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iWave iW-RainboW-G30D, Hardware User'S Manual

The iWave iW-RainboW-G30D is an innovative product that will enhance your audio experience. To get started quickly, make sure to download the free Quick Start Manual from our website. This comprehensive manual provides step-by-step instructions and troubleshooting tips to ensure you unlock the full potential of your device.

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iWave Systems Technologies Pvt. Ltd. 

Zynq-Ult MPSoC SOM Development Platform Hardware User Guide

 

iW-RainboW-G30D 

Zynq Ult MPSoC SOM 

Development Platform 

Hardware User Guide 

 

 

 

 

 

 

 

 

Summary of Contents for iW-RainboW-G30D

Page 1: ...EL1 1 Page 1 of 89 iWave Systems Technologies Pvt Ltd Zynq Ultrascale MPSoC SOM Development Platform Hardware User Guide iW RainboW G30D Zynq Ultrascale MPSoC SOM Development Platform Hardware User Guide ...

Page 2: ...e Version PROPRIETARY NOTICE This document contains proprietary material for the sole use of the intended recipient s Do not read this document if you are not the intended recipient Any review use distribution or disclosure by others is strictly prohibited If you are not the intended recipient or authorized to receive for the recipient you are hereby notified that any disclosure copying distributi...

Page 3: ... the silicon errata and associated issues Trademarks All registered trademarks product names mentioned in this publication are the property of their respective owners and used for identification purposes only Certification iWave Systems Technologies Pvt Ltd is an ISO 9001 2015 Certified Company Warranty RMA Warranty support for Hardware 1 Year from iWave or iWave s EMS partner For warranty terms g...

Page 4: ...nsceivers 16 2 4 1 1 PCIe x4 Connector 18 2 4 1 2 Display Port Connector 21 2 4 1 3 USB Type C Connector 23 2 4 1 4 M 2 SATA Connector 26 2 4 2 Gigabit Ethernet Port1 29 2 4 3 Gigabit Ethernet Port2 30 2 4 4 USB2 0 OTG Port 31 2 4 5 Standard SD Port 32 2 4 6 CAN0 Header 33 2 4 7 Debug UART 34 2 5 PL Interface Features 35 2 5 1 GTH High Speed Transceivers 35 2 5 1 1 SFP Connector 36 2 5 1 2 SDI Vid...

Page 5: ...pecification 83 3 3 Environmental Characteristics 84 3 3 1 Environmental Specification 84 3 3 2 RoHS Compliance 84 3 3 3 Electrostatic Discharge 84 3 4 Mechanical Characteristics 85 3 4 1 Carrier Board Mechanical Dimensions 85 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 4 ORDERING INFORMATION 8...

Page 6: ... CAN0 Header 33 Figure 15 Debug UART Connector 34 Figure 16 GTH Transceiver Connections 35 Figure 17 SFP Connector with Cage 36 Figure 18 SDI Video IN HD BNC Connector 38 Figure 19 SDI Video OUT HD BNC Connector 39 Figure 20 FMC Connector1 40 Figure 21 FMC HPC Connector1 Pin Out 41 Figure 22 FMC Connector2 55 Figure 23 FMC HPC Connector2 Pin Out 56 Figure 24 Pmod Host Port Connectors 69 Figure 25 ...

Page 7: ...tor Pin Assignment 27 Table 8 CAN0 Header Pin Assignment 33 Table 9 SFP Connector Pin Assignment 37 Table 10 FMC HPC Connector1 Pin Assignment 42 Table 11 FMC HPC Connector2 Pin Assignment 57 Table 12 Pmod Connector1 Pin Assignment 70 Table 13 Pmod Connector2 Pin Assignment 70 Table 14 Clock Synthesizer Output Clocks 71 Table 15 IO Expander pinout details 73 Table 16 JTAG Header Pin Assignment 75 ...

Page 8: ...C 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 1 3 List of Acronyms The following acrony...

Page 9: ...onent Interconnect Express PD Pull Down PMOD Peripheral Module PTH Plated Through Hole PU Pull Up RGMII Reduced Gigabit Media Independent Interface RX Receiver SATA Serial Advanced Technology Attachment SDI Serial Digital Interface SDIO Secure Digital Input Output SDHI SD Card Host Interface SFP Small Form factor Pluggable SOM System On Module TXVR Transceiver TX Transmitter UART Universal Asynchr...

Page 10: ...onal Input output Signal CMOS Complementary Metal Oxide Semiconductor Signal DIFF Differential Signal OD Open Drain Signal OC Open Collector Signal Analog Analog Signal Power Power Pin PU Pull Up PD Pull Down NA Not Applicable NC Not Connected 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 o...

Page 11: ...r CAN x 1 CAN 14Pin JTAG Header JTAG RJ45 Magjack1 Gigabit Ethernet RJ45 Magjack2 Ethernet PHY Gigabit Ethernet RGMII GTH High Speed Transceivers x 8channels FPGA IOs up to 20LVDS FPGA CLKIN 4pairs FPGA CLKOUT 2pairs FMC Connector2 FPGA IOs up to 15LVDS FPGA CLKIN 2pairs FPGA CLKOUT 1pair To Transceiver Banks SFP Connector Clock Generator SDI Video In BNC Jack SDI Video Out BNC Jack USB TypeC Conn...

