SBC8018 en

中文版本''

Numbers of SBC8018''' Development Board wiht 128MB DDR and 128MB Nand Flash based on TI AM1808 industrial processor are provided by Timll now. Call us to get more information.'''


 * SBC8018 Single Board Computer an industrial application of ARM Embedded Single Board Computer designed by Embest Info&Tech Co.,LTD..SBC8018 boards 128MB DDR, 128MB NAND Flash, except some interface used normally, an SATA interface is offered to supply large data storage applications. SBC8018 is a low power, low cost and high-performance's industrial application. SBC8018 can be used many industries to designed products quickly such as portable navigation multimedia devices,portable data acquisition devices,industrial automation and smart house, and so and.

This article is writed to introduce the hardware and software about the SBC8018 Single Board Computer and provide an exchange platform for sharing experience of TI AM1808. It can help users to learn the SBC8018 quickly, to summarize and answer the problem you may encounter probably.

General Description

 * The SBC8018 Single Board Computer is a compact, low-cost with high-performance controller board designed by Embest. It is based on TI’s AM1808 ARM9 low-power application processor which enables OEMs and ODMs to quickly bring to market devices featuring robust operating systems support, rich user interfaces, and high processing performance life through the maximum flexibility of a fully integrated mixed processor solution.


 * The SBC8018 Single Board Computer takes full features of the AM1808 microprocessor and has 128MB Mobile DDR SDRAM and 128MB Nand Flash on board. It has exposed many other hardware interfaces including Serial port, LCD/TSP, USB Host/OTG, Ethernet, Audio, SATA, two Camera, TF card, etc. It has one 14-pin JTAG interface which can be used with XDS100v2 emulator available from Embest. Embest also offers 4.3” and 7” LCD display with touch screen as optional modules for this board.


 * The board is a ready-to-run solution which is provided with Linux 2.6.33 and WinCE 6.0 BSP. It would be an ideal development platform for customers requiring a low power ARM9 processor with cost-effective price point and small form factor for consumer, embedded industrial, medical and other embedded connectivity applications.


 * - 375MHz TI AM1808 ARM926 Microprocessor


 * - Onboard 128MByte DDR SDRAM + 128MByte NAND Flash


 * - UART, USB, Ethernet, LCD/TSP, SATA, Camera, Audio, TF, JTAG,...


 * - Optional WiFi, Camera and 3G Modules


 * - Ready-to-Run Linux2.6.33 and WinCE 6.0 OS


 * Sbc8018-L.jpg

Interfaces and Peripherals

 * Sbc8018con.gif

Processor

 * TI AM1808 ARM9 microprocessor


 * 375-MHz ARM926EJ-S RISC MPU, also supports 456MHz operation


 * ARM926EJ-S Core


 * ARM9 Memory Architecture


 * Enhanced Direct-Memory-Access Controller 3 (EDMA3)


 * 128K-Byte On-chip Memory


 * 1.8V or 3.3V LVCMOS IOs (except for USB and DDR2 interfaces)


 * Two External Memory Interfaces


 * Three Configurable 16550 type UART Modules


 * LCD Controller


 * Two Serial Peripheral Interfaces (SPI) Each With Multiple Chip-Selects


 * Two MMC/SD Card Interface with Secure Data I/O (SDIO) Interfaces

Memory

 * 128MByte Mobile DDR SDRAM


 * 128MByte NAND Flash (on the rear of the board)

Audio/Video Interfaces

 * Audio input interface (Mic In)


 * Two-channel Audio output interface (Line Out)


 * Two Camera interfaces (30-pin FPC connector on the rear of the board, supports CCD or CMOS camera)


 * LCD/Touch Screen interface (50-pin FPC connector, support resolution up to 2048*2048)

Data Transfer Interfaces and Other Facilities

 * 1 x 5 line Debug serial port, RS232 voltage (brings out by DB9 connector)


 * 2 x 3 line serial ports, TTL voltage (brings out by extension connector)


 * 1 x USB2.0 OTG port, High-speed (Mini USB type)


 * 1 x USB1.1 Host port, Full-speed (USB-A type)


 * 1 x TF card slot


 * 1 x Serial ATA connector, supports both SATA I (1.5 Gbps) and SATA II (3.0 Gbps)


 * 1 x 10/100Mbps Ethernet interface (RJ45 connector)


