RJ-8,9H Application Note 110822

RJ-8 / 9H SPECIFICATION Ver 1.0 High Performance ISP

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RJ-8 / 9H APPLICATION NOTE

Ver 0.1

RJ Electronics

Document #: RJ-8 / 9H-01


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1. JIG MANUAL

1.1 JIG PROGRAM INSTALL

- If you connect RJ-10 Tuning JIG Board with computer you can see that below < Figure 1.1.1 >

Window page.

< Figure 1.1.1 Install initial window >

- Select ① & press [continue] , after that you can see < Figure 1.1.2 >

< Figure 1.1.2 >

- Same as picture ②, select [ JIG Driver File ] and continue.


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- [Remark] Should follow each step by step of install method.

[ USB Serial Converter A => USB Serial Converter B =>

=> USB Serial Port Ⅰ=> USB Serial Poar Ⅱ ]

< USE Serial Converter A Install > < USE Serial Converter A Install finish >

< USE Serial Conveter B Install > < USB Serial Port ⅠInstall >

< USB Serial Port ⅠⅡ Install >

- After you finish to install above 4 kind of Program, you can start RJ-10 Jig Program.


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- If you sucessfully install 4 kind of Program you can see below < Figure 1.1.3 > on the

[ Hardware Management ] below USB Serial Port & Converter.

< Figure 1.1.3 Sucessful Install finished >


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1.2 How to use JIG PROGRAM

1.2.1 Starting the Jig Program

- Please click mark which RJ release to customer.

- If you do not connect USB tuning JIG with computer and board, it shows HTS80X OFF .

- If you well connected USB tuning JIG and Board, after you click Jig Program, then it shows

HTS80X INIT => HTS80X CLK => HTS80X ON

- Below shows the appearance of RJ-10 tuning Jig control program running.


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1.2.2 Download to Target Board

- By double clicking ① [ Burn ] title, File Burn window is open. In this window, user can download

binary files or parameter files and program them on flash memory

- First click ② [ Add ] and select your binary file or parameter file in file selection dialog box.

- The selected file and path will be listed.

- Checking or unchecking ⑤ [Burning] column for each file is possible.

- After listing and checking files, click ④ [ Write ] button to download and program

- User can list multiple files by clicking ② [ Add ] button multiple times.

- User may earse the files in the list if no longer required. Check ⑤ [Burning] column for the

file, and click ③ [ Delete ] button.

- ⑥ [ Process ] & [ Sec ] shows that how many percent, and how long is “ Write “

- Writing - - Finished Writing -


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- In ⑦ [ Control panel], OSD key controller is provided. They help user control OSD menu

remotely without directly pressing on-board keys.

- Left pane in the program lists the available control groups.

Burn

DB

Password

HUE

ATW

Gamma

Peri

1.2.3 Tune Parameters

- Before controlling camera parameters, an ⑩ XML file (*.xml) should be opened.

If ⑧ [ DB ] title in the left pane is double-clicked, ⑨ a file selection diglog box apperars.

- Select appropriate ⑩ XML file (*.xml) which is typically provided by HT Inc. The file contains

information of parameter lists, range of each parameter, and comments on each parameter and

so on.

- After ⑩ XML file (*.xml) is selected, parameter control window appears as below figure.


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- In this window user accdssible camera parameters are listed.

User can adjust each parameter conveniently in this window.

- Below SYNC button , please click “Transfer 80X to Here”, read out current data

- If the USB tuning Jig Board is not good connected with Camera Board, you can see that

Below window.

1.2.4 Parameter Category

- Group name “AEX.TOP” is displayed on upper side of the window.

Parameters are grouped into several categories :

- User can select each category in the combo box.

- Detailed explanation of each parameter are following in later section.

1.2.5 SYNC button

- SYNC button has three cases :

▷ Transfer 80X to here

Read actual register values and transmit to ISP buffer in PC memory


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▷ Transfer ISP to File

Copy the contents of ISP buffer into File buffer

▷ Transfer File to ISP

Copy the contents of File buffer into ISP buffer

Here, ISP and File means memory buffers in PC program.

