RZ/G2L and RZ/V2L SOM Hardware User Manual

Revisions and Notes 

Introduction

This User Manual relates to the SolidRun’s RZG2 series, which includes

  • RZG2L Dual-core ARM A55 (1.2GHz) w Cortex-M33 (200MHz)

  • RZV2L Dual-core ARM A55 (1.2GHz) w Cortex-M33 (200MHz) and Renesas Original AI Accelerator "DRP-AI" 

Overview

The SolidRun’s RZG2L/V2L family is a high-performance 64-Bit Renesas. RZ/G2 Based SOMs with Integrated GPU for Next-Gen Human-Machine Interfaces. RZV2L is adding an AI accelerator to the G2L. 

Ideal for automation, smart buildings, network cameras, and IoT devices, SolidRun RZ/G2 SOMs combine a powerful MPU, GPU, extended ECC, Ethernet, and offer long-term Linux software support. 

Highlighted Features

  • Ultra-small footprint SOM (47x30mm) including three board-to-board connectors (250 total pins number). 

  • Renesas’s SoC supports the DUAL version. 

    • Dual Cortex A55 and up to 1.2GHz 

    • Cortex-M33 subsystem processor supports real-time tasks. 

    • Video codec (H.264). 

    • AI accelerator; DRP-AI (V2L only

    • High-security engines. 

    • Dual Ethernet interfaces. 

    • Up to two CAN interfaces. 

    • High industrial reliability with in-line ECC on DDR4 and on on-chip RAM. 

    • Single MIPI-CSI and single MIPI-DSI (H.264) 

    • Optional RGB interface. 

    • Two USB 2.0. 

  • DDR4 memory in x16 configurations supports up to 2GB and up to 1.6GT/s. 

  • Up to 128GB eMMC. 

  • 1Mb QSPI NOR Flash 

  • Wi-Fi 11b/g/n/ac + Bluetooth 5.0 certified module 

  • 1Mb QSPI NOR Flash 

  • 1Kb I2C EEPROM 

  • Power management devices 

  • Commercial and industrial temperature grade support. 

Supporting Products

The following products are provided by SolidRun both as production-level platforms and as reference examples on how to incorporate the SOM in different levels of integration:

  • HummingBoard Pro – An extended board computer incorporating the SOM with different Linux distributions while adding extra hardware functionalities and access to the hardware.

Description

Block Diagram

The following figure describes the RZ/G2L Blocks Diagram.

Features Summary

Following are the features summary of the SOM. Notice that some of the features are pinout multiplexed (please refer to the pin mux table below and the Renesas datasheets): 

  • Renesas’s RZG2 series SoC (Dual ARM® Cortex™ A55 Processor, up to 1.2 GHz) 

  • Cortex-M33 (200MHz) subsystem processor. 

  • AI accelerator; DRP-AI (V2L only

  • Up to 2GByte DDR4 memory and up to 1.6GT/s 

  • Eight bits eMMC 5.1 memory or a four bits SD interface 

  • 1Kb I2C EEPROM. 

  • 8Mb QSPI NOR Flash. 

  • 4-lanes MIPI-DSI interface 

  • Optional RGB (8,8,8) interface. 

  • 3D graphics engine (Arm Mali-G31). 

  • Video codec (H.264). 

  • 4-lanes MIPI CSI-2  

  • Dual 10/100/1000 Mbps Ethernet PHY 

  • Wi-Fi (802.11a/b/g/n/ac) + BT (5.0) Murata's certified module  

  • Two USB 2.0 Host and Device 

  • Single eSPI interface. 

  • Up to four Serial interfaces. 

  • Up to 2 CAN-FD. 

  • Power: 

    • A single 5.0V input using B-to-B connector. 

    • 3.3V/1A output to support carrier's digital interfaces. 

    • RAA215300 PMIC 

Core System Components

RZ/G2L SoC Family

Ideal for automation, smart buildings, network cameras, and IoT devices, SolidRun RZ/G2 SOMs combine a powerful MPU, GPU, extended ECC, Ethernet, and offer long-term Linux software support 

A verified Linux Package (VLP) reduces cost and simplifies design.

 

MEMORIES

The RZG2L SOM supports a variety of memory interfaces for booting and data storage. The following figure describes the RZG2L memory interfaces.

 

DDR4

  • Up to 2GB memory space.