 * 1 x RESET button


 * 1 x BACK button


 * 1 x HOME button


 * 1 x MENU button


 * 1 x 14-pin JTAG connector (for using TI’s XDS100v2 Emulator)


 * 2 x 40-pin extension connectors (SPI, I2C, McBSP, UART, 1.8V, 3.3V, 5V, GPIO are brought out from these connectors)


 * Battery backed RTC (User needs to prepare battery himself, CR1220 model is ok)

Mechanical Parameters

 * Dimensions: 112.24mm x 82.29mm


 * Working temperature: 0~70 Celsius


 * Input Voltage: +5V


 * Humidity Range: 20%~90%


 * Power Consumption: 0.22A@5V (working without LCD)

Interfaces


XDS100v2 USB JTAG Emulator


 * The XDS100v2 USB JTAG Emulator is the second release of the XDS100 JTAG emulator technology supporting debug of a variety of TI devices. It allows the user direct access between the host computer and the DSP through a 14-pin JTAG header. It is compatible with Code Composer Studio (CCS) V4 IDE from Texas Instruments and compatible with Windows 2000/XP/Vista.



Analog camera moduleCAM8000-A


 * Standard resolution of 720*576 PAL standard,connect SBC8018 by 30PIN FFC cable, connect the camera equipment by other side of the BNC connector, achieved through the camera input function.



USB WiFi wireless module WF8000-U


 * A wireless communication module that base on USB connector ,can be used for all product designed by Timll. With the technology of wirelessly connection for personal computer terminals and based on the IEEE 802.11 standard wireless network protocol, this module is highly integrated with MAC/BBP and 2.4GHz radio single chip.With a wide range of wireless connectivity and large throughput,the module meets the IEEE 802.11 b/g standard. After all,it makes WF8000-U WIFI module good performance and low power consumption with superior radio architecture and optimization algorithms.



CDMA8000-U 3G wireless communication module


 * CDMA8000 is a 3G wireless communication module issued by Timll Technic Inc. (Timll) based on the newest UMUTS standard developed by the MSM6290 platform.This module is applied in the network of EDGE ,GRRS ,GSM and WCDMA(HSPA),which can achieve global roaming. General USB interface and powerful software support platform make the module have friendly secondary development of software and hardware platform.It can support a variety of peripheral devices and meet the user’s rich requirement of sevice function.



WCDMA8000-U 3G wireless communication module


 * WCDMA8000 is a 3G wireless communication module issued by Embest based on the newest UMUTS standard developed by the MSM6280 platform. This module is applied in the network of EDGE ,GRRS ,GSM and WCDMA(HSPA), which can achieve global roaming. General USB interface and powerful software support platform make the module have friendly secondary development of software and hardware platform. It can support a variety of peripheral devices and meet the user’s rich requirement of service function.

LCD Screen Interface


 * 24bit LCD screen interface,true color RGB signal output,R:B:G=8:8:8.
 * The connector is a 50-pin FPC connector which is 0.5mm pitch
 * Signal types:


 * {| border= "1"


 * RGB data||LCD control data||SPI signal||IIC singal||Touch-screen signal||Output voltage
 * 24bit||6bit||4bit||2bit||4bit||5bit
 * R:G:B=8:8:8||Control signals for rows and other controls||Standard SPI signals||2 bits IIC singal||4 bit touch-screen singal||output voltage is 5V,3.3V and 1.8V
 * }
 * R:G:B=8:8:8||Control signals for rows and other controls||Standard SPI signals||2 bits IIC singal||4 bit touch-screen singal||output voltage is 5V,3.3V and 1.8V
 * }