- By convention, code binary files have extension of *.BIN, and parameter files have *.HTS.

1.2.6 Parameter Types

- Each parameter value can be modified by clicking ISP, FILE colum for that parameter

- There are three types of parameters

▷ Numeric type

0~255, for example, Up/Down arrow buttones appear if first clicked.

▷ Toggle type

A combo box having ON/OFF appears

▷ Multiple type

A combo box having multiple possible selections appears

- User can change numeric values or select combo values according to each parameter types.

Specially, if a value in ISP column is changed, the value will be transmitted to HTS80X and

actually the register value.

1.2.7 User Comment

- Users may edit their own comment in “User Comment” column for convenience.

Just click that column and type in any words and sentences that may be helpful in the future

access. The comment will be also saved on disk file when File/Save menu is clicked.


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1.2.8 Parameter modify or save

- 1.2.2 If want to tune data After Download to Target Board or previous camera Board

1.2.3 You should read out current data by “ Tune Parameters “

- 1.2.3 If you click Tune Parameters , you can see current data [SYNC button / Transfer 80X

to Here] window.

- [For Example] Once we change PAL NTSC & MANUAL DC , and then save as

xx.hts File name.


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- ② On ISP PAL NTSC, MANUAL DC , ① State changed √ ⓧ

Once data is changed , modified data Stage is changed as ⓧ

- Click SYNC button , and Transfer ISP to File, changed values transfer to FILE, ROM Line

< Transfer ISP to File >

- Changed resulf come out as above.

- Changed data save by FILE / SAVE AS… , like xx.hts File


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1.3 JIG PROGRAM function

1.3.1 BURN

- 1.2.2 Download to Target Board related you can select Write values among many kind of loading

xxx.hts, xxx.bin file using by marking of √


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1.3.2 DB

- TOP

NAME RANGE DESCRIPTION

NTSC/PAL NTSC,PAL CCD Type Select

RESOLUTION HIGH,NORMAL CCD Type Select

MESSAGE NULL, AEX, AWB, NULL,

NULL, NULL, NULL, SYS Debug Message Indicate

LENS DC IRS, MANUAL Lens Select

BR DIV 1 ~ 255 Bright Divider Ref. 80

N BRIGHT DEC 0 ~ 10 Night Bright Gradient

N BRIGHT THR 6 ~ 40 [dB] Night Bright starting to reduce (dB)

Night BRT 1 ~ 50 Night Brightness

BRIGHT ( Manual ) 1 ~ 100 Manual (ELC) Brightness


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E. Shutter

( Manual )

Auto, 1/(50)60, 1/00FLK, 1/120,

1/250, 1/500, 1/1000, 1/2000,

1/4000, 1/10000, 1/100000

Manual (ELC) E. Shutter

BRIGHT (DC) 1 ~ 100 DC Iris Brightness

E. Shutter (DC)

Auto, 1/(50)60, 1/00FLK, 1/120,

1/250, 1/500, 1/1000, 1/2000,

1/4000, 1/10000, 1/100000

Manual (ELC) E. Shutter

DC Ref Center 0 ~ 255 DC Iris Reference Voltage of Referense

Signal. PWM Pulse Output

DC Ref Level 0 ~ 60

DC Iris Reference Voltage Tuning

Place OSD Hidden

Except Factory Setting

DC Ref Adjust 0 ~ 20 DC Iris Reference Voltage Adjust

DC Ctrl Center 0 ~ 255 DC Iris Reference Voltage of Control

Signal

DC Feedback 1 ~ 256 DC Iris Open Threshold

ADIN_3 Value

DC HOT 1 ~ 100

DC NOR 1 ~ 255

AGC OFF, LOW, MID, HIGH AFE Gain Control

AGC OFF 6 ~ 40 [dB] AGC ‘OFF’ [dB]

AGC LOW 6 ~ 40 [dB] AGC ‘LOW’ [dB]

