iWave iW-RainboW-G30D Hardware User's Manual
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iWave iW-RainboW-G30D Hardware User's Manual

Zynq ultrascale+ mpsoc som development platform
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Zynq-Ultrascale+ MPSoC SOM Development Platform Hardware User Guide
iW-RainboW-G30D
Zynq Ultrascale+ MPSoC SOM
Development Platform
Hardware User Guide
REL1.1
iWave Systems Technologies Pvt. Ltd.
Page 1 of 89

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Summary of Contents for iWave iW-RainboW-G30D

  • Page 1 Zynq-Ultrascale+ MPSoC SOM Development Platform Hardware User Guide iW-RainboW-G30D Zynq Ultrascale+ MPSoC SOM Development Platform Hardware User Guide REL1.1 iWave Systems Technologies Pvt. Ltd. Page 1 of 89...
  • Page 2 If you are not the intended recipient (or authorized to receive for the recipient), you are hereby notified that any disclosure, copying distribution or use of any of the information contained within this document is STRICTLY PROHIBITED. Thank you. “iWave Systems Tech. Pvt. Ltd.” REL1.1 iWave Systems Technologies Pvt.
  • Page 3 No warranty of accuracy is given concerning the contents of the information contained in this publication. To the extent permitted by law no liability (including liability to any person by reason of negligence) will be accepted by iWave Systems, its subsidiaries or employees for any direct or indirect loss or damage caused by omissions from or inaccuracies in this document.

  • Page 4: Table Of Contents

    2.6.3 JTAG Connector............................74 2.6.4 GPIO Header ............................76 2.6.5 I2C Tree ..............................78 2.6.6 Power ON/OFF Switch ..........................79 2.6.7 Reset Switch ............................80 2.6.8 RTC Coin Cell Holder ..........................81 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 4 of 89...
  • Page 5 3.4.2 Guidelines to insert and remove the Zynq Ultrascale+ SoC SOM with Carrier Board ........ 86 3.4.3 Fan Sink Fixing procedure on SOM with Carrier Board ................87 ORDERING INFORMATION ..........................88 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 5 of 89...
  • Page 6 Figure 34: Carrier board Mechanical dimension – Side Views ..................85 Figure 35: Zynq Ultrascale+ SoC SOM Insert and Removal Procedure ................ 86 Figure 36: Zynq Ultrascale+ SOM with Fan Sink fixing procedure ................87 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 6 of 89...
  • Page 7 Table 17: GPIO Header Pin Assignment ........................76 Table 18: Power Input Requirement .......................... 82 Table 19: Power Output Specification ........................83 Table 20: Environmental Specification........................84 Table 21: Orderable Product Part Numbers ....................... 88 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 7 of 89...

  • Page 8: Introduction

    HardwareUserGuide”. Overview iWave's Zynq Ultrascale+ MPSoC Development platform incorporates Zynq Ultrascale+ MPSoC SOM which is based on Xilinx’s Zynq Ultrascale+ MPSoC and the High-Performance Carrier Board. The development board can be used for quick prototyping of various applications targeted by the Zynq Ultrascale+ MPSoC. With the 130mmx140mm size, carrier board is packed with all the necessary on-board connectors to validate the features of Zynq Ultrascale+ MPSoC SOM.
  • Page 9 Secure Digital Input Output SDHI SD Card Host Interface Small Form-factor Pluggable System On Module TXVR Transceiver Transmitter UART Universal Asynchronous Receiver/Transmitter Universal Serial Bus USB OTG USB On The Go REL1.1 iWave Systems Technologies Pvt. Ltd. Page 9 of 89...

  • Page 10: Terminology Description

    Note: Signal Type does not include internal pull-ups or pull-downs implemented by the chip vendors and only includes the pull-ups or pull-downs implemented on board. References • Zynq Ultrascale+ MPSoC Datasheet & Reference Manual • Zynq Ultrascale+ MPSoC SOM Hardware User Guide REL1.1 iWave Systems Technologies Pvt. Ltd. Page 10 of 89...

