iWave iW-RainboW-G22M Hardware User's Manual
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iWave iW-RainboW-G22M Hardware User's Manual

Rz/g1e sodimm som
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RZ/G1E SODIMM SOM Hardware User Guide
iW-RainboW-G22M
RZ/G1E SODIMM SOM
Hardware User Guide
REL1.2
iWave Systems Technologies Pvt. Ltd.
Page 1 of 62

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Summary of Contents for iWave iW-RainboW-G22M

  • Page 1 RZ/G1E SODIMM SOM Hardware User Guide iW-RainboW-G22M RZ/G1E SODIMM SOM Hardware User Guide REL1.2 iWave Systems Technologies Pvt. Ltd. Page 1 of 62...
  • 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.” REL1.2 iWave Systems Technologies Pvt.
  • Page 3 (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

    2.7.15 JTAG Interface ............................. 25 2.7.16 Power Input ..............................25 2.7.17 Reset Signal ..............................25 RZ/G1E PinMultiplexing on SODIMM ......................38 RZ/G1E CPU Reference Schematic ........................48 TECHNICAL SPECIFICATION.......................... 52 Electrical Characteristics ..........................52 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 4 of 62...
  • Page 5 3.3.2 Guidelines to insert the SODIMM SOM into Carrier board ................. 58 3.3.3 SODIMM SOM removing procedure from Carrier board ................58 ORDERING INFORMATION .......................... 59 APPENDIX I ..............................61 RZ/G1E SODIMM SOM Development Platform ....................61 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 5 of 62...
  • Page 6 Table 8: Power Input Requirement ..........................52 Table 9: Power Sequence Timing ............................ 53 Table 10: Power Consumption ............................54 Table 11: Environmental Specification ........................... 55 Table 12: Orderable Product Part Numbers ........................59 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 6 of 62...

  • Page 7: Introduction

    This document is the Hardware User Guide for the RZ/G1E SODIMM System On Module based on the Renesas’s RZ/G1E 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 RZ/G1E SODIMM System On Module from a Hardware Systems perspective.
  • Page 8 Serial Sound Interface SODIMM Small Outline Dual in-line Memory Module SDRAM Synchronous Dynamic Random Access Memory System On Module UART Universal Asynchronous Receiver/Transmitter Universal Serial Bus USB OTG USB On The Go REL1.2 iWave Systems Technologies Pvt. Ltd. Page 8 of 62...

  • Page 9: Terminlogy 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-SOM. References • RZ/G1E CPU Hardware User Manual • 200 Pin DDR S.O.DIMM Mechanical Specification REL1.2 iWave Systems Technologies Pvt. Ltd. Page 9 of 62...

  • Page 10: Important Note

    “Function name” Example: USB0_DP In this signal, functionality which we are using is USB0_DP Note: The above naming is not applicable for other signals which are not connected to CPU. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 10 of 62...

  • Page 11: Architecture And Design

    This section provides detailed information about the RZ/G1E SODIMM SOM features and Hardware architecture with high level block diagram. Also, this section provides detailed information about SODIMM edge connector pin assignment and usage. RZ/G1E SODIMM SOM Block Diagram iW-RainboW-G22M - RZ/G1E SODIMM SOM Block Diagram 100/1000Mbps DDR3 (32bit) GMII x 1...

  • Page 12: Rz/G1E Sodimmsom Features

    Data UART (with CTS & RTS) x 2 Ports • Data UART (without CTS & RTS) x 4 Ports • SPI x 3 Ports • I2C x 2 Ports • PWM x 3 Ports • GPIOs • JTAG REL1.2 iWave Systems Technologies Pvt. Ltd. Page 12 of 62...
  • Page 13 In RZ/G1E CPU, EtherMAC and VIN1 are multiplexed in same pins and so either one interface only can be used at a time. By default, VIN1 camera interface is supported in RZ/G1E SODIMM SOM. iWave also supports separate RZ/G1E SODIMM SOM with EtherMAC support instead of VIN1.

  • Page 14: Rz/G1E Cpu

    1 GHz/core. The Block Diagram of RZ/G1E CPU from Renesas’s website is shown below for reference. Figure 2: RZ/G1E Simplified Block Diagram Note: Please refer the latest RZ/G1E Datasheet & Reference Manual for more details which may be revised from time to time. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 14 of 62...

