MYS-7Z010-C

Z-turn Board      667MHz Xilinx XC7Z010/20 Dual-core ARM Cortex-A9 Processor with Xilinx 7-series FPGA logic 1GB DDR3 SDRAM (2 x 512MB, 32-bit), 16MB SPI Flash USB_UART, USB2.0 OTG, 1 x 10/100/1000Mbps Ethernet, CAN, HDMI, TF, … Onboard Three-axis Acceleration Sensor and Temperature Sensor Ready-to-Run Linux Single Board Computer Figure 1-1 Z-turn Board The Z-turn Board is a low-cost and high-performance Single Board Computer (SBC) built around the Xilinx Zynq-7010 (XC7Z010-1CLG400C) or Zynq-7020 (XC7Z020-1CLG400C) All Programmable System-on-Chip (SoC) which is among the Xilinx Zynq-7000 family, featuring integrated dual-core ARM Cortex-A9 processor with Xilinx 7-series Field Programmable Gate Array (FPGA) logic. The Z-turn Board takes full features of the Zynq-7010 or 7020 SoC, it has 1GB DDR3 and 16MB SPI Flash on board and a set of rich peripherals including USB-to-UART, Mini USB OTG, 10/100/1000Mbps Ethernet, CAN, HDMI, TF, JTAG, Buzzer, G-sensor and Temperature sensor. On the rear of the board, there are two 1.27mm pitch 80-pin SMT female connectors to allow the availability of 96 (for 7010) or 106 (for 7020) user I/O and configurable as up to 39 LVDS pairs I/O. 1/9 The Z-turn Board is capable of running Linux operating system. MYIR has provided Linux 3.15.0 SDK, the kernel and many drivers are in source code. The board is delivered with complete accessory kit including two USB cables, one Ethernet cable, one HDMI cable, one 4GB TF card and one 5V power adapter and product CD-ROM which enables you to start the development quickly when getting the board out-of-the-box. The Z-turn Board is an excellent development platform for evaluating and prototyping for Zynq-7000 SoC. It can also be used as a System-on-Module (SOM) for your next embedded design; typical applications are Industrial Automation, Test & measurement, Medical Equipment, Intelligent Video Surveillance, Aerospace and military, etc. Hardware Specification The Zynq-7000 AP SoC leverages the 28nm scalable optimized programmable logic used in Xilinx’s 7 series FPGAs. Each device is designed to meet unique requirements across many use cases and applications. The Z-7010, Z-7015, and Z-7020 leverage the Artix®-7 FPGA programmable logic and offer lower power and lower cost for high-volume applications. The Z-7030, Z-7035, Z-7045, and Z-7100 are based on the Kintex®-7 FPGA programmable logic for higher-end applications that require higher performance and high I/O throughput. Figure 1-2 ZYNQ-7000 Device Family 2/9 The Z-turn Board is based on the Xilinx Zynq-7010 or 7020 SoC and the hardware specification is as listed in following table 1-1: Item Features SoC Xilinx XC7Z010-1CLG400C (Zynq-7010) or XC7Z020-1CLG400C (Zynq-7020) - Up to 667MHz ARM® dual-core Cortex™-A9 MPCore processor - Integrated Artix-7 class FPGA subsystem with 28K logic cells, 17,600 LUTs, 80 DSP slices (for XC7Z010) with 85K logic cells, 53,200 LUTs, 220 DSP slices (for XC7Z020) - NEON™ & Single / Double Precision Floating Point for each processor - Supports a Variety of Static and Dynamic Memory