  • Page 11: Architecture And Design

    GTR High Speed Transceivers x 2channels Note: ¹ By default, 3G SDI IN/OUT is supported. Optionally, 12G SDI IN/OUT can be supported on request. Figure 1: Zynq Ultrascale+ MPSoC SOM Carrier Board Block Diagram REL1.1 iWave Systems Technologies Pvt. Ltd. Page 11 of 89...

  • Page 12: Zynq Ultrascale+ Mpsoc Som Carrier Board Features

    ➢ Upto 15 LVDS IOs/30 Single ended (SE) IOs ➢ Upto 4 Single ended (SE) IOs ➢ 2 Clock Input Capable LVDS/SE pins ➢ 1 Clock Output Capable LVDS/SE pins • PMOD Connector x 2 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 12 of 89...
  • Page 13 • Reset Pushbutton Switch x 1 • RTC Coin Cell Holder x 1 General Specification • Power Supply : DC 12V, 5A Power Input Jack • Form Factor : 130mmX140mm REL1.1 iWave Systems Technologies Pvt. Ltd. Page 13 of 89...

  • Page 14: Board To Board Connectors

    Board to Board Connector1 (J10) is physically located at the top of the board as shown below. Note: For the Board to Board Connector1 pinout, refer the Zynq Ultrascale+ MPSoC SOM Hardware User Guide. Figure 2: Board to Board Connector1 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 14 of 89...

  • Page 15: Board To Board Connector2

    Board to Board Connector2 (J11) is physically located at the top of the board as shown below. Note: For the Board to Board Connector2 pinout, refer the Zynq Ultrascale+ MPSoC SOM Hardware User Guide. Figure 3: Board to Board Connector2 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 15 of 89...

  • Page 16: Ps Interface Features

    The MUX/DEMUX connection and interface selection option is shown below for easy understanding. The selection control of each MUX IC is connected to PS-GTR Lane selection 4bit DIP switch (SW5). Figure 4: PS-GTR External Switch Connectivity. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 16 of 89...

  • Page 17: Figure 5: Ps-Gtr Lane Selection Switch

    USB3.0 TypeC connector (default) Lane3 Bit4 PS-GTR Lane3 is connected to Lane3 PS-GTR Lane3 is connected to M.2 of PCIe x4 connector SATA connector (default) Figure 5: PS-GTR Lane Selection Switch REL1.1 iWave Systems Technologies Pvt. Ltd. Page 17 of 89...

  • Page 18: Pcie X4 Connector

    PCIe x4 connector (J19) is physically located at the top of the board as shown below. Note: For more details on PS-GTR Lane selection options, refer Table 3. Figure 6: PCIe x4 Connector REL1.1 iWave Systems Technologies Pvt. Ltd. Page 18 of 89...

  • Page 19: Table 4: Pcie X4 Connector Pin Assignment

    12V Supply Voltage. RSVD Power Ground. SMCLK I2C0_SCL(PS_MIO10_500) O, 3.3V CMOS SMB Clock. SMDAT I2C0_SDA(PS_MIO11_500) IO, 3.3V CMOS SMB DATA. Power Ground. +3V3 VCC_3V3 O, 3.3V Power 3.3V Supply Voltage. TRST# REL1.1 iWave Systems Technologies Pvt. Ltd. Page 19 of 89...
  • Page 20 PS_MGTRTXN2_505 PCIe Lane2 Transmit pair negative Power Ground. Power Ground. PETp3 PS_MGTRTXP3_505 PCIe Lane3 Transmit pair positive. PETn3 PS_MGTRTXN3_505 PCIe Lane3 Transmit pair negative Power Ground. RSVD PRSNT#2 Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 20 of 89...

  • Page 21: Display Port Connector

    PL Bank IO. This Display Port connector (J13) is physically located at the top of the board as shown below. Note: For more details on PS-GTR Lane selection options, refer Table 3. Figure 7: Display Port Connector REL1.1 iWave Systems Technologies Pvt. Ltd. Page 21 of 89...

  • Page 22: Table 5: Display Port Connector Pin Assignment

    100K PD Power Ground. AUX_CH- PL_AA10_LVDS66_L6N IO, DIFF/ Auxiliary channel negative. 100K PU HOT_PLUG PL_C12_LVDS46_L9N O,3.3V CMOS/ Hot Plug Detect. 100K PD RETURN DP_PWR DP_PWR O, 3.3V Power 3.3V Supply Voltage. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 22 of 89...