AGC MID 6 ~ 40 [dB] AGC ‘MID’ [dB]

AGC HIGH 6 ~ 40 [dB] AGC ‘HIGH’ [dB]

GAMMA MODE 0.45, 0.60, 1.00. USER 0.45, 0.60, 1.00 Mode can save &

modify in Gamma Tool

GAMMA USER 0 ~ 16 USER Mode [0.20 ~ 1.00] selectable


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- BLC


TYPE OFF, BLC, HLI, DWDR

BLC MODE AUTO, MANUAL

BLC LEVEL 1 ~ 100 BLC window weigh Level’s gain values

BLC WGT OFF, LOW, MID, HIGH BLC window weigh Level

BLC WGT (off) 1 ~ 255 BLC window weigh Off Level

BLC WGT (low) 1 ~ 255 BLC window weigh Low Level

BLC WGT (mid) 1 ~ 255 BLC window weigh Mid. Level

BLC WGT (high) 1 ~ 255 BLC window weigh High Level

HLI MODE DAY, NIGHT

HLI LVL 1 ~ 255

HLI WGT OFF, LOW, MID., HIGH BLC window weight Level

HLI WGT (off) 1 ~ 255 BLC window weigh Off Level

HLI WGT (low) 1 ~ 255 BLC window weigh Low Level

HLI WGT (mid) 1 ~ 255 BLC window weigh Mid. Level

HLI WGT (high) 1 ~ 255 BLC window weigh High Level

DWDR LVL 0 ~ 255

DWDR WGT 0 ~ 255

- DNR


DNR MODE OFF, LOW, MID, HIGH

DNR UTP 6 ~ 40 [dB] DNR Enable Upper Trigger Point [dB]

DNR LTP 6 ~ 40 [dB] DNR Disable Low Trigger Point [dB]

DNR STR(OFF) S INTENSO 0~4

DNR STR(OFF) E INTENSO 0~4

DNR RAT(OFF) INTENSO 0~8

DNT STR(LOW) S INTENSO 0~4

DNR STR(LOW) E INTENSO 0~4

DNR RAT(LOW) INTENSO 0~8

DNR STR(MID) S INTENSO 0~4

DNR STR(MID) E INTENSO 0~4


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DNR RAT(MID) INTENSO 0~8

DNR STR(HIGH) S INTENSO 0~4

DNR STR(HIGH) E INTENSO 0~4

DNR RAT(HIGH) INTENSO 0~8

CSUP_V 0 ~ 100

ASUP_V 0 ~ 100

- DNC (Day & Night)


DNC MODE AUTO, COLOR,

BW, EXT, CDS

DNC ISO UTP 6 ~ 36 [dB] AUTO Mode : Day to Night Change Upper

Trigger Point [dB]

DNC ISO LTP 6 ~ 36 [dB] AUTO Mode : Night to Day Change Low Trigger

Point [dB]

DNC DWELL (AUTO) 0 ~ 15 sec Dwell Time ( unit : Sec.)

DNC DWELL (EXT, CDS) 0 ~ 255

DNC BURST OFF, ON

EXT MAP NORMAL, EXT,

CDS, CROSS

EXT INV OFF, ON

DNC CDS UTP 1 ~ 255 CDS Mode : Day to Night Change Upper

Trigger Point [ADC]

DNC CDS LTP 1 ~ 255 CDS Mode : Night to Day Change Low Trigger

Point [ADC]

DNC EXT UTP 1 ~ 255 CDS Mode : Day to Night Change Upper

Trigger Point [ADC]

DNC EXT LTP 1 ~ 255 CDS Mode : Night to Day Change Low Trigger

Point [ADC]

OLPF CWCCW CW, CCW When Day, Night’s OLPF movement, select

driving motor Pulse

OLPF SIG INIT LL, HL, LH, HH When Day, Night’s OLPF movement, set up

Initial Pulse values.


