MCX18LG0A/MCX18LG0B Micro Unit CCD Description The micro unit CCD is a CCD color camera unit with a built-in CCD image sensor, drive system IC, sample-and-hold IC, signal processor IC and lens system. Features • Ultra-small size: MCX18LG0A: 18.3mm × 18.3mm × 8.4mm MCX18LG0B: 18.3mm × 18.3mm × 9.6mm • Y, U/V 16-bit digital output • 180,000-pixel color CCD image sensor • Equipped with a fixed focus lens: MCX18LG0A: F2.8 f = 2.9mm MCX18LG0B: F2.8 f = 4.0mm Applications • TV conference cameras • Image input cameras 64 pin QFN (Ceramic) Peripheral ICs • EVR: MB88347 (Fujitsu Limited.) • EEPROM: AK6420 (Asahi Kasei Microsystems Co., Ltd.) Absolute Maximum Ratings +18 • Supply voltage VH +7.0 DVDD1, DVDD2 AVDD1, AVDD2, AVDD3 +7.0 AVDD4 +7.0 VCC +14.0 VL –17.5 –0.5 to DVDD + 0.5 • Input voltage VI • Operating temperature Topr 0 to +40 • Storage temperature Tstg –30 to +80 V V V V V V V °C °C Recommended Operating Conditions • Supply voltage VH DVDD1, DVDD2 AVDD1, AVDD2, AVDD3 AVDD4 VCC VL • Input voltage VDCIN • Operating temperature Topr V V V V V V V °C 14.25 to 15.75 3.0 to 3.6 4.75 to 5.25 4.7 to 5.5 4.5 to 5.25 –8.5 to –7.5 1.0 to 4.5 0 to +40 Block Diagram Lens CCD Image Sensor S/H, AGC Digital Signal Process Y, U/V Timing Generator Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. –1– E97541-PS MCX18LG0A/MCX18LG0B SCK XCLR TEST HD VD NRB CO0 CO1 CO2 CO3 CO4 CO5 CO6 CO7 DGND DGND Pin Configuration 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 SI DGND 57 DCK 58 39 SO YO7 59 38 CASI YO6 60 37 CSROM YO5 61 36 RESETTG YO4 62 35 DGND YO3 63 34 OSCI YO2 64 33 OSCO YO1 1 32 CK YO0 2 31 DVDD1 30 XCS DVDD2 3 SHOUT 29 CASCK 4 SHIN 5 28 CASO AGND 6 27 CSEVR CCDOUT 7 26 DGND AGND 8 25 VL –2– SUBOUT DCOUT DCIN AVDD3 AVDD2 AVDD1 OFFSET SUBIN AGCCONT VCC AGND AGND AVDD4 VH AGND SIFSEL 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 MCX18LG0A/MCX18LG0B Pin Description Pin No. Symbol I/O Description 1 YO1 O Luminance signal output. 2 YO0 O Luminance signal output. 3 DVDD2 — +3.3V power supply for signal processing system. 4 SHOUT O Sample-and-hold output. Connect directly to Pin 5. 5 SHIN I Sample-and-hold input. 6 AGND — Analog GND 7 CCDOUT O CCD image sensor buffer output. 8 AGND — Analog GND 9 SIFSEL I 10 AGND — Analog GND 11 VH — +15V power supply for CCD image sensor drive. 12 AGND — Analog GND 13 AVDD4 — +5V power supply for A/D converter. 14 VCC — +5V power supply for sample-and-hold. 15 AGND — Analog GND 16 SUBIN I CCD image sensor SUB voltage input. 17 AGCCONT I AGC control. 18 OFFSET I OFFSET control. 19 AVDD1 — +5V power supply for sample-and-hold pulse. 20 AVDD2 — +5V power supply for RG pulse. 21 AVDD3 — +5V power supply for H pulse. 22 DCIN I DC amplifier input. 23 DCOUT O DC amplifier output. 24 SUBOUT O SUB pulse output. 25 VL — –8V power supply for CCD image sensor drive. 26 DGND — Digital GND 27 CSEVR O EVR chip select. 28 CASO O Serial communication data output for peripheral ICs (EVR, EEPROM). 29 CASCK O Serial communication clock output for peripheral ICs (EVR, EEPROM). 30 XCS I Switched by the SIFSEL setting. Chip select during microcomputer mode. Baud rate setting (4800bps (low)/9600bps (high)) during RS232C mode. 31 DVDD1 32 CK I 27MHz clock input. 