  • Page 23: Usb Type-C Connector

    Enable pin of the USB Power switch is connected to the PS GPIO “PS_MIO25_500” from Board to Board connector2 pin38. This USB Type-C connector (J20) is physically located at the top side of the board as shown below. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 23 of 89...

  • Page 24: Figure 8: Usb Type-C Connector

    Zynq-Ultrascale+ MPSoC SOM Development Platform Hardware User Guide Figure 8: USB Type-C Connector REL1.1 iWave Systems Technologies Pvt. Ltd. Page 24 of 89...

  • Page 25: Table 6: Usb Type-C Pin Assignment

    USB2.0 Transmit Data Negative. SBU2 VBUS VBUS_USB3.0 Power 5V Power Supply. SSRXn1 PS_MGTRRXN2_505 I, DIFF USB3.0 Super Speed Receive Data Negative. SSRXp1 PS_MGTRRXP2_505 I, DIFF USB3.0 Super Speed Receive Data Positive. Mechanical Pin. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 25 of 89...

  • Page 26: Sata Connector

    PS-GTR Lane Selection Switch (SW5). For more details on PS-GTR Lane selection options, refer Table 3. The M.2 SATA Connector (J24) is physically located at the bottom side of the board as shown below. Figure 9: M.2 SATA Connector (Key B) REL1.1 iWave Systems Technologies Pvt. Ltd. Page 26 of 89...

  • Page 27: Table 7: M.2 Sata Connector Pin Assignment

    N/A4 PETn2 N/A5 PETp2 N/A6 Power Ground. N/A7 PERn1 N/A8 PERp1 N/A9 Power Ground. N/A10 PETn1 N/A11 PETp1 DEVSLP Power Ground. N/A12 SATA-B+/PERn0 PS_MGTRRXP3_505 I, DIFF SATA Receive pair positive. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 27 of 89...
  • Page 28 O, 3.3V Power Supply Voltage. Power Ground. 3.3V VCC_3V3 O, 3.3V Power Supply Voltage. Power Ground. 3.3V VCC_3V3 O, 3.3V Power Supply Voltage. CONFIG_2 This pin is connected to Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 28 of 89...

  • Page 29: Gigabit Ethernet Port1

    RJ45 Magjack (J9). The Ethernet supports Speed (Yellow) and Link/Activity (Green) LED indications on RJ45 Magjack connector. This RJ45 Magjack connector (J9) is physically located at the top of the board as shown below. Figure 10: Gigabit Ethernet Connector1 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 29 of 89...

  • Page 30: Gigabit Ethernet Port2

    RJ45 Magjack (J12). Also it supports Speed (Yellow) and Link/Activity (Green) LED indications on RJ45 Magjack connector. This RJ45 Magjack connector is physically located at the top of the board as shown below. Figure 11: Gigabit Ethernet Connector2 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 30 of 89...

  • Page 31: Usb2.0 Otg Port

    B2B-2) and controls the power using the USB_PWR_EN pin (32 pin of B2B-2). This USB2.0 OTG connector (J13) is physically located at the top of the board as shown below. Figure 12: USB OTG Connector REL1.1 iWave Systems Technologies Pvt. Ltd. Page 31 of 89...

  • Page 32: Standard Sd Port

    If PS_MIO43_501 is set to high, then 1.8V IO level is selected for SD1 signals to SD connector. The Standard SD connector (J18) is physically located at the top of the board as shown below. Figure 13: Standard SD Connector REL1.1 iWave Systems Technologies Pvt. Ltd. Page 32 of 89...

  • Page 33: Can0 Header

    Note: Optionally connected to on board 12V through resistor and by default not populated. CANL IO, DIFF CAN Differential negative. Power Ground. CANH IO, DIFF CAN Differential positive. Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 33 of 89...

  • Page 34: Debug Uart

    The output of the USB convetor is conencted to USB MicroAB Connector (J5). This USB MicroAB Connector can be used for Debug purpose which is is physically located at the top of the board as shown below. Figure 15: Debug UART Connector REL1.1 iWave Systems Technologies Pvt. Ltd. Page 34 of 89...

