For Home Electronics and Security Devices Camera Image Processor Series Camera Image Processor with ADPCM / MIDI / MP3 / AAC / HE-AAC Audio No.09061EAT04 BU6569GVW ●Description BU6569GVW is a camera image processor with ADPCM/MIDI/MP3/AAC/HE-AAC Audio. ●Features 1) Built-in Camera Module Interface UXGA size (16001200) for input of image data up to 7.5 fps, SXGA size (12801024) for input of image data up to 15fps and VGA size (640480) for input of image data up to 30fps (zooming function available). Input data format for YUV=4:2:2, RGB=4:4:4 (8 bits for each RGB). Filter processing (image processing) to input images (2 gradations / gray scale / sepia / emboss / edge enhancement / negative). Multi-step size reduction down to 1/16 in X- and Y-direction possible, cutting out into an arbitrary size after resizing. Cut images to be stored into an arbitrary position in frame memory in YUV=4:2:2 format or RGB=5:6:5 format (16bit/pixel). 2) Built-in frame memory / JPEG code memory Built in image frame memory (160KB to store 1 frame of 320240@16bit/pixel). Data to be stored into image frame memory in YUV=4:2:2 format or RGB5:6:5 format (16bit/pixel). An arbitrary position of frame memory to be updated to camera image according to mask frame memory. Mask data to be stored into mask frame memory in 1bit/2pixels in YUV=4:2:2 format or 1bit/1pixels in RGB=5:6:5 format. Rectangular writing function and rectangular reading function as transparent color to image frame memory. Frame memory is usable as JPEG code memory (192KB) to store JPEG compressed images. Frame memory is usable as a ring buffer for JPEG code of 192KB or more. 3) Built-in LCD controller interface Built-in input/output interface which type is CPU I/F, to LCD controller For display colors of 262144 colors / 65536 colors / 4096 colors. Up to 2 LCD module controllers, MAIN and SUB, controllable. Arbitrary rectangular selection in frame memory to be transferred to LCD controller. Multi-step scaling process in the range of 1/4 to 2 in X- and Y-direction is available to display images from frame memory to the LCD. 4) Extended overlay function Supporting overlay of icon-data up to two icons with LCD data transfer. Icon-data corresponding to 65536 display colors. Possible to setting transparent colors. 5) Built-in TV encoder interface Connection to ROHM-made BU9972GU or BU9969KN. Optional rectangular area of frame memory transferable to TV encoder IC. Multi-step scaling process in the range of 1 to 8 in X- and Y-direction is available for display images from frame memory to the TV encoder IC. www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 1/16 2009.07 - Rev.A Technical Note BU6569GVW 6) Built-in JPEG CODEC ISO/IEC10918 conforming base line method. ・Compression For YUV=4:2:2 format only. Quantization table selectable from 32 built-in tables. ・Decompression For YUV=4:4:4, 4:2:2(horizontal sub-sampling), 4:2:0, 4:1:1(horizontal sub-sampling), and gray scale. 7) Built-in HOST CPU interface Adaptable to 16bit bus interface. Read/Write access to/from frame memory. Read/Write access to/from internal registers (Indirect access with a index register as the address). Read/Write access to/from the LCD controller: Parallel/Serial (Direct access available via the LCD interface). 8) Built-in USB interface USB 2.0 FS adaptable to mass storage class. 9) Built-in NAND Flash memory interface Adaptable to 8bit and 16bit width for data bus. ECC calculation by BU6569GVW. 10) Built-in SD card interface Built-in host controller block of SD card interface, MMC interface. 11) AAC Decode Supporting Advanced Audio Coding, Low complexity (AAC-LC) Supporting High Efficiency Advanced Audio Coding (HE-AAC) 12) MP3 Decode ISO/IEC 11172-3 (32, 44.1 or 48 KHz) 13) Melody source Simultaneous generation of up to 64 polyphonic tones out of a tone palette of 128 sounds plus 47 drum set sounds, 15 electric drum set sounds, and 32 effect sounds. Up to 8 user customized sound can be used to create original sounds. Supporting 12-bit pitch bending and modulation support. Plays up to four songs simultaneously and supports real-time modification of tempo, key, volume, and pan pot. 14) ADPCM CODEC Built-in ADPCM decoder/PCM player (2 channels), enables mixing with melody. Built-in ADPCM encoder/PCM recorder (1 channel). 15) IIS, PCM interface Digital input ・IIS interface (IIS, Standard Left Justified format, and Standard Right Justified format) ・PCM interface (G711.1 u-Law, G711.1 A-Law, Linear (negative number is expressed as 2's-complement.)) Digital output ・IIS interface (IIS, Standard Left Justified format) 16) Stereo DAC block Built-in a stereo digital-analog converter. The DAC block's dynamic range is 1.98 Vpp (typ.) LPF is included as a smoothing filter subsequent to DAC output, which can eliminate the high-frequency components of the generated analog waveform. 