TB-7Z-020-EMC Hardware User Manual TB-7Z-020-EMC Hardware User Manual Rev.1.03 Rev.1.
TB-7Z-020-EMC Hardware User Manual Revision History Version Date Description Publisher Rev 1.00 2013/01/31 Release Version Yoshioka Rev 1.01 2013/04/25 Modified Table 7-17 and some typos. Yoshioka Rev.1.02 2013/11/13 Modified 7.17 (Description of J6 and J7 was reverse) Kiguchi Rev.1.03 2014/01/08 Modified Figure 6 1 and Figure 6 2 Kiguchi Modified Table 7 19 All Jumpers Function Table Modified 7.17.2. JTAG Mode Setting Rev.1.
TB-7Z-020-EMC Hardware User Manual Table of Contents 1. 2. 3. 4. 5. 6. 7. Related Documents and Accessories ......................................................................................... 9 Overview ...................................................................................................................................... 9 Feature ........................................................................................................................................ 9 Block Diagram ..
TB-7Z-020-EMC Hardware User Manual List of Figures Figure 4-1 Block Diagram ................................................................................................................ 10 Figure 5-1 Component Side ..............................................................................................................11 Figure 5-2 Solder Side ......................................................................................................................
TB-7Z-020-EMC Hardware User Manual List of Tables Table 7-1 Power Setting ................................................................................................................... 16 Table 7-2 Clock signals pin assign ................................................................................................... 17 Table 7-3 External PLL settings........................................................................................................ 18 Table 7-4 I2C Address Map ...............
TB-7Z-020-EMC Hardware User Manual Introduction Thank you for purchasing the TB-7Z-020-EMC board. Before using the product, be sure to carefully read this user manual and fully understand how to correctly use the product. First read through this manual, then always keep it handy. SAFETY PRECAUTIONS Be sure to observe these precautions Observe the precautions listed below to prevent injuries to you or other personnel or damage to property.
TB-7Z-020-EMC Hardware User Manual Warning In the event of a failure, disconnect the power supply. If the product is used as is, a fire or electric shock may occur. Disconnect the power supply immediately and contact our sales personnel for repair. If an unpleasant smell or smoking occurs, disconnect the power supply. If the product is used as is, a fire or electric shock may occur. immediately.
TB-7Z-020-EMC Hardware User Manual Caution Do not use or place the product in the following locations.
TB-7Z-020-EMC Hardware User Manual 1. Related Documents and Accessories Related documents: All documents relating to this board can be downloaded from our website. Please see attached paper on the products. Accessories. - RS-232C/CAN Bus Cable x1 - microSD card 4GB x1 - Power Supply(DC-12V) x1 - DC Switch Cable x1 - Spacer Set 2.
TB-7Z-020-EMC Hardware User Manual 4. Block Diagram The TB-7Z-020-EMC board block diagram is shown in Figure 4-1. PS block is connecting specific memories or interfaces. PL block is connecting FMC connector and debug interfaces. For more detail, please refer to each peripheral section .
TB-7Z-020-EMC Hardware User Manual 5. External View of the Board The TB-7Z-020-EMC board external view is shown in Figure 5-1 and Figure 5-2. PLL Power VCC_ADJ Setting / Config VCCO Jumper SW PLL LEDs PMOD Jumpers Power Battery IF for RTC DVI PS Soft USER USER DC Jack Jumper Power Circuit Transmitter Reset SW SW LEDs +12V Input Power Circuit DVI Output FMC LPC CC USB VBUS Jumpers OSC 33.33333MHz USB 2.
TB-7Z-020-EMC Hardware User Manual 6. Board Specifications The TB-7Z-020-EMC board specifications are showed in Figure 6-1 and Figure 6-2. External Dimensions: 130 mm (W) x 69 mm (H) Number of Layers: 12 layers Board Thickness: 1.6 mm Material: FR-4 FMC LPC CC Connector: Samtec’s ASP-134603-01 FMC LPC MC Connector: Samtec’s ASP-134604-01 USB OTG Connector: Molex’s 67803-8020 RJ-45 connector: HanRun’s HR911130C CAN & RS-232 connector: one 2.