  • Page 35: Interface Features

    SFP+ Connector (1 GTH Transceivers) o 3G/12G SDI Video IN (1 GTH Transmitter) o 3G/12G SDI Video OUT (1 GTH Receiver) o Dual FMC HPC Connectors (14 GTH Transceivers) Figure 16: GTH Transceiver Connections REL1.1 iWave Systems Technologies Pvt. Ltd. Page 35 of 89...

  • Page 36: Sfp+ Connector

    Also PS I2C0 is connected to this connector for control and configuration. All other control signals of SFP+ connnector is connected from IO Expander. This SFP+ connector (J16) is physically located at the top of the board as shown below. Figure 17: SFP+ Connector with Cage REL1.1 iWave Systems Technologies Pvt. Ltd. Page 36 of 89...

  • Page 37: Table 9: Sfp+ Connector Pin Assignment

    3.3V Receiver Supply Voltage VCCT VCC_3V3 O, 3.3V Power 3.3V Transmitter Supply Voltage VEET2 Power Ground. GTHTXP2_226 O, DIFF SFP+ Transmit Data Positive GTHTXN2_226 O, DIFF SFP+ Transmit Data Negative VEET3 Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 37 of 89...

  • Page 38: Sdi Video In

    0x2D. SDI Video IN HD BNC connector (J22) is physically located at the top of the board as shown below. Note: By default, 3G Adaptive Cable Equalizer chip “LMH0397” is supported on the board. To support 12G Adaptive Cable Equalizer chip “LMH1297”, contact iWave. Figure 18: SDI Video IN HD BNC Connector REL1.1...

  • Page 39: Sdi Video Out

    Note: By default, 3G Cable Driver chip “LMH0397” is supported on the board. To support 12G Cable Driver chip “LMH1297”, contact iWave. Figure 19: SDI Video OUT HD BNC Connector REL1.1 iWave Systems Technologies Pvt. Ltd. Page 39 of 89...

  • Page 40: Fmc Hpc Connector1

    4 Clock Input Capable LVDS/SE pins • 2 Clock Output Capable LVDS/SE pins This 400Pin FMC HPC Connector1 (J14) is physically located at the top of the board as shown below. Figure 20: FMC Connector1 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 40 of 89...

  • Page 41: Figure 21: Fmc Hpc Connector1 Pin Out

    Zynq-Ultrascale+ MPSoC SOM Development Platform Hardware User Guide This 400Pin FMC HPC Connector1 (J14) pin mapping is shown below. Figure 21: FMC HPC Connector1 Pin Out REL1.1 iWave Systems Technologies Pvt. Ltd. Page 41 of 89...