17) Auto Play AAC/HE-AAC/MP3 music can be played automatically in SD card or Flash memory of 512B/page and 2KB/page by using auto play file list (link information of page address) written into Play List RAM by HOST CPU. 18) Clock generation, power management function Two oscillation circuits configuration by XIN1, 2 and XOUT1, 2 terminals, or clock input available from the XIN1, 2 terminal. Built-in two PLL circuits enable clock multiplication. Clock control of BU6569GVW inside in unit of block (suspend mode available.) *Data is prepared separately about each register setup. Please refer to the Development Scheme on page 14. www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 2/16 2009.07 - Rev.A Technical Note BU6569GVW System1 (VDDIO1) P2-P6(D8-D4),P8-P27(D3-D0,ADVB,CSB, WRB,RDB,INT,RESETB,LED0,VIB0,DIGLR, DIGCK,DACMCK,DIGDIN,DIGDOUT,FSYNC, PCMDIN,DCLK) ,P112-P120(A2,A1,D15-D9) P42-P43(SD_CLK,SD_CMD),P45-P61(SD_DAT0,FL_CEB,FL_RB,LCDCS1B, System 2 (VDDIO2) LCDCS2B,LCDWRB,LCDRDB,LCDA0,TEST,LCDD0-LCDD7), P63-P72(LCDD8-LCDD17),P74-P80(CAMRST,SDA,SDC,CAMCKI,CAMCKO,CAMVS,CAMHS), P82-P89(CAMD0-CAMD7),P92-P102(TE_VSYNC, TE_HSYNC,TE_PIXCLK,TED0-TED7) System 3 (VDDIO3) System 4 (VDDIO4) System 5 (AVDD) P37-P39(USB_DM,USB_DP,USB_RDY) P105-P109(XIN1,XOUT1,PLL_FILTER,XIN2,XOUT2) P29-P30(L_OUT,R_OUT),P34-P35(VREF,MONO_OUT) ●Application Security camera, Intercom with camera, Drive recorder and Web camera etc. ●Lineup Power source voltage Parameter BU6569GVW Camera interface IO1:HOSTI/F IO2:Camera, LCD 1.7-3.6V(VDDIO1) 2.7-3.6V(VDDIO2) *1 3.0-3.6V(VDDUSB) *2 1.45-1.55V(VDD Core) Supported up to 2M pixels. (1600×1200) HOST CPU interface 16bit bus 80 systems CPU Interface LCD interface Supported up to QVGA (320×240) [Image] Codec [Sound /Music] 2M pixels JPEG Codec Motion-JPEG 64MIDI/MP3/AAC / HE-AAC decode ADPCM Codec Multimedia interface Package USB2.0 FS I/F, SDC / MMC I/F, TV encoder I/F, NAND Flash, Memory I/F SBGA120W080 *1 VDDIO2, VDDIO4, and AVDD can be used by the same source voltage. *2 VDDUSB is the same as VDDIO3. ●Absolute maximum ratings ●Recommended operating range (Ta=25℃) Parameter Symbol Rating Unit Parameter Symbol Rating Unit Applied power source voltage 1 (IO1) VDDIO1 -0.3~+4.2 V Applied power source voltage 1 (IO1) VDDIO1 1.70~3.60 (Typ:3.30V) V Applied power source voltage 2 (IO2) VDDIO2 -0.3~+4.2 V Applied power source voltage 2 (IO2) VDDIO2 2.70~3.60 (Typ: 3.30V) V Applied power source voltage 3 (USB) VDDIO3 -0.3~+4.2 V Applied power source voltage 3 (USB) VDDIO3 3.00~3.60 (Typ:3.30V) V Applied power source voltage 4 (PLL) VDDIO4 -0.3~+4.2 V Applied power source voltage 4 (PLL) VDDIO4 2.70~3.60 (Typ: 3.30V) V Applied power source voltage 5 (DAC) AVDD -0.3~+4.2 V Applied power source voltage 5 (DAC) AVDD 2.70~3.60 (Typ: 3.30V) V Applied power source voltage 6 (CORE) VDD -0.3~+2.1 V Applied power source voltage 6 (CORE) VDD 1.45~1.55 (Typ:1.50V) V Input voltage VIN -0.3~VDDIO+0.3 V Input voltage range VIN 0~VDDIO V Storage temperature range Tstg -40~+150 ℃ Operating temperature range Topr -30~+85 ℃ Power dissipation PD 380 mW *Please supply power source in order of VDD→VDDIO. (VDDIO1→ VDDIO2→ VDDIO3→ VDDIO4→ ADD) *Power dissipation is IC only. In the case exceeding 25ºC, 3.8mW should be reduced at the rating 1ºC. www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 3/16 2009.07 - Rev.A Technical Note BU6569GVW ●Electric characteristics (Unless otherwise specified, VDD=1.50V,VDDIO1,2,3,4,AVDD=3.30V,GND=0V,Ta=25℃, fXIN1=12.0MHz,fXIN2=12.0MHz,fAUDIO=74.0MHz,fIMAGE=52.0MHz) Parameter Symbol Input frequency 1 Input frequency 2 Internal clock frequency 1 fXIN1 fXIN2 fIMAGE MIN. 2.688 10.0 - Internal clock frequency 2 Limits TYP. - MAX. 26.0 30.0 52.0 MHz XIN1 (Duty 50±10%), at PLL ON MHz XIN2 (Duty 50±10%), at PLL ON MHz At PLL ON MHz At PLL ON Unit Condition fAUDIO - - 74.0 Operating consumption current 1 IDD1 - 12.8 - mA Operating consumption current 2 IDD2 - 17.3 - mA Static consumption current IDDst - - 150 μA Input "H" current 1 IIH1 -10 - 10 μA VIH=VDDIO1,2,3,4 Input "H" current 2 IIH2 25 50 100 μA Pull-down terminal, VIH=VDDIO2 Input "H" current 3 IIH3 -10 - 10 μA Pull-up terminal, VIH=VDDIO2 Input "L" current 1 IIL1 -10 - 10 μA VIL=GND Input "L" current 2 IIL2 -10 - 10 μA Pull-down terminal, VIL=GND Input "L" current 3 IIL3 -160 -80 -25 μA Pull-up terminal, VIL=GND Input "H" voltage1 VIH1 VDDIO*0.8 - VDDIO+0.3 V Normal type input At Preview operating At AAC decode operating (at 44kfs, Auto Play from Flash) At suspend mode setting Input "L" voltage 1 VIL1 -0.3 - VDDIO*0.2 V Normal type input Input "H" voltage 2 VIH2 VDDIO*0.85 - VDDIO+0.3 V Input "L" voltage 2 VIL2 -0.3 - VDDIO*0.15 V Hysteresis voltage width Vhys - 0.9 - V Hysteresis input VDDIO1(CSB,WRB,RDB) VDDIO4(XIN1,XIN2) Input "H" voltage3 VIH3 2.0 - - V Input "L" voltage 3 VIL3 - - 0.8 V USB_DP,USB_DM Single-ended input voltage level Differential input sensitivity Differential common mode range VDI 0.2 - - V ABS(VUSB_DP-VUSB_DM) VCM 0.8 - 2.5 V Include VDI range Output "H" voltage 1 VOH1 VDDIO-0.4 - VDDIO V Output "L" voltage 1 VOL1 0.0 - 0.4 V Output "H" voltage 2 VOH2 VDDIO-0.4 - VDDIO V Output "L" voltage 2 VOL2 0.0 - 0.4 V IOL1=2.0mA(DC), CAMCKO Output "H" voltage 3 VOH3 VDDIO-0.4 - VDDIO V IOH1=-4.0mA(DC), SD_CLK Output "L" voltage 3 VOL3 0.0 - 0.4 V IOL1=4.0mA(DC), SD_CLK Output "H" voltage 4 VOH4 2.8 - VDDIO V IOH1=-2.53mA(DC), USB_DP,USB_DM Output "L" voltage 4 VOL4 0.0 - 0.3 V IOL1=2.53mA(DC), USB_DP,USB_DM VREF PIN voltage VVREF 0.475*AVDD 0.5*AVDD 0.525*AVDD V IOUT=0A(no load),VREF Analog output voltage range VAOUT 0.47*AVDD 0.5*AVDD 0.53*AVDD V IOUT=0A(no load). In Silence VAMP - 0.6*AVDD - RAOUT 10 - - Analog amplitude Output load for analog output www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 4/16 IOH1=-1.0mA(DC), Normal type output (Including output mode of I/O terminal) IOL1=1.0mA(DC), Normal type output (Including output mode of I/O terminal) IOH1=-2.0mA(DC), CAMCKO VPP Theoretical Value of Dynamic range KOhm R_OUT,L_OUT,MONO_OUT 2009.07 - Rev.A Technical Note BU6569GVW ●Block Diagram VIB0 LED0 SDC/MMC Interface Out sync SD Card/MMC I/F FIFO 2KB Audio sequencer for AutoPlay NAND Flash Interface Audio Processor DAC Audio path switch NAND Flash I/F Audio Interface FIFO 1KB MIDI engine IIS I/F FIFO 1KB ADPCM Codec PCM I/F LCD control display data HOST Interface HOST I/F Register Array LCD controller I/F YUV=4:2:2 RGB=5:6:5 RGB ⇔ YUV color space