iWave iW-RainboW-G27D Hardware User's Manual
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iWave iW-RainboW-G27D Hardware User's Manual

I.mx8 quadmax/quadplus smarc development platform
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i.MX8 SMARC Development Platform Hardware User Guide
iW-RainboW-G27D
i.MX8 QuadMax/QuadPlus
SMARC Development Platform
Hardware User Guide
REL1.0
iWave Systems Technologies Pvt. Ltd.
Page 1 of 87

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Summary of Contents for iWave iW-RainboW-G27D

  • Page 1 SMARC Development Platform Hardware User Guide iW-RainboW-G27D i.MX8 QuadMax/QuadPlus SMARC Development Platform Hardware User Guide REL1.0 iWave Systems Technologies Pvt. Ltd. Page 1 of 87...
  • 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.” REL1.0 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

    OARD WITCHES 2.10 & V ....................... 62 UDIO IDEO XPANSION ONNECTOR 2.11 .......................... 68 ARRIER XPANSION ONNECTOR TECHNICAL SPECIFICATION.......................... 81 ..........................81 OWER NPUT EQUIREMENT ..........................82 OWER UTPUT PECIFICATION REL1.0 iWave Systems Technologies Pvt. Ltd. Page 4 of 87...
  • Page 5 3.3.3 Electrostatic Discharge ..........................83 ..........................84 ECHANICAL HARACTERISTICS 3.4.1 i.MX8 SMARC Carrier Board Mechanical Dimensions ................. 84 3.4.2 Guidelines to insert the SMARC SOM into Carrier Board ................85 ORDERING INFORMATION .......................... 86 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 5 of 87...
  • Page 6 Figure 26: Mechanical dimensions of i.MX8 SMARC Carrier Board- Top View .............. 84 Figure 27: Mechanical dimensions of i.MX8 SMARC Carrier Board - Side View ............. 85 Figure 28: SOM Insertion Guideline ..........................85 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 6 of 87...
  • Page 7 Table 17: Expansion Connector2 Pinout ......................... 75 Table 18: Power Input Requirement ..........................82 Table 19: Power Output Specification ..........................82 Table 20: Environmental Specification ........................... 83 Table 21: Orderable Product Part Numbers ........................86 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 7 of 87...

  • Page 8: Introduction

    This document is the Hardware User Guide for the i.MX8 QM/QP SMARC V2.0 Development platform “iW-RainboW- G27D” based on the NXP’s i.MX8 Application processor. This board is fully supported by iWave Systems Technologies Pvt. Ltd. This Guide provides detailed information on the overall design and usage of the i.MX8 QM/QP based SMARC development platform from a Hardware Systems perspective.
  • Page 9 Serial Advanced Technology Attachment Secure Digital SMARC Smart Mobility ARChitecture System On Module To Be Defined UART Universal Asynchronous Receiver/Transmitter Universal Serial Bus USB OTG USB On The Go Voltage REL1.0 iWave Systems Technologies Pvt. Ltd. Page 9 of 87...

  • 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-SMARC SOM. References • IMX8QMAEC_Revx.pdf • iMX8QM_RM_Rev_x.pdf • SMARC Specification V2.0 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 10 of 87...

  • Page 11: Architecture And Design

    3. Shared between M.2 Connector and A&V Expansion Connector 4. Shared between M.2 Connector and Expansion Connector-2 5. Shared between SPI Flash and Expansion Connector-2 QM/QP Figure 1: i.MX8 SMARC Development Platform Block Diagram REL1.0 iWave Systems Technologies Pvt. Ltd. Page 11 of 87...

  • Page 12: I.mx8 Qm/Qp Smarc Development Platform Features

    Display Port (Optional) Additional Features • SPI Flash • RTC Coin Cell holder On Board Switches • Power ON/OFF Switch • Board Configuration Switch • Reset Switch • Force Boot Switch REL1.0 iWave Systems Technologies Pvt. Ltd. Page 12 of 87...
  • Page 13 At a time, do not set Both the PCIe Channel A & B neither to mini PCIe nor to M.2 connector. Either USB Type C connector or USB 3.0 Type A TOP connector can be supported at a time. Anyone can be selected using on Board Switches. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 13 of 87...

  • Page 14: Smarc Mxm Connector

    This standard 314-pin robust connector is capable of handling high-speed serialized signals and can be used for size constrained embedded applications. This SMARC MXM connector (J16) is physically located at the top of the board as shown below. Figure 2: SMARC MXM Connector REL1.0 iWave Systems Technologies Pvt. Ltd. Page 14 of 87...