TB-7Z-020-EMC Hardware User Manual Figure 6-1 Board Dimensions (inclusive of wastable substrate, top view) Rev.1.
TB-7Z-020-EMC Hardware User Manual Figure 6-2 Board Dimensions (inclusive of wastable substrate, bottom view) Rev.1.
TB-7Z-020-EMC Hardware User Manual 7. Description of Components 7.1. Power Supply Structure TB-7Z-020-EMC board’s power supply structure is showed in Figure 7-1. Power Distribution VCC_12P0V VCC_12P0V DC/DC 5A Max LTC3605AEUF#PBF 12V -> 1.0V VCC_1P0V DC/DC 1.5A Max LTC3600IDD#PBF 12V -> 1.8V VCC_1P8V DC/DC 1.5A Max LTC3600IDD#PBF 12V -> 1.8V / 2.5V VCC_ADJ DC/DC 1.5A Max LTC3600IDD#PBF 12V -> 3.3V VCC_3P3V DC/DC 2A Max LTM8023EV#PBF 12V -> 5.0V VCC_5P0V DC/DC 3A Max LTC3634EUFD#PBF 12V -> 1.
TB-7Z-020-EMC Hardware User Manual 7.1.2. FP_VCCO_ADJ SEL Jumper Bank 33 and 34 are connecting FMC connector. The bank voltage is depended on connected boards. TB-7Z-020-EMC has a three selection for bank voltage. VCC_3P3V: On-board 3.3V Power supply. Use case is that FMC option board interface is 3.3V. VCC_ADJ: On-board 2.5V/1.8V Power supply. Use case is that FMC option board interface is 2.5V/1.8V Please refer section 7.1.3 VCC_ADJ SEL Jumper. FMC_ADJ: Power supply from main FPGA evaluation board.
TB-7Z-020-EMC Hardware User Manual 7.2. Clock System The TB-7Z-020-EMC board’s clock system diagram is showed in Figure 7-5. ZYNQ XC7Z020-CLG484E ARM TRACE PORT (CN10) TRACECLK PS_MIO6_500 TRACECLK QSPI_CLK QSPI FLASH(U13) CLK IO_L12P_T1_MRCC_13 IO_L15P_T2_DQS_AD12P_35 FMC LPC CC (CN5) CLK1_M2C_P/N CLK0_M2C_P/N FMC_CLK1P/N_M2C FMC_CLK0P/N_M2C DVI_CLK DVI TX(U8) IDCK+ IO_L12P/N_T1_MRCC_33 IO_L12P/N_T1_MRCC_34 USB2.
TB-7Z-020-EMC Hardware User Manual 7.3. On-board PLL The TB-7Z-020-EMC has the on-board PLL. Please refer Figure 7-5. Using IDT VersaClockIII series, 5V49EE504NLGI is an external PLL. It could memory the setting of PLL via I2C interface which connected to PS (Processing System) I2C Bus. Please refer to the reference design of PLL setting and Section 7.4 I2C BUS.
TB-7Z-020-EMC Hardware User Manual 7.4. I2C BUS The TB-7Z-020-EMC board implements a single I2C port on the Zynq AP SoC PS. The I2C Bus topology is shown in Figure 7-7.
TB-7Z-020-EMC Hardware User Manual 7.5. Memory Zynq AP SoC contains a hardened PS memory interface unit. The memory interface unit includes a dynamic memory controller and static memory interface modules. 7.5.1. DDR3 The board includes two DDR3 SDRAM memory components creating a 32-bit interface. The DDR3 is connected to the hard memory controller in the PS. The PS incorporates both the DDR controller and the associated PHY, including its own set of dedicated I/Os.