conversion TV Encoderr I/F 2-line serial control 2-line type serial for Camera, TVEncoder TV Encoder Interface YUV=4:2:2 Brightness compenent D range change 1/n resizing cropping Viewing Buffer memory 64KB YUV=4:4:4 Memory I/F JPEG Codec multistep zoom Expanded overlay memory 32KB Camera Interface Max UXGA (1600×1200) Audio Processor Sequence Date/ MIDI Wave Data 192KB LCD display frame memory 160KB Play List 16KB Mask memory 10KB Image processing (filter processing) Multi step zoom memory 4KB YUV=4:2:2 MIDI engine work memory CAMRST General purpose Input/output Audio Processor work memory Clock control Power down control internal clock Interrupt to HOST USB FS I/F from each blocks PLL (2 channels) XIN1,XOUT1 XIN2,XOUT2 RESETB Interrupt controller USB Interface ●Recommended Application Circuit Cam era Ma i n LCD TED[7:0] CAMCKO TE_HSYNC CAMCKI CAMVS,CAMHS TE_VSYNC CAMD[7:0] SDC TE_PIXCLK SDA TV -Encoder LCDCS1B LCDA0 LCDWRB LCDRDB Sub LCD LCDD[15:0] LCDD[16] U SB H os t USB_DP LCDD[17] USB_DM LCDCS2B B U6 5 6 9 GVW AFE SD_CLK SD_CMD PCMDIN FSYNC SD_DAT0 DCLK DIGLR INT FL_RB DIGDOUT RDB D[15:0] DIGDIN CSB WRB FL_CEB A2 A1 DIGCK SD C/MMC LCDD[3:1] NAND Flash H os t CPU ※Data is prepared separately about each register setup. Please refer to the Development Scheme on page 14. www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 5/16 2009.07 - Rev.A Technical Note BU6569GVW ●Terminal functions PIN No. Land No. PIN Name In/Out /Analog Active Level Init Function explanation Power source system Function division I/O type 1 A1 GND - GND - Digital ground - - - 2 C3 D8 In/Out DATA In *1 Host data bus: bit 8 1 HOST D*2 3 B2 D7 In/Out DATA In *1 Host data bus: bit 7 1 HOST D*2 4 B1 D6 In/Out DATA In *1 Host data bus: bit 6 1 HOST D*2 5 C2 D5 In/Out DATA In *1 Host data bus: bit 5 1 HOST D*2 6 D3 D4 In/Out DATA In *1 Host data bus: bit 4 1 HOST D*2 7 D2 VDD - PWR - CORE power supply - - - 8 D1 D3 In/Out DATA In *1 Host data bus: bit 3 1 HOST D*2 9 E3 D2 In/Out DATA In *1 Host data bus: bit 2 1 HOST D*2 10 E2 D1 In/Out DATA In *1 Host data bus: bit 1 1 HOST D*2 D*2 11 E1 D0 In/Out DATA In *1 Host data bus: bit 0 1 HOST 12 E5 ADVB In Low - Address latch enable 1 HOST G 13 E4 CSB In Low - Chip select signal 1 HOST G*3 14 F2 WRB In Low - Write enable signal 1 HOST G 15 F1 RDB In Low - Read enable signal 1 HOST G 16 F5 INT Out * Low Interrupt signal 1 HOST C 17 F4 RESETB In Low - System reset signal 1 SYS B 18 F3 LED0 Out - Low LED control signal 1 SYS D*4 19 G1 VIB0 Out - Low Vibrator control signal 1 SYS D*4 20 G2 DIGLR In/Out - In Sampling clock for audio data 1 AUD D*5 21 G3 DIGCK In/Out CLK In Bit clock for audio data (64Fs/32Fs) 1 AUD D*5 22 G4 DACMCK In/Out CLK Out/Low Master clock for audio data(256Fs/384Fs) 1 AUD D*5 23 H1 DATA - Audio data input 1 AUD D*6 H3 DIGDIN DIGDOUT In 24 Out DATA - Audio data output 1 AUD D*7 25 J1 FSYNC In/Out - In Sampling clock for PCM data 1 AUD D*5 26 J2 PCMDIN In DATA - PCM data input 1 AUD D*6 27 H4 DCLK In/Out CLK In Bit clock for PCM data 1 AUD D*5 28 H2 VDDIO1 - PWR - 1 - - 29 K1 L_OUT Analog DATA - Digital I/O power supply (System 1) Stereo L-channel analog output *12, *13 A AUD I 30 G5 R_OUT Analog DATA - Stereo R-channel analog output *12, *13 A AUD I 31 L1 AVSS - GND - Analog ground A - - 32 L2 AVDD - PWR - Analog power supply A - - 33 K3 AVSS - GND - A - - 34 H5 VREF Analog - - A AUD J 35 K2 MONO_OUT Analog DATA - Analog ground AC (signal) GND Be sure to connect a 1-μF bypass capacitor between VREF and AVSS. Monaural analog output *13, *14 A AUD I 36 J3 VDDIO3 - PWR - USB power supply (System 3) 3 - - 37 K4 USB_DM Analog - In UBS D- pin 3 USB H 38 L3 USB_DP Analog - In USB D+ pin 3 USB H 39 F6 USB_RDY In/Out - Out/Low I/O port for USB intialization 3 USB D*3 40 G6 GND - GND - Digital ground - - - 41 J4 VDDIO2 - PWR - Digital I/O power supply (System 2) 2 - - 42 L4 SD_CLK Out CLK - SD card clock output 2 SD C In/Out DATA Out/Low SD card command input/output 2 SD D*3 - PWR - Core power supply - - - In/Out DATA Out/Low SD card data: bit0 2 SD D*3 43 K5 SD_CMD 44 H6 VDD 45 J5 SD_DAT0 46 L5 FL_CEB 47 K6 FL_RB Out Low - NAND Flash chip enable 2 FL D*4 In Low - NAND Flash Ready/Busy 2 FL G*3 48 F7 LCDCS1B Out Low - 49 G7 Out Low High 50 L6 Out Low - 51 H7 Out Low - 52 K7 LCDCS2B LCDWRB / FL_WEB LCDRDB / FL_REB LCDA0 / FL_ALE Out * - 53 J6 In Low - 54 L7 In/Out DATA Out/Low 55 F8 TEST LCDD0 / FL_D0 LCDD1 / FL_D1 / SD_DAT1 In/Out DATA Out/Low www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. LCD controller chip select signal 1 2 LCD D*7 LCD controller chip select signal 2 LCD controller write enable signal / NAND Flash write enable signal LCD controller read enable signal / NAND Flash read enable signal LCD controller command parameter identification signal/ NAND Flash address latch enable signal 2 LCD LCD / FL LCD / FL LCD / FL D*7 Test mode terminal (Connect to GND.) LCD controller data bus: bit 0 / NAND Flash data bus: bit 0 LCD controller data bus: bit 1 / NAND Flash data bus: bit 1 / SD card IF bus: bit 1 2 SYS LCD / FL LCD / FL / SD A 6/16 2 2 2 2 2 D*7 D*7 D*7 D*3 D*3 2009.07 - Rev.A Technical Note BU6569GVW PIN No. Land No. In/Out /Analog Active Level Init 56 G8 In/Out DATA Out/Low 57 L8 In/Out DATA Out/Low 58 K8 LCDD4 / FL_D4 In/Out DATA Out/Low 59 J7 LCDD5 / FL_D5 In/Out DATA Out/Low 60 L9 LCDD6 / FL_D6 In/Out DATA Out/Low 61 L10 LCDD7 / FL_D7 In/Out DATA Out/Low 62 L11 GND - GND - 63 H8 LCDD8 / FL_D8 In/Out DATA Out/Low 64 K9 LCDD9 / FL_D9 In/Out DATA Out/Low 65 K10 LCDD10 / FL_D10 In/Out DATA Out/Low 66 K11 LCDD11 / FL_D11 In/Out DATA Out/Low 67 J8 LCDD12 / FL_D12 In/Out DATA Out/Low 68 J9 LCDD13 / FL_D13 In/Out