  • Page 15: Smarc Pcb Edge Connector Pin Assignment

    GBE0_MDI3+ GBE0_MDI3+ IO, GBE Gigabit Ethernet MDI differential pair 3 positive. GBE0_LINK100# GBE0_LINK100# I, 3.3V CMOS 100Mbps Ethernet link status LED GBE0_LINK1000# GBE0_LINK1000# I, 3.3V CMOS Gigabit Ethernet link status REL1.0 iWave Systems Technologies Pvt. Ltd. Page 15 of 87...
  • Page 16 SD data 1 CMOS SDIO_D2 USDHC1_DATA2 USDHC1_DATA2/ IO, 1.8/3.3V SD data 2 CMOS SDIO_D3 USDHC1_DATA3 USDHC1_DATA3/ IO, 1.8/3.3V SD data 3 CMOS SPI0_CS0# SPI3_CS0 SPI3_CS0/ I, 1.8V CMOS SPI0 Chip Select 0 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 16 of 87...
  • Page 17 Note: when used as QSPI, it will act as QSPI1A_ Clock QSPI1A_SCLK/ ESPI_IO_0 QSPI1A_DATA0 SPI2_SDI/ IO, 1.8V SPI2 Master In Slave Out. CMOS Note: when used as QSPI, it will act as QSPI1A_ DATA0 QSPI1A_DATA0/ REL1.0 iWave Systems Technologies Pvt. Ltd. Page 17 of 87...
  • Page 18 RSVD4 RSVD5 USB3_EN_OC# USB_HUB2_OC IO, 3.3V USB Port3 Power Enable/ CMOS Over Current Indicator Note: Connected to USB Hub PCIE_A_RST# PCIE_A_RST_B(GPIO PCIE_CTRL0_PERST I, 3.3V CMOS PCIE_A Reset Out 4_29) _B/D20 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 18 of 87...
  • Page 19 I, HDMI HDMI Transceiver 0 Positive DP1_LANE2+ P/EDP2_P _EDP2_P/BL5 to HDMI Connector HDMI_D0- / HDMI_TX0_DATA0_ HDMI_TX0_DATA0 I, HDMI HDMI Transceiver 0 Negative DP1_LANE2- N/EDP2_N _EDP2_N/BM4 to HDMI Connector P100 Power Ground. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 19 of 87...
  • Page 20 CMOS Output 5. Connected to HDMI_CEC# P114 GPIO6 / TACHIN SMARC_GPIO_6(GPI SIM0_CLK/ IO, 1.8V General Purpose Input/ O0_00) AL45 CMOS Output 6. Connected to USB Type C Controller Interrupt pin. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 20 of 87...
  • Page 21 O, 1.8V UART0 Receiver AV48 CMOS P131 SER0_RTS# UART0_RTS_B UART0_RTS_B/ I, 1.8V CMOS UART0 Request to Send AU45 P132 SER0_CTS# UART0_CTS_B UART0_CTS_B/ O, 1.8V UART0 Clear to Send AW49 CMOS REL1.0 iWave Systems Technologies Pvt. Ltd. Page 21 of 87...
  • Page 22 O, 1.8V CAN 1 Receiver CMOS P147 VDD_IN VDD_IN O, 5V Power Supply Voltage P148 VDD_IN VDD_IN O, 5V Power Supply Voltage P149 VDD_IN VDD_IN 0, 5V Power Supply Voltage REL1.0 iWave Systems Technologies Pvt. Ltd. Page 22 of 87...
  • Page 23 Second Gigabit Ethernet MDI differential pair 0 positive. GBE1_MDI0- GBE1_MDI0- IO, GBE Second Gigabit Ethernet MDI differential pair 0 negative. GBE1_LINK100# GBE1_LINK100# I, 3.3V CMOS 100Mbps Ethernet link status LED REL1.0 iWave Systems Technologies Pvt. Ltd. Page 23 of 87...