TB-7Z-020-EMC Hardware User Manual 7.5.2. QSPI Flash The Board includes a 4-bit QSPI (quad-SPI) 128Mbit NOR flash. The Micron N25Q128A13BSF40F is used on this board. The Multi-I/O SPI Flash memory is used to provide non-volatile code, and data storage. It can be used to initialize the PS as well as configure the PL (bitstream). Device: N25Q128A13BSF40F (Micron) 128Mbit , x1/x2/x4 support (or compatible device) Device Data Rate: 108 MHz (maximum) clock frequency The QSPI interface is shown in Figure 7-9.
TB-7Z-020-EMC Hardware User Manual 7.6. 10/100/1000 Ethernet PHY TB-7Z-020-EMC has 10/100/1000 Base Ethernet PHY connected to the PS Ethernet MAC by RGMII. PHY chip is Marvell’s 88E1518. The bit[0] of PHY address is 0.
TB-7Z-020-EMC Hardware User Manual 7.7. UART Interface The TB-7Z-020-EMC board includes the TI MAX3232CPW RS-232 Line Driver/Receiver. Device Features : MAX3232CPW (TI) The UART interface is shown in Figure 7-14. PinHeader to D-sub 9 pin conversion cable is included in TB-7Z-020-EMC. Please refer to connection in Figure 7-15. ZYNQ XC7Z020-1CLG484 PS Bank500 RXD RS-232 Line Driver/Receiver MAX3232CPW RXD PinHeader 2.
TB-7Z-020-EMC Hardware User Manual 7.8. CAN BUS The TB-7Z-020-EMC board includes the PHILIPS TJA1040T_VM_118.The TJA1040 is an advanced high speed Controller Area Network (CAN) transceiver for use in automotive and general industrial applications. It supports the differential bus signal representation described in the international standard for in-vehicle high speed CAN applications (ISO 11898). Device Features : TJA1040T_VM_118 (PHILIPS) The CAN interface is shown in Figure 7-16.
TB-7Z-020-EMC Hardware User Manual 7.9. USB OTG The TB-7Z-020-EMC board includes the TI TUSB1210 Standalone USB Transceiver Chip. It is used as the PHY. The PHY features a complete HS-USB Physical Front-End supporting speeds of up to 480Mbs. Device Features : TUSB1210BRHB (TI) Caution: TBSB1210BRHB and Zynq-7000 has a timing incompatibility at hot temperature. Please use TB-7Z-020-MEC in room temperature. The USB interface is shown in Figure 7-18.
TB-7Z-020-EMC Hardware User Manual 7.10. RTC The TB-7Z-020-EMC board includes the Epson RX-8564LC RS-232.It is an I2C bus interface real-time clock that has a built-in 32.768 KHz oscillator with these features: Frequency output options: 32.768 KHz, 1024 Hz, 32 Hz or 1 Hz Calendar output functions: Year, month, day, weekday, hour, minute and second Clock counter, alarm and fixed-cycle timer interrupt functions Device: RX-8564LC The RTC interface is shown in Figure 7-20.
TB-7Z-020-EMC Hardware User Manual 7.11. Pmod The TB-7Z-020-EMC board includes the Digilent Pmod compatible headers (2x6).It is straight,0.1” female headers that include eight user I/O plus 3.3V and ground signals. The Pmod interface is shown in Figure 7-21.
TB-7Z-020-EMC Hardware User Manual 7.12. Mictor 38 The TB-7Z-020-EMC board includes ARM Debugger Interface Connector (Mictor 38). It is intended for high-speed trace capture of up to 16 bits of trace data and status/sync signals. It can also be used to connect to the debug signals of the target. The Mictor 38 interface is shown in Figure 7-23.