DATA Out/Low 69 J11 LCDD14 / FL_D14 In/Out DATA Out/Low 70 J10 LCDD15 / FL_D15 In/Out DATA Out/Low 71 H9 72 H10 PIN Name LCDD2 / FL_D2 / SD_DAT2 LCDD3 / FL_D3 / SD_DAT3 LCDD16 / SCL / FL_WPB LCDD17 / SI / FL_CLE In/Out In/Out DATA / DATA / Low DATA / CLK / High Out/Low Out/Low 73 H11 VDDIO2 - PWR - 74 G11 CAMRST In/Out DATA Out/Low Function explanation LCD controller data bus: bit 2 / NAND Flash data bus: bit 2 / SD card IF bus: bit 2 LCD controller data bus: bit 3 / NAND Flash data bus: bit 3 / SD card IF bus: bit 3 LCD controller data bus: bit 4 / NAND Flash data bus: bit 4 LCD controller data bus: bit 5 / NAND Flash data bus: bit 5 LCD controller data bus: bit 6 / NAND Flash data bus: bit 6 LCD controller data bus: bit 7 / NAND Flash data bus: bit 7 Digital ground LCD controller data bus: bit 8 / NAND Flash data bus: bit 8 LCD controller data bus: bit 9 / NAND Flash data bus: bit 9 LCD controller data bus: bit 10 / NAND Flash data bus: bit 10 LCD controller data bus: bit 11 / NAND Flash data bus: bit 11 LCD controller data bus: bit 12 / NAND Flash data bus: bit 12 LCD controller data bus: bit 13 / NAND Flash data bus: bit 13 LCD controller data bus: bit 14 / NAND Flash data bus: bit 14 LCD controller data bus: bit 15 / NAND Flash data bus: bit 15 LCD controller data bus: bit 16 / LCD serial transfer clock signal / NAND Flash write protect LCD controller data bus: bit 17 / LCD serial transfer clock signal / NAND Flash command enable Power source system 2 2 2 2 2 2 2 2 2 2 2 2 2 2 Function division LCD / FL / SD LCD / FL / SD LCD / FL LCD / FL LCD / FL LCD / FL LCD / FL LCD / FL LCD / FL LCD / FL LCD / FL LCD / FL LCD / FL LCD / FL I/O type D*3 D*3 D*3 D*3 D*3 D*3 D*3 D*3 D*3 D*3 D*3 D*3 D*3 D*3 2 LCD / FL D*3 2 LCD / FL D*3 Digital I/O power supply (System 2) 2 - - Camera reset signal 2 CAM D*3 75 F11 SDA In/Out DATA Out/Low two-wire serial data 2 SYS F 76 G10 SDC In/Out CLK Out/Low two-wire serial clock 2 SYS F 77 F10 CAMCKI In*9 CLK - Camera clock input 2 CAM A 78 E11 CAMCKO Out CLK Low Camera clock output 2 CAM C 79 G9 CAMVS In*9 * - Camera vertical timing signal 2 CAM A 80 F9 CAMHS In*9 * - Camera horizontal timing signal 2 CAM A 81 D11 VDD - PWR - Core power supply - - - 82 E10 CAMD0 In*9 DATA - Camera data input: bit 0 2 CAM A 83 C11 CAMD1 In*9 DATA - Camera data input: bit 1 2 CAM A 84 D10 CAMD2 In*9 DATA - Camera data input: bit 2 2 CAM A 85 C10 CAMD3 In*9 DATA - Camera data input: bit 3 2 CAM A 86 B11 CAMD4 In*9 DATA - Camera data input: bit 4 2 CAM A 87 E9 CAMD5 In*9 DATA - Camera data input: bit 5 2 CAM A 88 E8 CAMD6 In*9 DATA - Camera data input: bit 6 2 CAM A 89 B10 CAMD7 In*9 DATA - Camera data input: bit 7 2 CAM A 90 A11 GND - GND - Digital ground - - - 91 A10 VDDIO2 - PWR - Digital I/O power supply (System 2) 2 - - 92 D9 TE_VSYNC Out Low High TV encoder interface Vertical sync 2 TV D*7 93 C9 TE_HSYNC Out Low High TV encoder interface Horizontal sync 2 TV D*7 94 B9 TE_PIXCLK Out CLK Low TV encoder interface output clock 2 TV D*7 95 A9 TED0 Out DATA High TV encoder interface data: bit 0 2 TV D*7 96 D8 TED1 Out DATA Low TV encoder interface data: bit 1 2 TV D*7 97 C8 TED2 Out DATA Low TV encoder interface data: bit 2 2 TV D*7 98 A8 TED3 Out DATA Low TV encoder interface data: bit 3 2 TV D*7 99 B8 TED4 Out DATA Low TV encoder interface data: bit 4 2 TV D*7 100 A7 TED5 Out DATA Low TV encoder interface data: bit 5 2 TV D*7 101 E7 TED6 Out DATA Low TV encoder interface data: bit 6 2 TV D*7 102 D7 TED7 Out DATA Low TV encoder interface data: bit 7 2 TV D*7 103 C7 GND - GND - Digital ground - - - www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 7/16 2009.07 - Rev.A Technical Note BU6569GVW PIN No. Land No. 104 A6 105 B7 106 B6 XOUT1 107 A5 PLL_FILTER Power source system In/Out /Analog Active Level VDDIO4 - PWR - PLL power supply (System 4) 4 - - XIN1 In CLK In Oscilator input1 *10 4 CLK E,G*11 Out CLK High 4 CLK E Analog - - Oscilator output1 Be sure to connect a 2200-μF bypass capacitor between PLL_FILTER and VSS4. 4 CLK K In CLK In Out CLK High PIN Name Init Function explanation Function division I/O type 108 C6 XIN2 109 D6 XOUT2 Oscilator input2 *10 4 CLK E,G *11 Oscilator output2 4 CLK E 110 E6 VSS4 - GND - PLL ground 4 - - 111 A4 VDDIO1 - PWR - Digital I/O power supply (System 1) 1 - - 112 B5 A2 In DATA In Host address bus: bit 2 1 HOST D*8 113 B3 A1 In DATA In Host address bus: bit 1 1 HOST D*8 114 C5 D15 In/Out DATA In *1 Host data bus: bit 15 1 HOST D*2 115 D5 D14 In/Out DATA In *1 Host data bus: bit 14 1 HOST D*2 116 A3 D13 In/Out DATA In *1 Host data bus: bit 13 1 HOST D*2 117 B4 D12 In/Out DATA In *1 Host data bus: bit 12 1 HOST D*2 118 C4 D11 In/Out DATA In *1 Host data bus: bit 11 1 HOST D*2 119 D4 D10 In/Out DATA In *1 Host data bus: bit 10 1 HOST D*2 120 A2 D9 In/Out DATA In *1 Host data bus: bit 9 1 HOST D*2 In the function division column, “HOST” stands for HOST IF, “SYS“SYSTEM, “CAM“CAMERA IF, “LCD“LCD IF, “AUD“Audio IF, “SD“SD Card IF, “FL“NAND Flash IF, “TV“TV Encoder IF, “USB“USB IF, and “CLK“OSC&PLL. In the power source system column, “1” stands for system 1 (VDDIO1), “2” for system 2 (VDDIO2), “3” for system 3 (VDDIO3), “4” for system 4 (VDDIO4), “A” for system 5 (ADD). ”*” in Active level column means active level can be changed by setting of register. Init column is a pin state at the time of reset release. *1 : RESETB=”L” *2 : Pull-down only a test mode. *3 : Suspend only a test mode. *4 : Suspend or input only a test mode. *5 : Suspend or Pull-down only a test mode. *6 : Suspend, Pull-down or output function only a test mode. *7 : Suspend, Pull-down or input function only a test mode. *8 : Output or pull-down only