Page 12: ...Jack GEM3 x 1 USB2 0 OTG through MicroAB Connector x 1 Standard SD Connector x 1 CAN Header x 1 Debug UART through USB MicroAB Connector x 1 PL Interface Features SFP Connector x 1 SDI Video IN through HD BNC Connector x 1 SDI Video OUT through HD BNC Connector x 1 FMC High Pin Count HPC Connector1 8 GTH High Speed Transceivers 2 GTH Reference Clock Upto 20 LVDS IOs 40 Single ended SE IOs Upto 20 ...

Page 13: ...form Hardware User Guide Additional Features Clock Synthesizer Generator 16 Bit IO Expander JTAG Connector x 1 20 Pin GPIO Header x 1 Power ON OFF DIP Switch x 1 Reset Pushbutton Switch x 1 RTC Coin Cell Holder x 1 General Specification Power Supply DC 12V 5A Power Input Jack Form Factor 130mmX140mm ...

Page 14: ...or Zynq Ultrascale MPSoC SOM attachment This 240 pin Board to Board connector is capable of handling high speed serialized signals and can be used for size constrained embedded applications 2 3 1 Board to Board Connector1 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 Hardw...

Page 15: ...ent Platform Hardware User Guide 2 3 2 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 ...

Page 16: ...o from B2B 1 and two from B2B 2 Each PS GTR lane is conencted to High speed MUX DEMUX IC to support different high speed interfaces as mentioned below o x1 x2 or x4 lane of PCIe at Gen1 2 5Gb s or Gen2 5 0Gb s rates o 1 or 2 lanes of DisplayPort TX only at 1 62Gb s 2 7Gb s or 5 4Gb s o 1 SATA port at 1 5Gb s 3 0Gb s or 6 0Gb s o 1 USB3 0 port at 5 0Gb s The MUX DEMUX connection and interface selec...

Page 17: ...ion ON OFF Lane0 Bit1 PS GTR Lane0 is connected to Lane0 of PCIe x4 connector default PS GTR Lane0 is connected to Lane1 of DP connector Lane1 Bit2 PS GTR Lane1 is connected to Lane1 of PCIe x4 connector PS GTR Lane1 is connected to Lane0 of DP connector default Lane2 Bit3 PS GTR Lane2 is connected to Lane2 of PCIe x4 connector PS GTR Lane2 is connected to Lane1 of USB3 0 TypeC connector default L...

Page 18: ...R lanes from Board to Board Connectors are connected to PCIe x4 connector to support x1 x2 x4 PCIe devices The PS GTR Lane selection to PCIe x4 connector is done through PS GTR Lane Selection Switch SW5 The Carrier board provides 100MHz reference clock to PCIe x4 connector from on board Clock Synthesizer This PCIe x4 connector J19 is physically located at the top of the board as shown below Note F...

Page 19: ...05 I DIFF PCIe Lane0 Receive pair positive A17 PERn0 PS_MGTRRXN0_505 I DIFF PCIe Lane0 Receive pair negative A18 GND GND Power Ground A19 RSVD NA NA NC A20 GND GND Power Ground A21 PERp1 PS_MGTRRXP1_505 NA PCIe Lane1 Receive pair positive A22 PERn1 PS_MGTRRXN1_505 NA PCIe Lane1 Receive pair negative A23 GND GND Power Ground A24 GND GND Power Ground A25 PERp2 PS_MGTRRXP2_505 NA PCIe Lane2 Receive p...

Page 20: ...ne0 Transmit pair negative B16 GND GND Power Ground B17 PRSNT2 NA NA NC B18 GND GND Power Ground B19 PETp1 PS_MGTRTXP1_505 NA PCIe Lane1 Transmit pair positive B20 PETn1 PS_MGTRTXN1_505 NA PCIe Lane1 Transmit pair negative B21 GND GND Power Ground B22 GND GND Power Ground B23 PETp2 PS_MGTRTXP2_505 NA PCIe Lane2 Transmit pair positive B24 PETn2 PS_MGTRTXN2_505 NA PCIe Lane2 Transmit pair negative B...

Page 21: ...ctor1 is connected to Display Port connector to support single or dual lane display port The PS GTR Lane selection to Display port connector is done through PS GTR Lane Selection Switch SW5 The Display port connector supports AUX AUX signals from the PL Bank IOs Also it supports Hot plug detect signal and connected to PL Bank IO This Display Port connector J13 is physically located at the top of t...

Page 22: ... Display Port Lane1 Transmit pair positive 5 GND GND Power Ground 6 DP_L1 PS_MGTRTXN0_505 O DIFF Display Port Lane1 Transmit pair negative 7 DP_L2 NA NA NC 8 GND GND Power Ground 9 DP_L2 NA NA NC 10 DP_L3 NA NA NC 11 GND GND Power Ground 12 DP_L3 NA NA NC 13 CONFIG1 NA 1M PD Configuration Pin 14 CONFIG2 NA 1M PD Configuration Pin 15 AUX_CH PL_Y10_LVDS66_L6P IO DIFF 100K PD Auxiliary channel positi...

Page 23: ...m Board to Board Connector1 pin70 Also USB2 0 OTG interface of MPSoC PS is connected to USB Type C connector for backward compatible USB2 0 support The USB2 0 PHY Transceiver output signals from Board to Board connector2 is connected to FUSB340 USB Switchfor selecting the USB2 0OTG conenctionbetween USB2 0MicroAB connector J8 and USB3 0 Type C connector J20 The selection can be done by setting the...

