS_COLD_PIXELL CDS_CONTROL2H CDS_CONTROL2L CDS_BLANKH CDS_BLANKL CDS_DLY1_ADCLKH CDS_DLY1_ADCLKL [D3~D0] CDS_DLY2_SV_SRH CDS_DLY2_SV_SRL; SHD ADJ[D7~D4] , SHP ADJ[D3~D0] CDS_TESTH CDS_TESTL MOTOR_STARTTIME MOTOR_DRIVETIME MOTOR_CHOPPING MOTOR_EXTPIN MOTOR_EVRA/_FOCUS MOTOR CURRENT
4-6
Alignment and Adjustments
model NTSC ADDR data
027 028 029 02A 02B 02C 02D 02E 02F 030 031 032 033 034 035 036 037 038 039 03A 03B 03C 03D 03E 03F 040 041 042 043 044 045 046 047 048 049 04A 04B 04C 04D 04E 04F 050 051 052 053 054 055 056 22 FF FF FF FF FF FF FF FF 45 38 78 20 78 80 90 30 CF 18 80 80 80 90 80 03 60 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 02 FF FF
PAL data
22 FF FF FF FF FF FF FF FF 4C 38 80 20 80 80 90 30 CF 18 80 80 80 90 80 03 60 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 02 FF FF
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
MOTOR_EVRB_ZOOM MOTOR CURRENT NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED AE TARGET Ep0_Hiluxper; IRIS DIFFRACTION POINT BLC_Ae_Target SPOTLIGHT_Ae_Target SANDSNOW_Ae_Target INITIAL IRIS Iris_UpGainPercent AutoAgcOn_Target SHUTTER _UP_DOWN_SPEED AE-center-percent Ep0_Iris_DownSpeed Ep0_AgcUpDown_Speed agc min_max%eis_shut Iris_DownGainPercent Iris_Current_Hall_Re Iris_Current_Option NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED AF OPTION 1 SPOT OPTION1 AF_OPTION2 AF_OPTION3 Dual zoom speed[00,01,02,03=MAX] AF_OPTION4 AF_OPTION5
4-7
Alignment and Adjustments
model NTSC ADDR data
057 058 059 05A 05B 05C 05D 05E 05F 060 061 062 063 064 065 066 067 068 069 06A 06B 06C 06D 06E 06F 070 071 072 073 074 075 076 077 078 079 07A 07B 07C 07D 07E 07F 080 081 082 083 084 085 086 FF 01 10 30 2C 20 20 20 20 A5 30 52 5E 80 A0 81 C8 EC 21 84 84 10 01 10 10 09 20 0E 08 03 20 00 00 00 50 0A 08 00 00 05 00 16 24 00 06 04 02 60
PAL data
FF 01 10 04 38 20 25 20 20 A1 2F 52 53 80 A0 81 C8 EE 21 84 84 20 01 12 10 10 20 0E 08 03 20 00 00 00 50 0A 08 00 00 00 00 28 20 00 06 04 02 90
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
AF_OPTION6 WB_PGM_OPTION ,WHEN IN_DATA > 3100_B DETECTION MARGEIN OF YELLOW WB_REMAPPING_B , WHEN IN_DATA >3100_B & NOT WHITE_DETECTED VALUE WB_REMAPPING_R , WHEN IN_DATA >3100_R & NOT WHITE_DETECTED VALUE WB_REMAPPING_B , WHEN IN_DATA >3100_B & WHITE_DETECTED VALUE WB_REMAPPING_R , WHEN IN_DATA >3100_R & WHITE_DETECTED VALUE WB_REMAPPING_B , WHEN IN_DATA >3100_B & LOCATED OF LEFT SIDE WB_REMAPPING_B , WHEN IN_DATA >3100_B & LOCATED OF RIGHT SIDE [CHANGED BY WB_ADJ#0CF OR #0D4] 3100_B [CHANGED BY WB_ADJ#0CF OR #0D4] 3100_R [CHANGED BY WB_ADJ#0CF OR #0D5] 5100_B [CHANGED BY WB_ADJ#0CF OR #0D5] 5100_R OUTDOOR DECISION HALL PERCENT VALUE WB_IN_B_DATA > 3100_B (CONSIDERED INDOOR) WB_IN_R_DATA > 5100_R (CONSIDERED OUTDOOR) Ep0_awb_tracking WHITE_DETECTION_MARGEIN AT OUTDOOR WB_SLOPE OF 3100-5100 OUTDOOR_B_CONTROL OF POWER ON OUTDOOR_R_CONTROL OF POWER ON Y-LEVEL DOWN VALUE AT AGC MAX POINT WB_OPTION_DEVIDE LEFT TO RIGHT ,WHEN IN_B_DATA > 3100_B @ R_HUE_NEGA_5100 @ R_HUE_POSI_5100 @ NB_HUE_NEGA_5100 @ B_HUE_POSI_5100 WB_LEFT_MARGEIN(LENGTH) OF WHITE DETECTION WB_RIGHT_MARGEIN(LENGTH) OF WHITE DETECTION display option -awb AWB_TRACKING_SPEED [D70]R MAPPING ,WHEN WB_IN_R_DATA > 3100_R WB_INCREASE_LENGTH AT LOW LIGHT CONDITION B MAPPING ,WHEN 3100_B < WB_IN_B_DATA < 2600_B WB_WHITE_DETECTION ROUTINE SELECT OPTION AAWB_Y-LEVEL_DEVIDE SCALE AWB_B_3100_MOVE TO CENTER AWB_R_3100_MOVE TO CENTER AWB_B_5100_MOVE TO CENTER AWB_R_5100_MOVE TO CENTER R MAPPING ,WHEN 3100_R < WB_IN_R_DATA < 2600_R R_3100_OVER WHEN IN_DATA > 3100_B B_3100_OVER WHEN IN_DATA > 3100_B AWB_OPTION[D70-D5] WB_RIGHT AREA _DIVIDE SCALE WB_LEFT AREA _DIVIDE SCALE WB-WHITE_DETECTION_ROUTINE SELECT OPTION @ R_GAIN_POSI_5100