Camera Interface


 * {| border = 1


 * Pin Number||Singal||Function
 * 1	||GND||	GND
 * 2	||D0||	Test Point
 * 3	||D1||	Test Point
 * 4	||R_CAM_D0||	VPIF capture data bit 0
 * 5	||R_CAM_D1||	VPIF capture data bit 1
 * 6	||R_CAM_D2||	VPIF capture data bit 2
 * 7	||R_CAM_D3||	VPIF capture data bit 3
 * 8	||R_CAM_D4||	VPIF capture data bit 4
 * 9	||R_CAM_D5||	VPIF capture data bit 5
 * 10	||R_CAM_D6||	VPIF capture data bit 6
 * 11	||R_CAM_D7||	VPIF capture data bit 7
 * 12	||D10	||Test Point
 * 13	||D11||	Test Point
 * 14	||GND||	GND
 * 15	||PCLK||	Pixel clock
 * 16	||GND||	GND
 * 17	||CAM_HS_A0||	Horizontal synchronization
 * 18	||+5VDC_IN||	+5V
 * 19	||CAM_VS_A0||	Vertical synchronization
 * 20	||+3P3V||	+3.3V
 * 21	||CAM_XCLKA_A0||	Test Point
 * 22	||CAM_XCLKB_A0||	Test Point
 * 23	||GND||	GND
 * 24	||CAM_FLD_A0||	Test Piont
 * 25	||uP_CAM_WEN0||	Test Piont
 * 26	||uP_CAM_STR||	Test Piont
 * 27	||CAM_SDA||	I2C0 serial data
 * 28	||CAM_SCL||	I2C0 serial clock
 * 29	||GND||	GND
 * 30	||+1P8V_LDO||	+1.8V
 * }
 * 16	||GND||	GND
 * 17	||CAM_HS_A0||	Horizontal synchronization
 * 18	||+5VDC_IN||	+5V
 * 19	||CAM_VS_A0||	Vertical synchronization
 * 20	||+3P3V||	+3.3V
 * 21	||CAM_XCLKA_A0||	Test Point
 * 22	||CAM_XCLKB_A0||	Test Point
 * 23	||GND||	GND
 * 24	||CAM_FLD_A0||	Test Piont
 * 25	||uP_CAM_WEN0||	Test Piont
 * 26	||uP_CAM_STR||	Test Piont
 * 27	||CAM_SDA||	I2C0 serial data
 * 28	||CAM_SCL||	I2C0 serial clock
 * 29	||GND||	GND
 * 30	||+1P8V_LDO||	+1.8V
 * }
 * 24	||CAM_FLD_A0||	Test Piont
 * 25	||uP_CAM_WEN0||	Test Piont
 * 26	||uP_CAM_STR||	Test Piont
 * 27	||CAM_SDA||	I2C0 serial data
 * 28	||CAM_SCL||	I2C0 serial clock
 * 29	||GND||	GND
 * 30	||+1P8V_LDO||	+1.8V
 * }
 * 28	||CAM_SCL||	I2C0 serial clock
 * 29	||GND||	GND
 * 30	||+1P8V_LDO||	+1.8V
 * }
 * 30	||+1P8V_LDO||	+1.8V
 * }

SATA Interface


 * {| border = 1


 * Pin Number||Singal||Function
 * 1	||GND||	GND
 * 2	||SATA_TXP||	SATA receive data(positive)
 * 3	||SATA_TXN||	SATA receive data(negative)
 * 4	||GND||	GND
 * 5	||SATA_RXN||	SATA transmit data(negative)
 * 6	||SATA_RXP||	SATA transmit data(positive)
 * 7	||GND||	GND
 * 8	||NC||	NC
 * 9	||GND||	GND
 * }
 * 6	||SATA_RXP||	SATA transmit data(positive)
 * 7	||GND||	GND
 * 8	||NC||	NC
 * 9	||GND||	GND
 * }
 * 8	||NC||	NC
 * 9	||GND||	GND
 * }
 * }
 * }

JTAG Interface


 * {| border = 1


 * Pin Number||Singal||Fuction
 * 1	||TMS||	Test mode select
 * 2	||NTRST||	Test system reset
 * 3	||TDI||	Test data input
 * 4	||GND||	GND
 * 5	||VIO||	1.8V
 * 6	||NC||	NC
 * 7	||TDO||	TDO
 * 8	||GND||	GND
 * 9	||RTCK||  RTCK
 * 10    ||GND||   GND
 * 11    ||TCK||   Test clock
 * 12    ||GND||   GND
 * 13    ||EMU0||  Test emulation 0
 * 14    ||EMU1||  Test emulation 1
 * }
 * 8	||GND||	GND
 * 9	||RTCK||  RTCK
 * 10    ||GND||   GND
 * 11    ||TCK||   Test clock
 * 12    ||GND||   GND
 * 13    ||EMU0||  Test emulation 0
 * 14    ||EMU1||  Test emulation 1
 * }
 * 12    ||GND||   GND
 * 13    ||EMU0||  Test emulation 0
 * 14    ||EMU1||  Test emulation 1
 * }
 * 14    ||EMU1||  Test emulation 1
 * }
 * }