  • Page 24 Serial Audio Interface Channel1 Data Output I2S0_SDIN SAI1_RXD SAI1_RXD/ O, 1.8V Serial Audio Interface CMOS Channel1 Data Input I2S0_CK SAI1_TXC SAI1_TXC/ I, 1.8V CMOS Serial Audio Interface Channel1 Clock ESPI_ALERT0# ESPI_ALERT1# REL1.0 iWave Systems Technologies Pvt. Ltd. Page 24 of 87...
  • Page 25 USB3_SSRX+ USB3_HUB2_RXP O, USB SS USB3.0 Port3 Receive Plus Note: Connected to USB Hub USB3_SSRX- USB3_HUB2_RXM O, USB SS USB3.0 Port3 Receive Minus Note: Connected to USB Hub Power Ground. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 25 of 87...
  • Page 26 I, PCIe PCIE1 Transmitter Negative Power Ground. DP0_LANE0+ HDMI_TX0_DATA2_ HDMI_TX0_DATA2 I, DP P/EDP0_P _EDP0_P/BL9 Note: Optionally connected to Display Port Lane 0 Positive DP0_LANE0- HDMI_TX0_DATA2_ HDMI_TX0_DATA2 I, DP N/EDP0_N _EDP0_N/BM8 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 26 of 87...
  • Page 27 I, DP DP3_N P3_N/BK2 Note: Optionally connected to Display Port Lane 3 Negative S104 USB3_OTG_ID USB_OTG1_ID S105 DP0_AUX+ HDMI_TX0_CTRL_CL HDMI_TX0_AUX_P/ I, DP K/_AUX_P Note: Optionally connected to Display Port AUX Positive REL1.0 iWave Systems Technologies Pvt. Ltd. Page 27 of 87...
  • Page 28 / N/BH28 lane 1 negative DSI1_D1- Note: Optionally connected LVDS0_CH1_TX1_N to LVDS0_CH1 differential / BG41 data lane 1 negative S116 LCD1_VDD_EN LCD1_VDD_EN(GPIO LVDS1_I2C1_SCL/ I, 1.8V CMOS LCD1Power Enable 1_14) BD32 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 28 of 87...
  • Page 29 S127 LCD0_BKLT_EN LCD0_1_EN(GPIO1_0 LVDS0_I2C1_SCL/ I, 1.8V CMOS LCD0 Backlight Enable BE37 S128 LVDS0_1+ / LVDS0/DSI0_CH0_TX MIPI_DSI0_DATA1_ I, DIFF MIPI DSI0 differential data eDP0_TX1+ / P /BK26 lane 1 positive DSI0_D1+ REL1.0 iWave Systems Technologies Pvt. Ltd. Page 29 of 87...
  • Page 30 Note: Optionally connected LVDS0_CH0_TX3_P to LVDS0_CH0 differential / BN45 data lane 3 positive S138 LVDS0_3- / LVDS0/DSI0_CH0_TX MIPI_DSI0_DATA3_ I, DIFF MIPI DSI0 differential data eDP0_TX3- / N/BN25 lane 3 negative DSI0_D3- REL1.0 iWave Systems Technologies Pvt. Ltd. Page 30 of 87...
  • Page 31 CARRIER_PWR_ON is High S155 FORCE_RECOV# FORCE_RECOV# O, 1.8V Low on this pin allows non- CMOS protected segments of 10K PU Module boot device to be rewritten / restored from an REL1.0 iWave Systems Technologies Pvt. Ltd. Page 31 of 87...