a test mode. *9 : Pull-down during CAMOFF mode. *10 : The crystal oscillation circuit does not include a return resistance, so it is needed to examine an external circuit including return resistance. *11 : I/O type is E at oscillation mode, it is G at external clock input mode. *12 : When not during playback, the potential approximates Vref. Hi-Z at reset. *13 : When disable reset, standby, anout_disable or mono_disable, pop noise occurs. *14 : This pin outputs inverted signal of (R + L) / 2, If “monaural mode” is not selected. And outputs differential signal with L_OUT, If “monaural mode” is selected. ●Equivalent Circuit Structures of input / output pins Type Equivalent circuit structure Type Equivalent circuit structure VDDIO VDDIO VDDIO Internal signal A To internal GND GND B GND GND PULL-DOWN input terminal www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. To internal Hysteresis input terminal 8/16 2009.07 - Rev.A Technical Note BU6569GVW Type Equivalent circuit structure Type Equivalent circuit structure VDDIO VDDIO VDDIO Internal signal To internal VDDIO VDDIO Internal signal C Internal signal D Internal signal Internal signal GND GND GND GND Output terminal GND Internal signal Suspend, PULL-DOWN I/O terminal VDDIO VDDIO Internal signal VDDIO VDDIO VDDIO VDDIO VDDIO XIN VDDIO Internal signal GND E To F VDDIO Internal XOUT signal internal GND To internal GND Internal signal Internal signal GND GND GND Clock input terminal GND PULL-UP I/O terminal Internal signal Internal signal VDDIO VDDIO VDDIO To internal G Internal signal H GND Internal signal GND Suspend, hysteresis input terminal GND Internal signal USB AVDD AVDD AVDD Internal signal I J Internal signal AVSS AVSS AVSS AVSS VREF DAC_OUT VDDIO4 Internal signal K Internal signal VSS4 PLL_FILTER www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 9/16 2009.07 - Rev.A Technical Note BU6569GVW ● Terminal Layout 31 AVSS 32 AVDD 38 USB_DP 42 SD_CLK 46 FL_CEB 50 LCDWRB 54 LCDD0 57 LCDD3 60 LCDD6 61 LCDD7 62 GND 29 L_OUT 35 MONO_OUT 33 AVSS 37 USB_DM 43 SD_CMD 47 FL_RB 52 LCDA0 58 LCDD4 64 LCDD9 65 LCDD10 66 LCDD11 25 FSYNC 26 PCMDIN 36 VDDIO3 41 45 SD_DAT0 53 TEST 59 LCDD5 67 LCDD12 68 LCDD13 70 LCDD15 69 LCDD14 23 DIGDIN 28 VDDIO1 24 DIGDOUT 27 34 VREF 44 VDD 51 LCDRDB 63 LCDD8 71 LCDD16 72 LCDD17 73 VDDIO2 19 VIB0 20 DIGLR 21 DIGCK 22 30 R_OUT 40 GND 49 LCDCS2B 56 LCDD2 79 CAMVS 76 SDC 74 CAMRST 15 RDB 14 WRB 18 LED0 17 16 INT 48 LCDCS1B 55 LCDD1 80 CAMHS 77 CAMCKI 75 SDA 11 D0 10 D1 9 D2 13 12 ADVB 110 VSS4 101 TED6 88 CAMD6 87 CAMD5 82 CAMD0 8 D3 7 VDD 6 D4 119 115 D14 109 XOUT2 102 TED7 96 TE_D1 92 TE_VSYNC 84 CAMD2 81 VDD 5 D5 2 D8 118 114 D15 108 XIN2 103 GND 97 TED2 93 TE_HSYNC 85 CAMD3 83 CAMD1 4 D6 3 D7 113 A1 117 112 A2 106 XOUT1 105 XIN1 99 TED4 94 TE_PIXCLK 89 CAMD7 86 CAMD4 1 GND 120 D9 116 D13 111 107 PLL_FILTER 104 VDDIO4 100 TED5 98 TED3 95 TED0 91 VDDIO2 90 GND 1 2 3 4 5 7 8 9 10 11 39 USB_RDY 6 78 CAMCKO (Bottom View) ●Timing Chart 1. HOST interface timing 1.1 System timing Table 1.1 Symbol BU6569GVW timing conditions (system) Details MIN. TYP. MAX. Unit tXIN BU6569GVW Clock input cycle 38.5 - 372.0 ns tXIN2 BU6569GVW Clock input cycle 2 33.3 - 100.0 ns DutyXIN BU6569GVW clock duty 45.0 50.0 55.0 % tSCLK BU6569GVW SCLK clock cycle 19.2 - - ns DutySCLK BU6569GVW SCLK clock duty 33.3 50.0 66.6 % tCAMCKO Camera clock output cycle 19.2 - - ns DutyCAMCKO Camera clock output duty 33.3 50.0 66.6 % tCAMCKI Camera clock input cycle 19.2 - - ns DutyCAMCKI Camera clock input duty 45.0 50.0 55.0 % tRESETB RESETB "L" pulse width 1.0 - - μs Conditions "H" width / cycle "H" width / cycle "H" width / cycle "H" width / cycle *Regulation all at threshold of VDDIO1/2 www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 10/16 2009.07 - Rev.A Technical Note BU6569GVW 1.2 Register (including RAM via register) write timing. tWC tAS tAH A2,A1 Address Input CSB(WRB) tCS tCH WRB(CSB) tWW tWAIT RDB tDS tDH Write D[15:0] Table 1.2 Data BU6569GVW timing conditions(RAM, register write cycle) Symbol Details MIN. TYP. MAX. Unit tWC Write cycle time 80 - - ns tAS Address setup time before WRB(CSB) falling -7 - - ns tAH Address hold time after WRB(CSB) rising -1 - - ns tCS CSB(WRB) input setup time before WRB(CSB) falling 0 - - ns tCH CSB(WRB) input hold time after WRB(CSB) falling 0 - - ns tWW WRB(CSB) active time width 45 - - ns tWAIT Wait time from WRB(CSB) rising to the next WRB(CSB) or to RDB falling 5.5 - - ns tDS Data setup time before WRB(CSB) rising 40 - - ns tDH Data hold time after WRB(CSB) rising -1 - - ns *Regulation all at threshold of VDDIO1/2(VDD=1.50V,VDDIO=3.30V,GND=0V,Ta=25℃) *It is possible to use it with either CSB or WRB active. However, either of them must do LOW pulse operation. 1.3 Register (including RAM via register) read timing. tRC tAS tAH A2,A1 Address Input CSB(RDB) tRD tCS tCH WRB tWAIT RDB(CSB) tROE tROD D[15:0] Read Data Table 1.3-1 BU6569GVW timing conditions (RAM, register read cycle) Symbol Details MIN. TYP. MAX. Unit 110 - - ns tRC Read cycle time tAS Address setup time before RDB(CSB) falling -7 - - ns tAH Address hold time after RDB(CSB) rising -1 - - ns tCS CSB(RDB) input setup time before RDB(CSB) falling 0 - - ns tCH CSB(RDB) input hold time after RDB(CSB) rising 0 - - ns tRD Access time after RDB(CSB) falling - - 70 ns tWAIT Wait time from RDB(CSB) falling to the next RDB(CSB) falling or to WRB falling 5.5 - - ns tROE,tROD Data output enable time after RDB(CSB) rising, Data output disable time after RDB(CSB) falling - - 15 ns *Regulation all at threshold of VDDIO1/2(VDD=1.50V,VDDIO=3.30V,GND=0V,Ta=25℃) *It is possible to use it with either CSB or WRB active. However, either of them must do LOW pulse operation. www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 11/16 2009.07 - Rev.A Technical Note BU6569GVW 2. Camera Module Interface Timing 2.1. System clock and camera clock BU6569GVW external clock input (XIN) can be divided and supplied as CAMCKO clock to camera module. The relation between data synchronization CAMCKI clock from camera and system clock SCLK must be set in order to meet the following formula by setting of ACTSW (IDX:00D3h CLKDIV3[5:4]). When ACTSW=1h When ACTSW=2h fSCLK = fCAMCK1 fSCLK ≧ 2fCAMCKI ・・・ (Formula:2.1-1) ・・・ (Formula:2.1-2) Wherein, fSCLK BU6569GVW system clock frequency fCAMCKI CAMCKI terminal input clock frequency ACTSW=0h,3h is forbidden. (note) fCAMCKI > fSCLK, 2fCAMCKI > fSCLK > fCAMCKI is forbidden. 