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OLPF WIDTH 0 ~ 255

When Day, Night’s OLPF movement, select

Pulse Width timing. ( X10ms)

( remark : once ‘0’, no Pulse signal )

OLPF SIG CNT 0 ~ 255

When Day, Night’s OLPF movement, set up

How many pulse for driving.

( remark : once ‘0’, no Pulse signal )

IR UTP 0 ~ 255 IR LED min brightness values

[ PWM high => High Period Min ]

IR LTP 0 ~ 255 IR LED max brightness values

[ PWM low => High Period Max ]

IR THR 6 ~ 40 [dB]

When AGC is over vaue of IR LED Threshold

[dB] setting, to increase IR LED brightness,

Decrease AGC Level

IR WGT 6 ~ 40 [dB]

IR LVL 6 ~ 40 [dB]

CSUP_S 6 ~ 40 [dB]

CSUP_E 6 ~ 40 [dB]

CSUP_V 0 ~ 100 [%]

ASUP_S 6 ~ 40 [dB]

ASUP_E 6 ~ 40 [dB]]

ASUP_V 0 ~ 100 [%]

< Figure 1.3.2 Day&Night LTP/UTP >


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< Figure 1.3.3 OLPF Pulse >

< Figure 1.3.4 Aperture/Color Suppression >

- DSS


DSS MODE AUTO, OFF, X2, X4, X8, X16, X32,

X64, X128, X256, X512, X1024

DSS AUTO 0 ~ 255 When DSS AUTO case, max times

[ 0:X2, 1:X4, 3:X8, 7:X16 ]

DSS UTP 50 ~ 255

DSS Enable Upper Trigger Point

[dB], should be higher than AGC

Max at least more +30 .

DSS OFF 0 ~ 10

DSS Disable Low Trigger Point [dB]

Under AGC Max -3dB, DSS should

be Disable.

- PID


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ELC. P 0 ~ 255

ELC. I 0 ~ 255

ELC. D 0 ~ 255

DC. P 0 ~ 255

DC. I 0 ~ 255

DC. D 0 ~ 255

ISO. P 0 ~ 255

ISO. I 0 ~ 255

ISO. D 0 ~ 255

DSS. P 0 ~ 255

DSS. I 0 ~ 255

DSS. D 0 ~ 255

- WGT


AE AREA 0 0 ~ 255

AE AREA 1 0 ~ 255

AE AREA 2 0 ~ 255

AE AREA 3 0 ~ 255

AE AREA 4 0 ~ 255

AE AREA 5 0 ~ 255

AE AREA 6 0 ~ 255

AE AREA 7 0 ~ 255

AE AREA 8 0 ~ 255


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- AWB


AWB MODE ATW, MANUAL, PUSH, AWB

AWB FILTER BLUE. RED (650, 850)

R-Y GAIN 0 ~ 255 DNC COLOR Mode, R-Y HUE Gain

B-Y GAIN 0 ~ 255 DNC COLOR Mode, B-Y HUE Gain

MANUAL R GAIN 0 ~ 255 DNC MANUAL Mode, WB R Gain

MANUAL B GAIN 0 ~ 255 DNC MANUAL Mode, WB B Gain

PUSH PEPIOD 30 ~ 255 PUSH Mode, AWC adjusting timing

ATW G GAIN REF 1 ~ 255 ATW G Gain

ATW R GAIN MIN. 1 ~ 255 ATW R Min. Gain

ATW R GAIN MAX. 1 ~ 255 ATW R Max. Gain

ATW B GAIN MIN. 1 ~ 255 ATW B Min. Gain

ATW B GAIN MAX. 1 ~ 255 ATW B Max. Gain

- CHROMA

C PROCESS is color signal processing block, it’s color values come out trough by Low pass filtering,

Color Separation, Color Gain control, Color correction Matrix, RGB Gamma Correction and Hue

Gain Matrix. The block diagram is as below.