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

Page 25: ...S VBUS_USB3 0 Power 5V Power Supply A10 SSRXn2 PS_MGTRRXN2_505 I DIFF USB3 0 Super Speed Receive Data Negative A11 SSRXp2 PS_MGTRRXP2_505 I DIFF USB3 0 Super Speed Receive Data Positive A12 GND GND Power Ground B1 GND GND Power Ground B2 SSTXp2 PS_MGTRTXP2_505 O DIFF USB3 0 Super Speed Transmit Data Positive B3 SSTXn2 PS_MGTRTXN2_505 O DIFF USB3 0 Super Speed Transmit Data Negative B4 VBUS VBUS_US...

Page 26: ...R3 Lane of Zynq Ultrascale MPSoC PS is used for SATA interface MPSoC s SATA supports SATA Specification revision 3 1 with Gen1 1 5Gbps Gen2 3Gbps Gen3 6Gbps datarates The PS GTR Lane selection to M 2 SATA connector is done through 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 t...

Page 27: ...V3 O 3 3V Power Supply Voltage 13 PETp3 NA NA NC 14 3 3V VCC_3V3 O 3 3V Power Supply Voltage 15 GND GND Power Ground 16 3 3V VCC_3V3 O 3 3V Power Supply Voltage 17 PERn2 NA NA NC 18 3 3V VCC_3V3 O 3 3V Power Supply Voltage 19 PERp2 NA NA NC 20 N A3 NA NA NC 21 CONFIG_0 NA NA This pin is connected to Ground 22 N A4 NA NA NC 23 PETn2 NA NA NC 24 N A5 NA NA NC 25 PETp2 NA NA NC 26 N A6 NA NA NC 27 GN...

Page 28: ...O DIFF SATA Transmit pair positive 50 PERST NA NA NC 51 GND GND Power Ground 52 CLKREQ NA NA NC 53 REFCLKN NA NA NC 54 PEWAKE NA NA NC 55 REFCLKP NA NA NC 56 MFG1 NA NA NC 57 GND GND Power Ground 58 MFG2 NA NA NC 59 M1 NA NA NC 60 M2 NA NA NC 61 M3 NA NA NC 62 M4 NA NA NC 63 M5 NA NA NC 64 M6 NA NA NC 65 M7 NA NA NC 66 M8 NA NA NC 67 N A17 NA NA NC 68 SUSCLK NA NA NC 69 CONFIG_1 NA NA This pin is ...

Page 29: ...thernet ports First Ethernet port is supported through GEM0 interface of Zynq Ultrascale MPSoC PS Ethernet PHY output signals from Board to Board connector2 is directly connected to 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...

Page 30: ...n Carrier Board through Board to Board Connector1 This PHY is interfaced with GEM3 interface of MPSoC s PS through MIO pins and works at 1 8V IO voltage level The Gigabit Ethernet PHY also supports MDC MDIO Reset and Interrupt Signals for control These signals are used through PL Bank EMIO pins from Board to Board Connector1 pins 124 126 92 94 respectively Ethernet PHY output is directly connected...

Page 31: ...tch SW4 If the DIP switch SW4 is set to ON USB2 0 OTG is connected to MicroAB connector J8 and if the DIP switch SW4 is set to OFF USB2 0 OTG is connected to USB3 0 TypeC connector J20 The USB2 0 OTG port can be used as full functional OTG functionality which supports USB2 0 host and USB2 0 device based on USB ID pin status The VBUS power of this USB2 0 MicroAB connector is connected through curre...

Page 32: ...oltage level translator to support both 1 8V and 3 3V supported cards It supports up to 4 Bit data transfer with card detect and write protect The memory card voltage level translator s voltage selection is controlled through PS GPIO PS_MIO43_501 pin from Board to Board Connector2 pin44 If PS_MIO43_501 is set to low then 3 3V IO level is selected for SD1 signals to SD connector If PS_MIO43_501 is ...

Page 33: ... transceiver is controlled through PL Bank IO PL_D12_LVDS46_L9P from Board to Board Connector1 Pin74 This CAN Header is physically located at the top of the board as shown below Number of Pins 6 Connector Part 53047 0610 from Molex Mating Connector 0510210600 from Molex with crimping pins Figure 14 CAN0 Header Table 8 CAN0 Header Pin Assignment Pin No Pin Name Signal Type Termination Description 1...

Page 34: ...ebug interface through UART0 interface of Zynq Ultrascale MPSoC PS This UART0 signals from Board to Board Connector2 is connected to UART to USB Convertor FT232RQ 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 ...

Page 35: ...lained in the following section 2 5 1 GTH High Speed Transceivers The Zynq Ultrascale MPSoC Carrier board supports different high speed interfaces through 16 GTH Transceivers 12 from B2B 1 and 4 from B2B 2 as mentioned below o 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 Tr...

Page 36: ...rough GTH transceiver of Zynq Ultrascale MPSoC PL GTH transceiver of PL Bank226 Channel2 from Board to Board Connector2 is connected to 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 Conn...

Page 37: ...Expander Port 2 for software access if required 7 RS0 IOEXP_P04_SFP_RS0 O 3 3V CMOS 4 7K PU Rate select 0 This Pin is connected to IO Expander Port 4 for software control if required 8 RX_LOS IOEXP_P01_SFP_RX_LOS I 3 3V CMOS 4 7K PU Receiver loss of signal indication This Pin is connected to IO Expander Port 1 for software access if required 9 RS1 IOEXP_P03_SFP_RS1 O 3 3V CMOS 4 7K PU Rate select ...