  • Page 42: Table 10: Fmc Hpc Connector1 Pin Assignment

    Board to Board Connector 1 GTHTXP1_223 O, DIFF transmitter positive. GTH Bank223 channel1 High speed differential DP1_C2M_N Board to Board Connector 1 GTHTXN1_223 O, DIFF transmitter negative. Power Ground. Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 42 of 89...
  • Page 43 Board to Board Connector 1 GTHRXP3_224 I, DIFF receiver positive. GTH Bank224 channel3 High speed differential DP7_M2C_N Board to Board Connector 1 GTHRXN3_224 I, DIFF receiver negative. Power Ground. Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 43 of 89...
  • Page 44 DP0_C2M_P Board to Board Connector 1 GTHTXP0_223 O, DIFF transmitter positive. GTH Bank223 channel0 High speed differential DP0_C2M_N Board to Board Connector 1 GTHTXN0_223 O, DIFF transmitter negative. Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 44 of 89...
  • Page 45 Power Ground. Power Ground. I2C0_SCL(PS_MIO10 O, 3.3V Board to Board Connector 2 I2C0 Clock Signal. _500) LVCMOS I2C0_SDA(PS_MIO11 IO, 3.3V Board to Board Connector 2 I2C0 Data Signal. _500) LVCMOS REL1.1 iWave Systems Technologies Pvt. Ltd. Page 45 of 89...
  • Page 46 Board to Board Connector 2 AK16 IO, 1.8V PL HP Bank64 IO20 differential negative. Power Ground. PL_E17_LVDS45_L7P LA17_P_CC Board to Board Connector 1 IO, 1.8V PL HD Bank45 IO7 differential positive. _HDGC REL1.1 iWave Systems Technologies Pvt. Ltd. Page 46 of 89...
  • Page 47 O, 3.3V Power 3.3V Supply Voltage. Power Ground. HA01_P_CC HA01_N_CC Power Ground. Power Ground. HA05_P HA05_N Power Ground. HA09_P HA09_N Power Ground. HA13_P HA13_N Power Ground. HA16_P HA16_N Power Ground. HA20_P REL1.1 iWave Systems Technologies Pvt. Ltd. Page 47 of 89...
  • Page 48 HA00_N_CC Board to Board Connector 1 IO, 1.8V PL HD Bank46 IO7 differential negative. _HDGC Power Ground. HA04_P HA04_N Power Ground. HA08_P HA08_N Power Ground. HA12_P HA12_N Power Ground. HA15_P REL1.1 iWave Systems Technologies Pvt. Ltd. Page 48 of 89...
  • Page 49 Board to Board Connector 2 AD19 IO, 1.8V PL HP Bank64 IO18 differential positive. PL_AE19_LVDS64_L1 LA03_N Board to Board Connector 2 AE19 IO, 1.8V PL HP Bank64 IO18 differential negative. Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 49 of 89...
  • Page 50 PL HD Bank45 IO11 differential positive. PL_A16_LVDS45_L11 LA33_N Board to Board Connector 1 IO, 1.8V PL HD Bank45 IO11 differential negative. Power Ground. VADJ VCC_FMC_ADJ O, 1.8V Power 1.8V Supply Voltage. Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 50 of 89...
  • Page 51 Board to Board Connector 2 AA16 IO, 1.8V PL HP Bank64 IO16 differential positive. 6P_QBC PL_AB16_LVDS64_L1 LA21_N Board to Board Connector 2 AB16 IO, 1.8V PL HP Bank64 IO16 differential negative. 6N_QBC REL1.1 iWave Systems Technologies Pvt. Ltd. Page 51 of 89...
  • Page 52 PL HP Bank64 IO13 differential negative. 3N_GC Power Ground. Power Ground. HA03_P HA03_N Power Ground. HA07_P HA07_N Power Ground. HA11_P HA11_N Power Ground. HA14_P HA14_N Power Ground. HA18_P HA18_N Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 52 of 89...
  • Page 53 Ground. VREF_B_M2C Power Ground. Power Ground. CLK2_BIDIR_P CLK2_BIDIR_N Power Ground. HA02_P HA02_N Power Ground. HA06_P HA06_N Power Ground. HA10_P HA10_N Power Ground. HA17_P_CC HA17_N_CC Power Ground. HA21_P HA21_N Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 53 of 89...
  • Page 54 HB14_N Power Ground. HB17_P_CC HB17_N_CC Power Ground. VIO_B_M2C *IO Type of IOs originating from ZU7/5/4 MPSoC is configurable. Hence for exact IO type configuration options, refer Xilinx ZU7/5/4 MPSoC datasheet. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 54 of 89...

  • Page 55: Fmc Hpc Connector2

    2 Clock Input Capable LVDS/SE pins • 1 Clock Output Capable LVDS/SE pins This 400Pin FMC HPC Connector2 (J6) is physically located at the top of the board as shown below. Figure 22: FMC Connector2 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 55 of 89...

  • Page 56: Figure 23: Fmc Hpc Connector2 Pin Out

    Zynq-Ultrascale+ MPSoC SOM Development Platform Hardware User Guide This 400Pin FMC HPC connector2 (J6) pin mapping is shown below. Figure 23: FMC HPC Connector2 Pin Out REL1.1 iWave Systems Technologies Pvt. Ltd. Page 56 of 89...