  • 16 Bits data bus.

  • Up to 1600 MT/s.

  • ECC function for single-bit and double-bit error reporting, single-bit error correction, and programmable removal of ECC storage

  • Support various low-power modes, clocks, and power-gated operations.

  • Support Self-Refresh mode.

 

eMMC and SD NAND Memory

SD0 of the RZG2L/V2L can be configured as an 8-bit eMMC interface or a 4-bit SDIO. Configuration can be done during the boot process (Boot strap pins, SD0_DEV_SEL) or by SW (SD0_DEV_SEL_SW, GPIO_P22_1). 

Selecting SD0’s physical connection (eMMC or uSD card) is done by an analog switch.

The state of the analog switch can be set by a DIP-Switch, SW or PU/PD resistors.

 eMMC

  • Up to 128GB memory space.

  • 8 Bits data bus.

  • Support MMC standard, up to version 4.5.1.

  • Supports High-speed, HS200 transfer modes

  • uSDHC-0.

  • Can be used as BOOT NVM **

Micro-SD (Carrier)

  • Optional on the carrier board

  • uSDHC-0.

  • Implements 4 data bits.

  • Support SD/SDIO standard up to version 3.0.

  • SD, SDHC, and SDXC SD memory card access supported.

  • Default, high-speed, UHS-I/SDR50, and SDR104 transfer modes supported

  • Can be used as BOOT NVM **

Quad Serial NOR Flash (SOM)

  • Each channel can be configured as a 1/2/4-bit operation.

  • Support both SDR (66MHz) mode and DDR (50MHz) mode

  • No reset

  • QSPIA/nSS0.

  • Can be used as BOOT NVM **

 EEPROM (SOM)

  • 1Kb EEPROM

  • ON-Semi’s CAT24AA01TDI or compatible

  • I2C0

  • Address 0X50 (7 bits format)

  • Stores SOM’s configurations.

Serial NOR Flash (Carrier)

  • Optional on carrier board

  • 1-bit data bus.

  • eSPI1/nSS0

  • Can be used as BOOT NVM *

* Note – eMMC and uSD share the same signals.

** Note – Boot configuration is set by the Boot-strap pins

10/100/1000 Mbps Ethernet PHY

 The SOM supports two fast Ethernet interfaces.

 

  • RGMII interface.

  • 802.3 Ethernet interface for 1000BASE-T, 100BASE-TX, and 10BASE-T.

  • MaxLinear's MxL86110I PHY.

  • Auto-MDIX and polarity correction.

  • Energy-Efficient Ethernet (EEE) and power down mode.

  • 10k byte jumbo frame support.

WI-FI (802.11AC/A/B/G/N) AND BT 5.3 (MURATA'S CERTIFIED MODULE)

 

WI-FI & BT

 The WI-FI & BT module is Murata’s 1MW module Based on Cypress CYW43455 chip. The WI-FI main features are:

  • Operate at ISM frequency Band (2.4/5 GHz)

  • IEEE Standards Support 802.11a, 802.11b, 802.11g, 802.11n, 802.11ac

  • WI-FI over SDIO-1 interface

  • BT 5.3 BR/EDR/LE

  • BT over UART-2 Interface

  • Global certification.

External Interfaces

General

The SOM incorporates three Hirose DF40 board-to-board headers.

The selection of the Hirose DF40 is due to the following criteria:

  • Miniature (0.4m pitch)

  • Highly reliable manufacturer

  • Availability (worldwide distribution channels)

  • Excellent signal integrity (supports 6Gbps)

    • Please contact Hirose or SolidRun for reliability and test result data.

  • Mating height of between 1.5mm to 4.0mm (1.5mm to 3.0mm if using 70-pin Board-to-Board header). RZG2L/V2L SOM’s headers are fixed, the final mating height is determined by carrier implementation

 

USB 2.0

The RZG2L/V2L supports two USB 2.0 interfaces. The following figure describes the USB interfaces.

The USB’s main features are:

  • Single USB 2.0 OTG/DRD(Host/Function) interface (USB0)

  • Single USB 2.0 Host interface (USB1).

  • Support mode: High-Speed(480Mbps)/Full-Speed(12Mbps)/Low-Speed(1.5Mbps).

  • OTG function (Rev2.0).