33 OSCO O 27MHz oscillator output. 34 OSCI I 27MHz oscillator input. 35 DGND — — Serial communication mode selection: Microcomputer (low) /RS232C (high). +3.3V power supply for timing generator. Digital GND –3– MCX18LG0A/MCX18LG0B Pin No. Symbol I/O 36 RESETTG I Reset pin (active low) with pull-up resistor for timing generator. 37 CSROM O EEPROM chip select. 38 CASI I Serial communication data input for peripheral ICs (EVR, EEPROM). 39 SO O Serial communication data output. 40 SI I Serial communication data input. 41 SCK I Serial communication clock input. 42 XCLR I Initialization pin (active low). EEPROM re-read. 43 TEST I Test pin. Leave this pin open. 44 VD O Vertical sync signal output. 45 HD O Horizontal sync signal output. 46 NRB O Color identification signal output. 47 CO0 O Chroma signal output. 48 CO1 O Chroma signal output. 49 CO2 O Chroma signal output. 50 CO3 O Chroma signal output. 51 CO4 O Chroma signal output. 52 CO5 O Chroma signal output. System setting pin during power on. (Connect pull-down resistor.) 53 CO6 O Chroma signal output. System setting pin during power on. (Connect pull-down resistor.) 54 CO7 O Chroma signal output. System setting pin during power on. (Connect pull-down resistor.) 55 DGND — Digital GND 56 DGND — Digital GND 57 DGND — Digital GND 58 DCK O Clock output pin for digital output. 59 YO7 O Luminance signal output. 60 YO6 O Luminance signal output. 61 YO5 O Luminance signal output. 62 YO4 O Luminance signal output. 63 YO3 O Luminance signal output. 64 YO2 O Luminance signal output. Description –4– MCX18LG0A/MCX18LG0B Electrical Characteristics DC Characteristics Item Symbol Supply voltage Typ. Max. Unit DVDD1 3.0 3.3 3.6 V DVDD2 3.0 3.3 3.6 V AVDD1 4.75 5.00 5.25 V AVDD2 4.75 5.00 5.25 V AVDD3 4.75 5.00 5.25 V 4.5 5.0 5.5 V VCC 4.5 5.0 5.25 V VH 14.25 15.00 15.75 V VL –8.5 –8.0 –7.5 V AVDD4 Operating current Conditions Min. Pins A/D input amplitude = 2Vp-p IDD1 DVDD1 = 3.3V 7.0 mA IDD2 DVDD2 = 3.3V 38.5 mA IADD1 AVDD1 = 5.0V 3.1 mA IADD2 AVDD2 = 5.0V 1.0 mA IADD3 AVDD3 = 5.0V 5.3 mA IADD4 AVDD4 = 5.0V 16.1 mA ICC VCC = 5.0V 53.5 mA IH VH = 15.0V 7.1 mA IL VL = –8.0V 1.5 mA Input voltage 1 ∗1, ∗6, ∗8 VT+ VT– DVDD2 × 0.8 Input voltage 2 ∗2, ∗7 VIH1 VIL1 DVDD1 × 0.7 Input voltage 3 DCIN VDCIN 1.0 Display value – 0.1 Input voltage 4 SUBIN VSUB Output voltage 1 ∗3 VOH1 VOL1 IOH1 = –1.2mA IOL1 = 2.4mA DVDD2 – 0.8 Output voltage 2 ∗4 VOH2 VOL2 IOH2 = –2.4mA IOL2 = 4.8mA DVDD2 – 0.8 Output voltage 3 ∗5 VOH3 VOL3 IOH3 = –8mA IOL3 = 8mA DVDD1/2 VOH4 Output voltage SUBOUT VOL4 4 IOH4 = –4mA IOL4 = 5.4mA VH – 0.25 Display value DVDD2 × 0.2 V DVDD1 × 0.3 V 4.5 V Display value + 0.1 V 0.4 0.4 DVDD1/2 VL + 0.25 V V V V Hysteresis 1 ∗1, ∗8 0.5 V Hysteresis 2 ∗6 0.6 V –5– MCX18LG0A/MCX18LG0B Item Pins ∗7 Threshold value Feedback resistance Input amplitude OSC DC amplifier gain RFE1 250k OSCI = DVDD1 or GND 1M ∗1 V Ω 2.5M Vp-p 25k RPU II3 Unit 0.5 50k G Input leak current 3 Max. DVDD1/2 50MHz sine wave Input leak current 1 SIFSEL II1 ∗6 Input leak current 2 II2 ∗1 ∗2 ∗3 ∗4 ∗5 ∗6 ∗7 ∗8 Typ. Min. VTH CK ∗2 Pull-up resistor Conditions Symbol 75k Ω 75 µA 4.4 VIN = DVDD2 12 