4-8
Alignment and Adjustments
model NTSC ADDR data
087 088 089 08A 08B 08C 08D 08E 08F 090 091 092 093 094 095 096 097 098 099 09A 09B 09C 09D 09E 09F 0A0 0A1 0A2 0A3 0A4 0A5 0A6 0A7 0A8 0A9 0AA 0AB 0AC 0AD 0AE 0AF 0B0 0B1 0B2 0B3 0B4 0B5 0B6 60 4E 48 00 02 01 00 02 02 15 2D 10 F0 F0 08 10 FF FF 28 04 0F F4 04 18 40 50 00 55 00 33 00 A0 00 40 89 60 4C 43 DD 07 0C 0C 10 15 00 58 20 75
PAL data
88 60 55 00 02 01 00 02 02 17 29 10 F0 F0 08 10 FF FF 28 04 0F F4 04 18 40 50 00 55 00 33 00 A0 00 40 89 60 4C 42 DD 07 0C 0C 10 15 00 58 20 75
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
@ R_GAIN_NEGA_5100 @ B_GAIN_POSI_5100 @ NB_GAIN_NEGA_5100 WB_INDOOR_CLIP_CONTORL OPTION YELLOW TRACKING CONDITION SELECT AT NORMAL AWB_DIVIDED MIDIUME Y_LEVEL WEIGHT WB_LOW_LIGHT_LENGTH_OPTION WB_R_CONTOL_SHIFT AT EIS ON WB_B_CONTOL_SHIFT AT EIS ON EIS_VERTICAL_AD_GAIN EIS_HORIZENTAL_AD_GAIN EIS_NOISE_THRESHOLD EIS_VERTICAL_CENTERRING_GAIN EIS_HORIZENTAL_CENTERRING_GAIN EIS_VERTICAL_DEFAULT EIS_HORIZENTALL_DEFAULT EIS_WIDE_PERCENT EIS_TEST_OPTION EIS_DEMO_SPEED EIS_PANNING_THRESHOLD EIS_REF_MAX_OPTION FREPENCY_REF APNNING ON TIME GYRO_REF DEC. MAX FREQUENCY_SUM THRESHOLD FOR GYRO_REF_RESET EIS_HSUVDIV NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED Hall Close Target Hall Open Value - Close Value Hall Ref Start At Hall Adjust Hallgain Start At Hall Adjust [CHANGED BY HALL-ADJ#0CD]Hall Min Value( Iris Close ) [CHANGED BY HALL-ADJ#0CD]Hall Max Value( Iris Open ) LENS_CHECK_LIMIT_0 LENS_CHECK_LIMIT_1 LENS_CHECK_LIMIT_2 LENS_CHECK_LIMIT_3 LENS_CHECK_LIMIT_4 NO_USED Ae Control Value At Adjt Agc Min Limit Value Agc Max Limit Value
4-9
Alignment and Adjustments
model NTSC ADDR data
0B7 0B8 0B9 0BA 0BB 0BC 0BD 0BE 0BF 0C0 0C1 0C2 0C3 0C4 0C5 0C6 0C7 0C8 0C9 0CA 0CB 0CC 0CD 0CE 0CF 0D0 0D1 0D2 0D3 0D4 0D5 0D6 0D7 0D8 0D9 0DA 0DB 0DC 0DD 0DE 0DF 0E0 0E1 0E2 0E3 0E4 0E5 0E6 80 20 15 87 DC 00 5C 0B BA 81 07 89 C0 82 30 85 11 00 FF FF 1A 00 FF FF FF FF FF FF FF FF FF FF 00 FF FF FF FF FF FF FF FF 0A 40 00 58 E0 08 0A
PAL data
80 20 19 87 DA 00 5B 0B A0 81 1A 89 C0 82 30 85 11 00 FB FF 19 00 FF FF FF FF FF FF FF FF FF FF 00 FF FF FF FF FF FF FF FF 0A 40 01 58 E0 09 0A
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
[CHANGED BY Z.VR_CHKJ#0D6]ZOOM VR LEVER CENTER VALUE Zoom Vr Margin ZOOM MAX SPEED [CHANGED BY IRIS-ADJ#0CE]IRIS_CONTROL_MIN_LOW [CHANGED BY IRIS-ADJ#0CE]IRIS_CONTROL_MIN_HIGH [CHANGED BY IRIS-ADJ#0CE]IRIS_CONTROL_MAX_LOW [CHANGED BY IRIS-ADJ#0CE]IRIS_CONTROL_MAX_HIGH [CHANGED BY LENS_ADJ#0DE]TELE ENG LIMIT [CHANGED BY LENS_ADJ#0DE]Focus Photo Sensor Position-L [CHANGED BY LENS_ADJ#0DE]Focus Photo Sensor Position-H [CHANGED BY LENS_ADJ#0DE]Zoom Photo Sensor Position-L [CHANGED BY LENS_ADJ#0DE]Zoom Photo Sensor Position-H [CHANGED BY LENS_ADJ#0DE]Focus Moving Data At Adjt-L[with #0D7='1'] [CHANGED BY LENS_ADJ#0DE]Focus Moving Data At Adjt-H [CHANGED BY LENS_ADJ#0DE]Zoom Moving Data At Adjt-L [CHANGED BY LENS_ADJ#0DE]Zoom Moving Data At Adjt-H [CHANGED BY LENS_ADJ#0DE]Focus MID Margin-L [CHANGED BY LENS_ADJ#0DE]Focus MID Margin-H [CHANGED BY LENS_ADJ#0DE]Focus Tele Margin-L [CHANGED BY LENS_ADJ#0DE]Focus Tele Margin-H [CHANGED BY LENS_ADJ#0DE]Focus Wide Margin-L [CHANGED BY LENS_ADJ#0DE]Focus Wide Margin-H HALL_AUTO_ADJUST IRIS_AUTO_ADJUST WB_AUTO_ADJUST(LINE): indoor-outdoor LENS_AUTO_ADJUST(WITH INFINITE COLLIMITOR CONDITION) NO_USED NO_USED LENS_CHECK WB_3100K_AUTO_ADJUST WB_5100K_AUTO_ADJUST[5100=3100+C18 Fliter] ZOOM _VR_LEVER_AUTO_CENTER_ADJUST ZOOM/FOCUS MOTOR MOVING (#0C3~#0C6) '1'=one AF NO_USED GYRO_HORIZENTAL_AUTO_CHECK GYRO_VERTIACL_AUTO_CHECK AGC_ADJ(NO_USED) NO_USED NO_USED LENS_AUTO_ADJUST_3M FOR SERVICE FIELD CAMERA INITIAL 'AA'+CONFIRM GYRO_CHECK_CENTER_VALUE GYRO_CHECK_THRESHOLD_VALUE camera model code(line-initial) agc middle point set (#0B5~ #1DA ~#0E3) agc middle chroma suppress. Percent of #142 agc middle noise slice (#133) agc middle YH-APT-GAIN+ (max:1F)(#131)