Page 38: ...o Board Connector2 The Zynq Ultrascale MPSoC Carrier board supports Video Input Lock status LED D11 for presence and absence of the Video Input signal on HD BNC connector J22 This LED will glow when the Video Input signal is detected on HD BNC connector J22 Also PS I2C0 is connected to Adaptive Cable Equalizer chip for control and configuration with I2C address 0x2D SDI Video IN HD BNC connector J...

Page 39: ...then connected to HD BNC Connector J21 for Video out The Zynq Ultrascale MPSoC Carrier board supports Video Output Lock status LED D10 This LED will glow when the video signal from MPSoC GTH transmitter is detected on Cable Driver chip Also PS I2C0 is connected to Cable Driver chip for control and configuration with I2C address 0x30 SDI Video OUT HD BNC connector J21 is physically located at the t...

Page 40: ...FMC HPC connectors can accept two Single width FMC modules or one double width FMC module The FMC HPC Connector1 J14 supports the below mentioned interface from Zynq Ultrascale MPSoC 8 GTH High Speed Transceivers 2 GTH Reference Clock to SoC 20 LVDS IOs 40 Single ended SE IOs 20 Single ended SE IOs 4 Clock Input Capable LVDS SE pins 2 Clock Output Capable LVDS SE pins This 400Pin FMC HPC Connector...

Page 41: ...e 41 of 89 iWave Systems Technologies Pvt Ltd 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 ...

Page 42: ...Connector 1 51 GTHRXP3_223 223 P2 I DIFF GTH Bank223 channel3 High speed differential receiver positive 11 A11 DP3_M2C_N Board to Board Connector 1 49 GTHRXN3_223 223 P1 I DIFF GTH Bank223 channel3 High speed differential receiver negative 12 A12 GND NA NA GND NA NA Power Ground 12 A13 GND NA NA GND NA NA Power Ground 14 A14 DP4_M2C_P Board to Board Connector 1 117 GTHRXP0_224 223 N4 I DIFF GTH Ba...

Page 43: ...H Bank224 channel0 High speed differential transmitter positive 35 A35 DP4_C2M_N Board to Board Connector 1 99 GTHTXN0_224 224 P5 O DIFF GTH Bank224 channel0 High speed differential transmitter negative 36 A36 GND NA NA GND NA NA Power Ground 37 A37 GND NA NA GND NA NA Power Ground 38 A38 DP5_C2M_P Board to Board Connector 1 103 GTHTXP1_224 224 M6 O DIFF GTH Bank224 channel1 High speed differentia...

Page 44: ...A NA NC 66 B26 GND NA NA GND NA NA Power Ground 67 B27 GND NA NA GND NA NA Power Ground 68 B28 DP8_C2M_P NA NA NA NA NA NA NC 69 B29 DP8_C2M_N NA NA NA NA NA NA NC 70 B30 GND NA NA GND NA NA Power Ground 71 B31 GND NA NA GND NA NA Power Ground 72 B32 DP7_C2M_P Board to Board Connector 1 129 GTHTXP3_224 224 K6 O DIFF GTH Bank224 channel3 High speed differential transmitter positive 73 B33 DP7_C2M_N...

Page 45: ...ositive 95 C15 LA10_N Board to Board Connector 2 149 PL_AF18_LVDS64_L2 4N 64 AF18 IO 1 8V PL HP Bank64 IO24 differential negative 96 C16 GND NA NA GND NA NA Power Ground 97 C17 GND NA NA GND NA NA Power Ground 98 C18 LA14_P Board to Board Connector 2 156 PL_AJ14_LVDS64_L9 P 64 AJ14 IO 1 8V PL HP Bank64 IO9 differential positive 99 C19 LA14_N Board to Board Connector 2 158 PL_AK14_LVDS64_L9 N 64 AK...

Page 46: ... GTH Bank223 differential reference clock0 negative 126 D6 GND NA NA GND NA NA Power Ground 127 D7 GND NA NA GND NA NA Power Ground 128 D8 LA01_P_CC Board to Board Connector 2 176 PL_AG14_LVDS64_L1 1P_GC 64 AG14 IO 1 8V PL HP Bank64 IO11 differential positive 129 D9 LA01_N_CC Board to Board Connector 2 178 PL_AH14_LVDS64_L1 1N_GC 64 AH14 IO 1 8V PL HP Bank64 IO11 differential negative 130 D10 GND ...

Page 47: ...tor 2 27 PS_JTAG_TDO 503 L20 I 3 3V CMOS JTAG Test Data Output 151 D31 TDO Board to Board Connector 2 33 PS_JTAG_TDI 503 M20 O 3 3V CMOS JTAG Test Data Input 152 D32 3P3VAUX NA NA 3V3_AUX1 NA NA O 3 3V Power Auxiliary Supply Voltage 153 D33 TMS Board to Board Connector 2 29 PS_JTAG_TMS 503 L21 I 3 3V CMOS JTAG Test Mode Select 154 D34 TRST_L Board to Board Connector 2 25 PS_JTAG_TRST NA NA I 3 3V ...

Page 48: ...194 E34 HB19_N NA NA NA NA NA NA NC 195 E35 GND NA NA GND NA NA Power Ground 196 E36 HB21_P NA NA NA NA NA NA NC 197 E37 HB21_N NA NA NA NA NA NA NC 198 E38 GND NA NA GND NA NA Power Ground 199 E39 VADJ NA NA VCC_FMC_ADJ NA NA O 1 8V Power 1 8V Supply Voltage 200 E40 GND NA NA GND NA NA Power Ground 201 F1 PG_M2C NA NA IOEXP_P17_PG_M2C 1 NA NA O 3 3V 10K PU Power Good Signal from FMC Module to Car...