The first Extended Interface


 * {| border = 1


 * Pin Number||Singal||Function
 * 1	||GND||  	GND
 * 2	||GND|| 	GND
 * 3	||EMA_A_16_EXP||	GPIO
 * 4	||EMA_D_15_EXP||	GPIO
 * 5	||EMA_A_15_EXP||	GPIO
 * 6	||EMA_D_14_EXP||	GPIO
 * 7	||EMA_A_14_EXP||	GPIO
 * 8	||EMA_D_13_EXP||	GPIO
 * 9	||EMA_A_13_EXP||	GPIO
 * 10	||EMA_D_12_EXP||	GPIO
 * 11	||EMA_A_0_EXP|| 	GPIO
 * 12	||EMA_D_11_EXP||	GPIO
 * 13	||EMA_BA_1_EXP||	GPIO
 * 14	||EMA_D_10_EXP||	GPIO
 * 15	||EPWMN1_TZ0|| 	GPIO
 * 16	||EMA_D_9_EXP|| 	GPIO
 * 17	||ECAP2_APWM2|| 	GPIO
 * 18	||EMA_D_8_EXP|| 	GPIO
 * 19	||AFSX / GPIO0[12]||	GPIO
 * 20	||EMA_CLK_EXP|| 	GPIO
 * 21	||AFSR||       	GPIO
 * 22	||EMA_SDCKE_EXP||	GPIO
 * 23	||AHCLKX/USB_REFCLKIN/UART1_CTSN/GPIO0[10]||	GPIO
 * 24	||EMA_CSn_5_EXP||     	GPIO
 * 25	||GND||        	GND
 * 26	||EMA_CSn_4_EXP||	GPIO
 * 27	||ACLKX/GPIO0[14]||	GPIO
 * 28	||EMA_CSn_2_EXP||	GPIO
 * 29	||ACLKR/GPIO0[15]||	GPIO
 * 30	||EMA_CSn_0_EXP||	GPIO
 * 31	||GND|| 	GND
 * 32	||EMA_WAIT_1_EXP||	GPIO
 * 33	||GND|| 	GND
 * 34	||GND|| 	GND
 * 35	||+5VDC_IN||	+5V
 * 36	||GND|| 	GND
 * 37	||+3P3V||	3.3V
 * 38	||+1P8V_LDO||	1.8V
 * 39	||GND|| 	GND
 * 40	||GND|| 	GND
 * }
 * 21	||AFSR||       	GPIO
 * 22	||EMA_SDCKE_EXP||	GPIO
 * 23	||AHCLKX/USB_REFCLKIN/UART1_CTSN/GPIO0[10]||	GPIO
 * 24	||EMA_CSn_5_EXP||     	GPIO
 * 25	||GND||        	GND
 * 26	||EMA_CSn_4_EXP||	GPIO
 * 27	||ACLKX/GPIO0[14]||	GPIO
 * 28	||EMA_CSn_2_EXP||	GPIO
 * 29	||ACLKR/GPIO0[15]||	GPIO
 * 30	||EMA_CSn_0_EXP||	GPIO
 * 31	||GND|| 	GND
 * 32	||EMA_WAIT_1_EXP||	GPIO
 * 33	||GND|| 	GND
 * 34	||GND|| 	GND
 * 35	||+5VDC_IN||	+5V
 * 36	||GND|| 	GND
 * 37	||+3P3V||	3.3V
 * 38	||+1P8V_LDO||	1.8V
 * 39	||GND|| 	GND
 * 40	||GND|| 	GND
 * }
 * 32	||EMA_WAIT_1_EXP||	GPIO
 * 33	||GND|| 	GND
 * 34	||GND|| 	GND
 * 35	||+5VDC_IN||	+5V
 * 36	||GND|| 	GND
 * 37	||+3P3V||	3.3V
 * 38	||+1P8V_LDO||	1.8V
 * 39	||GND|| 	GND
 * 40	||GND|| 	GND
 * }
 * 37	||+3P3V||	3.3V
 * 38	||+1P8V_LDO||	1.8V
 * 39	||GND|| 	GND
 * 40	||GND|| 	GND
 * }
 * 39	||GND|| 	GND
 * 40	||GND|| 	GND
 * }
 * }
 * }