  • B2B Connector’s Signal Description

  • DRD (Dual-Role-Device) function (Static switch between Host and Function).

  • Power control signals are not part of the USB module, any available GPIO can be used.

Note – The voltage on VBUS is 5V.

MIPI CSI

The following figure describes the CSI interface.

 

  • Supports MIPI CSI-2 V2.1 and MIPI D-PHY V2.1 (80 Mbps ~ 1500 Mbps).

  • Maximum image size: 5 M pixels.

  • Minimum image size: QVGA (320 × 240) = 76.8 K pixels.

  • Maximum number of valid pixels in the horizontal direction: 2800 pixels.

  • Maximum number of valid pixels in the vertical direction: 4095 lines

  • Support 1/2/4 lanes.

  • Support 4 Virtual Channel.

 

MIPI DSI

The following figure describes the DSI interface.

 

The DSI main features are:

  • Display Serial Interface Version 1.3.1.

  • Support up to Full HD (1920 × 1080), 60 fps (RGB888).

  • Maximum Bandwidth: 1.5 Gbps per lane, 4 data lanes.

  • Support Output Data Format: RGB666 / RGB888.

  • Supports 1, 2, 3 and 4 lane configurations.

  • Support for Virtual Channel

Parallel Interface

  • Support WXGA (1280x800), 60 fps.

  • Support Output Data Format: RGB666 / RGB888. 

  • CLK / HD / VD timing signal supported. 

UART

Up to 4 UART interfaces. The following figure describes the UART interfaces.

The UART interface's main features are:

  • UART 2 is connected directly to the WI-FI/BT Modem to support the BT. It is NOT available on the SOM B-t-B connector.

  • UART 0 supports TX, RX and is used as terminal interface

  • UART 1 supports TX, RX, CTS and RTS.

  • UART 3 supports TX and RX.

  • UART 3 supports TX and RX.

  • Selectable bit rate with an on-chip baud rate generator.

 

SPI

Up to 3 SPI interfaces. The following figure describes the eSPI interface.

 

  • Single chip select nSS0.

  • Master/Slave configurable.

  • Switching of the polarity of the serial transfer clock.

  • Switching of the clock phase of serial transfer.

  • Transfer bit-length is selectable as 8, 16, or 32 bits.

 

I2C

Up to 4 I2C Interfaces. The following figure describes the I2C interfaces.

The I2C main features are:

  • I2C-3 is used only on the SOM. It is connected to the PMIC.

  • I2C-0 is available on the connector and connected to the SOM’s EEPROM.

  • I2C-1 and I2C2 are available on the BtB connectors.

  • I2C bus format or SMBus format.

  • Master mode or slave mode selectable

  • Up to 1 Mbps.

  • Up to three slave-address settings can be made.

  • Internal time-out function is capable of detecting long-interval stop of the SCL (clock signal).

uSD

The uSD interface is multiplexed with the eMMC interface. Only one of them is available.

 

CAN-FD

Up to 2 CANFD interfaces are available. The following figure describes the CAN interfaces.

The CAN main features are:

  • Supports two interface modes, classical CAN mode and CANFD mode.

  • ISO11898-1 compliant.

  • Maximum 1 Mbps in classical CAN mode.

  • Nominal bit rate: max.1 Mbps, data bit rate: max. 4 Mbps in CANFD mode.

CONNECTOR’S SIGNAL DESCRIPTION

J5001

PIN

HBP 2.5

 

RZG2L 1.1

 

 

PIN

HBP 2.5

 

RZG2L 1.1

 

PIN

HBP 2.5

 

RZG2L 1.1

 

 

PIN

HBP 2.5

 

RZG2L 1.1

 

1

TP4

 

NC

 

 

2

NC

 

NC

 

3

DIP-SWITCH

1V8

MD0

1V8

 

4

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_DATA3_N

 

5

DIP-SWITCH

1V

MD1

1V8

 

6

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_DATA3_P

 

7

GND

 

GND

 

 

8

GND

 

GND

 

9

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_CLK_P

 

 

10

GND

 

GND

 

11

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_CLK_N

 

 

12

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_DATA0_N

 

13

GND

 

GND

 

 

14

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_DATA0_P

 

15

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_DATA2_N

 

 

16

GND

 

GND

 

17

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_DATA2_P

 

 

18

Mini-PCIe (J20, optional)