  • Page 15: Memory

    The SPI flash memory (U14) is physically located on bottom side of the SOM. To program the boot code in to the SPI flash (for the first time or if boot code is corrupted), use iWave’s RZ/G1E SPI Programmer Board through SPI Flash Programming Header (Example part: TMM-103-01-L-D).

  • Page 16: Emmc Flash

    3.3V IO level is selected for SDHI1 lines. Micro SD Connector is physically located on top side of the SOM. Note: Since SDHI1 interface is shared between Wi-Fi/BT module and µSD Connector, either one only can be used at a time. By default, WiFi and Bluetooth interface is supported. Please contact iwave if Micro SD support is required. REL1.2 iWave Systems Technologies Pvt.

  • Page 17: Wifi And Bluetooth Interface

    In SOM power off condition, this device will take power from SODIMM Edge (VCC_RTC) coin cell power input (Pin 183) and continues to keep the current time. The interrupt output from RTC controller is connected to RZ/G1E GPIO “GP3_27”. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 17 of 62...

  • Page 18: Sodimm Pcb Edge Connector

    The interfaces which are available at SODIMM Edge connector are explained in the following sections. Figure 5: SODIMM PCB Edge Connector Number of Pins - 200 Connector Part - Not Applicable (On Board PCB Edge connector) Mating Connector - 1473005-1 from TE Connectivity REL1.2 iWave Systems Technologies Pvt. Ltd. Page 18 of 62...

  • Page 19: Gigabit Ethernet

    0.1uF common mode capacitors to ground. The below table provides some of the compatible magnetics recommended by the PHY Manufacturer. For more details, refer SODIMM Edge connector pins 30, 33, 34, 35, 36 & 37 on Table 6. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 19 of 62...

  • Page 20: Usb 2.0 Otg Interface

    Note: In RZ/G1E CPU, EtherMAC and VIN1 are multiplexed in same pins and so either one interface only can be used at a time. By default, VIN1 camera interface is supported in RZ/G1E SODIMM SOM. iWave also supports separate RZ/G1E SODIMM SOM with EtherMAC support instead of VIN1.

  • Page 21: Sd Interface

    Note: In RZ/G1E CPU, EtherMAC and VIN1 are multiplexed in same pins and so either one interface only can be used at a time. By default, VIN1 camera interface is supported in RZ/G1E SODIMM SOM. iWave also supports separate RZ/G1E SODIMM SOM with EtherMAC support instead of VIN1.

  • Page 22: Parallel Rgb Display Interface

    For more details, refer SODIMM Edge connector pins 176 & 178 for CAN0 and 175 & 177 for CAN1 on Table 6. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 22 of 62...

  • Page 23: Uart Interface

    Note: In RZ/G1E SODIMM SOM, VIN1 and MSIOF1 interface signals are connected to same pins of SODIMM Edge connector (through isolating resistors) and so either one interface only can be used at a time.By default, VIN1 camera REL1.2 iWave Systems Technologies Pvt. Ltd. Page 23 of 62...

  • Page 24: I2C Interface

    Note: The above-mentioned pins from RZ/G1E CPU supports other MUX functionality also and so can be used as either GPIO or other MUX based on the requirement. For more details on MUX option on each pin refer Table 7. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 24 of 62...

  • Page 25: Jtag Interface

    SOM. This pin can be used to reset the RZ/G1E CPU by connecting push button in the carrier board. For more details, refer SODIMM Edge connector pin 187 on Table 6. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 25 of 62...