Page 49: ...NA NA NA NA NA NA NC 235 F35 HB16_N NA NA NA NA NA NA NC 236 F36 GND NA NA GND NA NA Power Ground 237 F37 HB20_P NA NA NA NA NA NA NC 238 F38 HB20_N NA NA NA NA NA NA NC 239 F39 GND NA NA GND NA NA Power Ground 240 F40 VADJ NA NA VCC_FMC_ADJ NA NA O 1 8V Power 1 8V Supply Voltage 241 G1 GND NA NA GND NA NA Power Ground 242 G2 CLK1_M2C_P Board to Board Connector 2 169 PL_AD17_LVDS64_L1 4P_GC 64 AD1...

Page 50: ...4_LVDS64_L3 N 64 AD14 IO 1 8V PL HP Bank64 IO3 differential negative 263 G23 GND NA NA GND NA NA Power Ground 264 G24 LA22_P Board to Board Connector 2 183 PL_AG13_LVDS64_L7 P_QBC 64 AG13 IO 1 8V PL HP Bank64 IO7 differential positive 265 G25 LA22_N Board to Board Connector 2 181 PL_AH13_LVDS64_L7 N_QBC 64 AH13 IO 1 8V PL HP Bank64 IO7 differential negative 266 G26 GND NA NA GND NA NA Power Ground...

Page 51: ...ower Ground 293 H13 LA07_P Board to Board Connector 2 151 PL_AH17_LVDS64_L2 1P 64 AH17 IO 1 8V PL HP Bank64 IO21 differential positive 294 H14 LA07_N Board to Board Connector 2 153 PL_AJ17_LVDS64_L2 1N 64 AJ17 IO 1 8V PL HP Bank64 IO21 differential negative 295 H15 GND NA NA GND NA NA Power Ground 296 H16 LA11_P Board to Board Connector 2 163 PL_AA13_LVDS64_L1 P_DBC 64 AA13 IO 1 8V PL HP Bank64 IO...

Page 52: ... PL HD Bank45 IO12 differential negative 316 H36 GND NA NA GND NA NA Power Ground 317 H37 LA32_P Board to Board Connector 1 16 PL_C17_LVDS45_L10 P 45 C17 IO 1 8V PL HD Bank45 IO10 differential positive 318 H38 LA32_N Board to Board Connector 1 18 PL_B16_LVDS45_L10 N 45 B16 IO 1 8V PL HD Bank45 IO10 differential negative 319 H39 GND NA NA GND NA NA Power Ground 320 H40 VADJ NA NA VCC_FMC_ADJ NA NA ...

Page 53: ... J34 HB15_N NA NA NA NA NA NA NC 355 J35 GND NA NA GND NA NA Power Ground 356 J36 HB18_P NA NA NA NA NA NA NC 357 J37 HB18_N NA NA NA NA NA NA NC 358 J38 GND NA NA GND NA NA Power Ground 359 J39 VIO_B_M2C NA NA NA NA NA NA NC 360 J40 GND NA NA GND NA NA Power Ground 361 K1 VREF_B_M2C NA NA NA NA NA NA NC 362 K2 GND NA NA GND NA NA Power Ground 363 K3 GND NA NA GND NA NA Power Ground 364 K4 CLK2_BI...

Page 54: ... NC 386 K26 HB00_N_CC NA NA NA NA NA NA NC 387 K27 GND NA NA GND NA NA Power Ground 388 K28 HB06_P_CC NA NA NA NA NA NA NC 389 K29 HB06_N_CC NA NA NA NA NA NA NC 390 K30 GND NA NA GND NA NA Power Ground 391 K31 HB10_P NA NA NA NA NA NA NC 392 K32 HB10_N NA NA NA NA NA NA NC 393 K33 GND NA NA GND NA NA Power Ground 394 K34 HB14_P NA NA NA NA NA NA NC 395 K35 HB14_N NA NA NA NA NA NA NC 396 K36 GND ...

Page 55: ... FMC HPC connectors can accept two Single width FMC modules or one double width FMC module The FMC HPC Connector2 J6 supports the below mentioned interface from Zynq Ultrascale MPSoC 6 GTH High Speed Transceivers 2 GTH Reference Clock Capable 15 LVDS IOs 30 Single ended SE IOs 4 Single ended SE IOs 2 Clock Input Capable LVDS SE pins 1 Clock Output Capable LVDS SE pins This 400Pin FMC HPC Connector...

Page 56: ...ge 56 of 89 iWave Systems Technologies Pvt Ltd 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 ...

Page 57: ...eed differential receiver positive 11 A11 DP3_M2C_N Board to Board Connector 1 229 GTHRXN3_225 225 E3 I DIFF GTH Bank225 channel3 High speed differential receiver negative 12 A12 GND NA NA GND NA NA Power Ground 12 A13 GND NA NA GND NA NA Power Ground 14 A14 DP4_M2C_P Board to Board Connector 2 187 GTHRXP0_226 226 D2 I DIFF GTH Bank226 channel0 High speed differential receiver positive 15 A15 DP4_...