CLPFCOLOR

SEPARATIONMATRIX

COLORCORRECTION

MATRIX

HUE-GAINMATRIX

GAMMA

< Figure 1.3.6 C Signal Processing Block Diagram>


CC MATRIX 00/01/02

CC MATRIX 10/11/12

CC MATRIX 20/21/22

FIX

(0,0) 517 (0,1) -434 (0,2) 126

(1,0) -54 (1,1) 255 (1,2) 7

(2,0) 41 (2,1) -799 (2,2) 968


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RMATC 0 ~ 255 R = CR + RMATC * G

BMATC 0 ~ 255 B = CB + BMATC * G

G P GAIN 0 ~ 255 AWB G PRE-GAIN

R P GAIN 0 ~ 255 AWB R PRE-GAIN

B P GAIN 0 ~ 255 AWB B PRE-GAIN

- Luma

Y Signal Processing is for color processing block as Edge enhancing, dark condition Edge Apperture

reduction, Gamma Correction function. The Y Signal Processing Block diagram is as below.

LPFPREGAIN

BPF1

3x3 Filter

BPF2

HV EDGECONTROL

V EDGEY0 LINE

Y2 LINE

GAMMAY1 LINE

LPF

LPF

< Figure 1.3.7. Y Signal Processing Block Diagram >


LSC_ENABLE DISALBE,

ENABLE < Figure 1.3.8 >

LSC_GAIN 0 ~ 30

LSC_CENTER X 0 ~ 910 LSC WINDOW X-AXIS CENTER

LSC_CENTER Y 0 ~ 300 LSC WINDOW Y-AXIS CENTER

SHARPNESS 0 ~ 30 RESOLUTION Strength Value

MONITOR_MODE CRT. LCD MONITOR Type setting


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(CRT MODE)_Y0_3X3_00/01/02

(CRT MODE)_Y0_3X3_10/11/12

(CRT MODE)_Y0_3X3_20/21/22

0 ~ 255

(0,0) 0 (0,1) 255 (0,2) 0

(1,0) 249 (1,1) 16 (1,2) 249

(2,0) 0 (2,1) 255 (2,2) 0

(LCD MODE)_Y0_3X3_00/01/02

(LCD MODE)_Y0_3X3_10/11/12

(LCD MODE)_Y0_3X3_20/21/22

0 ~ 255

(0,0) 0 (0,1) 255 (0,2) 0

(1,0) 249 (1,1) 16 (1,2) 249

(2,0) 0 (2,1) 255 (2,2) 0

Y_3X3_CORE 0 ~ 96 Y_3X3 CORE

(CRT_MODE)_SHARP 0_STR 1 ~ 5 When CRT_MODE, Sharpness Strength

(CRT_MODE)_Y0_DIV 0 ~ 15 When CRT_MODE, Y_DIV

(CRT_MODE)_Y0_FILTER_LIMIT 0 ~ 1048575 When CRT_MODE, Y_FILTER_LIMIT

(LCD MODE)_SHARP 1_STR 1 ~ 5 When LCD_MODE, Sharpness Strength

(LCD MODE)_Y1_DIV 0 ~ 15 When LCD_MODE, Y_DIV

(LCD MODE)_Y1_FILTER_LIMIT 0 ~ 1048575 When LCD_MODE, Y_FILTER_LIMIT

YCLAMP 1 0 ~ 255 YCLAMP 1

YCLAMP 2 0 ~ 255 YCLAMP 2

VAPC_PAR 0 ~ 15

VAPC_GAIN 0 ~ 15

C SELECT 0 ~ 7

BLUR_LEVEL 0 ~ 3

NOISE_LEVEL 0 ~ 3

SHARP_LF_GAIN 0 ~ 64

DPC MANUAL OFF,

MANUAL

DPC WHITE THR 0 ~ 255

DPC BLACK THR 0 ~ 255

DPC LUMA THR 0 ~ 255

MIRROR OFF, ENABLE


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- LSC

< Figure 1.3.8 LSC (Lens Shading Conpensation Function )