4-10
Alignment and Adjustments
model NTSC ADDR data
0E7 0E8 0E9 0EA 0EB 0EC 0ED 0EE 0EF 0F0 0F1 0F2 0F3 0F4 0F5 0F6 0F7 0F8 0F9 0FA 0FB 0FC 0FD 0FE 0FF 100 101 102 103 104 105 106 107 108 109 10A 10B 10C 10D 10E 10F 110 111 112 113 114 115 116 0A 0F 06 F8 F0 0E 09 0C FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 9E 13 7A 33 A7 00 00 00 80 00 01 10 40 6E FF 04 00 00 01 30 00
PAL data
0A 0F 05 F3 E8 0E 09 0C FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 AD 04 0A 33 A6 00 00 00 80 00 00 10 3C 81 FF 02 00 00 01 37 00
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
agc middle YV-APT-GAIN+ (max:1F)(#132) agc middle YV-APT-GAIN- (max:1F)(#13B) agc middle YH-APT-GAIN- (max:1F)(#13C) agc middle digital clamp middle value(#121) agc max digital clamp value(#121) color-key-green #17A (#16E,#16F,#0EC) color-key-blue #17A (#17C,#17D,#0ED) color-key-yellow #17A (#17E,#17F,#0EE) NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED X27_INV HCNT_SET[7:0] H1_DLY[3:0] H2_DLY[3:0] SHP_DLY[3:0] SHD_DLY[3:0] ADCLK_DLY[3:0] SHP_WITH[2:0] VPUL_INV V_SKIP SHUT_MODE[1:0] FLD_INV V_CLP Hi_SHUT[8] Hi_SHUT_VAL[7:0] Lo_SHUT_VAL[7:0] FCM_Addr[7:0] ITU601 RG_SEL DAC0_PWM_OUTPUT[7:0] DAC1_PWM_OUTPUT[7:0] H_ZM_RATIO[7:0] H_ZM_START[7:0] H_ZM_START[7:0] V_ZM_RATIO[7:0] V_ZM_SUB_Odd[7:0] V_ZM_SKIP[7:0] YC_DLY[7:0] H1_INV ADCLK_SEL HSP_SEL
RG_DLY[3:0] SHD_WITH[2:0] PBLK_CDS PBLK_INV CLP_INV CINEMA CLP1_ADJ[2:0]
ALLSCKINV
AF_ZONE SHP_SEL
CCD_DIRCT
FCM_Addr[9:8] 1CLK_SYNC CRCB_SEL SHD_SEL
4-11
Alignment and Adjustments
model NTSC ADDR data
117 118 119 11A 11B 11C 11D 11E 11F 120 121 122 123 124 125 126 127 128 129 12A 12B 12C 12D 12E 12F 130 131 132 133 134 135 136 137 138 139 13A 13B 13C 13D 13E 13F 140 141 142 143 144 145 146 C0 01 B5 68 C0 C0 38 38 00 10 FB 1D 00 00 00 20 25 DC 01 7A 00 00 00 00 00 A8 0C CC 04 D8 78 E0 06 F8 7C 62 B1 59 8F 00 00 90 90 90 00 C0 52 35
PAL data
C0 01 B5 68 00 C0 38 38 00 10 FD 1D 00 00 00 20 26 DD 02 92 00 00 00 00 00 A8 0C CC 04 D8 78 E0 06 F8 7C 62 B1 41 8F 00 00 98 90 88 00 C0 52 35
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
LIN_H LIN_V V_DLY_ADJ[1:0] H_DLY_ADJ[1:0] H_ZM_START[9:8] UVCLK_INV DZSCK_INV HAIF_MIR FULL_MIR HMIR_AR[8] FMIR_AR[8] H_Mirr_Addr[7:0] F_Mirr_Addr[7:0] HMOSAIC_ADJ[1:0] H_MOSAIC[5:0] VMOSAIC_ADJ[1:0] V_MOSAIC[5:0] HSIZE_AUTO_ZM[7:0] VSIZE_AUTO_ZM[7:0] NO_USED AD_DLY[1:0]/SYS_DLY CLP_EN Defect_mode_S2_S1_S0 P_OFFSET[7:0] P_THR[7:0] P_RAM_Hi[19:16] P_RAM_Mdl[7:0] P_RAM_Lo[7:0] P_FIND_CNT[6:0] P_WH_START[7:0] P_WH_END[7:0] P_WV_START[7:0] P_WV_END[7:0] PTEST DET_DISP CRCT_DISP THR_DISP PATTN_GEN NO_USED NO_USED NO_USED YVAPT_BKTH[1:0] YVAPT_BKG[1:0] YHAPT_BKTH[1:0] YHAPT_BKG[1:0] YAPT_FCOEF_Hi[1:0] GAMA_LIN YH_APT_GAIN_POSI[4:0] YAPT_FCOEF_Lo[1:0] YGAMA_OLD YV_APT_GAIN_POSI[4:0] YAPT_NOISE_SLICE[5:0] Y_Hi_REF[7:0] EDGE_REF[7:0] YVLPF_SEL EG_SEL Hi_SEL YLPF_SEL[1:0] YCS_DLY[2:0] YAPT_NSLICE_AFTER_GAMA[6:0] YWC[7:0] YAPT_CLIP[7:0] Y_DETAIL_ENH_THR[2:0] YD_ENH_GAIN[1:0] YV_APT_GAIN_NEGA[4:0] YAPTHi_CLP[1:0] EGFALL[4] YH_APT_GAIN_NEGA[4:0] YAPTHi_CLP[3:2] HiFALL[4] HiFALL[3:0] EGFALL[3:0] NO_USED NO_USED Y_GAIN[7:0] DSE_Y_GAIN[7:0] C_GAIN[7:0] YART[2:0] YAPT_Hi_GAIN[4:0] YH_PST_GN[1:0] YV_PST_GN[1:0] YH_EMBO_SEL[1:0] YV_EMBO_SEL[1:0] PASTEL_OFFSET[7:0] EMBOSSING_OFFSET[7:0]