Page 58: ...smitter positive 35 A35 DP4_C2M_N Board to Board Connector 2 195 GTHTXN0_226 226 D5 O DIFF GTH Bank226 channel0 High speed differential transmitter negative 36 A36 GND NA NA GND NA NA Power Ground 37 A37 GND NA NA GND NA NA Power Ground 38 A38 DP5_C2M_P Board to Board Connector 2 205 GTHTXP1_226 226 C8 O DIFF GTH Bank226 channel1 High speed differential transmitter positive 39 A39 DP5_C2M_N Board ...

Page 59: ...A NA NA NA NC 74 B34 GND NA NA GND NA NA Power Ground 75 B35 GND NA NA GND NA NA Power Ground 76 B36 DP6_C2M_P NA NA NA NA NA NA NC 77 B37 DP6_C2M_N NA NA NA NA NA NA NC 78 B38 GND NA NA GND NA NA Power Ground 79 B39 GND NA NA GND NA NA Power Ground 80 B40 RES0 NA NA NA NA NA NA NC 81 C1 GND NA NA GND NA NA Power Ground 82 C2 DP0_C2M_P Board to Board Connector 1 183 GTHTXP0_225 225 H6 O DIFF GTH B...

Page 60: ...ND NA NA Power Ground 105 C25 GND NA NA GND NA NA Power Ground 106 C26 LA27_P Board to Board Connector 1 24 PL_E15_LVDS45_L8P_HDGC 45 E15 I 1 8V PL HD Bank45 IO8 differential positive 107 C27 LA27_N Board to Board Connector 1 22 PL_D15_LVDS45_L8N_HDGC 45 D15 I 1 8V PL HD Bank45 IO8 differential negative 108 C28 GND NA NA GND NA NA Power Ground 109 C29 GND NA NA GND NA NA Power Ground 110 C30 SCL B...

Page 61: ... LA09_P Board to Board Connector 2 103 PL_AC12_LVDS66_L1P_DBC 66 AC12 IO 1 8V PL HP Bank66 IO1 differential positive 135 D15 LA09_N Board to Board Connector 2 105 PL_AD12_LVDS66_L1N_DBC 66 AD12 IO 1 8V PL HP Bank66 IO1 differential negative 136 D16 GND NA NA GND NA NA Power Ground 137 D17 LA13_P Board to Board Connector 1 144 PL_D14_LVDS46_L8P_HDGC 46 D14 IO 1 8V PL HD Bank46 IO8 differential posi...

Page 62: ..._P_CC NA NA NA NA NA NA NC 163 E3 HA01_N_CC NA NA NA NA NA NA NC 164 E4 GND NA NA GND NA NA Power Ground 165 E5 GND NA NA GND NA NA Power Ground 166 E6 HA05_P NA NA NA NA NA NA NC 167 E7 HA05_N NA NA NA NA NA NA NC 168 E8 GND NA NA GND NA NA Power Ground 169 E9 HA09_P NA NA NA NA NA NA NC 170 E10 HA09_N NA NA NA NA NA NA NC 171 E11 GND NA NA GND NA NA Power Ground 172 E12 HA13_P NA NA NA NA NA NA ...

Page 63: ... NA GND NA NA Power Ground 203 F3 GND NA NA GND NA NA Power Ground 204 F4 HA00_P_CC NA NA NA NA NA NA NC 205 F5 HA00_N_CC NA NA NA NA NA NA NC 206 F6 GND NA NA GND NA NA Power Ground 207 F7 HA04_P NA NA NA NA NA NA NC 208 F8 HA04_N NA NA NA NA NA NA NC 209 F9 GND NA NA GND NA NA Power Ground 210 F10 HA08_P NA NA NA NA NA NA NC 211 F11 HA08_N NA NA NA NA NA NA NC 212 F12 GND NA NA GND NA NA Power G...

Page 64: ...P_CC Board to Board Connector 2 115 PL_AD7_LVDS66_L13P_GC 66 AD7 IO 1 8V PL HP Bank66 IO13 differential positive 247 G7 LA00_N_CC Board to Board Connector 2 117 PL_AE7_LVDS66_L13N_GC 66 AE7 IO 1 8V PL HP Bank66 IO13 differential negative 248 G8 GND NA NA GND NA NA Power Ground 249 G9 LA03_P Board to Board Connector 2 100 PL_AC9_LVDS66_L7P_QBC 66 AC9 IO 1 8V PL HP Bank66 IO7 differential positive 2...

Page 65: ...36 LA33_P NA NA NA NA NA NA NC 277 G37 LA33_N NA NA NA NA NA NA NC 278 G38 GND NA NA GND NA NA Power Ground 279 G39 VADJ NA NA VCC_FMC_ADJ NA NA O 1 8V Power 1 8V Supply Voltage 280 G40 GND NA NA GND NA NA Power Ground 281 H1 VREF_A_M2C NA NA NA NA NA NA NC 282 H2 PRSNT_M2C_L NA NA IOEXP_P06_PG_M2C2 NA NA I 3 3V CMOS 10K PU Module Preset Signal 283 H3 GND NA NA GND NA NA Power Ground 284 H4 CLK0_M...

Page 66: ...VDS46_L11N 46 A13 IO 1 8V PL HD Bank46 IO11 differential negative 301 H21 GND NA NA GND NA NA Power Ground 302 H22 LA19_P NA NA NA NA NA NA NC 303 H23 LA19_N NA NA NA NA NA NA NC 304 H24 GND NA NA GND NA NA Power Ground 305 H25 LA21_P NA NA NA NA NA NA NC 306 H26 LA21_N NA NA NA NA NA NA NC 307 H27 GND NA NA GND NA NA Power Ground 308 H28 LA24_P NA NA NA NA NA NA NC 309 H29 LA24_N NA NA NA NA NA N...