- MOTION


ENABLE OFF, ON Motion Mode Enable

DETECT LTP 0 ~ 256

DETECT UTP 0 ~ 256

BGC LTP 0 ~ 30000

BGC UTP 0 ~ 30000

BGC FIX 0 ~ 30000

BGC NAR 0 ~ 30000

MORP TINY, SMALL, BIG

BGC WHIM 0 ~ 30000

THR 00~08 0 ~ 255

LVL 00~07 0 ~ 255


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- PVM


PVM TOP EN 0 ~ 255

PVM 1~8 EN 0 ~ 255

- RS485


CAM ID 0 ~ 255

BAUDDRATE 2400, 4800, 9600

PROTOCOL PELCO – D

ON OFF, ON

- OSD


FNT COLOR BLUE, GREEN, CYAN, RED,

MAGENTA, YELLOW

OSD Font Color Select

MOT ALARM X 0 ~ 255 Motion Alarm X Position

MOT ALARM Y 0 ~ 255 Motion Alarm Y Position

- AD KEY


ADKEY_LEVEL 0~4 0 ~ 255

ADKEY_OFFSET 0 ~ 80 Set up ADKEY_OFFSET Level

[ Per one Step is 3.2mV ]

ADKEY_MAP 0~5 LEFT, RIGHT, CENTER

UP, DOWN, NULL


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If you modify ADKEY board or want to use current ADKEY, please follw up below method

to modify ADKEY board.

1. Connecting ADKEY Board with Camera Board

2. <Figure 1.3.9 Peri Window> Open

3. ADKEY Board UP Key pushing and click ② [Read]

After click ① ADC CH1, show up current UP Key values

(Current Board, using ADC CH1 as ADKEY, read out current ADC CH1 values.

If customer side it should read out ADC CH0~3 values depend on customer’s values. )

4. Avobe # 3 method, each Down, Left, Right and Center Key values read out as clicking

① ADC CH1

5. For example, if each values as below

Up Key : 156 Down Key : 210 Left Key : 55

Right Key : 188 Center Key : 108

Remember this values and open <Figure 1.3.10 AD KEY Window>

6. Input these values from small values to big values in the ③, ④ in a low.

7. After Testing finish, click SYNC button and Transfer ISP to File & save



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< Figure 1.3.9 Peri Window >

< Figure 1.3.10 ADKEY Window >


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- TVE


PICTURE_START 0 ~ 2047

PICTURE_END 0 ~ 2047

FALL_LEVEL 0 ~ 31

SETUP_LEVEL 0 ~ 63

SETUP_LEVEL_OFFSET_CRT 0 ~ 10

SETUP_LEVEL_OFFSET_LCD 0 ~ 10

BLACK_LEVEL 0 ~ 255

SYNC_LEVEL 0 ~ 31

EXPANDER_Y 0 ~ 255

EXPANDER_C 0 ~ 255

WHITE_CLIP 0 ~ 255

NBURST 0 ~ 255

DAC_MODE Y/C, CVBS

DAC1_DC 0 ~ 1023

DAC2_DC 0 ~ 1023

COLOR_TEST OFF, ON

< Figure 1.3.10 TVE Window >


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- TG


EXT_VD_RISE 1 0 ~ 2047

EXT_VD_FALL 1 0 ~ 2047

EXT_VD_RISE 2 0 ~ 2047

EXT_VD_FALL 2 0 ~ 2047

EXT_WVD_RISE 1 0 ~ 2047

EXT_WVD_FALL 1 0 ~ 2047

EXT_WVD_RISE 2 0 ~ 2047

EXT_WVD_FALL 2 0 ~ 2047

PBLK_FALL 0 ~ 2047

PBLK_RISE 0 ~ 2047

CLPOB_FALL 0 ~ 2047

CLPOB_RISE 0 ~ 2047

SHP, SHD, ADCLK, H1, H2, RG, LH1

DELAY 0 ~ 63 < Figure 1.3.11 TG Delay >

SHP, SHD, ADCLK, H1, H2, RG, LH1

WIDTH 0 ~ 31 < Figure 1.3.12 TG Width >

< Figure 1.3.11 TG Delay >


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< Figure 1.3.12 TG Width >

- GPIO


GPIO_0 DN1, UNUSED

GPIO_1 RS485RX, UNUSED

GPIO_2 GPIO, VRI, IRLED_EN, UNUSED

GPIO_3 MALARM, UNUSED

GPIO_4 PWM0 (DCIRIS_REF), UNUSED

GPIO_5 PWM1 (DCIRIS_CTRL), UNUSED

GPIO_6 DN2, UNUSED


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GPIO_7 IRLED_EN, PWM3 (IRLED_PULSE), UNUSED