  • Page 32: Serial Interface Features

    Translator and FT232RQ is connected to USB Micro AB Connector (J22). This USB Micro AB Connector can be used for Debug purpose which is physically located at the top of the board as shown below. Figure 3: Debug UART Port REL1.0 iWave Systems Technologies Pvt. Ltd. Page 32 of 87...

  • Page 33: Data Uart Interface

    3.3V Supply Voltage. UART_RXD UART0_RX I, 3.3V CMOS UART0 interface Receive signal. UART_TXD UART0_TX O, 3.3V CMOS UART0 interface Transmit signal. UART_RTS# UART0_RTS_B O, 3.3V CMOS UART0 interface Ready to Send signal. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 33 of 87...

  • Page 34: High Speed Interface Features

    Refer Dip Switch (SW1) Settings in “Table 14: Board Configuration Switch” for more details on selecting PCIe connector. PCIex4 Connector: PCIeX4 connector (J4) is physically located at the top of the board as shown below Figure 5: PCIex4 Connector REL1.0 iWave Systems Technologies Pvt. Ltd. Page 34 of 87...

  • Page 35: Table 5: Pciex4 Connector Pinout

    Note: Refer SW1 setting from Table 14 to support PCIE0_TX. PCIE0_RX+ PCIEA_RX+ I, PCIe PCIe Port 0 Receive pair positive. Note: Refer SW1 setting from Table 14 to support PCIE0_RX. Power Ground. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 35 of 87...
  • Page 36 NC, PCIe Port 3 Receive pair positive. Power Ground. PCIE3_RX- NC, PCIe Port 3 Receive pair negative. RSVD NC, Reserved Pin. Power Ground. PRSNT3# RSVD NC, Reserved Pin. Power Ground. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 36 of 87...

  • Page 37: Figure 6: Mini Pcie Connector

    COEX2 1.5V VCC_1V5 O, 1.5V Power 1.5V Supply Voltage. CLK_REQ# CLK_REQ# O, 3.3V CMOS Used to enable Clock. UIM_PWR Power Ground. UIM_DATA REFCLK- PCIe_REFCLK_DM O, DIFF PCIe Clock negative. UIM_CLK REL1.0 iWave Systems Technologies Pvt. Ltd. Page 37 of 87...
  • Page 38 O, 3.3V Power 3.3V Supply Voltage. LED_WWAN# LED_WWAN# O, 3.3V CMOS Connected to D3 Green LED cathode. Power Ground. LED_WLAN# LED_WLAN# O, 3.3V CMOS Connected to D2 Green LED cathode. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 38 of 87...

  • Page 39: Figure 7: M.2 Connector

    M.2 Connector: The i.MX8 SMARC carrier board supports M.2 Key-E Connector (J31) and is placed at the bottom side of the board. SPI, SDIO, PCIe, I2S, I2C, and UART interface are optionally supported over M.2 Connector. M.2 Connector Figure 7: REL1.0 iWave Systems Technologies Pvt. Ltd. Page 39 of 87...

  • Page 40: Table 7: M.2 Connector Pinout

    Note: To support SD interface refer Note-2 I2S SD_OUT M2_MI2S_2_D1 IO, 1.8V CMOS M.2 Module I2S SD_OUT Note: This pin is connected from SMARC Edge connector S52 pin for I2S2_SDIN. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 40 of 87...
  • Page 41 SOM Configuration. Power Ground. UART0 CTS SER2_CTS# I, 1.8V CMOS Note: M.2 UART Clear to Send signal. This signal is Connected to SMARC Edge P139 pin for SER2_CTS#. SER2 is REL1.0 iWave Systems Technologies Pvt. Ltd. Page 41 of 87...
  • Page 42 BT_DISABLE# O0_04) Note: This Pin is Connected to SMARC Edge P118 pin SMARC_GPIO_10. Also shared with W_DISABLE# PEWAKE# PEWAKE# O, 3.3V CMOS Note: by default, connected to Mini PCIe connector REL1.0 iWave Systems Technologies Pvt. Ltd. Page 42 of 87...
  • Page 43 ESPI_CS1# via voltage level Translator RESET_IN# PCIe_A_RST# I, 3.3V CMOS Reset Input. Note: This pin is connected to SMARC Edge P75 pin for PCIe_A_RST# VCC_3V3 O, 3.3V Power 3.3V Supply Voltage. Wake# REL1.0 iWave Systems Technologies Pvt. Ltd. Page 43 of 87...

  • Page 44: Sata Interface

    3.3V Supply Voltage. Power Ground. Note-1: USB signals are sharing between mini-PCIe and M.2 Connector. To support USB at M.2 connector contact iWave support Team. Note-2: SMARC SDIO interface is directly connected to Standard SD and optionally connected to M.2 Connector. To Support SDIO interface at M.2 connector contact iWave Support team.

  • Page 45: Usb3.0 Host Interface

    USB3.0 Type-A connector (J15) respectively. Also, USB2.0 signals of USB2 and USB3 Port of SMARC signals are connected to respective connector from 3.0 USB Hub used on SOM. The top port of J15 connector is shared with USB Type-C connector (J18). REL1.0 iWave Systems Technologies Pvt. Ltd. Page 45 of 87...

  • Page 46: Figure 9: Usb3.0 Host

    SMARC MXM connector USB2 and USB3 ports. This USB3.0 connector is physically located at the top of the board as shown below. Figure 9: USB3.0 Host REL1.0 iWave Systems Technologies Pvt. Ltd. Page 46 of 87...

  • Page 47: Communication Interface Features

    The VBUS power of this USB2.0 connector is connected through current limit power switch and limit is set as 500mA. If connected USB2.0 device takes more than 500mA current, this power switch limits the current to constant mode REL1.0 iWave Systems Technologies Pvt. Ltd. Page 47 of 87...