VIN = GND or DVDD2 –10 10 µA VIN = GND or DVDD2 –40 40 µA 30 CO0 to 7 RESETTG CSEVR, CSROM, SO, TEST, VD, HD, YO0 to 7, CO0 to 7, NRB CASO, CASCK, DCK OSCO XCS, SI, SCK, XCLR, CASI OSCI, CK SIFSEL Note) VSUB display value The VSUB display value is displayed by a code on the rear surface of the MUC. Code — = Actual voltage (V) 5.00 5.25 Code E Actual voltage (V) 8.50 Code W f 0 1 2 3 4 6 7 5.50 5.75 6.00 6.25 6.50 6.75 7.00 G h J K L m N 9.25 9.50 8.75 9.00 X Y 8 9 7.25 7.50 P R A 7.75 S C D 8.00 8.25 U V 9.75 10.00 10.25 10.50 10.75 11.00 11.25 11.50 11.75 Z Actual voltage (V) 12.00 12.25 12.50 12.75 –6– MCX18LG0A/MCX18LG0B (CL = 20pF, within recommended operating range) Classification Item Symbol Min. Typ. Max. Unit XCLR Minimum low interval TWCLR 500 — — ns RESETTG Minimum low interval TWRST 35 — — ns SCK input pulse width (high interval) TWHSCK 430 — — ns SCK input pulse width (low interval) TWLSCK 430 — — ns XCS input setup time, activated by the falling edge of SCK TSUXCS 430 — — ns XCS input hold time, activated by the rising edge of SCK THXCS 640 — — ns TSUSI 140 — — ns THSI 140 — — ns SO output transition time (Hi-Z → Data active), activated by the falling edge of XCS TZDSO 70 — 200 ns SO transition time (Data active → Hi-Z), activated by the rising edge of XCS TDZSO 70 — 200 ns SO output delay time, activated by the falling edge of SCK TPDSO 70 — 240 ns SI input setup time, activated by the rising edge of SCK Serial communication SI input hold time, activated by the rising edge of SCK YO0 to 7 output delay time, activated by the falling edge of DCK Digital output TPDYO 7 ns CO0 to 7 output delay time, activated by the falling edge TPDCO of DCK 7 ns NRB output delay time, activated by the falling edge of DCK 7 ns TSUXCS TPDNRB THXCS XCS TWLSCK TWHSCK SCK TPDSO TDZSO TZDSO SO DATA DATA DATA TSUSI THSI SI DATA DATA TpdYO TpdCO TpdNRB YO0 to 7 CO0 to 7 NRB DCK –7– DATA MCX18LG0A/MCX18LG0B Image Sensor Characteristics Item (Ta = 25°C) Unit Measurement method mV 1 Center of screen mV 2 Ta = 60°C, center of screen 0.012 % 3 Ydt 2 mV 4 Ta = 60°C ∆Ydt 1 mV 5 Ta = 60°C Symbol Min. Typ. Sensitivity S 285 360 Saturation signal Ysat 700 Smear Sm Dark signal Dark signal shading 0.007 Max. Measurement System [∗A] CCD OUT [∗Y] Micro unit CCD C.D.S AMP LPF1 Y signal output (3dB down 4MHz) Note) Adjust the amplifier gain so that the gain between [∗A] and [∗Y] equals 1. –8– Remarks MCX18LG0A/MCX18LG0B Image Sensor Characteristics Measurement Method Measurement conditions (1) In the following measurements, each supply voltage is at the typical values. (2) In the following measurements, spot blemishes are excluded and, unless otherwise specified, the optical black level (OB) is used as the reference for the signal output, which is taken as the value of Y signal output of the measurement system. Definition of Standard Imaging Conditions 1) Standard imaging condition I: Use a pattern box (luminance 706cd/m2, color temperature of 3200K halogen source) as a subject. (Pattern for evaluation is not applicable.) Use a ND2 filter and image at F5.6 or equivalent. The luminous intensity to the sensor receiving surface at this point is defined as the standard sensitivity testing luminous intensity. 