4-12
Alignment and Adjustments
model NTSC ADDR data
147 148 149 14A 14B 14C 14D 14E 14F 150 151 152 153 154 155 156 157 158 159 15A 15B 15C 15D 15E 15F 160 161 162 163 164 165 166 167 168 169 16A 16B 16C 16D 16E 16F 170 171 172 173 174 175 176 00 00 00 00 00 00 00 00 00 A8 0C 50 0C B0 10 70 00 06 62 10 36 A5 2D 7F 00 06 46 66 0D FC 00 00 39 8A 24 59 D9 F2 72 B0 00 80 98 1B 22 4E 48 18
PAL data
00 00 00 00 00 00 00 00 00 A8 0C 50 0C A0 10 70 00 06 62 10 36 A5 2D 7F 00 06 46 66 0C FE 00 00 32 9D 24 59 D9 F2 72 B0 00 98 90 12 12 60 5D 17
d7
d6
d5
CONTENT d4
d3
d2
d1
YIN/OUT_WIND
d0
GROUP_DLY[2:0] Y_NEGA Y_EMBOSS Y_PASTEL NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED DYVAPT_BKTH[1:0] DYVAPT_BKG[1:0] DYHAPT_BKTH[1:0] DYH_APT_GAIN_POSI[4:0] DYH_APT_GAIN_NEGA[4:0] DYV_APT_GAIN_POSI[4:0] DYV_APT_GAIN_NEGA[4:0] DDY_APT_NSlice[5:0] DYAPT_CLIP[7:0] DYAPT_Hi_GAIN[4:0] DYAPT_NSLICE_AFTER_GAMA[6:0] DY_DETAIL_ENH_THR[2:0] DYVLPF_SEL YAPTHi_CLP[3:0] DWH_START[7:0] DWH_END[7:0] DWV_START[7:0] DWV_END[7:0] NO_USED CHCON CVCON_O CVCON_E CTL_SEL CRMS CR_COEF[7:0] CB_COEF[7:0] CRDS[7:0] CBDS[7:0] CGDS[7:0] CRWB[9:8] CRWB[7:0] CBWB[7:0] CGWB[7:0] CRRG[7:0] CBRG[7:0] CRBG[7:0] CBBG[7:0] color-key-green #178 color-key-green #179 C_RY_GP[7:0] C_RY_GN[7:0] C_RY_HP[7:0] C_RY_HN[7:0] C_BY_GP[7:0] C_BY_GN[7:0] C_BY_HP[7:0]
DYHAPT_BKG[1:0] - -
DYD_ENH_GAIN[1:0]
CBMS
CBWB[9:8]
4-13
Alignment and Adjustments
model NTSC ADDR data
177 178 179 17A 17B 17C 17D 17E 17F 180 181 182 183 184 185 186 187 188 189 18A 18B 18C 18D 18E 18F 190 191 192 193 194 195 196 197 198 199 19A 19B 19C 19D 19E 19F 1A0 1A1 1A2 1A3 1A4 1A5 1A6 0D E8 10 04 00 07 EB E4 00 02 07 12 28 44 68 96 EA 02 07 12 28 44 68 96 EA 54 A8 26 5F 15 E4 0A 78 12 E7 1C 78 48 B0 23 5A 17 E7 08 76 FF 00 B0
PAL data
0A E8 10 04 00 07 EB E4 00 04 09 12 25 42 6A 96 EA 02 07 12 25 42 6A 96 EA 51 A6 2E 71 13 E0 0B 8E 13 E3 1C 8E 47 AF 2A 6C 16 E6 09 8E FF 00 B0
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
C_BY_HN[7:0] C_KEY_Slope1[7:0] C_KEY_Slope2[7:0] CHUE_FIX color-key-blue #178 color-key-blue #179 color-key-yellow #178 color-key-yellow #179 Y_GAMMA1[7:0] Y_GAMMA2[7:0] Y_GAMMA3[7:0] Y_GAMMA4[7:0] Y_GAMMA5[7:0] Y_GAMMA6[7:0] Y_GAMMA7[7:0] Y_GAMMA8[7:0] C_GAMMA1[7:0] C_GAMMA2[7:0] C_GAMMA3[7:0] C_GAMMA4[7:0] C_GAMMA5[7:0] C_GAMMA6[7:0] C_GAMMA7[7:0] C_GAMMA8[7:0] AF_W1H_STRT[7:0] //N14 //P13 AF_W1H_END[7:0] AF_W1V_STRT[7:0] AF_W1V_END[7:0] AF_W2H_STRT[7:0] AF_W2H_END[7:0] AF_W2V_STRT[7:0] AF_W2V_END[7:0] AE_W1H_STRT[7:0] AE_W1H_END[7:0] AE_W1V_STRT[7:0] AE_W1V_END[7:0] AE_W2H_STRT[7:0] AE_W2H_END[7:0] AE_W2V_STRT[7:0] AE_W2V_END[7:0] AWB_H_STRT[7:0] AWB_H_END[7:0] AWB_V_STRT[7:0] AWB_V_END[7:0] AE_THR_HiGH[7:0] AE_THR_LOW[7:0] AWB_THR_HiGH[7:0]
make-up red make-up-red CSLOP1[9] CBLUE CNEGA
CSLOP1[8] CMONO
CSLOP2[9] CKEY
CSLOP2[8] CKEY_NEGA
4-14
Alignment and Adjustments
model NTSC ADDR data
1A7 1A8 1A9 1AA 1AB 1AC 1AD 1AE 1AF 1B0 1B1 1B2 1B3 1B4 1B5 1B6 1B7 1B8 1B9 1BA 1BB 1BC 1BD 1BE 1BF 1C0 1C1 1C2 1C3 1C4 1C5 1C6 1C7 1C8 1C9 1CA 1CB 1CC 1CD 1CE 1CF 1D0 1D1 1D2 1D3 1D4 1D5 1D6 40 B0 F0 04 00 00 00 00 00 01 F6 02 77 10 38 E0 1A 80 87 00 85 00 83 50 7C F9 38 38 04 B0 80 30 C0 9E 23 7A 00 5F 48 AA 00 90 12 90 0F BF 10 18
PAL data
40 B0 F0 04 00 00 00 00 00 01 F6 02 77 10 38 D0 1A 80 87 00 85 00 83 50 7C F9 38 38 04 B0 80 2A B8 AD 04 0A 00 5F 48 AA 00 90 12 90 0F BF 10 18
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