2.2. Camera module interface image data timing The timing of the camera image signal in camera I/F is shown in Figure 2.2-1. CAMVS Symbol CAMHS CAMD0CAMD7 CAMCKI (CKPOL='0') CAMCKI (CKPOL='1') Details MIN. TYP. MAX. Unit tCMS camera data setup time 4 - - ns tCMH camera data hold time 4 - - ns *Regulation all at threshold of VDDIO21/2 tCMS tCMH Figure 2.2-1 BU6569GVW timing (camera image data) 3. LCD direct access ・Transparent terminal timing at LCD module direct access CSB LCDCSB tCSr1 tCSf1 WRB LCDWRB tWRr1 tWRf1 RDB LCDRDB tRDr1 tRDf1 A1 LCDA0 tAD1 tAD1 D0~D15 tDTr1 LCDD0~LCDD17 tDTw1 Figure 3-1 BU6569GVW timing conditions (LCD direct access) Table 3-1 BU6569GVW timing conditions(LCD direct access) Symbol MIN. TYP. MAX. Unit Delay from CSB to LCDCSB falling 4.3 - 16.0 ns tCSr1 Delay from CSB to LCDCSB rising 2.6 - 10.5 ns tWRf1 Delay from WRB to LCDWRB falling 4.9 - 17.1 ns tWRr1 Delay from WRB to LCDWRB rising 2.6 - 11.4 ns tRDf1 Delay from RDB to LCDRDB falling 5.1 - 17.2 ns tRDr1 Delay from RDB to LCDRDB rising 2.9 - 11.6 ns tAD1 Delay from A1 to LCDA0 3.6 - 13.3 ns Delay from D0~D15 to LCDD0~LCDD17 4.5 - 14.4 ns tDTr1 Delay from LCDD0~LCDD17 to D0~D15 *Regulation all at threshold of VDDIO1/2 4.1 - 13.1 ns tCSf1 tDTw1 Details www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 12/16 2009.07 - Rev.A Technical Note BU6569GVW 4. LCD transfer timing Transfer timing to LCD is shown below. LCDCSB1 LCDA0 WH+1 2 WH+1 WH+1 WH+1 WH+2 LCDWRB WL+1 WL+1 WL+1 WL+1 WL+1 LCDD0-17 COMMAND transfer DATA transfer Without COMMAND transfer, this portion will be skipped. Figure 4-1 (WH and WL can be set from 0 to 15.) MAIN LCD data transfer waveform(Unit:tSCLK) 5. Digital input interface timing 5.1. IIS input timing The input timing in IIS I/F is shown below. DIGLR Symbol DIGDIN DIGCK tIISS tIISH Details MIN. TYP. MAX. Unit tIISS IIS input data setup time 5 - - ns tIISH IIS input data hold time 5 - - ns MIN. TYP. MAX. Unit *Regulation all at threshold of VDDIO11/2 5.2. PCM input timing The input timing in PCM I/F is shown below. FSYNC Symbol Details PCMDIN DCLK (DCLK Polarity='0') DCLK (DCLK Polarity='1') tPCMS PCM data setup time 5 - - ns tPCMH PCM data hold time 5 - - ns *Regulation all at threshold of VDDIO11/2 tPCMS tPCMH 6. SD Card I/F / MMC I/F input / output timing 【SD Card I/F / MMC I/F output】 (Host to/from SD Card) 【SD Card I/F / MMC I/F input】 tTRhl tTRlh SDCLK SDCLK tSUcmd tHDcmd tSUdat tHDdat tODcmd SDCMD SDCMD tODdat SDDAT0-3 SDDAT0-3 Table 1.6-1 BU6569GVW timing conditions(SD Card I/F / MMC I/F output) Symbol Details Table 1.6-2 BU6569GVW timing conditions(SD Card I/F / MMC I/F input) MIN. TYP. MAX. Unit Symbol Details MIN. TYP. MAX. Unit tTRlh SDCLK clock rise time - - 5(*) ns tSUcmd SDCMD setup time 7 - - ns tTRhl SDCLK clock fall time - - 5(*) ns tHDcmd SDCMD hold time 1 - - ns tODcmd SDCMD output delay against SDCLK falling -2 (*) - 2 (*) ns tSUdat SDDAT0-3 setup time 10 - - ns tODdat SDDAT0-3 output delay against SDCLK falling -2 (*) - 7 (*) ns tHDdat SDDAT0-3 hold time 1 - - ns *Regulation all at threshold of VDDIO21/2 (*)At no load condition *Regulation all at threshold of VDDIO21/2 www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 13/16 2009.07 - Rev.A Technical Note BU6569GVW ● Development Scheme This technical note is aimed at trying the connectivity in the hardware between customer’s system and our camera image processor series. We prepare various data and tools for every development STEP as follows other than this technical note, please contact the sales staff in your duty also including the support system. (1) Demonstration STEP (You can try the standard image processing functions by the standard Demonstration kit at once.) You can confirm the standard functions such as camera image preview, memory data display to LCD, camera image composition JPEG compression/ expansion, frame composition, divided display, and LED lighting, and so forth on the Demonstration board. ・Standard Demonstration board kit ◎Demonstration board (LCD module provided by ROHM, Camera module provided by ROHM, Check board equipped with the camera image processor, ARM-equipped controller board) ◎Demonstration board operation manual ◎Demonstration software If the software for the trial board is installed in your Windows PC(Windows 2000/XP/ME/98), more detailed setting is possible. (Execution tools for the macro command, sample macro command file) ◎USB cable (2) Confirmation STEP (We will respond to customer’s camera module, LCD module, HOST CPU.) ・Specifications We will provide specifications for camera image processor according to customer’s requirements. ・Function explanation We will deliver you the function explanation describing detailed functions, register settings, external interfaces, timing, and so forth of camera image processor according to your requests. ・Application note We will