TB-7Z-020-EMC Hardware User Manual 7.12.1. VTREF SEL Jumper There is a 2 pin jumper (J5) for VTREF power supply. Figure 7-24 ARM PJTAG Port’s VTREF SEL Jumper Table 7-13 Jumper Function Table Jumper # J4 J5 Description Status ARM Trace Port Short Enable Soft-reset from ARM Trace Port Soft-reset enable Open Soft-reset is only generated by SW8 ARM Trace Port Short Enable 3.3V output to ARM Trace Port’s VTREF pin. VTREF power Supply enable Rev.1.03 Open Function Only connect a 0.
TB-7Z-020-EMC Hardware User Manual Table 7-14 MICTOR 38 pin assignment Pin# Connect to Pin Name (FPGA) Pin# Pin Name Connect to 1 NC - 2 NC - 3 NC - 4 NC - 5 GND GND 6 TRACECLK Y9(U15) via R153 7 DBGRQ AB12(U15) via R158 8 DBGACK AA9(U15) via R163 9 XSRST SW8 via JP4 10 EXTTRIG AA12(U15) via R159 11 TDO B4(U15) via R132 12 VTREF VCC_3P3V via J5 13 RTCK R125 (Pull-up) 14 TVDO VCC_3P3V 15 TCK C5(U15) via R131 16 TRACEPKT7 U4(U15) via R147 17 TMS A6(U15
TB-7Z-020-EMC Hardware User Manual 7.13. Reset Switch PS SRST is system reset switch. This reset signals shared with JTAG-ICE by J4. Figure 7-25 XC7Z020's System Reset Push Switch 7.14. JTAG The TB-7Z-020-EMC board provides a traditional Platform Cable JTAG connector. The JTAG Chain is constructed as follows: ZYNQ XC7Z020-1CLG484 JTAG 2.
TB-7Z-020-EMC Hardware User Manual 7.15. DVI Output The TB-7Z-020-EMC board includes the TI TFP410PAP DVI Transmitter. It provides a digital video interface to the TB-7Z-020-EMC board. This 165MHz transmitter is DVI 1.0-compatible supporting 1080p and WUXGA at 60Hz. DDC signals are not connected. Device Features : TFP410PAP (TI) (Pin Compatible with SiI164 DVI Transmitter) The DVI interface is shown in Figure 7-27.
TB-7Z-020-EMC Hardware User Manual 7.16. FMC Connector Interface The board provides Samtec’s FMC Low-Pin Count Mezzanine Card (CN4) connector and Carrier Card (CN5). The VITA-57 Low-Pin Count pin list is showed in Figure 7-28 respectively. Notice: Not all pins of LPC are connected to the Zynq-7000. Cation: FMC connetors are only exclusice use Figure 7-28 FMC LPC Pin List Rev.1.
TB-7Z-020-EMC Hardware User Manual 7.16.1. FMC Low-Pin Count Mezzanine Card (CN4) connector.
TB-7Z-020-EMC Hardware User Manual Zynq Pin# Signal Name G H Signal Name GND GND Y18 FMC_CLK1P_M2C AA18 1 VREF_A_M2C TPAD1 CLK1_M2C_P 2 PRSNT_M2C_L - FMC_CLK1N_M2C CLK1_M2C_N 3 GND GND GND GND 4 CLK0_M2C_P FMC_CLK0P_M2C L18 GND GND 5 CLK0_M2C_N FMC_CLK0N_M2C L19 Y14 FMC_LAP33 LA00_P_CC 6 GND GND AA14 FMC_LAN33 LA00_N_CC 7 LA02_P FMC_LAP32 N17 GND GND 8 LA02_N FMC_LAN32 N18 W15 FMC_LAP31 LA03_P 9 GND GND Y15 FMC_LAN31 LA03_N 10 LA04_P FMC_LAP30
TB-7Z-020-EMC Hardware User Manual 7.16.2. FMC Low-Pin Count Carrier Card (CN5) connector.