AWB_THR_LOW[7:0] AF_Clip_THR[7:0] AE_Clip_THR[7:0] ODM_ZONE_DISP[2:0] ODM_TEST OLPF_SEL FIL_PASS NO_USED NO_USED agc-chroma-suppress-comment NO_USED (if #0E4:e0-> (224/256)=0.875 ;80% gain of #142 value) NO_USED (if #0E4:C0 (192/256) NO_USED (total c_supp-> 0.875X((192/256)=0.656 ;65% gain of #142 ) CCD WHITE DEFECT COMPENSATION H-START(AEWIH) CCD WHITE DEFECT COMPENSATION H-END(AEWIH) CCD WHITE DEFECT COMPENSATION V-START(AEWIV) CCD WHITE DEFECT COMPENSATION V-END(AEWIV) CCD WHITE DEFECT COMPENSATION DIGITAL CLAMP LEVEL(#121) COLOR SUPPRESS START AGC COLOR SUPPRESS PERCENT OF MIDDLE_#0E4( 00=no color,FF=no suppress) [ldz]D/Z_ON_step [ldz]D/Z_ON_TELE_L D/ZOOM UP START POINT [ldz]D/Z_ON_TELE_H [ldz]D/Z_ON_WIDE_L D/ZOOM UP END POINT [ldz]D/Z_ON_WIDE_H [ldz]D/Z_OFFS_WIDE_L D/ZOOM DOWN START POINT [ldz]D/Z_OFFS_WIDE_H [ldz]D/Z_OFFE_WIDE_L D/ZOOM DOWN END POINT [ldz]D/Z_OFFE_WIDE_H [d/z]D/Z00M MAX STEP [d/z]_HSIZE(#11D) [d/z]_VSIZE(#11E) NO_USED NEW IRIS CONTROL CENTER VALUE AT IRIS ADJT DSE_ART_#143 DSE_SEPIA_R_#163 DSE_SEPIA_C_RY_HP_#172 DSE_B/W_H1/H2_DLY_#102 DSE_B/W_SHP/SHD_DLY_#103 DSE_B/W_ADCLK/RG_DYL_#104 DSP_YART_EMBO_#143 DSP_YH_PST_EMBO_GAIN_EMBO_#144 DSP_EMBO_OFFSET_EMBO_#146 DSP_DSE_Y_V_APT_BKTH_EMBO_#150 DSP_DSE_Y_H_APT_GAIN_POSI_EMBO_#151 DSP_DSE_Y_H_APT_GAIN_NEGAI_EMBO_#152 DSP_DSE_Y_V_APT_GAIN_POSI_EMBO_#153 DSP_DSE_Y_V_APT_GAIN_NEGA_EMBO_#154 DSP_DSE_Y_APT_NOISE_SLICE_EMBO_#155 DSP_DSE_Y_APT_CLIP_EMBO_#156 DSP_DSE_YHILIGHT_GAIN_EMBO_#157 DSP_DSE_YAPT_NSLICEAFTE_GAM_EMBO_#158
4-15
Alignment and Adjustments
model NTSC ADDR data
1D7 1D8 1D9 1DA 1DB 1DC 1DD 1DE 1DF 1E0 1E1 1E2 1E3 1E4 1E5 1E6 1E7 1E8 1E9 1EA 1EB 1EC 1ED 1EE 1EF 1F0 1F1 1F2 1F3 1F4 1F5 1F6 1F7 1F8 1F9 1FA 1FB 1FC 1FD 1FE 1FF 10 00 00 38 09 05 1A 01 08 0C 04 59 00 60 00 00 00 00 00 00 00 00 00 00 00 A7 01 80 66 40 40 F8 F8 40 40 F8 F8 3B 56 24 19
PAL data
10 00 00 38 06 05 20 01 05 0C 04 41 00 60 00 00 00 00 00 00 00 00 00 00 00 A6 01 88 66 40 40 F8 F8 40 40 F8 F8 3B 56 24 19
d7
d6
d5
CONTENT d4
d3
d2
d1
d0
DSP_DSE_YDETAIL_EHAN_TH_EMBO_#159 DSP_DSE_Y_V_APT_LPF_SEL_EMBO_#15A NO_USED AGC_NSL_START_AGC AGC_H_APT_G_PO_MIN_#131[4:0] MAX=IF AGC_V_APT_G_PO_MIN_#132[4:0] MAX=1F AGC_NOISE_SL_MAX_#133[5:0] MAX=3F AGC_H_APT_G_NE_MIN_#13B[4:0] MAX=IF AGC_V_APT_G_NE_MIN_#13C[4:0] MAX=1F PHOTO-DSP#131-H.APER+ PHOTO-DSP#134-NOISE/S PHOTO-DSP#13C-H.APERNO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED NO_USED COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#106 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#12C COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#142 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#160 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#170 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#171 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#172 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#173 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#174 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#175 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#176 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#177 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#167 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#168 COLOR_BAR_PATTERN_GEN FOR LCD(CVF)_ADJUST_#169 REVISION_DATE
4-16
Alignment and Adjustments
4-2-2 Camera Adjustment
Note : "XX XX" indicate the previous preset value and adjusted value. Press the START/STOP (Confirm) button to store the adjusted value.
CAMERA ADJ EPR:XX
(Stored value)
OCD EVR:XX
(Adjusted value)