  • Page 48: Usb2.0 Otg Interface

    SMARC MXM connector. In Host mode, USB0_EN_OC# should drive high to enable the power to the connector and in device mode, USB0_EN_OC# should drive low to disable the power to the connector. This USB2.0 OTG connector is physically located at the top of the board as shown below. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 48 of 87...

  • Page 49: Sdio Interface

    The main power to SD/MMC connector is 3.3V and it is connected through power switch to support power enable/disable feature. This power enable/disable is controlled from the SDIO_PWR_EN pin of SMARC MXM connector. The SD connector (J32) is physically located at the bottom of the board. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 49 of 87...

  • Page 50: Can Interface

    5V Supply Voltage. VCC_12V Note: Optionally connected to 12V supply Volatge. CANL CAN0_LOW IO, DIFF CAN0 Low-Level Voltage I/O Power Ground. CANH CAN0_HIGH IO, DIFF CAN0 High-Level Voltage I/O Power Ground. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 50 of 87...

  • Page 51: Figure 14: Can Header

    5V Supply Voltage. VCC_12V Note: Optionally connected to 12V supply Volatge. CANL CAN1_LOW IO, DIFF CAN1 Low-Level Voltage I/O Power Ground. CANH CAN1_HIGH IO, DIFF CAN1 High-Level Voltage I/O Power Ground. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 51 of 87...

  • Page 52: Audio/Video Features

    CPU supports HDMI 2.0 audio/video out. HDMI Signals from the SMARC connector is connected to Standard HDMI Type-A connector with ESD protection circuitry. HDMI Output connector (J23) is physically located on top of the board as shown below. Figure 15: HDMI Output REL1.0 iWave Systems Technologies Pvt. Ltd. Page 52 of 87...

  • Page 53: Mipi Dsi Display Interface

    3.3V Supply voltage for LED Driver Circuit. VBAT VCC_3V3_TFT0 O, 3.3V Power 3.3V Supply voltage for LED Driver Circuit. VBAT VCC_3V3_TFT0 O, 3.3V Power 3.3V Supply voltage for LED Driver Circuit. Power Ground. OTPV REL1.0 iWave Systems Technologies Pvt. Ltd. Page 53 of 87...

  • Page 54: Mipi Csi Camera Interface

    CPU’s dual lane MIPI CSI0 interface from SMARC MXM connector is used for this Camera interface. This MIPI CSI camera connector (J27) is physically located on top of the board as shown below. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 54 of 87...

  • Page 55: Figure 17: Mipi Camera Connector

    SMARC_GPIO_2(GPIO1_28) O, 1.8V CMOS GPIO for MIPI CSI Camera reset. PWDN PWDN O, 1.8V CMOS Power Down Output DVDD DVDD O, Power 1.2V Supply voltage DOVDD DOVDD O, Power 1.8V Supply voltage REL1.0 iWave Systems Technologies Pvt. Ltd. Page 55 of 87...

  • Page 56: I2S Audio Interface

    ) & GPIO11 (P119 ) pin of SMARC MXM connector correspondingly. These Audio Jacks are physically located at the top of the board as shown below. Figure 18: Audio Jack REL1.0 iWave Systems Technologies Pvt. Ltd. Page 56 of 87...

  • Page 57: Lvds Connector (Optional)

    The i.MX8 SMARC carrier board supports LVDS Connector (J29) as an optional feature from i.MX8 CPU. The i.MX8 processor supports both LVDS and MIPI DSI Display but SMARC Edge connector supports any one display interface. Contact iWave Support team for LVDS based SOM module. The LVDS Connector (J29) connector is placed on Bottom side of the board.

  • Page 58: Display Port (Optional)

    The i.MX8 SMARC development board supports Display Port (J14) as an optional feature from i.MX8 CPU. The i.MX8 processor supports either HDMI or Display Port. Contact iWave Support team for Display Port supported SOM. Display Port (J14) connector is placed on Top.

  • Page 59: Additional Features

    ) for RTC back up voltage when VCC main power is off. This Coin Cell Holder (J34) is physically located on bottom of the board as shown below. Figure 21: RTC Battery Holder REL1.0 iWave Systems Technologies Pvt. Ltd. Page 59 of 87...