  • Page 26: Table 6: 200-Pin Pcb Edge Connector Pin Assignment

    IO, DIFF Gigabit Ethernet differential pair 4 positive. I2C3_SCL(GP0_3) O, 3.3V OD/ I2C3 Clock. 1K PU I2C3_SDA(GP0_4) IO, 3.3V OD/ I2C3 Data. 1K PU VIN_3V3 I, 3.3V Power Supply Voltage. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 26 of 62...
  • Page 27 Default NC. Note: Ethernet receive differential pair negative from 10/100Mbps Ethernet PHY is connected to this pin and default not populated. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 27 of 62...
  • Page 28 GPIO(GP4_0) I2C1_SCL/ IO, 3.3V CMOS General Purpose Input Output. Note: Same signal is optionally connected to SODIMM edge connector 141 through resistor default populated. VDDGPHY_3V3 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 28 of 62...
  • Page 29 VIN1 Parallel camera data 0. P5_12) Note: GP0_26 is optionally connected to this pin for MSIOF1_SCK through resistor and default not populated. SSI_SDATA3(GP5_6) SSI_SDATA3/ O, 3.3V CMOS SSI3 Serial data output. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 29 of 62...
  • Page 30 IO, DIFF USB0 OTG port data negative. GPIO(GP2_29) DU0_ODDF/DIS IO, 3.3V CMOS General Purpose Input Output. P/CDE/ AC13 GPIO(GP2_31) DU0_CDE/MD13 IO, 3.3V CMOS/ General Purpose Input Output. 100K PU AB13 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 30 of 62...
  • Page 31 HSCIF2_HRX(GP0_8) I, 3.3V CMOS Default NC. HSCIF2 High Speed Serial Communication Interface serial data receiver. Note: Same signal is connected to ON- SOM Wi-Fi/BT module through resistor and default populated. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 31 of 62...
  • Page 32 SD0_DATA2/ IO, 3.3V CMOS/ SD0 Data2. AE11 10K PU Power Ground. SD0_DAT3(GP6_5) SD0_DATA3/ IO, 3.3V CMOS/ SD0 Data3. AA12 10K PU I2C5_SDA(GP0_15) D15/ IO, 3.3V OD/ I2C5 data. 1K PU REL1.2 iWave Systems Technologies Pvt. Ltd. Page 32 of 62...
  • Page 33 IO, 3.3V CMOS General Purpose Input/ Output. AB19 GPIO32(GP4_26) SSI_SDATA5/ IO, 3.3V CMOS General Purpose Input /Output. AA20 Power Ground. GPIO(GP4_27) SSI_SCK6/ IO, 3.3V CMOS General Purpose Input/ Output. AE20 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 33 of 62...
  • Page 34 10K PD² DU0_DR1(GP2_1) DU0_DR1/ O, 3.3V CMOS DU0 Parallel LCD data 17 (Red data1). AB18 DU0_DR2(GP2_2) DU0_DR2/ O, 3.3V CMOS DU0 Parallel LCD data 18 (Red data2). AE19 Power Ground. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 34 of 62...
  • Page 35 DU0 Parallel LCD data 4 (Blue data4). AD14 DU0_DB5(GP2_21) DU0_DB5/ O, 3.3V CMOS DU0 Parallel LCD data 5 (Blue data5). AD15 DU0_DB6(GP2_22) DU0_DB6/ O, 3.3V CMOS DU0 Parallel LCD data 6 (Blue data6). AA14 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 35 of 62...
  • Page 36 O, 3.3V CMOS JTAG Test Data Output. VIN_3V3 I, 3.3V Power Supply Voltage. TRST# TRST#/ I, 3.3V CMOS JTAG reset. MSIOF2_TXD(GP0_31/MD A15/ O, 3.3V CMOS/ MSIOF2 transmit data. 10K PD REL1.2 iWave Systems Technologies Pvt. Ltd. Page 36 of 62...
  • Page 37 Note: Recommending to connect always available 5V to this pin from carrier board to maintain compatibility with iWave’s other SODIMM SOMs. ¹ Important Note: These signals are also used for RZ/G1E CPU’s bootstrap setting on SOM and so no external loads or pull-up/pull-down resistors to be connected to these pins which will change the boot configuration.