1. LENS ZOOM TRACK Caution : For whole zoom range, it shall be in focus. The location of a focus lens is moving depending on the location of zoom lens. During adjusting, micom measures the focus location from a near distance to a long. 1) Camera is set to E-E mode. 2) Focus chart photo (the last page of manual) 3) Ensure that camera is left an about 3 m distance from a focus chart and the focus of lens is placed vertically. Attach a focus chart to white or gray wall of a flat surface. 4) Connect a video output terminal to a TV. 5) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "ODE XX XX". 6) Press the START/STOP (Confirm) button. Never impact on the lens when adjusting zoom and focus lens. The OSD shows "OK" after finishing the adjustment.
2. Zoom VR center 1) Camera mode & 3100°K gray scale chart. 2) Connect a video output terminal to a TV. 3) Press the FF(Mode UP)/REW(mode Down) button so that OSD shows "OD6 XX XX". 4) Press the START/STOP (Confirm) button. 5) Then Micom finds out Zoom VR center position. Store Zoom VR center value in OB7.
3m +/-1Cm
4-17
Alignment and Adjustments
3. AUTO HALL 1) Camera mode & 3100° K gray scale chart 2) Connect a video output terminal to a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "OCD XX XX". 4) Press the START/STOP (Confirm) button. 5) Then micom finds out max. Hall value with an iris opened and min. Hall value with an iris closed. Store max. and min. value of Hall in OAD and OAC respectively. 6) The OSD shows "OK" after finishing the adjustment.
4. AUTO IRIS LEVEL
1) Camera mode & 3100° K gray scale chart 2) Connect a video output terminal to a wave form monitor and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "OCE XX XX". 4) Press the START/STOP (Confirm) button. 5) Then micom finds out max. Hall value with an iris opened and min. Hall value with an iris closed. Store max. and min. value of in OBC, OBD and OBA, OBB respectively. 6) The OSD shows "OK" after finishing the adjustment.
Center of white level
H
Center of white level
H
100IRE 95±5IRE
95±5IRE 100IRE
Optical black level
40US
Optical black level
40US
4-18
Alignment and Adjustments
5. AUTO WHITE BALANCE (indoor)
1) Camera mode & 3100° K/5100° K gray scale chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "OD4 XX XX". 4) Ensure that camera picks up image 40µs on 3100°K gray scale chart precisely and the illumination is 1500-2000 Lux. 5) Press the START/STOP (Confirm) button to ensure that white spot on a vectorscope is moving in the middle of screen. 6) The OSD shows "OK" after finishing the adjustment.
5) Press the PLAY (Data Up)/STOP (Data Down) so that the red level is 70IRE. 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
70IRE
6. AUTO WHITE BALANCE (outdoor)
1) Camera mode & 3100° K/5100° K gray scale chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "OD5 XX XX". 4) Ensure that camera picks up image 40 on 5100 gray scale chart (3100 gray scale chart + C16 filter) precisely and the illumination is 1500-2000 Lux. 5) Press the START/STOP (Confirm) button to ensure that white spot on a vectorscope is moving in the middle of screen. 6) The OSD shows "OK" after finishing the adjustment.
7-b. R-Y POSITIVE GAIN (outdoor)
1) Camera mode & 5100° K color bar chart (3100° K color bar chart + C16 filter) 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "O86 XX XX". 4) Ensure that camera picks up image on 5100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the red level is 55IRE. 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
7. R-Y POSITIVE GAIN (indoor)
1) Camera mode & 3100° K color bar chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "170 XX XX". 4) Ensure that camera picks up image on 3100° K color bar chart precisely and the illumination is 1500-2000 Lux.