2) Standard imaging condition II: Image a light source with a uniformity of brightness within 2% at all angles (color temperature of 3200K). 1. Sensitivity Set to standard imaging condition I. After selecting the electronic shutter mode with a shutter speed of 1/250s, measure the Y signal (Ys) at the center of the screen and substitute the values into the following formula. S = Ys × 250 [mV] 60 2. Saturation signal Set to standard imaging condition II. After adjusting the luminous intensity to 10 times the intensity applying with an average value of Y signal output, 200mV, measure the minimum value of the Y signal. 3. Smear Set to standard imaging condition II. With using ND2 filter and the lens diaphragm at F5.6 or equivalent, adjust the luminous intensity to 500 times the intensity applying with an average value of Y signal output, 200mV. When the readout clock is stopped and the charge drain is executed by the electronic shutter at the respective H blankings, measure the maximum value YSm [mV] of the Y signal output, and substitute the values into the following formula. Sm = 1 YSm 1 × × × 100 [%] (1/10V method conversion value) 10 200 500 4. Dark signal Measure the average value of the Y signal output (Ydt [mV]) with the device ambient temperature of 60°C and the device in the light-obstructed state, using the horizontal idle transfer level as a reference. 5. Dark signal shading After measuring 4, measure the maximum (Ydmax [mV]) and minimum (Ydmin [mV]) values of the Y signal output, and substitute the values into the following formula. ∆Ydt = Ydmax – Ydmin [mV] –9– MCX18LG0A/MCX18LG0B Optical Characteristics MCX18LG0A Item Symbol Min. Typ. Max. Unit SH 50 % Horizontal SV 25 % Vertical Focus length f 2.9 Aperture F 2.8 Shading Resolution R 220 Remarks TV lines Center of screen Max. Unit Remarks SH 30 % Horizontal SV 15 % Vertical MCX18LG0B Item Symbol Min. Typ. Focus length f 4.0 Aperture F 2.8 Shading Resolution R 220 TV lines Center of screen Measurement System Micro unit CCD Digital encoder – 10 – VIDEO OUT MCX18LG0A/MCX18LG0B Communication Code Table CateByte Bit gory Symbol Description Recommended Initial EEPROM value (H) value (H) Address (H) 0 0 01 Digital output ON/OFF 0: OFF, 1: ON 1 0 01 DIGITAL2 Digital output ON/OFF 0: OFF, 1: ON 1 0 01 5 DIGITAL3 Digital output ON/OFF 0: OFF, 1: ON 1 0 01 1 6 DIGITAL4 Digital output ON/OFF 0: OFF, 1: ON 1 0 01 1 1 7 DIGITAL5 Digital output ON/OFF 0: OFF, 1: ON 1 0 01 1 2 0 to 3 01 1 02 1 2 4 to 6 MODE1 01 0 02 1 2 01 0 02 1 3 0 to 3 SETUP 0 D 03 1 3 4 to 6 6 6 03 1 3 7 0 0 03 1 4 0 to 7 8E 2E 04 1 5 0 to 7 24 24 05 1 6 0 to 7 34 34 06 1 7 0 to 7 0B 0B 07 1 8 0 to 7 RMATY Matrix coefficient 2D 32 08 1 9 0 to 7 RMATC Matrix coefficient 00 F8 09 1 10 0 to 7 BMATY Matrix coefficient 45 32 0A 1 11 0 to 7 BMATC Matrix coefficient BB D3 0B 1 12 0 to 7 0C 2C 0C 1 13 0 to 5 00 00 0D 1 13 6 0 0 0D 1 13 7 0 0 0D 1 14 0 to 7 FF 00 0E 1 15 0 to 7 24 24 5F 2 1 0 to 7 YGAIN 9E 86 0F 2 2 0 to 7 AA AA 10 2 3 0 to 7 26 26 11 2 4 0 to 7 A4 84 12 1 1 0 to 2 1 1 3 DIGITAL1 1 1 4 1 1 1 Operation mode switching, normally "5h" 7 SUP601 VDBUSY Setup level 0 (0h) to 