Interfaces Memory Storage Communications Display User I/O Dimensions Power supply Others 1GB DDR3 SDRAM (2 x 512MB, 32-bit) 16MB SPI Flash 512MB Nand Flash (reserved) TF card interface 1 x 10/100/1000M Ethernet 1 x CAN 1 x Mini USB2.0 OTG 1 x USB-UART debug interface 1 x HDMI (supports 1080p resolution) Brought out via two 1.27mm pitch 80-pin SMT female connectors - 90/106 user I/O (7010/7020) - Configurable 33/ 39 LVDS pairs I/O (7010/7020) 63mm x 102mm x 1.6mm (8-layer PCB design) USB power supply or DC 5V/2A Onboard three-axis acceleration sensor and temperature sensor 1 x 2.54mm pitch 14-pin JTAG interface 2 x Buttons (1x Reset, 1 x User) 4-channel toggle switch 5 x LEDs (3 x User LEDs, 1 x Power indicator, 1 RGB LED) 1 x Buzzer Table 1-1 Z-turn Board Hardware Specification 3/9 Figure 1-3 Z-turn Board (Top-view) Figure 1-4 Z-turn Board (Bottom-view) On the rear of the board, there are two 1.27mm pitch 80-pin SMT female connectors to allow the availability of 96 (for 7010) or 106 (for 7020) user I/O and configurable as up to 39 LVDS pairs I/O. The Pinouts information is as below: 4/9 Default Function BGA Pin Name CN1 VDD_5V 1 2 VDD_3.3V 3 4 VDD18_KEY_BACKUP 5 6 7 8 V7 IO_L11P_T1_13 IO_L11N_T1_13 9 10 11 12 U10 IO_L12P_T1_13 IO_L12N_T1_13 13 14 15 16 Y7 VDDIO_13_PL 17 18 Y6 IO_L13P_T2_13 IO_L13N_T2_13 19 20 21 22 W8 IO_L15P_T2_13 IO_L15N_T2_13 23 24 25 26 T12 GND 27 28 U12 IO_L2P_T0_34 IO_L2N_T0_34 29 30 31 32 W13 IO_L4P_T0_34 IO_L4N_T0_34 33 34 35 36 P14 GND 37 38 R14 IO_L6P_T0_34 IO_L6N_T0_34 39 40 41 42 Y14 IO_L8P_T1_34 IO_L8N_T1_34 43 44 45 46 U15 IO_L11P_T1_34 IO_L11N_T1_34 47 48 49 50 LCD_DATA0 T16 VDDIO_34_PL 51 52 54 U18 IO_L15P_T2_34 53 LCD_DATA4 T20 IO_L9P_T1_34 55 56 58 N20 IO_L12N_T1_34 57 LCD_DATA8 U19 IO_L12P_T1_34 59 60 62 64 W20 IO_L16P_T2_34 63 LCD_DATA13 V20 IO_L14N_T2_34 61 LCD_DATA12 P20 IO_L14P_T2_34 IO_L16N_T2_34 65 66 67 68 LCD_HSYNC W16 GND IO_L18N_T2_34 69 70 71 72 I2S_FSYNC_IN V18 IO_L20P_T3_34 IO_L21N_T3_34 73 74 75 76 W19 IO_L22P_T3_34 IO_L22N_T3_34 77 78 IO_L23P_T3_34 79 80 U7 T9 V8 V12 RGB LED 12M LCD_DATA1 LCD_DATA5 LCD_DATA9 I2S_SCLK W14 U14 T17 I2S_Din W18 MEMS_INTn N17 HDMI_INT Pin Name Function GND GND JTAG_TCK F9 JTAG_TDI G6 JTAG_TMS JTAG_TDO JTAG_NTRST J6 F6 IO_L14P_T2_13 Y9 IO_L21P_T3_13 V11 IO_L14N_T2_13 IO_L21N_T3_13 GND Y8 V10 IO_L1P_T0_34 T11 IO_L3P_T0_34 U13 IO_L1N_T0_34 IO_L3N_T0_34 GND T10 V13 IO_L5P_T0_34 T14 IO_L7P_T1_34 Y16 RGB LED IO_L10P_T1_34 V15 LCD_DATA2 IO_L13P_T2_34 N18 LCD_DATA6 IO_L5N_T0_34 IO_L7N_T1_34 GND IO_L10N_T1_34 IO_L13N_T2_34 GND T15 Y17 W15 P19 RGB LED LCD_DATA3 LCD_DATA7 IO_L15P_T2_34 T20 LCD_DATA10 IO_L17P_T2_34 Y18 LCD_DATA14 IO_L15N_T2_34 IO_L17N_T2_34 IO_L19P_T3_34 IO_L19N_T3_34 GND U20 Y19 R16 R17 LCD_DATA11 LCD_DATA15 LCD_DE LCD_PCLK IO_L18P_T2_34 V16 LCD_VSYNC IO_L21P_T3_34 V17 I2S_Dout IO_L20N_T3_34 IO_L24P_T3_34 IO_L24N_T3_34 IO_L23N_T3_34 Table 1-2 Pinouts of CN1 5/9 Default BGA R18 P15 P16 P18 I2S_FSYNC_OUT I2C0_SDA I2C0_SCL BP Default Function BGA 1 2 VDD_3.3V 3 4 5 6 L10 XADC_INP0 XADC_INN0 7 8 9 10 E6 XADC_VCC PS_MIO0_500 11 12 13 14 B5 PS_MIO8_500 PS_MIO9_500 