  • Page 60: On Board Switches

    PCIe Channel 1 Connection: do not set Both 00- Hi-Z the PCIe Channel 01-MINI PCIe A & B neither to PCIe_B_SEL2 10-M.2 mini PCIe nor to 11-PCIe x4(Lane1) M.2 connector. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 60 of 87...
  • Page 61 Type A (J15, Top) Type C (J18) connector. connector. Carrier Board Carrier Power ON/ OFF Carrier Board Power Carrier board Main 12V Power (Toggle SW) Switch is ON Power is OFF On/Off Switch. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 61 of 87...

  • Page 62: Audio & Video Expansion Connector

    Audio & Video Expansion connector is physically located at the top of board as shown below. Connectors Part number : DF17(3.0)-80DS-0.5V(57) from Hirose Mating Connector : DF17(2.0)-80DP-0.5V(57) from Hirose Audio & Video Expansion connector Figure 23: REL1.0 iWave Systems Technologies Pvt. Ltd. Page 62 of 87...

  • Page 63: Table 15: Audio & Video Expansion Connector Pinout

    Power Ground. LVDS0/DSI1_CH1_TX2_N O, DIFF LVDS0CH1/MIPI DSI1 differential data lane 2 negative. Note: This pin is connected from SMARC Edge connector S118 pin. AUD_SAI0_TXC O, 1.8V CMOS I2S /HDA Clock. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 63 of 87...
  • Page 64 Note: This pin is connected from SMARC Edge connector P77 LVDS0/DSI1_CH1_TX0_N O, DIFF LVDS0CH1/MIPI DSI1 differential data lane 0 negative. Note: This pin is connected from SMARC Edge connector S112 RSVD7 REL1.0 iWave Systems Technologies Pvt. Ltd. Page 64 of 87...
  • Page 65 This pin is connected to MIPI Display reset. Note: This pin is connected from SMARC Edge connector P117 pin. Power Ground. Power Ground. MIPI_CSI1_DATA2_N I, MIPI MIPI CSI1 differential data lane 2 negative. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 65 of 87...
  • Page 66 Note: This pin is connected from SMARC Edge connector P8 pin. Power Ground. MIPI_CSI1_DATA0_P I, MIPI MIPI CSI1 differential data lane 0 Positive. Note: This pin is connected from SMARC Edge connector P7 pin. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 66 of 87...
  • Page 67 Note: This pin is connected from SMARC Edge connector P111 pin. MIPI_CSI1_CLK_P I, MIPI MIPI CSI1 differential Clock Positive. Note: This pin is connected from SMARC Edge connector P3 pin. Power Ground. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 67 of 87...

  • Page 68: Carrier Expansion Connector

    Connectors Part number :DF17(3.0)-80DS-0.5V(57) from Hirose Mating Connector :DF17(2.0)-80DP-0.5V(57) from Hirose Note: For SOM expansion connector pinout, refer the i.MX8 SMARC SOM Hardware User Guide. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 68 of 87...

  • Page 69: Figure 24: Smarc Expansion Connector

    Note: This pin is connected from SOM Expansion connector 12 pin. Power Ground. Note: This pin is connected from SOM Expansion connector 11 pin. USB3_HUB4_TXP O, USB SS USB3.0 Hub Transmit channel 4 positive. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 69 of 87...
  • Page 70 Expansion connector 26 pin. HDMI_RX0_DATA2_N I, DIFF HDMI RX0 differential data lane 2 negative. Note: This pin is connected from SOM Expansion connector 25 pin. LVDS1_CH0_CLK_N O, DIFF LVDS1 Channel0 Clock negative. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 70 of 87...
  • Page 71 Note: This pin is connected from SOM Expansion connector 40 pin. LVDS1_CH1_TX2_P O, DIFF LVDS1 Channel1 Transmit Lane 2 positive. Note: This pin is connected from SOM Expansion connector 39 pin. Power REL1.0 iWave Systems Technologies Pvt. Ltd. Page 71 of 87...
  • Page 72 Ground. Note: This pin is connected from SOM Expansion connector 54 pin. Power Ground. Note: This pin is connected from SOM Expansion connector 53 pin. VHDMI_RX_5V Power HDMI_RX0 Reference Voltage. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 72 of 87...
  • Page 73 Expansion connector 68 pin. HDMI_RX0_CEC IO, 3.3V CMOS HDMI Consumer Electronics Control. Note: This pin is connected from SOM Expansion connector 67 pin. MLB_CLK_N O, DIFF Media Local Bus Clock negative. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 73 of 87...
  • Page 74 Note: This pin is connected from SOM Expansion connector 78 ESAI1_FSR I, 1.8V CMOS ESAI1 Frame Sync Input. Note: This pin is connected from SOM Expansion connector 77 pin. Power Ground. Power Ground. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 74 of 87...