55IRE 70IRE
4-19
Alignment and Adjustments
8. R-Y NEGATIVE GAIN (indoor)
1) Camera mode & 3100° K color bar chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "171 XX XX". 4) Ensure that camera picks up image on 3100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the cyan level is 60IRE. 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
8-b. R-Y NEGATIVE GAIN (outdoor)
1) Camera mode & 5100° K color bar chart (3100°K color bar chart + C16 filter) 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "O87 XX XX". 4) Ensure that camera picks up image on 5100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the cyan level is 40IRE. 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
65IRE 60IRE
65IRE 40IRE
4-20
Alignment and Adjustments
9. B-Y POSITIVE GAIN (indoor)
1) Camera mode & 3100° K color bar chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "174XX XX". 4) Ensure that camera picks up image on 3100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the blue level is 40IRE. 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
40IRE 50IRE
10. B-Y NEGATIVE GAIN (indoor)
1) Camera mode & 3100° K color bar chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "175 XX XX". 4) Ensure that camera picks up image on 3100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the yellow level is 50IRE. 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
40IRE 50IRE
9-b. B-Y POSITIVE GAIN (outdoor)
1) Camera mode & 5100° K color bar chart (3100°K color bar chart + C16 filter) 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "O88 XX XX". 4) Ensure that camera picks up image on 5100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the blue level is 30IRE. 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
50IRE
4-21
Alignment and Adjustments
10-b. B-Y NEGATIVE GAIN (outdoor)
1) Camera mode & 5100° K color bar chart (3100°K color bar chart + C16 filter) 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "O89 XX XX". 4) Ensure that camera picks up image on 5100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the yellow level is 48IRE. 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
RED VECTOR 108 DEG
11-b. R-Y POSITIVE HUE (outdoor)
1) Camera mode & 5100° K color bar chart (3100°K color bar chart + C16 filter) 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "O6F XX XX". 4) Ensure that camera picks up image on 5100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the red vectors is 108° . 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
RED VECTOR 108 DEG
48IRE 50IRE
11. R-Y POSITIVE HUE (indoor)
1) Camera mode & 3100° K color bar chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "172 XX XX". 4) Ensure that camera picks up image on 3100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the red vectors is 108° . 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
4-22
Alignment and Adjustments
12. R-Y NEGATIVE HUE (indoor)
1) Camera mode & 3100° K color bar chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "173 XX XX". 4) Ensure that camera picks up image on 3100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the cyan vector is 280° . 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
13. B-Y POSITIVE HUE (indoor)
1) Camera mode & 3100° K color bar chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "176 XX XX". 4) Ensure that camera picks up image on 3100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the blue vector is 345° . 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
CYAN VECTOR 280 DEG
12-b. R-Y NEGATIVE HUE (outdoor)
1) Camera mode & 5100° K color bar chart (3100°K color bar chart + C16 filter) 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "O6E XX XX". 4) Ensure that camera picks up image on 5100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the cyan vector is 280° . 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
BLUE VECTOR 345 DEG
4-23
Alignment and Adjustments
13-b. B-Y POSITIVE HUE (outdoor)
1) Camera mode & 5100° K color bar chart (3100°K color bar chart + C16 filter) 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "O71 XX XX". 4) Ensure that camera picks up image on 5100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the blue vector is 345° . 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
YELLOW VECTOR YELLOW VECTOR 168 DEG 165
14-b. B-Y NEGATIVE HUE (outdoor)
1) Camera mode & 5100° K color bar chart (3100°K color bar chart + C16 filter) 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "O70 XX XX". 4) Ensure that camera picks up image on 5100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the yellow vector is 168° . 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
BLUE VECTOR 345 DEG
14. B-Y NEGATIVE HUE (indoor)
1) Camera mode & 3100° K color bar chart 2) Connect a video output terminal to a vectorscope and a TV. 3) Press the FF(Mode Up)/REW(Mode Down) button so that OSD shows "177 XX XX". 4) Ensure that camera picks up image on 3100° K color bar chart precisely and the illumination is 1500-2000 Lux. 5) Press the PLAY (Data Up)/STOP (Data Down) so that the yellow vector is 168° . 6) Press the START/STOP (Confirm) button to store data. 7) The OSD shows "OK" after finishing the adjustment.
YELLOW VECTOR YELLOW VECTOR 168 DEG 165
4-24
Alignment and Adjustments
4-3 LCD Adjustment
Notes: For LCD adjustment, use the buttons on the video camera and the remote control. After each adjustment step is completed, OSD shows "OK". EEPROM(ICL202) stores confirmed adjustment value of each adjustment step. After finishing the adjustment, turn power off. 1. How to get into the LCD adjust mode STEP 1 1. Connect the power source (battery/DC cable). 2. Set the "CAMERA/PLAYER" switch to "CAMERA" position. 3. Camera screen and OSD appears. 4. Open housing of the video camera and remove tape. 5. Open the LCD. STEP2 1) Press and hold the "EDIT(+)" button on the video camere and"SELF TIMER" button on the remote control at the same time for more than 5 seconds.
Monitor screen
START/ STOP
DISPLAY
COUTER RESET
WIDE
SELF TIMER
STILL
ZERO RETURN
TELE
STILL
LCD 01 USR BRT EPR:XX EVR:XX
X2 SLOW F.ADV
When monitor OSD shows as above screen, LCD adjustment mode has been activated successfully. Note : "XX" indicates variable values. Remote Control Button Location
2. Functions of each button on the Remote Control Button START/STOP (Confirm) FF (Mode Up) REW (Mode Down) PLAY (Data Up) STOP (Data Down) Description Stores changed value in the adjustment mode. Shift adjustment address to left. Shift adjustment address to right. Up value. Down value.
Note: In service adjustment mode, button names are different from those in customer function control mode.