deliver you the detailed explanation data on application development of camera image processor according to your requests. (3) System check STEP (You can check the application operation as a system by the kit of system check tools and your module(camera/LCD).) ROHM creates the system check board using your camera/LCD module. You can check the interface with your module and the application operation on the system check board using the tools for user’s only. ・System check tools kit ・System check software (For Windows PC) ◎Reference C source code summarizing ARM –compatible application program interface(API) ◎The application software (API) as a reference C source code ◎The execution tools for the macro command (BU65XX_USB) for the check by your PC. ◎The macro command file for the check by your PC. ・System check document ◎System check board manual ◎BU65XX Demo_Board Application using API ◎Board circuit diagram *You can check the detailed functions of the application operation by your PC using the macro command file. (4) Integrated check STEP with user’s system (You can check the application operation as a system on your system check board using the integrated check software.) You can check the application operation on the sample LSI-equipped system check board by your camera / LCD module using the integrated check software. ・On line Support;We will answer your questions about the software development. How to use the macro command file, API file, and APL file. Setting flow of the camera function (camera JPEG, preview, etc.) Interface setting of the camera module, LCD module and the camera image processor. Header analysis method oh JPEG decode, etc. ・On site Support;We will help you clarify the questions about the software development on site together on spot. Check of the operation of each function and the basic operation at each register setting, etc. based on the specification. Explanation about the specific usage of the macro command file, API file and APL file and relative questions. How to develop the overlay or special functions, etc. www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 14/16 2009.07 - Rev.A Technical Note BU6569GVW ●Cautions on use (1)Absolute Maximum Ratings An excess in the absolute maximum ratings, such as supply voltage, temperature range of operating conditions, etc., can break down devices, thus making impossible to identify breaking mode such as a short circuit or an open circuit. If any special mode exceeding the absolute maximum ratings is assumed, consideration should be given to take physical safety measures including the use of fuses, etc. (2)Operating conditions These conditions represent a range within which characteristics can be provided approximately as expected. The electrical characteristics are guaranteed under the conditions of each parameter. (3)Reverse connection of power supply connector The reverse connection of power supply connector can break down ICs. Take protective measures against the breakdown due to the reverse connection, such as mounting an external diode between the power supply and the IC’s power supply terminal. (4)Power supply line Design PCB pattern to provide low impedance for the wiring between the power supply and the GND lines. In this regard, for the digital block power supply and the analog block power supply, even though these power supplies has the same level of potential, separate the power supply pattern for the digital block from that for the analog block, thus suppressing the diffraction of digital noises to the analog block power supply resulting from impedance common to the wiring patterns. For the GND line, give consideration to design the patterns in a similar manner. Furthermore, for all power supply terminals to ICs, mount a capacitor between the power supply and the GND terminal. At the same time, in order to use an electrolytic capacitor, thoroughly check to be sure the characteristics of the capacitor to be used present no problem including the occurrence of capacity dropout at a low temperature, thus determining the constant. (5)GND voltage Make setting of the potential of the GND terminal so that it will be maintained at the minimum in any operating state. Furthermore, check to be sure no terminals are at a potential lower than the GND voltage including an actual electric transient. (6)Short circuit between terminals and erroneous mounting In order to mount ICs on a set PCB, pay thorough attention to the direction and offset of the ICs. Erroneous mounting can break down the ICs. Furthermore, if a short circuit occurs due to foreign matters entering between terminals or between the terminal and the power supply or the GND terminal, the ICs can break down. (7)Operation in strong electromagnetic field Be noted that using ICs in the strong electromagnetic field can malfunction them. (8)Inspection with set PCB On the inspection with the set PCB, if a capacitor is connected to a low-impedance IC terminal, the IC can suffer stress. Therefore, be sure to discharge from the set PCB by each process. Furthermore, in order to mount or dismount the set PCB to/from the jig for the inspection process, be sure to turn OFF the power supply and then mount the set PCB to the jig. After the completion of the inspection, be sure to turn OFF the power supply and then dismount it from the jig. In addition, for protection against static electricity, establish a ground for the assembly process and pay thorough attention to the transportation and the storage of the set PCB. (9)Input terminals In terms of the construction of IC, parasitic elements are inevitably formed in relation to potential. The operation