15 16 PS_MIO12_500 17 18 PS_MIO13_500 19 20 GND 21 22 23 24 G20 IO_L1P_T0_35 IO_L18N_T2_35 25 26 27 28 D18 IO_L3P_T0_35 IO_L3N_T0_35 29 30 31 32 E18 GND 33 34 E19 IO_L5P_T0_35 IO_L5N_T0_35 35 36 37 38 M20 IO_L7P_T1_35 IO_L7N_T1_35 39 40 41 42 L19 GND IO_L9P_T1_35 43 44 IO_L9N_T1_35 45 46 47 48 L17 IO_L11P_T1_35 IO_L11N_T1_35 49 50 51 52 H16 VDDIO_35_PL IO_L13P_35 53 54 IO_L13N_35 55 56 57 58 F20 IO_L15P_T2_35 IO_L15N_T2_35 59 60 61 62 J20 GND 63 64 H20 IO_L17P_T2_35 IO_L17N_T2_35 65 66 67 68 G15 IO_L19P_T3_35 IO_L19N_T3_35 69 70 71 72 N15 GND 73 74 N16 IO_L21P_T3_35 IO_L21N_T3_35 75 76 77 78 M15 IO_L23P_T3_35 IO_L23N_T3_35 79 80 NAND_REn D5 I2C1_CLK D9 PS_USER_LED2 I2C1_SDA CN2 VDD_5V K9 PS_USER_LED1 Pin Name E8 C20 E17 M19 L20 L16 H17 F19 H15 M14 Pin Name Default Function GND GND DXP_0 DXN_0 GND M9 M10 PS_MIO10_500 E9 UART0_RX PS_MIO14_500 C5 CAN0_RX PS_MIO11_500 PS_MIO15_500 GND C6 C8 IO_L2P_T0_35 B19 IO_L4P_T0_35 D19 IO_L2N_T0_35 IO_L4N_T0_35 GND A20 D20 IO_L6P_T0_35 F16 IO_L8P_T1_35 M17 IO_L6N_T0_35 IO_L8N_T1_35 GND F17 M18 IO_L10P_T1_35 K19 IO_L12P_T1_35 K17 IO_L10N_T1_35 IO_L12N_T1_35 GND J19 K18 IO_L14P_T2_35 J18 IO_L16P_T2_35 G17 IO_L14N_T2_35 IO_L16N_T2_35 GND H18 G18 IO_L18P_T2_35 G19 IO_L20P_T3_35 K14 IO_L18N_T2_35 IO_L20N_T3_35 GND G20 J14 IO_L22P_T3_35 L14 IO_L24P_T3_35 K16 IO_L22N_T3_35 IO_L24N_T3_35 GND Table 1-3 Pinouts of CN2 6/9 BGA L15 J16 UART0_TX CAN0_TX Figure 1-5 Z-turn Board Function Block Diagram Figure 1-6 Z-turn Board Dimension Chart 7/9 Software Features Item Features Description Cross compiler gcc 4.6.1 gcc version 4.6.1 (Sourcery CodeBench Lite 2011.09-50) Linux Kernel Linux 3.15.0 Customized kernel for Z-turn Board Boot program BOOT.BIN First boot program including FSBL, bitstream and u-boot USB OTG USB OTG driver Ethernet Gigabit Ethernet driver MMC/SD/TF MMC/SD/TF card driver CAN LCD Controller Drivers HDMI Button UART HDMI driver UART driver LED driver GPIO GPIO driver Buzzer Buzzer driver G-Sensor Three-axis acceleration sensor driver Tempreture Sensor Ramdisk XYLON LCD driver Button driver LED File System CAN driver Temperature sensor driver Ubuntu Desktop 12.04 Ramdisk system image Tar file Table 1-4 Z-turn Board Software Features 8/9 Order Information Item Z-turn Board Part No. MYS-7Z010-C-S MYS-7Z020-C-S MYS-7Z010-C Z-turn Kit MYS-7Z020-C Packing List                     One Z-turn Board (for Zynq-7010) One 4GB TF card One Product disk One Z-turn Board (for Zynq-7020) One 4GB TF card One Product disk One Z-turn Board (for Zynq-7010) One Net cable Two USB cables One HDMI cable One 4GB TF card One 5V/2A Power adapter One Product disk One Z-turn Board (for Zynq-7020) One Net cable Two USB cables One HDMI cable One 4GB TF card One 5V/2A Power adapter One Product disk MYIR Tech Limited Room 1306, Wensheng Center, Wenjin Plaza, North Wenjin Road, Luohu District, Shenzhen, China 518020 E-mail: sales@myirtech.com Phone: +86-755-22984836 Fax: +86-755-25532724 Website: http://www.myirtech.com 9/9 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: MYIR Tech: MYS-7Z010-C MYS-7Z010-C-S MYS-7Z020-C-S MYS-7Z020-C