  • Page 57: Table 11: Fmc Hpc Connector2 Pin Assignment

    GTH Bank225 channel1 High speed differential DP1_C2M_N GTHTXN1_225 O, DIFF Connector 1 transmitter negative. Power Ground. Power Ground. Board to Board GTH Bank225 channel2 High speed differential DP2_C2M_P GTHTXP2_225 O, DIFF Connector 1 transmitter positive. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 57 of 89...
  • Page 58 Ground. CLK_DIR Power Ground. Power Ground. DP9_M2C_P DP9_M2C_N Power Ground. Power Ground. DP8_M2C_P DP8_M2C_N Power Ground. Power Ground. DP7_M2C_P DP7_M2C_N Power Ground. Power Ground. DP6_M2C_P DP6_M2C_N Power Ground. Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 58 of 89...
  • Page 59 PL_AA12_LVDS66_L2P AA12 IO, 1.8V PL HP Bank66 IO2 differential positive. Connector 2 Board to Board LA06_N PL_AA11_LVDS66_L2N AA11 IO, 1.8V PL HP Bank66 IO2 differential negative. Connector 2 Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 59 of 89...
  • Page 60 PG_C2M O, 3.3V Power Good Signal from Carrier to FMC Module. Power Ground. Power Ground. Board to Board GTH Bank225 differential reference clock0 GBTCLK0_M2C_P GTREFCLK0P_225 I, DIFF Connector 1 positive. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 60 of 89...
  • Page 61 JTAG Test Clock. 49.9K PU PS_JTAG_TDO I, 3.3V CMOS JTAG Test Data Output 1. PS_JTAG_TDO O, 3.3V CMOS JTAG Test Data Output 2. 3P3VAUX 3V3_AUX1 O, 3.3V Power Supply Voltage. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 61 of 89...
  • Page 62 HA09_P HA09_N Power Ground. HA13_P HA13_N Power Ground. HA16_P HA16_N Power Ground. HA20_P HA20_N Power Ground. HB03_P HB03_N Power Ground. HB05_P HB05_N Power Ground. HB09_P HB09_N Power Ground. HB13_P HB13_N REL1.1 iWave Systems Technologies Pvt. Ltd. Page 62 of 89...
  • Page 63 Power Ground. HA08_P HA08_N Power Ground. HA12_P HA12_N Power Ground. HA15_P HA15_N Power Ground. HA19_P HA19_N Power Ground. HB02_P HB02_N Power Ground. HB04_P HB04_N Power Ground. HB08_P HB08_N Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 63 of 89...
  • Page 64 Board to Board LA16_P PL_B12_LVDS46_L12P IO, 1.8V PL HD Bank46 IO12 differential positive. Connector 1 Board to Board LA16_N PL_A12_LVDS46_L12N IO, 1.8V PL HD Bank46 IO12 differential negative. Connector 1 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 64 of 89...
  • Page 65 Board to Board LA04_N PL_AE4_LVDS66_L16N_QBC IO, 1.8V PL HP Bank66 IO16 differential negative. Connector 2 Power Ground. Board to Board LA07_P PL_AB4_LVDS66_L17P IO, 1.8V PL HP Bank66 IO17 differential positive. Connector 2 REL1.1 iWave Systems Technologies Pvt. Ltd. Page 65 of 89...
  • Page 66 Ground. LA30_P LA30_N Power Ground. LA32_P LA32_N Power Ground. VADJ VCC_FMC_ADJ O, 1.8V Power 1.8V Supply Voltage. Power Ground. CLK3_BIDIR_P CLK3_BIDIR_N Power Ground. Power Ground. HA03_P HA03_N Power Ground. HA07_P REL1.1 iWave Systems Technologies Pvt. Ltd. Page 66 of 89...
  • Page 67 Power Ground. HB11_P HB11_N Power Ground. HB15_P HB15_N Power Ground. HB18_P HB18_N Power Ground. VIO_B_M2C Power Ground. VREF_B_M2C Power Ground. Power Ground. CLK2_BIDIR_P CLK2_BIDIR_N Power Ground. HA02_P HA02_N Power Ground. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 67 of 89...
  • Page 68 HB14_N Power Ground. HB17_P_CC HB17_N_CC Power Ground. VIO_B_M2C *IO Type of IOs originating from ZU7/5/4 MPSoC is configurable. Hence for exact IO type configuration options, refer Xilinx ZU7/5/4 MPSoC datasheet. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 68 of 89...