  • Page 38: Rz/G1E Pinmultiplexing On Sodimm

    This table has been prepared by referring Renesas’s RZ/G1E Hardware User’s Manual. Important Note: It is strongly recommended to use the pin function same as selected in the SODIMM SOM Edge connector for iWave’s BSP reusability and to have compatible SODIMM modules in future for upgradability.
  • Page 39 ETH_MA ¹ SSI_SDATA9 SCIF2_TXD_B I2C3_SDA_E VI1_DATA7 ATADIR0# GP5_19 GP5_19 GIC_B AUDIO_CLKO VI1_VSYNC# I2C4_SDA_B SCIFA5_TXD_D GP5_23 GP5_23 AUDIO_CLKC I2C4_SCL_B SCIFA5_RXD_D VI1_HSYNC# GP5_22 GP5_22 ¹ AUDIO_CLKA I2C0_SCL_B SCIFA4_RXD_D VI1_CLKENB ETH_TXD0_B GP5_20 GP5_20 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 39 of 62...
  • Page 40 GP2_6 GP2_6 AC19 DU0_DR7 GP2_7 GP2_7 AA17 DU0_DG0 SCIFA0_RXD_C I2C3_SCL_D GP2_8 GP2_8 AB16 DU0_DG1 SCIFA0_TXD_C I2C3_SDA_D GP2_9 GP2_9 AD18 DU0_DG2 GP2_10 GP2_10 AD16 DU0_DG3 GP2_11 GP2_11 AB17 DU0_DG4 GP2_12 GP2_12 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 40 of 62...
  • Page 41 DU0_DB1 SCIFA4_TXD_C I2C4_SDA_D CAN0_TX_C GP2_17 GP2_17 AA15 DU0_DB2 GP2_18 GP2_18 AB15 DU0_DB3 GP2_19 GP2_19 AD14 DU0_DB4 GP2_20 GP2_20 AD15 DU0_DB5 GP2_21 GP2_21 AA14 DU0_DB6 GP2_22 GP2_22 AC15 DU0_DB7 GP2_23 GP2_23 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 41 of 62...
  • Page 42 AD25 SCIF1_RXD I2C5_SCL DU1_DG6 SSI_SCK2_B GP4_14 GP4_14 SSI_SDATA2 AD23 SCIF2_RXD IIC0_SCL DU1_DB0 GP4_16 GP4_16 SCIF2 AE23 SCIF2_TXD IIC0_SDA DU1_DB1 SSI_SCK9_B GP4_17 GP4_17 AE24 SCIF2_SCK IRQ1 DU1_DB2 SSI_WS9_B TPUTO0_B GP4_18 GP4_18 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 42 of 62...
  • Page 43 I2C4_SCL PWM6 DU1_DG0 GP4_8 GP4_8 IRQ6 PWM5_C HSCIF2_HSCK SCIF1_SCK_C GP0_10 GP0_10 HSCIF2_HTX I2C1_SDA_B GP0_9 GP0_9 HSCIF2 HSCIF2_HRX I2C1_SCL_B GP0_8 GP0_8 HSCIF2_HRTS SCIF1_TXD_C I2C1_SDA_D GP0_12 GP0_12 HSCIF2_HCTS SCIF1_RXD_C I2C1_SCL_D GP0_11 GP0_11 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 43 of 62...
  • Page 44 I2C3 I2C3_SDA_B SCIF5_TXD_B GP0_4 GP0_4 SCIFA1_RXD I2C5_SCL_B GP0_14 GP0_14 I2C5 SCIFA1_TXD I2C5_SDA_B GP0_15 GP0_15 DRACK0 PWM1_C TPUTO0_C ATACS01# GP1_18 GP1_18 SCIFB0_CTS# SCIFA4_RXD_B TPUTO2_C GP0_22 GP0_22 SCIFB0_RXD PWM4_B TPUTO3_C GP0_21 GP0_21 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 44 of 62...
  • Page 45 GP1_12 GP1_12 I2C1_SCL SCIF4_RXD PWM5_B DU1_DR0 GP4_0 GP4_0 EX_CS3# SCIFA2_SCK SCIF4_TXD_C SCIFB2_SCK GP1_15 GP1_15 AUDIO_CLKC SSI_SDATA4_ AD21 I2C2_SCL SCIFA5_RXD DU1_DB6 GP4_22 GP4_22 AUDIO_CLK AC20 I2C2_SDA SCIFA5_TXD DU1_DB7 GP4_23 GP4_23 OUT_C REL1.2 iWave Systems Technologies Pvt. Ltd. Page 45 of 62...
  • Page 46 SCIFB2_RXD VI1_DATA11 GP1_13 GP1_13 AD20 SSI_WS6 SCIFA1_RXD_ I2C4_SCL_C DU1_VSYNC GP4_28 GP4_28 DU1_DOTCLKI AE22 SSI_SCK5 SCIFA3_SCK GP4_24 GP4_24 EX_CS2# PWM0 SCIF4_RXD_C TPUTO3 SCIFB2_TXD GP1_14 GP1_14 I2C1_SDA SCIF4_TXD IRQ5 DU1_DR1 GP4_1 GP4_1 REL1.2 iWave Systems Technologies Pvt. Ltd. Page 46 of 62...
  • Page 47 By default, VIN1 interface is supported on SODIMM Edge. In EtherMAC supported RZ/G1E SODIMM SOM, MSIOF1 & GPIOs are supported on SODIMM edge (instead of VIN1). Note: Green colour highlighted signals are optional. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 47 of 62...