  • Page 75: Table 17: Expansion Connector2 Pinout

    Note: This pin is connected from SOM Expansion connector 89 ESAI1_SCKT O, 1.8V CMOS ESAI1 Clock Out. Note: This pin is connected from SOM Expansion connector 92 FLEXCAN2_RX I, 1.8V CMOS CAN2 Receiver. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 75 of 87...
  • Page 76 GPIO3_25 is connected. Note: This pin is connected from SMARC Edge connector S144 pin. UART3_TX O, 1.8V CMOS UART3 Transmitter. Note: This pin is connected from SMARC Edge connector P134 pin. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 76 of 87...
  • Page 77 SPI3 Clock. This pin is also connected to on board SPI Flash. Note: This pin is connected from SMARC Edge connector P44 pin. MIPI_CSI0_CLK_N I, MIPI MIPI CSI0 differential Clock Negative REL1.0 iWave Systems Technologies Pvt. Ltd. Page 77 of 87...
  • Page 78 R135 Resistor in the Carrier Card. Note: This pin is connected from SMARC Edge connector S12 pin. Power Ground. Power Ground. DMA_I2C1_SCL O, 1.8V CMOS General Purpose I2C CLK for carrier board peripherals. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 78 of 87...
  • Page 79 QSPI1A Clock. Note: This pin is connected from SMARC Edge connector P56 pin. Note: This pin is connected from SMARC Edge connector S55 pin. QSPI1A_DATA0 IO, 1.8V CMOS QSPI1A DATA 0. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 79 of 87...
  • Page 80 Ground. Power Ground. VCC_5V Power Supply Voltage 5V VCC_3V3 Power Supply Voltage3.3V VCC_5V Power Supply Voltage 5V VCC_3V3 Power Supply Voltage3.3V VCC_5V Power Supply Voltage 5V VCC_3V3 Power Supply Voltage3.3V REL1.0 iWave Systems Technologies Pvt. Ltd. Page 80 of 87...

  • Page 81: Technical Specification

    Board through Power Jack (J26). 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 connector is physically placed at the top of the board as shown below. Figure 25: Power Jack REL1.0 iWave Systems Technologies Pvt. Ltd. Page 81 of 87...

  • Page 82: Power Output Specification

    3.45 1500mA VCC_2V8 2.55 500mA VCC_1V8 500mA VCC_1V5 1.35 1.65 500mA VCC_1V2 500mA Power to Add-On Module (through Expansion Connector2) VCC_5V 4.85V 5.15V 1500mA VCC_3V3 3.15 3.45 1500mA VCC_1V8 500mA REL1.0 iWave Systems Technologies Pvt. Ltd. Page 82 of 87...

  • Page 83: Environmental Characteristics

    3.3.3 Electrostatic Discharge iWave’s i.MX8 SMARC Development Platform is sensitive to electrostatic 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 84: Mechanical Characteristics

    SMARC Development Platform PCB size is 120 mm x 120 mm x 1.6mm. SMARC carrier card mechanical dimensions is shown below. (All dimensions are shown in mm) Figure 26: Mechanical dimensions of i.MX8 SMARC Carrier Board- Top View REL1.0 iWave Systems Technologies Pvt. Ltd. Page 84 of 87...

  • Page 85: Guidelines To Insert The Smarc Som Into Carrier Board

    Once the SMARC module is inserted to the MXM connector properly, press the board vertically down as shown below, such that the board is fixed firmly into the expansion connectors and fix the board by screwing. Figure 28: SOM Insertion Guideline REL1.0 iWave Systems Technologies Pvt. Ltd. Page 85 of 87...

  • Page 86: Ordering Information

    Quad Max, 4GB LPDDR4, 16GB eMMC flash Android 0°C to 70°C Kit without LCD display Note: For Development platform identification purpose, Product part number is pasted as Label with Barcode readable format. REL1.0 iWave Systems Technologies Pvt. Ltd. Page 86 of 87...
  • Page 87 SMARC Development Platform Hardware User Guide REL1.0 iWave Systems Technologies Pvt. Ltd. Page 87 of 87...

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