Page 67: ...NA NA NA NA NA NC 343 J23 GND NA NA GND NA NA Power Ground 344 J24 HB01_P NA NA NA NA NA NA NC 345 J25 HB01_N NA NA NA NA NA NA NC 346 J26 GND NA NA GND NA NA Power Ground 347 J27 HB07_P NA NA NA NA NA NA NC 348 J28 HB07_N NA NA NA NA NA NA NC 349 J29 GND NA NA GND NA NA Power Ground 350 J30 HB11_P NA NA NA NA NA NA NC 351 J31 HB11_N NA NA NA NA NA NA NC 352 J32 GND NA NA GND NA NA Power Ground 35...

Page 68: ... NC 380 K20 HA21_N NA NA NA NA NA NA NC 381 K21 GND NA NA GND NA NA Power Ground 382 K22 HA23_P NA NA NA NA NA NA NC 383 K23 HA23_N NA NA NA NA NA NA NC 384 K24 GND NA NA GND NA NA Power Ground 385 K25 HB00_P_CC NA NA NA NA NA NA NC 386 K26 HB00_N_CC NA NA NA NA NA NA NC 387 K27 GND NA NA GND NA NA Power Ground 388 K28 HB06_P_CC NA NA NA NA NA NA NC 389 K29 HB06_N_CC NA NA NA NA NA NA NC 390 K30 G...

Page 69: ... controller boards There are twelve pin of the interface defined encompassing SPI I C UART I2S and GPIO protocols The Zynq Ultrascale MPSoC Carrier board supports two 12pin Pmod host port connector for plugging Pmod modules Since the Pmod interface specification requires 3 3V IO level the signals from Board to Board connector is connected to Pmod Connectors through Voltage Level Translator Pmod Ho...

Page 70: ...General purpose Input Output 10 PL_AC1_LVDS66_L23N IO 3V3 LVCMOS General purpose Input Output 11 GND Power Ground 12 VCC_3V3 O 3 3V Power 3V3 Supply Voltage Table 13 Pmod Connector2 Pin Assignment Pin No Signal Name Signal Type Termination Description 1 PL_AB9_LVDS66_L5N IO 3V3 LVCMOS General purpose Input Output 2 PL_AB10_LVDS66_L5P IO 3V3 LVCMOS General purpose Input Output 3 PL_AA3_LVDS66_L22P_...

Page 71: ...3 OUT0b PS_MGTREFCLK3N_505 125MHz B2B 2 220th pin 24 OUT0 PS_MGTREFCLK3P_505 B2B 2 218th pin 30 OUT2b PS_MGTREFCLK1N_505 27MHz B21 2 169th pin 31 OUT2 PS_MGTREFCLK1P_505 B2B 1 171th pin 34 OUT3b PS_MGTREFCLK2N_505 52MHz B2B 2 232th pin 35 OUT3 PS_MGTREFCLK2P_505 B2B 2 230th pin 37 OUT4b PCIe_REFCLKP 100MHz PCIe x4 connector A14th pin 38 OUT4 PCIe_REFCLKP PCIe x4 connector A13th pin 41 OUT5b PS_MGT...

Page 72: ...TXVR2_REFCLK_CH1 HS_TXVR3_REFCLK_CH1 HS_TXVR4_REFCLK_CH1 HS_TXVR4_RX_CH5 GTH Bank 223 REFCLK0 REFCLK1 GTH Bank 224 Board to Board Connector 2 HS_TXVR3_RX_CH5 HS_TXVR2_RX_CH5 Board to Board Connector 1 PS REFCLK1 GTR Bank 505 HS_TXVR1_RX_CH5 PCIe x4 Connector PCIe_REFCLKP REFCLK0 REFCLK1 GTH Bank 225 HS_TXVR3_REFCLK_CH0 HS_TXVR3_REFCLK_CH1 HS_TXVR2_REFCLK_CH0 HS_TXVR1_REFCLK_CH1 HS_TXVR2_REFCLK_CH1...

Page 73: ...Connector 7 P03 IOEXP_P03_SFP_RS1 I 3 3V CMOS 4 7K PU Connected to SFP Connector 8 P04 IOEXP_P04_SFP_RS0 O 3 3V CMOS 4 7K PU Connected to SFP Connector 9 P05 IOEXP_P05_SFP_TDIS O 3 3V CMOS 4 7K PD Connected to SFP Connector 10 P06 IOEXP_P06_PG_M2C2 O 3 3V CMOS Connected to F1 pin of FMC Connector 2 J6 11 P07 IOEXP_P07_SDI_IN_CD_INT I 3 3V CMOS Connected to 27th pin of SDI Video IN Equalizer 13 P10...

Page 74: ...ltrascale MPSoC Carrier board for debug purpose JTAG signals from Board to Board connector2 is directly connected to JTAG Header J3 and same JTAG signals are also connected to 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 Conne...