  • Page 48: Rz/G1E Cpu Reference Schematic

    RZ/G1E SODIMM SOM Hardware User Guide RZ/G1E CPU Reference Schematic RZ/G1E CPU and DDR3 reference schematic is provided below. Important Note: This schematic is provided only for reference without any warranty and support. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 48 of 62...
  • Page 49 RZ/G1E SODIMM SOM Hardware User Guide REL1.2 iWave Systems Technologies Pvt. Ltd. Page 49 of 62...
  • Page 50 RZ/G1E SODIMM SOM Hardware User Guide REL1.2 iWave Systems Technologies Pvt. Ltd. Page 50 of 62...
  • Page 51 RZ/G1E SODIMM SOM Hardware User Guide REL1.2 iWave Systems Technologies Pvt. Ltd. Page 51 of 62...

  • Page 52: Technical Specification

    RZ/G1E SODIMM SOM uses this voltage as backup power source to RTC controller when VCC is off. This power is an optional power and can be left open if RTC functionality is not required. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 52 of 62...

  • Page 53: Power Input Sequencing

    Important Note: All carrier board power supplies should be powered ON only after the SOM is powered ON completely. Otherwise it can cause internal latch-up and malfunctions/bootup issues due to reverse current flows. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 53 of 62...

  • Page 54: Power Consumption

    0.827A/2.729W RTC power when no VCC supply is provided VCC_RTC 0.5µA/1.5µW Note : Power consumption measurements have been done in iWave’s RZ/G1E CPU based SODIMM SOM (iW-G22M- SM02-3D512M-E004G-LIA) with iWave’s Linux3.10.31 BSP (iW-PREZZ-SC-01-R2.0-REL1.0-Linux3.10.31). REL1.2 iWave Systems Technologies Pvt. Ltd. Page 54 of 62...

  • Page 55: Environmentalcharacteristics

    ² If Micro SD connector is supported in RZ/G1E SODIMM SOM, then operating temperature range is -25°C to 85°C. To meet this humidity specification, conformal coating needs to be done on the boards. By default, iWave boards doesn’t come with conformal coating. Please contact iWave to support conformal coating.

  • Page 56: Rohs Compliance

    3.2.4 Electrostatic Discharge iWave’s RZ/G1E SODIMM SOM 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. Do not open or use the SOM except at an electrostatic free workstation.

  • Page 57: Mechanicalcharacteristics

    (5mm) followed by Processor(2.40mm) and bottom side maximum height component is followed by SPI Flash (2.16mm) followed by bulk capacitors (1.35mm). Please refer the below figure which gives height details of the RZ/G1E SOM. Figure 9: Mechanical dimension of RZ/G1E SODIMM SOM- Side View REL1.2 iWave Systems Technologies Pvt. Ltd. Page 57 of 62...

  • Page 58: Guidelines To Insert The Sodimm Som Into Carrier Board

    Important Note: Before touching any electronic components, make sure you are properly grounded by using some static control device to prevent static electricity stored on your body or clothing from damaging the system. REL1.2 iWave Systems Technologies Pvt. Ltd. Page 58 of 62...

  • Page 59: Ordering Information

    The below table provides the standard orderable part numbers for different RZ/G1E SODIMM SOM variations. Please contact iWave for orderable part number of higher RAM memory size or Flash memory size SOM configurations. Also if the desired part number is not listed in below table or if any custom configuration part number is required, please contact iWave.
  • Page 60 Industrial code (Ether AVB & Ether MAC) Important Note: Some of the above-mentioned Part Number is subject to MOQ purchase. Please contact iWave for further details. Note: For SOM identification purpose, Product Part Number and SOM Unique Serial Number are pasted as Label with Barcode readable format on SOM.

  • Page 61: Rz/G1E Sodimm Som Development Platform

    Systems supports iW-RainboW-G22D – RZ/G1E SODIMM SOM Development Platform which is targeted for quick validation of RZ/G1E CPU based SODIMM SOM and its features. iWave's RZ/G1E SODIMM Development Board incorporates RZ/G1E SODIMM SOM and SODIMM Carrier board for complete validation of RZ/G1E SODIMM SOM functionality with complete BSP support.
  • Page 62 RZ/G1E SODIMM SOM Hardware User Guide REL1.2 iWave Systems Technologies Pvt. Ltd. Page 62 of 62...

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