4-25
Alignment and Adjustments
3. Adjust Mode
NTSC 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0F 10 11 12 13 14 15 16 17 18 19 1A 55 55 (adjust) 80 (adjust) 83 (adjust) 80 (adjust) 89 89 FF 86 47 55 60 80 17 17 FF 04 00 80 0C 00 0A 15 55 02 02 PAL 55 55 (adjust) 80 (adjust) 83 (adjust) 80 (adjust) 89 89 FF 86 47 55 60 80 17 17 FF 04 00 81 0C 00 0A 15 55 02 02
4. How to adjust Address Name 01 USR BRT 02 S, BRT R 03 S, BRT B TRANS LCD CONN. R G
IC
B
(R, G, B waveform on each TP)
4-26
Alignment and Adjustments
5. Brightness a) Connect a probe to TP-G b) Check the wave form of Tp-G on screen of oscilloscope c) Move address to (01 USR BRT) USR BRT address number is 01 check and understand following figure.
6. Adjustment of TP-R a) Connect a probe (No. 1) to TP-G b) Connect a probe (No. 2) to TP-G c) Move address to 02 S, BRT R d) Compare the white level of TP-G with the white level of TP-R e) If not some position you must adjust the white level of TP-R on the white level of TP-G (There are usage of adjustment in Function of each button on the remote control) f) Make sure that "OK" is displayed on LCD screen
G
R
4-27
Alignment and Adjustments
7. Adjustment of TP-B How to adjust (TP-B) is on same process of TP-R Don't forget! to you must compare TP-G with TP-B too
B
4-28
Alignment and Adjustments
4-4 CVF Adjustment
Notes : For CVF adjustment, use the buttons on the video camera and the remote control. After each adjustment step is completed, OSD shows "OK". EEPROM(ICV02) stores confirmed adjustment value of each adjustment step. After finishing the adjustment, turn power off.
1. How to get into the CVF adjust mode.
STEP 1 1) Connect the power source (battery/DC cable). 2) Set the "CAMERA/VCR" switch to "CAMERA" position and LCD is close. 3) Camera screen and OSD appears. 4) Open housing of the video camera and remove tape. STEP 2 1) Press and hold the "EDIT(+)" buttonon the video camera and "SELF TIMER" button on the remote control at the same time for more than 5 seconds.
START/ STOP
DISPLAY
COUTER RESET
WIDE
Monitor screen
SELF TIMER STILL ZERO RETURN
TELE
STILL
CVF 01 PLL EPR:XX EVR:XX
X2 SLOW F.ADV
When monitor OSD shows as above screen, CVF adjustment mode has been activated successfully. Note : "XX" indicates variable values. Remote Control Button Location
2. Functions of each button on the Remote Control
Button START/STOP (Confirm) FF (Mode Up) REW (Mode Down) PLAY (Data Up) STOP (Data Down) Description Stores changed value in the adjustment mode. Shift adjustment address to left. Shift adjustment address to right. Up value. Down value.
Note: In service adjustment mode, button names are different from those in customer function control mode.
4-29
Alignment and Adjustments
3. Adjust Mode
NTSC 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0F 10 11 12 13 14 15 16 17 18 19 1A 55 55 (adjust) 90 (adjust) 90 (adjust) 80 (adjust) 89 89 FF 86 00 80 60 80 17 19 (adjust) 00 04 00 00 0C 06 0A 15 FF FF FF PAL 55 55 (adjust) 90 (adjust) 90 (adjust) 80 (adjust) 89 89 FF 86 00 80 60 80 17 19 (adjust) 00 04 00 01 0C 06 0A 15 FF FF FF
4. How to adjust LCD CONN. G R B Address Name 01 USR BRT 02 S, BRT R 03 S, BRT B
IC
(R, G, B waveform on each TP)
4-30
Alignment and Adjustments
5. Brightness a) Connect a probe to TP-G b) Check the wave form of Tp-G on screen of oscilloscope c) Move address to (01 USR BRT) USR BRT address number is 01 check and understand following figure.
R
7. Adjustment of TP-B How to adjust (TP-B) is on same process of TP-R Don't forget! you must compare TP-G with TP-B too
G
6. Adjustment of TP-R a) Connect a probe (No. 1) to TP-G b) Connect a probe (No. 2) to TP-G c) Move address to 02 S, BRT R d) Compare the white level of TP-G with the white level of TP-R e) If not some position you must adjust the white level of TP-R on the white level of TP-G (There are usage of adjustment in Function of each button on the remote control) f) Make sure that "OK" is displayed on LCD screen
B
4-31
Alignment and Adjustments
(waveform of G and B) Adjust so that white level of G and B signal is same.
(waveform of G and R) Adjust so that white level of G and R signal is same.
4-32
Alignment and Adjustments
4-5 EVF Adjustment
4-5-1 EVF adjustment Preparation
STEP 1 1) Connect the power source (battery/DC cable). 2) Set the "POWER(CAMERA/PLAYER)" switch to "CAMERA" position.
STEP 2 Press and hold the "EDIT(+)" button and "SELFTIMER" button on the video camera at the same time for more than 5 seconds. STEP 3 Press the "DISPLY" button to make color bar appear.
LCD 01 MODE 1 EPR:XX EVR:XX
START/ STOP
DISPLAY
COUTER RESET
WIDE
SELF TIMER
STILL
ZERO RETURN
TELE
Monitor screen
STILL
Note : "XX" indicates variable values. 4-5-2 EVF adjustment
X2 SLOW F.ADV
1) VIDEO GAIN a) Connect an oscilloscope probe to TP-V. b) Adjust the VRE02 so that A level is 2.5 Vp-p
Remote Control Button Location
10 PIN CON.
A LEVEL
2 PIN CON.
VR
0.5 20us
Location of Test Point
4-33
Alignment and Adjustments
MEMO
4-34