of the parasitic element can cause interference with circuit operation, thus resulting in a malfunction and then breakdown of the input terminal. Therefore, pay thorough attention not to handle the input terminals, such as to apply to the input terminals a voltage lower than the GND respectively, so that any parasitic element will operate. Furthermore, do not apply a voltage to the input terminals when no power supply voltage is applied to the IC. In addition, even if the power supply voltage is applied, apply to the input terminals a voltage lower than the power supply voltage or within the guaranteed value of electrical characteristics. (10)Ground wiring pattern If small-signal GND and large-current GND are provided, It will be recommended to separate the large-current GND pattern from the small-signal GND pattern and establish a single ground at the reference point of the set PCB so that resistance to the wiring pattern and voltage fluctuations due to a large current will cause no fluctuations in voltages of the small-signal GND. Pay attention not to cause fluctuations in the GND wiring pattern of external parts as well. (11)External capacitor In order to use a ceramic capacitor as the external capacitor, determine the constant with consideration given to a degradation in the nominal capacitance due to DC bias and changes in the capacitance due to temperature, etc. www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. 15/16 2009.07 - Rev.A Technical Note BU6569GVW ●Order Model Name Selection B U 6 ROHM model name 5 6 9 Product number E G V W Package type GVW: SBGA120W080 2 Taping model name E2: Embossed reel tape SBGA120W080 <Tape and Reel information> 8.0±0.1 0.08 0.9MAX 8.0±0.1 1PIN MARK 0.1 Tape Embossed carrier tape (with dry pack) Quantity 1000pcs Direction of feed S E2 The direction is the 1pin of product is at the upper left when you hold ( reel on the left hand and you pull out the tape on the right hand ) S P=0.65×10 0.75±0.1 0.65 120- φ 0.33±0.05 φ 0.05 M S AB B 0.65 0.75±0.1 P=0.65×10 A L K J H G F E D C B A 1 3 5 7 9 11 2 4 6 8 10 1pin (Unit : mm) www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. Reel 16/16 Direction of feed ∗ Order quantity needs to be multiple of the minimum quantity. 2009.07 - Rev.A Notice Notes No copying or reproduction of this document, in part or in whole, is permitted without the consent of ROHM Co.,Ltd. The content specified herein is subject to change for improvement without notice. The content specified herein is for the purpose of introducing ROHM's products (hereinafter "Products"). If you wish to use any such Product, please be sure to refer to the specifications, which can be obtained from ROHM upon request. Examples of application circuits, circuit constants and any other information contained herein illustrate the standard usage and operations of the Products. The peripheral conditions must be taken into account when designing circuits for mass production. Great care was taken in ensuring the accuracy of the information specified in this document. However, should you incur any damage arising from any inaccuracy or misprint of such information, ROHM shall bear no responsibility for such damage. The technical information specified herein is intended only to show the typical functions of and examples of application circuits for the Products. ROHM does not grant you, explicitly or implicitly, any license to use or exercise intellectual property or other rights held by ROHM and other parties. ROHM shall bear no responsibility whatsoever for any dispute arising from the use of such technical information. The Products specified in this document are intended to be used with general-use electronic equipment or devices (such as audio visual equipment, office-automation equipment, communication devices, electronic appliances and amusement devices). The Products specified in this document are not designed to be radiation tolerant. While ROHM always makes efforts to enhance the quality and reliability of its Products, a Product may fail or malfunction for a variety of reasons. Please be sure to implement in your equipment using the Products safety measures to guard against the possibility of physical injury, fire or any other damage caused in the event of the failure of any Product, such as derating, redundancy, fire control and fail-safe designs. ROHM shall bear no responsibility whatsoever for your use of any Product outside of the prescribed scope or not in accordance with the instruction manual. The Products are not designed or manufactured to be used with any equipment, device or system which requires an extremely high level of reliability the failure or malfunction of which may result in a direct threat to human life or create a risk of human injury (such as a medical instrument, transportation equipment, aerospace machinery, nuclear-reactor controller, fuel-controller or other safety device). ROHM shall bear no responsibility in any way for use of any of the Products for the above special purposes. If a Product is intended to be used for any such special purpose, please contact a ROHM sales representative before purchasing. If you intend to export or ship overseas any Product or technology specified herein that may be controlled under the Foreign Exchange and the Foreign Trade Law, you will be required to obtain a license or permit under the Law. Thank you for your accessing to ROHM product informations. More detail product informations and catalogs are available, please contact us. ROHM Customer Support System http://www.rohm.com/contact/ www.rohm.com © 2009 ROHM Co., Ltd. All rights reserved. R0039A