 

NC

 

19

GND

 

GND

 

 

20

Mini-PCIe (J20, optional)

 

NC

 

21

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_DATA1_N

 

 

22

GND

 

GND

 

23

DSI-CON (J19) or DSI-HDMI

 

RZ_DSI_DATA1_P

 

 

24

M.2_W_DIS#

1V8

DISP_DATA15/GPIO_P14_0

 3V3

25

GND

 

GND

 

 

26

Mini-PCIe_W_DIS#

3V3

DISP_DATA16/GPIO_P14_1

 3V3

27

M.2_WAKW_ON_LAN (PCIe)

NA

GPIO_P19_1

 3V3

 

28

USB1_PWR_EN 

3V3

RZ_USB0_VBUSEN

3V3

29

MIKROBUS (J10-4)

NA

RZ_SCIF1_TXD

3V3

 

30

GND

 

GND

 

31

MIKROBUS (J10-3)

NA

RZ_SCIF1_RXD

3V3

 

32

Mini-PCIe (J20, optional)

 

NC

 

33

GND

 

GND

 

 

34

Mini-PCIe (J20, optional)

 

NC

 

35

NC

 

GPIO_P19_0

 3V3

 

36

GND

 

GND

 

37

MIKROBUS (J10-1)

NA

RZ_SCIF1_CTS

3V3

 

38

Mini-PCIe (J20, optional)

 

NC

 

39

MIKROBUS (J10-2)

NA

RZ_SCIF1_RTS

3V3

 

40

Mini-PCIe (J20, optional) 

 

NC

 

41

HEADER, DIP-SW

3V3

MD2

1V8

 

42

GND

 

GND

 

43

DSI_TS_nINT (DSI-HDMI)

3V3

DISP_DATA5/GPIO_P9_1

3V3

 

44

LED (D34)

3V3

DISP_DATA0/GPIO_P7_2

3V3

45

NC

 

DISP_DATA6/GPIO_P10_0

 3V3

 

46

LED (D33)

3V3

GPIO_P48_2

3V3

47

GND

 

GND

 

 

48

LED (D32)

3V3

GPIO_P47_1

3V3

49

NC

 

GPIO_P40_2

3V3

 

50

LED (D31)

3V3

GPIO_P47_2

3V3

51

HEADER, DIP-SW

3V3

GPIO_P47_3

 3V3

 

52

GND

 

GND

 

53

WIFI_DP (HUB to IMX8M)

NA

ADC_CH0

 

 

54

CSI-CON(CON7)

 

RZ_CSI_DATA0_N

 

55

WIFI_DN (HUB to IMX8M)

NA

ADC_CH3

 

 

56

CSI-CON(CON7)

 

RZ_CSI_DATA0_P

 

57

GND

 

GND

 

 

58

GND

 

GND

 

59

CSI-CON(CON7)

 

RZ_CSI_CLK_P

 

 

60

CSI-CON(CON7)

 

RZ_CSI_DATA2_P

 

61

CSI-CON(CON7)

 

RZ_CSI_CLK_N

 

 

62

CSI-CON(CON7)

 

RZ_CSI_DATA2_N

 

63

GND

 

GND

 

 

64

GND

 

GND

 

65

CSI-CON(CON7)

 

RZ_CSI_DATA3_P

 

 

66

CSI-CON(CON7)

 

RZ_CSI_DATA1_P

 

67

CSI-CON(CON7)

 

RZ_CSI_DATA3_N

 

 

68

CSI-CON(CON7)

 

RZ_CSI_DATA1_N

 

69

GND

 

GND

 

 

70

GND

 

GND

 

 

J7

PIN

HBP 2.5

 

RZG2L 1.1

 

 

PIN

HBP 2.5

 

RZG2L 1.1

 

PIN

HBP 2.5

 

RZG2L 1.1

 

 

PIN

HBP 2.5

 

RZG2L 1.1

 

1

ETH_NIC (Intel, U6)

 

NC

 

 

2

ETH_NIC (Intel, U6)

 

NC

 

3

ETH_NIC (Intel, U6)

 

NC

 

 

4

ETH_NIC (Intel, U6)

 

NC

 

5

GND

 

GND

 

 

6

GND

 

GND

 

7

ETH_NIC (Intel, U6)

 

NC

 

 

8

HEADER (CON4)

NA

NC

 

9

ETH_NIC (Intel, U6)

 

NC

 

 

10

mPCIe (J20)

3V3

GPIO_P42_2

 3V3

11

GND

 

GND

 

 

12

HEADER (CON4)

NA

GPIO_P42_3

 3V3

13

M.2_RESET#

1V8

NC

 

 

14

POE_AT_DET

3V3

DISP_DATA17/GPIO_P15_0

 3V3

15

RTC_CLKO (RTC Int.)

