StarSBC-6ULL Datasheet and Pinout: Difference between revisions
From SomLabs Wiki
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Revision as of 12:38, 9 December 2022
StarSBC-6ULL Datasheet and Pinout
General description
The StarSBC-6ULL SBC (Single Board Computer) is small but powerful IoT Sensor Hub, optimized for operation in applications requiring a large number of communication interfaces. The StarSBC-6ULL is equipped with on-board PHY 10/100 Mb/s Ethernet interface, Murata 1DX radio module (integrated WiFi/BLE), USB host and USB-OTG interfaces. The StarSBC-6ULL supports connections to a variety of interfaces: I2C, SPI, UART and CAN. Additionally the StarSBC-6ULL module is equipped with easy to use 2×26 pin connectors with 40 GPIOs for any use in user application.
The StarSBC-6ULL can be optionally equipped with communication expander module SLH2-comm, which is equipped with 2 x CAN, 2 x RS485, 2 x RS232 physical layers interfaces.
The StarSBC-6ULL supports industrial grade embedded applications.
Applications
- IoT Sensor Hubs
- Home Appliances
- IoT gateways
- Protocol converters
- Home Automation – Smart Home
- Point-of-sales (POS) terminals
- Cash Register
- 2D barcode scanners and printers
- Smart grid infrastructure
- Residential gateways
- Outdoor equipment
Features
- Powered by NXP i.MX 6ULL application processor
- Core clock up to 900MHz
- Up to 1GB RAM DDR3L
- Up to 32GB eMMC
- Optional Murata 802.11b/g/n Wi-Fi and Bluetooth v5.1 module
- Power-efficient and cost-optimized solution
- Ideal for industrial IoT and embedded applications
- Integrated security features
Pictures of SBC versions
Version | Photo |
---|---|
eMMC |
Wi-Fi and Ethernet PHY10/100 are available as an options. |
Ordering info
SLC | Product type SLC - Single Board Computer |
2 | Form factor 2 - StarSOM |
X6 | CPU Family X6 - i.MX6 |
CpuType | CPU Type Y2 - i.MX6 ULL Y2 |
Clock | CPU Clock Speed 528C - 528MHz 792C - 792MHz 900C - 900MHz |
RamSize | DDR3 RAM Size 64R - 64MB 128R - 128MB 256R - 256MB 512R - 512MB |
FlashSize | Flash Size Type and Density 04GE - 4GB eMMC 08GE - 8GB eMMC 16GE - 16GB eMMC 32GE - 32GB eMMC |
SF | Special Features 0SF - No Special Features 1WB - Built-in Murata 802.11b/g/n Wi-Fi/Bluetooth v5.1 2ET - Built-in Microchip 100Mb Ethernet PHY 3WE - Built-in Murata 802.11b/g/n Wi-Fi/Bluetooth v5.1 and Microchip 100Mb Ethernet PHY |
TEMP | Operating Temperature C - Consumer: 0 to +70 C E - Extended: -25 to +70 C I - Industrial: -40 to +85 C |
Block Diagram
Operating ranges
Parameter | Value | Unit | Comment |
---|---|---|---|
Power Supply | Connected to J100 or J101 or USB conenctors1 | ||
GPIO voltage | - | ||
Environment temperature2 | oC | Industrial range w/o WiFi module | |
Industrial (extended) range with WiFi module | |||
Consumer range |
Note:
1. Power supply can be delivered by two ways: J100/J101 or MicroUSB (OTG).
2. Maximum MPU junction temperature is +105oC (industrial version) or +95oC (consumer version).
Electrical parameters
SBC signal name |
Parameter | Value | Units | ||
---|---|---|---|---|---|
Min. | Typ. | Max. | |||
+5V | SBC supply voltage1 | 4.85 | 5 | 5.15 | V |
I+3.3VO | Supply voltage for external peripherals | 3.2 | 3.3 | 3.35 | V |
I+5V | Total Supply Current | TBD | TBD | TBD | mA |
VGPIO | GPIO Input Voltage | 0 | 3.3 | 3.62 | V |
+3.3VO | Output current of 3.3V power supply for peripherals |
- | - | 0.1 | A |
VBATT | RTC/SNVS Backup Battery Supply |
2.66 | - | 3.6 | V |
- |
Notes:
1. The external voltage connected to pin 2 of J100 and/or J101 or MicroUSB.
2. Applying the maximum voltage 3.6V results in shorten lifetime. Recommended value is smaller than 3.5V.
Features
Connector pin number | Default function | GPIO | Ball numer BGA289 | Notes |
---|---|---|---|---|
J100 | ||||
1 | +3,3VO | +3,3V power output (max. 100 mA) - paralelly connected to pin 1 of J101 | ||
2 | +5V | External power supply (power source) 5V - paralelly connected to pin 2 of J101 | ||
3 | UART8-RXD | ENET2_TX_EN | B15 | |
4 | GND | |||
5 | UART8-TXD | ENET2_TX_DATA1 | A16 | |
6 | UART3-TXD | UART3_TX_DATA | H17 | |
7 | PWM5 | LED_DATA18 | A13 | |
8 | UART3-RXD | UART3_RX_DATA | H16 | |
9 | GND | |||
10 | UART3-CTS | UART3_CTS | H15 | |
11 | UART4-RXD | LCD_ENABLE | B8 | |
12 | UART3-RTS | UART3_RTS | G14 | |
13 | UART4-TXD | LCD_CLK | A8 | |
14 | GND | |||
15 | I2C4-SDA | LCD_DATA02 | E10 | In I2C mode external pull-up resistor is necessary (no any internal pull-up) |
16 | I2C3-SDA | LCD_DATA00 | B9 | In I2C mode external pull-up resistor is necessary (no any internal pull-up) |
17 | I2C4-SCL | LCD_DATA03 | D10 | In I2C mode external pull-up resistor is necessary (no any internal pull-up) |
18 | I2C3-SCL | LCD_DATA01 | A9 | In I2C mode external pull-up resistor is necessary (no any internal pull-up) |
19 | ECSPI2-MOSI | UART5_TX_DATA | F17 | |
20 | UART7-RXD | LCD_DATA16 | C13 | |
21 | ECSPI2-MISO | UART5_RX_DATA | G13 | |
22 | UART7-TXD | LCD_DATA17 | B13 | |
23 | ECSPI2-SCLK | UART4_TX_DATA | G17 | |
24 | UART7-CTS | LCD_DATA07 | D11 | |
25 | ECSPI2-CS | UART4_RX_DATA | G16 | |
26 | UART7-RTS | LCD_DATA06 | A10 | |
J101 | ||||
1 | +3,3VO | +3,3V power output (max. 100 mA) - paralelly connected to pin 1 of J100 | ||
2 | +5V | External power supply (power source) 5V - paralelly connected to pin 2 of J100 | ||
3 | USB1-DP | Line connected to USB1 channel through MUX (output ENET2_RX_ER, ball D16 is USB1 connection selector). Connected to USB1-DP MPU line if ENET2_RX_ER="0" (USB1-SEL), in another case USB1-DP MPU line is connected to MicroUSB connector (USB-OTG). | ||
4 | GND | |||