GPIO_8 PWM4 (STEP 1), UNUSED




GPIO_12 AFE_EXT_VD, UNUSED

GPIO_13 RS485EN, UNUSED

GPIO_14 RS485TX, UNUSED

GPIO_15 FAN_CONTROL, UART_RX, UNUSED

GPIO_16 HEATER_EN, UART_TX, UNUSED

GPIO_17 REMOCON_RX, UNUSED

GPIO_18 AFE_D0, UNUSED

GPIO_19 AFE_D1, UNUSED

GPIO_20 GINT_0, UNUSED

GPIO_21 GINT_1, UNUSED

GPIO_22 DV_CLK, UNUSED

GPIO_23 DV_OUT0, UNUSED





GPIO_28 DV_OUT5, UNUSED, UART_RX

GPIO_29 DV_OUT6, UART_TX, UNUSED


GPIO_31 KEY0, UNUSED






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- Title


ENABLE 0 ~ 25

POS X 0 ~ 25

POS Y 0 ~ 18

- VERSION


POS X 0 ~ 25

POS Y 0 ~ 18

1.3.3 CONFIGURE

- Configure Window is PASSWORD & VERSION

※ Current PASSWORD didn’t use, don’t put it any values.

- VERSION is when Board power on, it come out around 3~5 sec

Capital English letter only avaiable within 15 letters. And click Write Button

< Figure 1.3.11 Configure Window >


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- After finish Write, click SYNC button & Transfer ISP to File & Save


- On the screen, VERSION come out the location is control in [ 1.3.2 DB / VERSION ]

1.3.4 HUE

- In “First HUE” group, there are 16 buttons controlling HUE, GAIN in both Red and Blue

coordinates

in vector scope.

- RY offset and BY offset adjusts the position of white point on vector scope

- Do not use “Second HUE” group buttons.

- After finish Write, click SYNC button & Transfer ISP to File & Save


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< Figure 1.3 ? . Hue Control >

< Figure 1.3.? Gain Control >


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1.3.5 ATW

- In this window, ATW condition can be setup according to several color temperatures for each color

OLPFs.

Procedure

1. Open ① ATW Window <Figure 1.3.0 ATW Window>

< Figure 1.3.0 ATW Window >

.

2. And let the camera view Color bar chart in front of LIGHT BOX

② Click [GET RGB]

We can get the current lowest color temperature values.

< Figure 1.3.0 ATW Setting 1st >


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< Figure 1.3.0 ATW Setting 1st >

3. To get more wide Boundary, move to upper side the point which we got from #2, and

click ② [GET RGB] to get the values < Figure 1.3.0 ATW Setting 2nd >


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< Figure 1.3.0 ATW Setting 2nd >

4. And then make more higher color temperature condition, click ② [GET RGB] and get the

<Figure 1.3.0. ATW Setting 3rd > as below.

< Figure 1.3.0 ATW Setting 3rd_ 3200 > < Figure 1.3.0 ATW Setting 3rd_ 5100 >

5. Finally, make a highest color temperature condition, click ② [GET RGB] and get the

<Figure 1.3.0 ATW Setting 4th> as below.


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< Figure 1.3.0 ATW Setting 4th_ 7200 >

6. Same as #3, to get more wide Boundary, move to upper side the point which we got from #2,

and click ② [GET RGB] to get the values < Figure 1.3.0 ATW Setting 5th_1,2 >

< Figure 1.3.0 ATW Setting 5th_1_point move to upper > < Figure 1.3.? ATW Setting 5th_2_get again>


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7. After you finish through # 2~ # 6 method, you can get as < Figure 1.3.0 ATW Setting 6th>

color temperature corve.