TB-7Z-020-EMC Hardware User Manual Zynq Pin# Connection G H Connection GND GND Y18 FMC_CLK1P_M2C AA18 1 VREF_A_M2C FMC_VREF CLK1_M2C_P 2 PRSNT_M2C_L - FMC_CLK1N_M2C CLK1_M2C_N 3 GND GND GND GND 4 CLK0_M2C_P FMC_CLK0P_M2C L18 GND GND 5 CLK0_M2C_N FMC_CLK0N_M2C L19 Y19 FMC_LAP00_CC LA00_P_CC 6 GND GND AA19 FMC_LAN00_CC LA00_N_CC 7 LA02_P FMC_LAP02 J20 GND GND 8 LA02_N FMC_LAN02 K21 U20 FMC_LAP03 LA03_P 9 GND GND V20 FMC_LAN03 LA03_N 10 LA04_P FM
TB-7Z-020-EMC Hardware User Manual 7.17. Jumper The function description of Jumper is in the following table. VBUS (J1) USB VBUS (J2) VCC_ADJ (J8) VCCO (J9) PMOD Power (J3) Confige & Boot (J6, J7, J10, J11) PJTAG IF (J4, J5) Figure 7-29 Jumpers Position Table 7-19 All Jumpers Function Table Jumper# J1 J2 J3 J4 J5 Description Status USB VBUS 5V Short Enable 5V output.
TB-7Z-020-EMC Hardware User Manual 7.17.1. Boot Mode Settings Table 7-20 Boot Mode Settings No. Boot Device J10 J11 J7 1 JTAG 2-3 2-3 2-3 2 SD Card 1-2 1-2 2-3 3 QSPI 2-3 1-2 2-3 Note: Usually, J6 is fixed setting. 7.17.2. JTAG Mode Setting Debugging ARM software via Mictor-38 connector, J6 should be Independent Mode (1-2). Table 7-21 JTAG Mode Setting Rev.1.03 No.
TB-7Z-020-EMC Hardware User Manual 7.18. LED There are 13 LEDs on the board. Some of These LEDs are used to indicate the statuses of XC7Z020, while the others provide user and general purpose I/O capabilities. The function description of LEDs is in the following table. Table 7-22 LED Function Table LED# Color LED1 Green LED2 Function Target IC IC# Pin# Pin Name PS User LED. High Active(On) U15 D5 PS_LED_GRN Red PS User LED. Low Active(On) U15 C4 PS_LED_RED LED3 Green PL User LED.
TB-7Z-020-EMC Hardware User Manual 7.19. Push Switch There are 3 switches on the board. The following table shows the details of the Push switches. Table 7-23 Push Switch Function Table Switch# Target IC Description IC# Pin# Net Name SW3 PS User Push Switch. Active High(Push) U15 G6 PS_PUSHSW SW4 PL User Push Switch. Active Low(Push) U15 V10 FP_PUSHSW0 SW5 PL User Push Switch. Active Low(Push) U15 AA8 FP_PUSHSW1 SW6 PL User Push Switch.
TB-7Z-020-EMC Hardware User Manual 7.20. Dip Switches There are 3 switches on the board. The following table shows the details of the Dip switches.
TB-7Z-020-EMC Hardware User Manual 8. Default Settings The following two tables show default settings of Jumpers and Dip Switches. Table 8-1 Default Jumper Settings No. Jumper No. Default Setting Note 1 J1 Short Enable 5V output to USB Connector 2 J2 Short For Host Mode 3 J3 <2-3>Short 4 J4 Open Soft-reset is only generated by SW8 5 J5 Short Enable 3.3V output to ARM Trace Port’s VTREF pin.
TB-7Z-020-EMC Hardware User Manual PLD Solution Dept. PLD Division URL: http://solutions.inrevium.com/ E-mail: psd-support@teldevice.co.jp HEAD Quarter: Yokohama East Square, 1-4 Kinko-cho, Kanagawa-ku, Yokohama City, Kanagawa, Japan 221-0056 TEL: +81-45-443-4016 FAX: +81-45-443-4058 Rev.1.