5 | USB1-DM | Line connected to USB1 channel through MUX (output ENET2_RX_ER, ball D16 is USB1 connection selector). Connected to USB1-DM MPU line if ENET2_RX_ER="0" (USB1-SEL), in another case USB1-DM MPU line is connected to MicroUSB connector (USB-OTG). | ||
6 | GPIO-6 | GPIO1_IO06 | K17 | |
7 | GPIO3.17 | LCD_DATA12 | C12 | |
8 | GPIO-7 | GPIO1_IO07 | L16 | |
9 | GND | |||
10 | GPIO-8 | GPIO1_IO08 | N17 | |
11 | CAN1-TX | LCD_DATA08 | B11 | |
12 | GPIO-9 | GPIO1_IO09 | M15 | |
13 | CAN1-RX | LCD_DATA09 | A11 | |
14 | GND | |||
15 | CAN2-TX | LCD_DATA10 | E12 | |
16 | GPIO3.2 | LCD_HSYNC | D9 | |
17 | CAN2-RX | LCD_DATA11 | D12 | |
18 | GPIO3.3 | LCD_VSYNC | C9 | |
19 | MQS-R | LCD_DATA22 | A14 | |
20 | UART2-RXD | UART2_RX_DATA | J16 | |
21 | MQS-L | LCD_DATA23 | B16 | |
22 | UART2-TXD | UART2_TX_DATA | J17 | |
23 | GPIO3.25 | LCD_DATA20 | C14 | |
24 | UART2-CTS | UART2_CTS | J15 | |
25 | GPIO3.26 | LCD_DATA21 | B14 | |
26 | UART2-RTS | UART2_RTS | H14 | |
J102 | ||||
1 | UART1-TXD | UART1_TX_DATA | K14 | TxD line of Linux console port (LV-TTL logic levels) |
2 | UART1-RXD | UART1_RX_DATA | K16 | RxD line of Linux console port (LV-TTL logic levels) |
3 | GND | |||
Another functions | ||||
BUZZER | GPIO1_IO05 | M17 | Electromagnetic speaker control output (thru NPN driver) | |
SYSLED | ENET2_TX_CLK | D17 | System or user LED control output (heartbeat by default, thru NPN driver) | |
USRLED | LCD_DATA14 | A12 | User LED control output (thru NPN driver) | |
WDOG-B | LCD_RESET | E9 | Used by system, do not modify default configuration | |
ENET-MDIO | ENET2_RX_DATA0 | C17 | ||
ENET-MDC | ENET2_RX_DATA1 | C16 | ||
ENET1-RST | ENET2_RX_EN | B17 | ||
ENET1-INT | ENET2_TX_DATA0 | A15 | ||
USB1-SEL | ENET2_RX_ER | D16 | ||
USB1-ID | GPIO1_IO00 | K13 | ||
USB1-VBUS-OC | GPIO1_IO01 | L15 | ||
USB1-VBUS-EN | GPIO1_IO04 | M16 | ||
USB2-VBUS-OC | GPIO1_IO03 | L17 | ||
USB2-VBUS-EN | GPIO1_IO02 | L14 | ||
WiFi and BLE module connection | ||||
BT-ENABLE | CSI_MCLK | F5 | ||
WLAN-HWAKE | CSI_PIXCLK | E5 | ||
BT-HWAKE | CSI_VSYNC | F2 | ||
BT-WAKE | CSI_HSYNC | F3 | ||
BT-RXD | CSI_DATA00 | E4 | UART5 | |
BT-TXD | CSI_DATA01 | E3 | UART5 | |
BT-RTS | CSI_DATA02 | E2 | UART5 | |
BT-RTS | CSI_DATA03 | E1 | UART5 | |
BT-PCM-SYNC | CSI_DATA04 | D4 | ||
BT-PCM-CLK | CSI_DATA05 | D3 | ||
BT-PCM-OUT | CSI_DATA06 | D2 | ||
BT-PCM-IN | CSI_DATA07 | D1 | ||
CLK32kHz | JTAG_CTK | M14 | Clock output to 1DX radio module (WiFi/BLE) | |
JTAG_MOD | JTAG_MOD | P15 | Permanently connected to GND | |
BOOT_MODE1 | BOOT_MODE1 | U10 | Permanently connected to GND |
Note:
1. WiFi radio module is connected to SDIO1 interface.
Software loading - BOOT0 jumper
If BOOT0 jumper is open - MPU starts normally (software from MMC memory is loading).
If pins of BOOT0 jumper are connected to each other, bootloader starts (active on USB1).