< Figure 1.3.0 ATW Setting 6th >

8. As < Figure 1.3.0 ATW Setting 7th_Step 1,2 > click ① [ > ] two times, move to Step 3

< Figure 1.3.0 ATW Setting 7th_Step 1 > < Figure 1.3.0 ATW Setting 7th_Step 2 >


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9. ① [preview] After √ chect, view color bar chart in each color temperature

Normal case, in Color Bar Chart’s WHITE should be come out as GREEN

If the other color changed as GREEN, view that the other color only in color bar chart

[ Picture 1. Uncorrect State ], after check ② [Dummy] √ then click [ Get RGB ]

After that color temperature point is coming out as < Figure 1.3.0 ATW Setting 8th_Tuning_1 >

< Figure 1.3.0 ATW Setting 8th_Tuning _1>

10. Above < Figure 1.3.0 ATW Setting 8th_Tuning > color temperature point should not

Including WHITE area, changing beside points let them didn’t include that color

temperature point by checking color bar chart. < Figure 1.3.0 ATW Setting 8th_Tuning _2>

※ Once move out the Point, don’t show up Zoom & Pan


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< Figure 1.3.0 ATW Setting 8th_Tuning _2>

11. Changing the color temperature, re-act # 9 ~ # 10 method.

If you finish all, check [preview] √ again, set up the ATW boundary

< Figure 1.3.0 ATW Setting 9th >

< Figure 1.3.0 ATW Setting 9th_Low Temperature Tuning >

< Figure 1.3.0 ATW Setting 9th_High Temperature Tuning >

12. After that saving the Tuning data.


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There are 2 kind of way to save it.

1. If you want to apply to Para data using Modified ATW, then you click SYNC button =>

Transfer ISP to File and save as *.hts file


※ Below <Figure 1.3.0 650_850 Save >

Set up USER 1, SEND => Save *.hts file ( Setting value in 650 Filter )

Set up USER 2, SEND => Save *.hts file ( Setting value in 850 Filter )

You can put it two kind of filter data in one *.hts file

< Figure 1.3.0 650_850 Save >

You can save as *.atw File once you click File / Save As

<Figure 1.3.0 ATW Setting 10th _File_SAVE>

< Figure 1.3.0 ATW Setting 10th_File SAVE >


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1.3.6 GAMMA

In this window, Y and C GAMMA curve can be programmed.

In OSD menu, available gamma curve are:

- 0.45

- 0.65

- 1.00

- USER

For 0.45, 0.65, and 1.00 curves, user can re define the values with this tool and save them

as parameter in flash or file.(Use “Gen” button, “Set” button, and “Flush” button).

In combo box ram00 corresponds to “0.45”. ram01 and ram02 matches with ‘0.65’ and ‘1.0’

Respectively.

Open *.GMA file if there is any previous work saved.

To customize 0.45, 0.65, or 1.00, first select ram00 ~ ram 02 in combo box.

Generate curve using “Gen” button. Curves can be generated by either one of HW, FILE,

or LOG. Click “Set” button to transmit to HTS80x.

Click “Flush” button to update DB as parameter.

In USER mode, user can select pre-programmed gamma curve which are ranging from

0.20 to 1.0 increasing every 0.05 step.


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1.3.7 PERI

AFE control HTS80X supports several AFE chips:

- AD9943 - AD9949

These devices require SPI serial communication. Convenient test of evaluating AFEs is

surpported. It is very simple. Type in address and data value in each edit box and click

“Write” button.

For AFE control, this tool supports in write-only style. (Caution) The values written on AFE are not saved on flash memory or on fille. Utilize just for test

ADC channel

By Clicking “Read” button, ADC values of four channels are read and displayed for

debuging purpose.


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Documents

RJ-8,9H Application Note 110822