The Second Extended Interface


 * {| border = 1


 * Pin Number||Singal||Function
 * 1	||GND|| 	GND
 * 2	||GND|| 	GND
 * 3	||uP_SPI1_CLK|| 	SPI1 clock
 * 4	||uP_McBSP1_CLKR_EXP||	McBSP1 receive clock
 * 5	||uP_SPI1_SOMI||	SPI1 data slave-out-master-in
 * 6	||uP_McBSP1_CLKX_EXP||	McBSP1 transmit clock
 * 7	||uP_SPI1_SIMO||	SPI1 data slave-in-master-out
 * 8	||uP_McBSP0_CLKS_EXP||	McBSP1 sample rate generator clock input
 * 9	||uP_SPI1_SCSn0||	SPI1 chip selects
 * 10	||AIC_DOUT||   	McBSP1 receive frame sync
 * 11	||uP_SPI1_ENAN||	SPI1 enable
 * 12	||AIC_DIN||    	McBSP1 transmit frame sync
 * 13	||GND|| 	GND
 * 14	||uP_McBSP0_DR_EXP||	McBSP1 receive data
 * 15	||UART1_RXD||  	UART1 receive data
 * 16	||uP_McBSP0_DX_EXP||	McBSP1 transmit data
 * 17	||UART1_TXD||	UART1 transmit data
 * 18	||GND|| 	GND
 * 19	||UART1_RTSn|| 	UART1 ready-to-send output
 * 20	||UART2_RXD||  	UART2 receive data
 * 21	||AIC_MCL||    	UART1 clear-to-send input
 * 22	||UART2_TXD||  	UART2 transmit data
 * 23	||GND||        	GND
 * 24	||I2C0_SCL||   	I2C0 serial clock
 * 25	||GND||  	GND
 * 26	||I2C0_SDA||   	I2C0 serial data
 * 27	||GND|| 	GND
 * 28	||GND|| 	GND
 * 29	||GND|| 	GND
 * 30	||uP_SPI0_CLK|| 	SPI0 clock
 * 31	||GDN|| 	GND
 * 32	||uP_SPI0_SOMI||	SPI0 data slave-out-master-in
 * 33	||GND|| 	GND
 * 34	||uP_SPI0_SIMO||	SPI0 data slave-in-master-out
 * 35	||GND|| 	GND
 * 36	||uP_SPI0_SCSn0||	SPI0 chip selects
 * 37	||+5VDC_IN||   	+5V
 * 38	||uP_SPI0_ENAN||	1.8V
 * 39	||+3P3V||      	+3.3V
 * 40	||+1P8V_LDO||  	+1.8V
 * }
 * 21	||AIC_MCL||    	UART1 clear-to-send input
 * 22	||UART2_TXD||  	UART2 transmit data
 * 23	||GND||        	GND
 * 24	||I2C0_SCL||   	I2C0 serial clock
 * 25	||GND||  	GND
 * 26	||I2C0_SDA||   	I2C0 serial data
 * 27	||GND|| 	GND
 * 28	||GND|| 	GND
 * 29	||GND|| 	GND
 * 30	||uP_SPI0_CLK|| 	SPI0 clock
 * 31	||GDN|| 	GND
 * 32	||uP_SPI0_SOMI||	SPI0 data slave-out-master-in
 * 33	||GND|| 	GND
 * 34	||uP_SPI0_SIMO||	SPI0 data slave-in-master-out
 * 35	||GND|| 	GND
 * 36	||uP_SPI0_SCSn0||	SPI0 chip selects
 * 37	||+5VDC_IN||   	+5V
 * 38	||uP_SPI0_ENAN||	1.8V
 * 39	||+3P3V||      	+3.3V
 * 40	||+1P8V_LDO||  	+1.8V
 * }
 * 32	||uP_SPI0_SOMI||	SPI0 data slave-out-master-in
 * 33	||GND|| 	GND
 * 34	||uP_SPI0_SIMO||	SPI0 data slave-in-master-out
 * 35	||GND|| 	GND
 * 36	||uP_SPI0_SCSn0||	SPI0 chip selects
 * 37	||+5VDC_IN||   	+5V
 * 38	||uP_SPI0_ENAN||	1.8V
 * 39	||+3P3V||      	+3.3V
 * 40	||+1P8V_LDO||  	+1.8V
 * }
 * 37	||+5VDC_IN||   	+5V
 * 38	||uP_SPI0_ENAN||	1.8V
 * 39	||+3P3V||      	+3.3V
 * 40	||+1P8V_LDO||  	+1.8V
 * }
 * 39	||+3P3V||      	+3.3V
 * 40	||+1P8V_LDO||  	+1.8V
 * }
 * }
 * }