3V3

NC

 

 

16

DSI-CON (J19) or DSI-HDMI

NA

DISP_DATA18/GPIO_P15_1

 3V3

17

GND

 

GND

 

 

18

M.2_PCIe_3V3_EN

3V3

DISP_DATA21/GPIO_P17_0

 3V3

19

HDMI CON (J1)

 

NC

 

 

20

HEADER (CON4)

NA

DISP_DATA22/GPIO_P17_1

 3V3

21

HDMI CON (J1)

 

NC

 

 

22

HEADER (CON4)

NA

DISP_DATA23/GPIO_P17_2

 3V3

23

GND

 

GND

 

 

24

HEADER (CON4)

NA

DISP_CLK/GPIO_P6_0

 3V3

25

HDMI CON (J1)

 

NC

 

 

26

USB-HUB_RST#

3V3

GPIO_P39_1

3V3

27

HDMI CON (J1)

 

NC

 

 

28

HEADER (CON4)

NA

GPIO_P39_2

3V3

29

GND

 

GND

 

 

30

HEADER (CON4)

NA

DISP_HSYNC/GPIO_P6_1

 3V3

31

HDMI CON (J1)

 

NC

 

 

32

TP6

 

DISP_VSYNC/GPIO_P7_0

 3V3

33

HDMI CON (J1)

 

GPIO_P5_1

 3V3

 

34

NC

 

DISP_DE/GPIO_P7_1

 3V3

35

GND

 

GND

 

 

36

HEADER (CON4)

NA

GPIO_P36_1

 3V3

37

HDMI CON (J1)

 

GPIO_P5_2

 3V3

 

38

CSI-CON(CON7)

NA

RZ_SCIF3_TXD

3V3

39

HDMI CON (J1)

 

GPIO_P5_0

 3V3

 

40

NC

 

GPIO_P32_1

 3V3

41

GND

 

GND

 

 

42

GND

 

GND

 

43

HDMI CON (J1)

3V3

DISP_DATA9/GPIO_P11_1

3V3 

 

44

LED (D30)

3V3

RZ_SCIF3_RXD

3V3

45

HDMI CON (J1)

5V

DISP_DATA10/GPIO_P12_0

 3V3

 

46

HEADER (CON4)

NA

GPIO_P33_0

 3V3

47

HDMI CON (J1)

5V

DISP_DATA13/GPIO_P13_1

 3V3

 

48

GND

 

GND

 

49

HDMI CON (J1)

5V

DISP_DATA14/GPIO_P13_2

 3V3

 

50

HEADER (CON4)

NA

GPIO_P32_0

 3V3

51

AUDIO CODEC

3V3

RZ_SSI0_BCK

3V3

 

52

TERMINAL_TX

3V3

RZ_SCIF0_TXD

3V3

53

AUDIO CODEC

3V3

RZ_SSI0_TXD

3V3

 

54

TERMINAL_RX

3V3

RZ_SCIF0_RXD

3V3

55

AUDIO CODEC

3V3

RZ_SSI0_RCK

3V3

 

56

NC

 

DISP_DATA20/GPIO_P16_1

 3V3

57

AUDIO CODEC

3V3

RZ_SSI0_RXD

3V3

 

58

GND

 

GND

 

59

AUDIO CODEC

3V3

DISP_DATA19/GPIO_P16_0

3V3

 

60

USB-HUB

 

NC

 

61

GND

 

GND

 

 

62

USB-HUB

 

NC

 

63

HEADER (CON4)

NA

VDD_RTC

3V3 

 

64

GND

 

GND

 

65

RESET-B

1V8

SYS_nRST

1V8

 

66

USB-HUB

 

NC

 

67

HEADER (CON4)

NA

ETH1_TRX3_P

 

 

68

USB-HUB

 

NC

 

69

HEADER (CON4)