Page 75: ...t Connected 2 VCC_3V3 O 3 3V Power 3V3 Supply Voltage 3 GND Power Ground 4 JTAG_TMS I 3V3 LVCMOS 49 9K PU JTAG test mode select 5 GND Power Ground 6 JTAG_TCK I 3V3 LVCMOS 49 9K PU JTAG test Clock 7 GND Power Ground 8 JTAG_TDO O 3V3 LVCMOS 49 9K PU JTAG test data output 9 GND Power Ground 10 JTAG_TDI I 3V3 LVCMOS JTAG test data input 11 GND Power Ground 12 NC Not Connected 13 GND Power Ground 14 JT...

Page 76: ...Header J7 is physically located at the top of the board as shown below Figure 27 GPIO Header Table 17 GPIO Header Pin Assignment Pin No Signal Name Signal Type Termination Description 1 VCC_1V8 O 1 8V Power 1V8 Supply Voltage 2 VCC_5V O 5V Power 5V Supply Voltage 3 CAN1_RX PS_MIO41_501 I 1 8V LVCMOS CAN1 Receive data Same pin can be configured as General Purpose Input Output if required This Pinis...

Page 77: ...of Board to Board Connector2 J11 9 NC NA NC 10 PS_UART1_RX I 1 8V LVCMOS UART1 Receive data line Same pin can be configured as General Purpose Input Output if required This Pin is connected to 52nd pin of Board to Board Connector2 J11 11 GND Power Ground 12 GND Power Ground 13 PS_SPI0_CLK O 1 8V LVCMOS SPI Clock output Same pin can be configured as General Purpose Input Output if required This Pin...

Page 78: ...n below B2B 2 1V8 to 3V3 LEVEL SHIFTER SDI OUT DRIVER 0x30 USB Type C CONTROL 0x22 CLOCK SYNTHESIZER 0x76 SDI IN EQUALIZER 0x2D SFP 0x50 I2C0_3V3 iW RainboW G30D ZynqUltrascale MPSoC SOM DevKit I2C Block Diagram Zynq Ultra Scale SoC FPGA PMIC 0x58 I2C0_1V8 20 PIN GPIO HEADER 1 8V Connectors where I2C is connected Active Chips where I2C is connected Note 7 bit I2C addressing used I2C0_DATA I2C0_CLK...

Page 79: ...t Platform Hardware User Guide 2 6 6 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 ...

Page 80: ...itch The Zynq Ultrascale MPSoC Carrier board supports Push button switch SW1 to reset the Zynq Ultrascale MPSoC 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 ...

Page 81: ...Holder The Zynq Ultrascale MPSoC Carrier board supports Coin Cell Holder to connect 2032 series 3V coin cell This coin cell voltage is connected to 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 ...

Page 82: ...ut from an external power supply is connected to the Zynq Ultrascale MPSoC Carrier Board through Power Jack J4 This 2 5mm x 6 5mm barrel connector Jack should fit standard DC Plugs with an inner dimension of 2 5mm and an outer dimension of 5 5mm This Power Input connector J4 is physically located at the top of the board as shown below Figure 32 Power Jack The below table provides the Power Input R...

Page 83: ... for its Add On Module power Table 19 Power Output Specification Sl No Power Rail Min V Typical V Max V Max Output Current To Board to Board Connector2 for Zynq Ultrascale MPSoC SOM 1 VCC_5V 4 85V 5V 5 15V 15A 2 VRTC_3V0 2 8V 3V 3 3V To FMC Connector1 1 VCC_FMC_ADJ 1 75 1 8 1 85 4A 2 VCC_3V3 3 15 3 3 3 45 3A 3 3P3VAUX 3 15 3 3 3 45 100mA 4 VCC_12V 11 75V 12V 12 25V 1A To FMC Connector2 1 VCC_FMC_A...

Page 84: ...iWave only guarantees the component selection for the given operating temperature 3 3 2 RoHS Compliance iWave s Zynq Ultrascale MPSoC Development platform is designed by using RoHS compliant components and manufactured on lead free production process 3 3 3 Electrostatic Discharge iWave s Zynq Ultrascale MPSoC Development platform is sensitive to electro static discharge and so high voltages caused...

Page 85: ...m The Board mechanical dimensions are shown below Figure 33 Carrier Board Mechanical dimension Top and Bottom Views The High Performance carrier board PCB thickness is 1 55mm 0 1mm top side maximum height component is 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...

Page 86: ...t provided to the Carrier Board Insert the Zynq Ultrascale SoC SOM to the Board to Board Connectors B2B as shown below in the first photo Confirm whether the positions of B2B1 and B2B2 of Zynq Ultrascale SOM is matching with the Carrier Board B2B Connectors while inserting Press the SOM in to B2B Connectors from the edges as shown below in the first photo such that the SOM is fixed firmly into the...

Page 87: ...SoC SOM Development Platform Hardware User Guide 3 4 3 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 ...

Page 88: ...EMMC Commercial ZU5 MPSoC based SOM Development Platform iW G30D C5CG 4E002G E008G LCA ZU5CG 1 MPSOC SOM Linux Development Platform with 2GB PS DDR4 with ECC 1GB FPGA DDR4 8GB EMMC Commercial iW G30D C5EG 4E002G E008G LCA ZU5EG 1 MPSOC SOM Linux Development Platform with 2GB PS DDR4 with ECC 1GB FPGA DDR4 8GB EMMC Commercial iW G30D C5EV 4E002G E008G LCA ZU5EV 1 MPSOC SOM Linux Development Platfor...

Page 89: ...REL1 1 Page 89 of 89 iWave Systems Technologies Pvt Ltd Zynq Ultrascale MPSoC SOM Development Platform Hardware User Guide ...

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