8.5 (Fh) IRE Digital output setup ON/OFF 0: OFF, 1: ON VD output signal switching 0: VD, 1: SCSBUSY Luminance signal gain – 11 – MCX18LG0A/MCX18LG0B CateByte Bit gory Symbol Description Recommended value (H) Initial EEPROM value (H) Address (H) 2 5 0 to 7 04 04 13 2 6 0 to 7 FC FC 14 2 7 0 to 3 RBQUAD Linear matrix quadrant control bit 0: 1st, bit 1: 2nd, bit 2: 3rd, bit 3: 4th 0: invalid, 1: valid — F — 2 7 4 CONGAIN Linear matrix gain 0: invalid, 1: valid — 1 — 2 7 5 CONHUE Linear matrix hue 0: invalid, 1: valid — 1 — 2 7 6 to 7 Dummy — — — 2 8 0 to 7 RYGAIN Linear matrix coefficient Adjustment value 20 2 9 0 to 7 BYGAIN Linear matrix coefficient Adjustment value 11 4F, 51, 53, 55∗2 50, 52, 54, 56∗2 2 10 0 to 7 RYHUE Linear matrix coefficient Adjustment value D0 57, 59, 5B, 5D∗2 2 11 0 to 7 BYHUE Linear matrix coefficient Adjustment value F8 58, 5A, 5C, 5E∗2 3 1 0 to 7 00 00 15 3 2 0 to 7 00 00 16 3 3 0 to 7 00 00 17 3 4 0 to 7 SHOFST Sample-and-hold output offset 3D 3D 18 3 5 0 to 7 EVRUSR EEPROM error write prevention 00h: write enabled, A0h: write unenabled A0 89 19 3 6 0 to 7 FF FF 60 3 7 0 to 7 FF FF 61 3 8 0 to 7 FF FF 62 3 9 0 to 7 FF FF 63 3 10 0 to 7 FF FF 64 3 11 0 to 7 40 10 65 3 12 0 to 7 YGAIN 00 00 66 3 13 0 to 7 51 51 67 4 1 0 to 7 VREFY VREFY adjustment Adjustment value 70 1C 4 2 0 to 7 VREFC VREFC adjustment Adjustment value 66 1D 4 3 0 to 7 VSUB VSUB adjustment Adjustment value 80 1E 4 4 0 to 7 80 80 1F 4 5 0 to 7 00 00 4 6 0 to 7 00 00 4 7 0 to 7 00 00 4 8 0 to 7 00 00 62∗1 63∗1 4 9 0 to 7 00 00 64∗1 Luminance signal gain – 12 – 60∗1 61∗1 MCX18LG0A/MCX18LG0B CateByte Bit gory Symbol 5 1 0 to 7 AGCCONT 5 2 0 to 7 5 3 0 SHTSPDM 5 3 1 5 3 2 5 3 3 to 7 5 4 0 to 7 SHTSPDL 5 5 5 Description Gain control Recommended Initial EEPROM value (H) value (H) Address (H) 1E 1E 20 FF FF 21 Shutter speed (lower 8 bits, MSB) — 0 — SHTHL Electronic shutter high speed/low speed switching 0: high speed, 1: low speed — 0 — SHTON Electronic shutter ON/OFF 0: OFF, 1: ON — 0 — — 10 — — 00 — 0 to 7 00 — 6 0 to 7 00 — 5 7 0 to 7 00 — 6 1 0 to 7 3A 3A 22 6 2 0 to 7 26 26 23 6 3 0 to 7 48 48 24 6 4 0 to 7 — 80 — 6 5 0 to 7 — 04 — 7 1 0 to 7 01 00 25 7 2 0 to 7 14 15 26 7 3 0 to 7 05 08 27 7 4 0 to 7 55 55 28 7 5 0 to 7 74 74 29 8 1 0 to 2 AWBADJUST AWB adjustment mode switching 0h: OFF, 2h: ON — 0 — 8 1 AWB control 0: ON, 1: OFF — 0 — 8 1 AE adjustment mode switching 0h: OFF, 3h: ON — 0 — 8 1 7 AE AE control 0: ON, 1: OFF — 0 — 8 2 0 MCR Microcontroller control 0: ON, 1: OFF — 0 — 8 2 1 SPRS Suppress control 0: ON, 1: OFF — 0 — 3 Shutter speed (upper 8 bits) WBR Write White balance control AWBCNTL Read ATW adjustment integral data WBG Write White balance control AWBCNTM Read ATW adjustment integral data WBB Write White balance control INTGRL Read ATW adjustment integral data Write White balance control INTGR Read ATW adjustment integral data Write INTGRM AWB 4 to 6 AEADJUST Read ATW adjustment integral data – 13 – MCX18LG0A/MCX18LG0B CateByte Bit gory Symbol Description Recommended Initial EEPROM value (H) value (H) Address (H) — 0 — — 0 — 4 to 7 — 0 — 3 0 to 7 — 00 — 8 4 0 FLON Flickerless ON/OFF 0: OFF, 1: ON — 0 — 8 4 1 BLCOF Backlight