NA

ETH1_TRX3_N

 

 

70

GND

 

GND

 

71

HEADER (CON4)

NA

ETH1_TRX2_P

 

 

72

HEADER (CON4)

NA

ETH1_TRX1_P

 

73

MICRO-SD

NA

ETH1_TRX2_N

 

 

74

HEADER (CON4)

NA

ETH1_TRX1_N

 

75

GND

 

GND

 

 

76

GND

 

GND

 

77

HDMI CON (J1)

 

NC

 

 

78

HEADER (CON4)

NA

ETH1_TRX0_P

 

79

HDMI CON (J1)

 

NC

 

 

80

HEADER (CON4)

NA

ETH1_TRX0_N

 

 

J9

PIN

HBP 2.5

 

RZG2L 1.1

 

 

PIN

HBP 2.5

 

RZG2L 1.1

 

PIN

HBP 2.5

 

RZG2L 1.1

 

 

PIN

HBP 2.5

 

RZG2L 1.1

 

1

ETH-POE

 

ETH_TRX3_N

 

 

2

GND

 

GND

 

3

ETH-POE

 

ETH_TRX3_P

 

 

4

USB-TYPE-A

 

GPIO_P1_0

 3V3

5

GND

 

GND

 

 

6

USB-TYPE-A

 

GPIO_P43_0

 3V3

7

ETH-POE

 

ETH_TRX2_N

 

 

8

GND

 

GND

 

9

ETH-POE

 

ETH_TRX2_P

 

 

10

USB-TYPE-A

 

NC

 

11

GND

 

GND

 

 

12

USB-TYPE-A

 

RZ_USB1_OVERCUR

3V3 

13

ETH-POE

 

ETH_TRX1_N

 

 

14

GND

 

GND

 

15

ETH-POE

 

ETH_TRX1_P

 

 

16

USB-TYPE-A

 

RZ_USB0_DP

 

17

GND

 

GND

 

 

18

USB-TYPE-A

 

RZ_USB0_DM

 

19

ETH-POE

 

ETH_TRX0_N

 

 

20

GND

 

GND

 

21

ETH-POE

 

ETH_TRX0_P

 

 

22

USB-HUB

 

RZ_USB1_DP

 

23

GND

 

GND

 

 

24

USB-HUB

 

RZ_USB1_DM

 

25

ETH-LED

 

LED_0/PHY_CFG0

3V3

 

26

GND

 

GND

 

27

ETH-LED

 

LED1_0/PHY_CFG1

3V3

 

28

M.2_GPS_EN#

NA

RZ_SCIF4_RX

 3V3

29

HEADER (CON4)

 

GPIO_P43_1

3V3

 

30

J9-59 (BT_FW_FLASH, J9-59)

NA

RZ_SCIF4_TX

 3V3

31

MIPI-DSI, ETH-NIC, DSI-CON, CSI-CON, RTC, MIKROBUS

3V3

RZ_RIIC0_SCL

3V3

 

32

MIKROBUS (J8-3)

NA

RZ_RSPI1_SSL

3V3

33

MIPI-DSI, ETH-NIC, DSI-CON, CSI-CON, RTC, MIKROBUS

3V3

RZ_RIIC0_SDA

3V3

 

34

CSI-CON  (J19) or DSI-HDMI

3V3

RZ_SCIF4_CLK

3V3

35

GND

 

GND

 

 

36

GND

 

GND

 

37

USB_HUB_CH1_PWR_EN

3V3

RZ_USB1_VBUSEN

3V3

 

38

MICRO-SD

SD2

SD_SD0_CLK

SD2

39

J9-55 (BT_FW_FLASH, J9-55)

NA

GPIO_P43_2

 3V3

 

40

MICRO-SD

SD2

SD_SD0_CMD

SD2

41

ETH-NIC RST# (Intel, U6)

3V3

GPIO_P43_3

 3V3

 

42

MICRO-SD

SD2

SD_SD0_DATA0

SD2

43

USB1_VBUS

5V

RZ_USB0_VBUSIN

5V

 

44

MICRO-SD

SD2

SD_SD0_DATA1

SD2

45

MIKROBUS (J8-5)

NA

RZ_RSPI1_MISO

3V3

 

46

MICRO-SD

SD2

SD_SD0_DATA2

SD2

47

MIKROBUS (J8-6)