Software Features

 * {| border="1"

!colspan="1"|OS !colspan="2"|Item !colspan="1"|remark
 * rowspan="14"|Linux
 * rowspan="10"|BIOS
 * rowspan="4"|x-loader
 * NAND/ONENAND
 * MMC/SD
 * FAT
 * rowspan="5"|U-BOOT
 * NAND/ONENAND
 * MMC/SD
 * FAT
 * NET
 * rowspan="2"|Kernel
 * Linux 2.6.33
 * Supports ROM/CRAM/EXT2/EXT3/FAT/ NFS/ JFFS2/UBIFS file systems
 * rowspan="2"|Device Driver
 * colspan="2"|Serial port, RTC, Ethernet, Nand Flash, LCD, Touch screen, TF card, USB OTG, USB Host, SATA, Audio input/output, key, LED
 * rowspan="16"|WinCE
 * rowspan="10"|BIOS
 * rowspan="4"|x-loader
 * NAND / ONENAND
 * MMC / SD
 * FAT
 * rowspan="5"|e-boot
 * NAND / ONENAND
 * MMC / SD
 * FAT
 * NET
 * rowspan="3"|Device Driver
 * colspan="2"|Serial port, RTC, Ethernet, Nand Flash, LCD, Touch screen, TF card, USB OTG, USB Host, Audio input/output, key, LED
 * colspan="2"|Power Management (backlight, battery, Sleep/Wakeup, PWM, ADC)
 * app
 * application module
 * Flash Player plug-in and Flash player
 * }
 * rowspan="4"|x-loader
 * NAND / ONENAND
 * MMC / SD
 * FAT
 * rowspan="5"|e-boot
 * NAND / ONENAND
 * MMC / SD
 * FAT
 * NET
 * rowspan="3"|Device Driver
 * colspan="2"|Serial port, RTC, Ethernet, Nand Flash, LCD, Touch screen, TF card, USB OTG, USB Host, Audio input/output, key, LED
 * colspan="2"|Power Management (backlight, battery, Sleep/Wakeup, PWM, ADC)
 * app
 * application module
 * Flash Player plug-in and Flash player
 * }
 * NET
 * rowspan="3"|Device Driver
 * colspan="2"|Serial port, RTC, Ethernet, Nand Flash, LCD, Touch screen, TF card, USB OTG, USB Host, Audio input/output, key, LED
 * colspan="2"|Power Management (backlight, battery, Sleep/Wakeup, PWM, ADC)
 * app
 * application module
 * Flash Player plug-in and Flash player
 * }
 * app
 * application module
 * Flash Player plug-in and Flash player
 * }
 * }

Applications

 * Portable navigation multimedia devices


 * Digital video set-top boxes


 * Portable game consoles


 * Consumer Design


 * Portable data acquisition devices


 * Embedded


 * And so and

Information Of Evaluation Kit

 * {|border="1"


 * Product Number
 * T6010162
 * Product Name
 * SBC8018 Single Board Computer
 * Standard Accessories
 * 1.SBC8018 Single Board Computer *1
 * Standard Accessories
 * 1.SBC8018 Single Board Computer *1
 * 1.SBC8018 Single Board Computer *1

2.5V/2A Power Adapter *1

3.Cross Serial cable *1 4.CD（PDF Schematic,Linux Source Of Driver,WinCE BSP Source,WinCE application source code,Driver for Interface and so and）*1
 * Optional Accessories
 * 1、7-inch LCD screen(LCD8000-70T，Resolution is 800*480)
 * 1、7-inch LCD screen(LCD8000-70T，Resolution is 800*480)

2、4.3-inch LCD screen(LCD8000-43T，Resolution is 480*272)
 * }
 * }

'''More information about SBC8018 and how to buy a SBC8018 please visit our website: http://www.armkits.com/product/sbc8018.asp'''

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