  • Page 69: Pmod Host Port Connectors

    Pmod Connectors through Voltage Level Translator. Pmod Host Port Connector1 (J2) and Connector2 (J1) are physically located at the top of the board as shown below. Figure 24: Pmod Host Port Connectors REL1.1 iWave Systems Technologies Pvt. Ltd. Page 69 of 89...

  • Page 70: Table 12: Pmod Connector1 Pin Assignment

    IO, 3V3 LVCMOS General purpose Input Output. PL_Y8_LVDS66_L9N IO, 3V3 LVCMOS General purpose Input Output. PL_W8_LVDS66_L9P IO, 3V3 LVCMOS General purpose Input Output. Power Ground. VCC_3V3 O, 3.3V Power 3V3 Supply Voltage. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 70 of 89...

  • Page 71: Additional Features

    148.5MHz B2B-2 225 pin. OUT9 GTREFCLK1P_226 B2B-2 223 pin. Note: In Zynq Ultrascale+ MPSoC Development board, PL GTH Primary clocks are connected from the dedicated clocks on FMC HPC Connectors. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 71 of 89...

  • Page 72: Figure 25: Clock Tree

    Zynq-Ultrascale+ MPSoC SOM Development Platform Hardware User Guide iW-RainboW-G30D-ZynqUltrascale+MPSoC SOM DevKit Clock Tree PS-REFCLK0 HS_TXVR1_RX_CH5 HS_TXVR1_REFCLK_CH0 GBTCLK0_M2C REFCLK0 PS-REFCLK1 HS_TXVR2_RX_CH5 HS_TXVR1_REFCLK_CH1 REFCLK1 HS_TXVR2_REFCLK_CH0 GBTCLK1_M2C REFCLK0 Clock HS_TXVR2_REFCLK_CH1 REFCLK1 Synthesizer HS_TXVR3_REFCLK_CH0 REFCLK0 OUT0 HS_TXVR4_RX_CH5 REFCLK1 HS_TXVR3_REFCLK_CH1 HS_TXVR2_RX_CH5 OUT2 OUT3 HS_TXVR3_RX_CH5 PCIe_REFCLKP...

  • Page 73: Io Expander

    Connected to H2 pin of FMC Connector 1 (J14). IOEXP_P16_PR_M2C_L2 O, 3.3V CMOS/10K Connected to H2 pin of FMC Connector 2 (J6). IOEXP_P17_PG_M2C1 O, 3.3V CMOS/10K Connected to F1 pin of FMC Connector 1 (J14). REL1.1 iWave Systems Technologies Pvt. Ltd. Page 73 of 89...

  • Page 74: Jtag Connector

    FMC connector. JTAG-HS2/JTAG-HS3 programming cable can be plugged to this JTAG Header for programming and debugging purpose. This JTAG Header (J3) is physically located at the top of the board as shown below. Figure 26: JTAG Connector REL1.1 iWave Systems Technologies Pvt. Ltd. Page 74 of 89...

  • Page 75: Table 16: Jtag Header Pin Assignment

    Power Ground JTAG_TDO O,3V3 LVCMOS/ JTAG test data output. 49.9K PU Power Ground JTAG_TDI I, 3V3 LVCMOS JTAG test data input Power Ground Not Connected Power Ground JTAG_TRSTB Not Connected REL1.1 iWave Systems Technologies Pvt. Ltd. Page 75 of 89...

  • Page 76: Gpio Header

    This Pin is connected to 211 pin of Board to Board Connector1 (J10). PS_I2C0_SDA IO, 1.8V OD/ I2C0 data. 4.7K PU This Pin is connected to 46 pin of Board to Board Connector2 (J11). REL1.1 iWave Systems Technologies Pvt. Ltd. Page 76 of 89...
  • Page 77 SPI Master input Slave output. Same pin can be configured as General Purpose Input/Output if required. This Pin is connected to 67 pin of Board to Board Connector2 (J11). Power Ground Power Ground REL1.1 iWave Systems Technologies Pvt. Ltd. Page 77 of 89...