NA

RZ_RSPI1_MOSI

3V3

 

48

MICRO-SD

SD2

SD_SD0_DATA3

SD2

49

MIKROBUS (J8-4)

NA

RZ_RSPI1_CK

3V3

 

50

MICRO-SD

SD2

RZ_SD0_CD

SD2

51

AUD_CODEC, USB-TYPEC, USB-HUB

3V3

RZ_RIIC1_SDA

3V3

 

52

USB-HUB

3V3

RZ_RSPI2_CK

 3V3

53

AUD_CODEC, USB-TYPEC, USB-HUB

3V3

RZ_RIIC1_SCL

3V3

 

54

HEADER, DIP-SW

3V3

RZ_RSPI2_MOSI

 3V3

55

BT-FW_FLASH (J9-39)

NA

DISP_DATA8/RZ_CAN0_RX

 

 

56

NC

 

RZ_RSPI2_MISO

 3V3

57

HEADER (CON4)

NA

DISP_DATA7/RZ_CAN0_TX

 

 

58

NC

 

RZ_RSPI2_SSL

 3V3

59

BT-FW_FLASH (J9-30)

NA

DISP_DATA12/RZ_CAN1_RX

 

 

60

NC

 

RZ_WDTOVF_PERROUT

3V3

61

MICRO-SD

 

DISP_DATA11/RZ_CAN1_TX

 

 

62

PUSH-B

 

PMIC_PWRON

3V3

63

3V3_IN

 

3V3_OUT

 

 

64

HEADER, DIP-SW

3V3

SD0_DEV_SEL

3V3

65

3V3_IN

 

3V3_OUT

 

 

66

NC

 

PMIC_EN

3V3

67

3V3_IN

 

3V3_OUT

 

 

68

MICRO-SD

NA

GPIO_SD0_PWR_EN

3V3

69

3V3_IN

 

3V3_OUT

 

 

70

GND

 

GND

 

71

VIN_5V0

 

VIN_5V0

 

 

72

GND

 

GND

 

73

VIN_5V0

 

VIN_5V0

 

 

74

GND

 

GND

 

75

VIN_5V0

 

VIN_5V0

 

 

76

GND

 

GND

 

77

VIN_5V0

 

VIN_5V0

 

 

78

GND

 

GND

 

79

VIN_5V0

 

VIN_5V0

 

 

80

GND

 

GND

 

 

mikroBUS

HBP 2.4

RZG2L 1.1

HBP 2.4

RZG2L 1.1

MIKROBUS (J8-2)

RZ_SSI0_RXD

MIKROBUS (J8-3)

RZ_RSPI1_SSL

MIKROBUS (J8-4)

RZ_RSPI1_CK

MIKROBUS (J8-5)

RZ_RSPI1_MISO

MIKROBUS (J8-6)

RZ_RSPI1_MOSI

MIKROBUS (J10-1)

RZ_SCIF1_CTS

MIKROBUS (J10-2)

RZ_SCIF1_RTS

MIKROBUS (J10-3)

RZ_SCIF1_RXD

MIKROBUS (J10-4)

RZ_SCIF1_TXD

MIKROBUS (J10-5)

RZ_RIIC0_SCL

MIKROBUS (J10-6)

RZ_RIIC0_SDA

LCD (Parallel Video Output) Signals allocation

LCD

B-to-B connector

LCD

B-to-B connector

DISP_DATA0

J5001-44

DISP_DATA1

J9-52

DISP_DATA2

J9-54

DISP_DATA3

J9-56

DISP_DATA4

J9-58

DISP_DATA5

J5001-43

DISP_DATA6

J5001-45

DISP_DATA7

J9-57

DISP_DATA8

J9-55

DISP_DATA9

J7-43

DISP_DATA10

J7-45

DISP_DATA11

J9-61

DISP_DATA12

J9-59

DISP_DATA13

J7-47

DISP_DATA14

J7-49

DISP_DATA15

J5001-24

DISP_DATA16

J5001-26

DISP_DATA17

J7-14

DISP_DATA18

J7-16

DISP_DATA19

J7-59

DISP_DATA20

J7-56

DISP_DATA21

J7-18

DISP_DATA22

J7-20

DISP_DATA23

J7-22

DISP_HSYNC

J7-30

DISP_VSYNC

J7-32

DISP_DE

J7-34

DISP_CLK

J7-24

Power & Reset

The RZG2L/V2L SOM power source is a single 5V source. It uses Renesas’s PMIC to source all the SOM's power rails. The following figure describes the power architecture.