compensation ON/OFF 0: ON, 1: OFF — 0 — 8 4 2 — 0 — 8 4 3 — 0 — 8 4 4 — 0 — — 4 5 0 — 8 — 0 — 8 4 — 0 — 8 — 0 — 8 2 2 8 2 3 8 2 8 SW AEREF Serial communication based AE/AWB mode switching 0: invalid, 1: valid AE convergence level switching 0: 100 IRE, 1: [AWB] setting with USR AWB mode setting AWB1 0: Auto 1: Fixed 6 AWB2 (AWB2, AWB3) = (0, 0): ATW (1, 0): Pull-in 4 7 AWB3 (AWB2, AWB3) = (0, 0): 3,200K (1, 0): [AWB] USRR/B (0, 1): 4,200K (1, 1): 6,300K 8 5 0 E2WR EEPROM write control 0: OFF, 1: Write — 0 — 8 5 1 E2WEN EEPROM write enable send 0: OFF, 1: Send — 0 — 8 5 2 E2LSB EEPROM lower 8 bits selection 0: upper 8 bits, 1: lower 8 bits — 0 — 8 5 3 E2RSW EEPROM read control 0: OFF, 1: ON — 0 — 8 5 4 E2RAL1 EEPROM read range specification 0: OFF, 1: Select — 0 — 8 5 5 E2RAL2 EEPROM read range specification 0: OFF, 1: Select — 0 — 8 5 6 E2RAL3 EEPROM read range specification 0: OFF, 1: Select — 0 — 8 5 7 E2RAL4 EEPROM read range specification 0: OFF, 1: Select — 0 — 8 6 0 to 7 E2CODE EEPROM control code — 00 — 8 7 0 to 7 E2ADRS EEPROM address — 00 — 8 8 0 to 7 E2DATA EEPROM data (upper 8 bits) — 00 — 8 9 0 to 7 SPCODE SPEC code — 00 — 8 10 0 to 7 SPCDAT SPEC data — 00 — 8 11 0 to 7 — 00 — – 14 – MCX18LG0A/MCX18LG0B CateByte Bit gory Symbol Description Recommended Initial EEPROM value (H) value (H) Address (H) — 00 — 0 to 7 00 07 2A 2 0 to 7 00 00 2B 9 3 0 to 7 02 02 2C 9 4 0 to 7 00 00 2D 9 5 0 to 5 00 00 2E 9 5 6 1 0 2E 9 5 7 1 1 9 6 0 to 7 00 00 2E 65∗1 9 7 0 to 7 00 00 9 8 0 to 7 00 00 9 9 0 to 7 00 00 9 10 0 to 7 00 00 9 11 0 to 7 00 00 9 12 0 to 7 00 00 9 13 0 to 7 00 00 9 14 0 to 7 00 00 6C∗1 6D∗1 10 1 0 to 7 — 00 — 10 2 0 to 7 — 00 — 10 3 0 to 7 — 00 — 10 4 0 — 0 — 10 4 1 — 0 — 10 4 2 — 0 — 10 4 3 — 0 — 10 4 4 Color bar/monochrome switching 0: Color bar, 1: Monochrome — 0 — Color specification 0h: OFF, 1h: Blue, 2h: Red, 3h: Magenta, 4h: Green, 5h: Cyan, 6h: Yellow, 7h: White — 0 — 8 12 0 to 7 E2DATAL 9 1 9 DIGITAL6 PGON PGCOLSEL 5 to 7 PGCOL EEPROM data (lower 8 bits) Digital output ON/OFF 0: OFF, 1: ON Pattern generator ON/OFF 0: OFF, 1: ON 66∗1 67∗1 68∗1 69∗1 6A∗1 6B∗1 10 4 10 5 0 PGHV Horizontal/vertical switching 0: H, 1: V — 0 — 10 5 1 PGRSTR Raster setting 0: OFF, 1: ON — 0 — 10 5 Pattern switching 0h: OFF, 1h: ramp, 2h: impulse, 3h: invert impulse — 0 — 10 5 — 0 — 2 to 3 PGPTSEL 4 – 15 – MCX18LG0A/MCX18LG0B CateByte Bit gory Symbol Description Recommended Initial EEPROM value (H) value (H) Address (H) 10 5 5 — 0 — 10 5 6 to 7 — 0 — 10 6 0 to 7 — 0 — 10 7 0 to 7 — 00 — 10 8 0 to 7 — 00 — 10 9 0 to 7 — 00 — ∗1 Lower 8 bits used. Without a "∗1", upper 8 bits used. ∗2 (1st, 2nd, 3rd, 4th) quadrant – 16 – MCX18LG0A/MCX18LG0B SPEC Code Table Code (H) Symbol Description Address Recommended Initial value (H) value (H) (H) 01 [AE] SPD AE response speed 30 08 2F 02 [AE] USR AE convergence level 03 04 30 03 [AE] MAX AE maximum gain BB BB 31 04 [AE] MIN AE minimum gain Adjustment value 11 32 05 [AE] LIM AE shutter speed upper limit 07 07 33 EE EE 34 06 07 [AE] BLC Backlight compensation control 0C 0C 35 08 [AE] HIST Histogram backlight compensation control 01 00 36 09 01 01 37 0A 01 01 38 0B 03 03 39 0C 03 03 3A 0D 66 66 4E 11 [AWB] SPD bit0 to 3: AWB response speed bit4 to 7: fixed to "1h" 11 02 3B 12 [AWB] FRM AWB detection window setting 00 00 3C 13 [AWB] RSFT Manual mode shift volume setting 03 03 3D 14 [AWB] BSFT Manual mode shift volume setting 01 01 3E 15 [AWB] USRR User mode setting 4C 4C 3F 16 [AWB] USRB User mode setting 2C 2C 40 17 [AWB] RGAIN1 R gain for 3,200K Adjustment value 37 41 18 [AWB] BGAIN1 B gain for 3,200K Adjustment value 39 42 21 08 08 43 22 05 05 44 23 05 05 45 24 04 04 46 25 07 07 47 31 52 52 48 32 80 80 49 33 8A 8A 4A 34 3D 3D 4B 35 80 80 4C 36 00 00 4D 37 RYGAIN1 R-Y GAIN (1st) Adjustment value 20 4F 38 BYGAIN1 B-Y GAIN (1st) Adjustment value 11 50 39 RYGAIN2 R-Y GAIN (2nd) Adjustment value 20 51 – 17 – MCX18LG0A/MCX18LG0B Code (H) Symbol Description Address Recommended Initial value (H) value (H) (H) 3A BYGAIN2 B-Y GAIN (2nd) Adjustment value 11 52 3B RYGAIN3 R-Y GAIN (3rd) Adjustment value 20 53 3C BYGAIN3 B-Y GAIN (3rd) Adjustment value 11 54 3D RYGAIN4 R-Y GAIN (4th) Adjustment value 20 55 3E BYGAIN4 B-Y GAIN (4th) Adjustment value 11 56 — RYHUE1 R-Y HUE (1st) Adjustment value D0 57 — BYHUE1 B-Y HUE (1st) Adjustment value F8 58 — RYHUE2 R-Y HUE (2nd) Adjustment value D0 59 — BYHUE2 B-Y HUE (2nd) Adjustment value F8 5A — RYHUE3 R-Y HUE (3rd) Adjustment value D0 5B — BYHUE3 B-Y HUE (3rd) Adjustment value F8 5C — RYHUE4 R-Y HUE (4th) Adjustment value D0 5D — BYHUE4 B-Y HUE (4th) Adjustment value F8 5E 41 90 90 6A 42 00 00 6B 43 06 06 68 44 01 01 69 80 00 6C 52 1E 1E 6D 53 52 52 6E 61 00 00 6F 62 00 00 70 63 37 37 71 64 39 39 72 51 MODE2 Operation mode switching, normally "80h" 65 [AWB] RBL ATW operation frame adjustment data Adjustment value 00 73 66 [AWB] RBM ATW operation frame adjustment data Adjustment value E6 74 67 [AWB] RBGL ATW operation frame adjustment data Adjustment value 00 75 68 [AWB] RBGM ATW operation frame adjustment data Adjustment value 0B 76 69 [AWB] RGAIN2 R gain for 9,500K Adjustment value 60 77 6A [AWB] BGAIN2 B gain for 9,500K Adjustment value 20 78 6B [AWB] GLIM ATW operation frame adjustment data Adjustment value 18 79 18 7A 28 7B 18 6C 6D [AWB] BLIM ATW operation frame adjustment data Adjustment value 6E 80 80 7C 6F 00 00 7D 70 00 00 7E – 18 – – 19 – VD HD (BLK) YO/CO EVEN Field VD HD (BLK) YO/CO ODD Field 484 485 485 486 486 487 488 489 489 490 490 491 492 491 492 21DCK Optical Black 487 488 Vertical Timing Chart NRB (BLK) CO0 to 7 YO0 to 7 HD DCK Horizontal Timing Chart 145DCK (BLK) is an internal pulse. YO0 to 7 and CO0 to 7 signals are processed by BLK pulse. R-Y 64DCK 1 1 2 60DCK 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 DCK = 13.5MHz (74.07ns) MCX18LG0A/MCX18LG0B MCX18LG0A/MCX18LG0B Notes on Handling 1) Static charge prevention Micro unit CCDs are easily damaged by static discharge. Before handling be sure to take the following protective measures. a) Either handle bare handed or use non-chargeable gloves, clothes or material. Also use conductive shoes. b) When handling directly use an earth band. c) Install a conductive mat on the floor or working table to prevent the generation of static electricity. d) Ionized air is recommended for discharge when handling micro unit CCD. e) For the shipment of mounted substrates, use boxes treated for the prevention of static charges. 