  • Page 78: I2C Tree

    2.6.5 I2C Tree The Zynq Ultrascale+ MPSoC Carrier board supports I2C through the Zynq Ultrascale+ SoC SOM via the Board to Board Connectors. The Carrier Board I2C tree is shown below. iW-RainboW-G30D-ZynqUltrascale+MPSoC SOM DevKit I2C Block Diagram I2C0_1V8 PMIC Active Chips where...

  • Page 79: Power On/Off Switch

    The Zynq Ultrascale+ MPSoC Carrier Board has power ON/OFF switch (SW2) to control the Main power Input ON/OFF functionality. This power ON/OFF switch is physically located at the top of the board as shown below. Figure 29: Power On/Off Switch REL1.1 iWave Systems Technologies Pvt. Ltd. Page 79 of 89...

  • Page 80: Reset Switch

    CPU. Reset signal from Pin 35 of Board to Board connector2 is directly connected from Reset Push Button switch. This Reset Push button switch (SW1) is physically located at the top of the board as shown below. Figure 30: Reset Switch REL1.1 iWave Systems Technologies Pvt. Ltd. Page 80 of 89...

  • Page 81: Rtc Coin Cell Holder

    Zynq Ultrascale+ MPSoC SOM for RTC back up voltage when VCC main power is off. This Coin Cell Holder (J23) is physically located at the bottom of the board as shown below. Figure 31: RTC Coin Cell Holder REL1.1 iWave Systems Technologies Pvt. Ltd. Page 81 of 89...

  • Page 82: Technical Specification

    Max Input Ripple VCC_12V 11.75V 12.25V ±50mV VRTC_3V0¹ 3.15V ±20mV ¹ The Zynq Ultrascale+ MPSoC DevKit uses this voltage as backup power source to On-SOM PMIC RTC controller when VCC is off. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 82 of 89...

  • Page 83: Power Output Specification

    3.45 100mA VCC_12V 11.75V 12.25V To Pmod Connector1 VCC_3V3 3.15 3.45 500mA To Pmod Connector2 VCC_3V3 3.15 3.45 500mA To GPIO Header VCC_5V 3.15 3.45 500mA VCC_1V8 1.75 1.85 200mA REL1.1 iWave Systems Technologies Pvt. Ltd. Page 83 of 89...

  • Page 84: Environmental Characteristics

    3.3.3 Electrostatic Discharge iWave’s Zynq Ultrascale+ MPSoC Development platform is sensitive to electro static discharge and so high voltages caused by static electricity could damage some of the devices on board. It is packed with necessary protection while shipping.

  • Page 85: Mechanical Characteristics

    Ethernet Connector (15.27mm) and bottom side maximum height component is M.2 SATA Connector (4.20mm). Please refer the below figure for height details of the Zynq Ultrascale+ MPSoC Carrier board. Figure 34: Carrier board Mechanical dimension – Side Views REL1.1 iWave Systems Technologies Pvt. Ltd. Page 85 of 89...

  • Page 86: Guidelines To Insert And Remove The Zynq Ultrascale+ Soc Som With Carrier Board

    To remove the SOM from the Carrier Board, lift the SOM following the procedure as shown in the second photo. Figure 35: Zynq Ultrascale+ SoC SOM Insert and Removal Procedure REL1.1 iWave Systems Technologies Pvt. Ltd. Page 86 of 89...

  • Page 87: Fan Sink Fixing Procedure On Som With Carrier Board

    The Fan Sink fixing procedure for the Zynq Ultrascale+ SOM with Carrier board is as shown in the image below. Figure 36: Zynq Ultrascale+ SOM with Fan Sink fixing procedure REL1.1 iWave Systems Technologies Pvt. Ltd. Page 87 of 89...

  • Page 88: Ordering Information

    ZU4EV (-1) MPSOC SOM Linux Development Platform with iW-G30D-C4EV-4E002G-E008G-LCA Commercial 2GB PS DDR4 with ECC, 1GB FPGA DDR4, 8GB EMMC Note: For Development platform identification purpose, Product part number is pasted as Label with Barcode readable format. REL1.1 iWave Systems Technologies Pvt. Ltd. Page 88 of 89...
  • Page 89 Zynq-Ultrascale+ MPSoC SOM Development Platform Hardware User Guide REL1.1 iWave Systems Technologies Pvt. Ltd. Page 89 of 89...

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