 

The power architecture's main features are:

  • Single 5V power source.

  • Renesas’s RAA215300 sources the RZG2L/V2L power rails.

  • 3.3V output up to 0.6A (Need to calculate system and SOM power).

  • Power up sequence is supported by the PMIC configuration.

POWER CONSUMPTION

RZ/G2L Power Table

Mode

Voltage

Current

Power

Mode

Voltage

Current

Power

Idle, Linux up

5V

240mA

1.2W

Linux up, wifi connected to 2.4GHz

and sending packet by iperf3

5V

400mA

2W

Linux up, wifi connected to 5GHz and sending packet by iperf3

5V

430mA

2.15W

Linux up, scanning for bluetooth device

5V

250mA

1.25W

Linux up, GPU stress by glmark2

5V

460mA

2.3W

Linux up, CPU stress to maximum

5V

400mA

2W

All utilities are active in the same time (Wifi, GPU stress, CPU stress, Bluetooth)

5V

670mA

3.35W

RZ/V2L Power Table

Mode

Voltage

Current

Power

Mode

Voltage

Current

Power

Idle, Linux up

5V

240mA

1.2W

Linux up, wifi connected to 2.4GHz

and sending packet by iperf3

5V

384mA

1.94W

Linux up, wifi connected to 5GHz and sending packet by iperf3

5V

427mA

2.135W

Linux up, scanning for bluetooth device

5V

255mA

1.275W

Linux up, GPU stress by glmark2

5V

480mA

2.4W

Linux up, CPU stress to maximum

5V

384mA

1.92W

Linux up, AI tested with web camera

5V

864mA

4.32W

All utilities are active in the same time (Wifi, GPU stress, CPU stress, Bluetooth)

5V

528mA

2.64W

RESET

The PMIC generates the POR. A reset signal (PMIC_CRST_IN#) from the carrier board can generate a POR.

The PMIC supports a Power ON/OFF* signal to disable/enable all power signals besides RTC.

The PMIC supports an RTC that can be powered by a battery (J7-63).

RZG2L/V2L INTEGRATION MANUAL

POWER UP SEQUENCE

A single 5V input sources the RZG2L/V2L. The PMIC supports all power sequences.

When using the SOM 3.3V output there is no need to consider its power sequence. If an external power source is used for the 3.3V, it must be powered according to the power sequence rules. (See RZG2L/V2L datasheet for details)

BOOTING OPTIONS

Strap pins Booting

The RZG2L/V2L boost from different NVM or serial interfaces according to external resistors setting. The boot configuration is set by the three configuration signals (MD0, MD1, and MD2) and a selection signal (SD0_DEV_SEL) that select between eMMC and uSD (Mux on SOM). Below is a table describing the configuration modes. 

MD2

J5001-41

MD1

J5001-5

MD0

J5001-3

SD0_DEV_SEL

J9-64

MODE

MD2

J5001-41

MD1

J5001-5

MD0

J5001-3

SD0_DEV_SEL

J9-64

MODE

0

0

0

0

uSD (Start up 3.3V)

0

0

1

1

eMMC (1.8V)

0

1

1

N/A

SPI Single/Quad/Octal (1.8V)

1

0

1

N/A

SCIF Download

I2C INTERFACES

The RZG2L/V2L uses I2C2 (PMIC) interfaces for its internal configurations.

GPIO INTERFACES

The RZG2L/V2L SOM uses some GPIO signals for its internal controls. The following table describes the GPIO allocation.

Signal

I/O

Description

Remarks

Signal

I/O

Description

Remarks

ENET_nINT

P27_0

Ethernet interrupt

Active Low

ENET1_nINT

P42_4

Ethernet 1 interrupt

Active Low

WL_REG_ON

P23_1

Enable the WLAN

Active High

BT_REG_ON

P23_0

Enable the BT

Active High

 

Mechanical Description

Following is a diagram of the TOP VIEW of the RZG2L/V2L.

 

Documentation

  File Modified

 

 

Related Articles

Filter by label

There are no items with the selected labels at this time.

SolidRun Ltd.