2) Please use IC socket for mounting of micro unit CCD. IC socket : HS6401-K YAMATO SCIENTIFIC CO., LTD. 3) Dust and dirt protection a) Operate in clean environments. b) Do not either touch lens by hand or have any object come in contact with glass surfaces. Should dirt stick to a lens surface, blow it off with an air blower. (For dirt stuck through static electricity ionized air is recommended.) c) Clean with a cotton bud and ethyl alcohol if the grease stained. Be careful not to scratch the lens. d) Keep in a case to protect from dust and dirt. To prevent dew condensation, preheat or precool when moving to a room with great temperature differences. 4) Do not expose to strong light (sun rays) for long periods. 5) Exposure to high temperature or humidity will affect the characteristics. Accordingly avoid storage or usage in such conditions. 6) Micro unit CCDs are precise optical equipment that should not be subject to mechanical shocks. – 20 – GND +15V +5V –8V +3.3V DI 14 CLK 13 VCC 9 8 VDD C123 100µ/6.3V AO8 10 7 AO7 C124 0.1µ LD 12 DO 11 AO6 6 5 AO5 3 AO3 AO1 15 4 AO4 GND 16 L101 10µH R104 100k DGND 35 62 YO4 DVDD2 L105 10µH C107 0.1µ C105 0.1µ C106 0.1µ C109 0.1µ X101 27MHz SI SO C114 1000p D101 MA159A (2/2) C115 0.1µ R102 1M C113 0.1µ C110 C111 R101 22µ/20V 6.8µ/20V 100k C112 1µ/35V D101 MA159A (1/2) C117 0.1µ C119 10p C120 10p IC104 S-80730AN 1 OUT L106 10µH L107 100µH C118 1000p R103 270 C116 10µ/16V VL 25 DGND 26 CSEVR 27 CASO 28 CASCK 29 XCS 30 DVDD1 31 CK 32 OSCO 33 C108 2.2µ/20V 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 C104 10µ/6.3V C103 0.1µ C102 10µ/20V C101 0.1µ 8 AGND 7 CCDOUT 6 AGND 5 SHIN 4 SHOUT 3 2 YO0 1 YO1 64 YO2 OSCI 34 RESETTG 36 61 YO5 63 YO3 CASI 38 CSROM 37 VH 60 YO6 VCC 59 YO7 IC101 MCX18LG0A/B SI 40 SO 39 C121 0.1µ 57 DGND CO7 58 DCK DGND SIFSEL 2 AO2 DGND AGND L102 100µH 1 VSS CO4 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 CO5 AVDD4 L104 10µH IC102 MB88347PFV R105 47k CO6 AGND L103 10µH GND 5 R106 47k CO2 SUBIN 4 DO R107 47k CO3 AGND RESET 6 CO0 DI NRB AVDD1 3 CO1 AGCCONT – 21 – OFFSET VCC 8 HD AVDD2 BUSY 7 TEST DCIN 2 SK VD AVDD3 1 CS SCK SUBOUT VDD 2 IC103 AK6420AM C122 0.1µ XCLR DCOUT 3 VSS YO [0 to 7] DCK CO [0 to 7] NRB HD VD MCX18LG0A/MCX18LG0B – 22 – 41 56 18.28 ± 0.3 16.2 7.6 40 2° 57 PACKAGE WEIGHT 4.20g Au LEAD TREATMENT LEAD MATERIAL ceramic 0.30min 64 1 Ø 04 1. 25 9 24 8 1st. pin Index. 35° 18.28 ± 0.3 7.6 PACKAGE MATERIAL PACKAGE STRUCTURE MCX18LG0A 3.5 ± 0.4 3.20max. 2-1.50max 64pin QFN (720mil) 3.20max. 64-R(0.25) 5.50max 16.08 ± 0.2 P1.016 X 15 = 15.24 64 - 0.50 5.50max Unit: mm 2-1.50max 8.37 ± 0.5 7.30 ± 0.5 Package Outline MCX18LG0A/MCX18LG0B 64 - 0.80 – 23 – 56 57 40 2° 41 18.28 ± 0.3 16.2 7.6 PACKAGE WEIGHT 4.20g Au LEAD TREATMENT LEAD MATERIAL ceramic 0.30min 64 1 Ø 04 1. 25 9 24 35° 8 1st. pin Index. 18.28 ± 0.3 7.6 PACKAGE MATERIAL PACKAGE STRUCTURE MCX18LG0B 3.5 ± 0.4 3.20max. 2-1.50max 64pin QFN (720mil) 3.20max. 64-R(0.25) 5.50max 16.08 ± 0.2 P1.016 X 15 = 15.24 64 - 0.50 5.50max Unit: mm 2-1.50max 9.57 ± 0.5 8.50 ± 0.5 Package Outline MCX18LG0A/MCX18LG0B 64 - 0.80