Focalcrest IEC-EDGE2-0432 Single Board Computer User Manual
- June 5, 2024
- Focalcrest
Table of Contents
Focalcrest IEC-EDGE2-0432 Single Board Computer
Introduction
Product Description
Edge 2 is a high-performance and rich-interface ARM64 single-board computer
targeted for a wide range of IoT networking and computing applications. It may
apply in networking, computing, controlling, and home entertainment areas for
further achievement with the help of multipurpose software. The single-board
computer combines a MIXTILE System-on-Module Core 3568, a WLAN+BT wireless
module, and plenty of expansion interfaces.
Package list
- 1x MIX TILE Edge 2 with customizable shell
- 1x 1m type-c to type-c cable
- 2x 16mm 6dbi 2.4G/5.8G Antennas
Main Features
- Quad-core Cortex-A55 SoC Processor RK3568 up to 2.0GHz
- 2/4GBytes LPDDR4 SDRAM Memory
- 16/32GBytes eMMC Flash Memory
- 0.8 Tops NPU
- Wi-Fi 6 802.11ax
- Dual-Mode Bluetooth 5.0
- Support 4G/5G/LoRa/Zigbee module
- 1x Gigabit Ethernet Port
- 1x MicroSD 3.0 Flash Expansion Socket
- 3x USB 2.0/3.0 ports up to 5Gbps
- 1x M.2 Socket: PCIe 3.0, USB 3.0, SIM Socket
- 1x Mini-PCIe Socket: USB2.0, SIM Socket
- 1 x U.2 Socket: SATA/PCIe, SATA, RGMII/SPI/I2S, USB2.0
- 1x HDMI2.0, 1x eDP, 2x MIPI-DSI, and 1x MIPI-CSI
- 4KP60 H.265/H.264/VP9 video decoder
- 1080P100 H.264/H.265 video encoder
- 1x RS485, 1x CAN, 1x I2C, and 2x UART
- 3x PDM, 1x SPDIF, 1x Speaker, 1x IR, and 4x ADC
- Real Time Clock with Battery Backup
- 2x power supply ports:
- Type-C PD3.0 Power input (Max 3A @ 20V)
- 12V DC/SATA Power input (Max 3A)
- Android 11 Board Support Package
- 0 to +80°C Operating Temperature
Key Component Specifications
The key component specifications are described below with relevant hardware
information and developing notices. For more information, pin assignments and
signal descriptions are listed in Chapter 2, Connectors & Pin Assignments.
MIXTILE Core 3568
The Core 3568 is a System-on-Module that expands all CPU functions to pins
with an innovative connector. The Rockchip RK3568 ARM64 CPU contains many
peripherals to support multi-purpose.
- Quad Cortex-A55 processing cores
- Core operating frequencies up to 2.0GHz
- Neural Process Unit with processing performance up to 0.8 TOPS
- Support 4k@60fps H.265/H.264/VP9 decoder; 1080P@100fps H.265/H.264 encoder
- LPDDR4 SDRAM supports up to 8GB The SDRAM is 32bits data width, 4 ranks LPDDR4 memory capacities from 2GBytes to 8GBytes. The system flash memory supports eMMC 5.1 memory capacities from 16GBytes to 256GBytes. The default memory setting is 2/4GBytes LPDDR4 and 16/32GBytes eMMC for Edge 2.
Wi-Fi 6 / Bluetooth
Edge 2 integrates a Wi-Fi and Bluetooth module AP6275S, that can wake up
the device from sleep mode. AP6275S supports Wi-Fi 6 and dual-mode Bluetooth
5.0 that could interact with different vendors’ 802.11a/b/g/n/ac/ax 2×2 Access
Points with MIMO standard and can accomplish up to a speed of 1200Mbps with
the dual-stream. Wi-Fi wake and enable signals connect to GPIO0 in the
processor, which can be operating while the device is sleep.
MicroSD Socket
The MicroSD socket accepts standard 11mm x 15mm Micro-SD cards with
capacities up to 64GBytes. The 4bits data interface supports the SDMMC3.0
protocol. The default boot setting is the eMMC Flash which can change to the
MicroSD card.
M.2 Socket
M.2, Next Generation Form Factor (NGFF), is specified for expansion
modules. The M.2 interface uses a standard 75 pins B key socket, which
supports USB3.0-based WWAN modules, PCIe-based WWAN modules, and PCIe-based
SSD modules. The M.2 socket supports the module sizes of 2242, 3042, and 3052.
The module supporting configuration, including power, reset, and interrupt
signals, is under software control by Core 3568. Since each module needs
specific configuration definitions, check the configuration setting before
connecting the module.
SIM Support
The M.2 socket includes a SIM socket with the SIM_M.2 mark, which supports
12mm x 15mm micro-SIM cards for 4G/5G cellular function. This socket does not
support dual SIM.
USB Support
The M.2 socket supports one standard USB 3.0 interface. Since the USB 3.0
data signals and one lane of PCIe data signals are using the same set of pins,
a GPIO is used to select USB 3.0 and a lane of two-lane PCIe 3.0 signal.
PCIe Support
The M.2 socket supports a two-lane PCIe 3.0 interface. Edge 2 uses
PI6C557-03BLE as a clock generator to provide a 100MHz clock signal for the
CPU and M.2 socket. For full functioning of the two-lane PCIe signal, the
selecting GPIO, PCIE_USB_SEL_GPIO1_D0, needs to set LOW to active.
Mini-PCIe Socket
The mini-PCIe is a small form factor PCI card interface, which uses a standard
52 pins mini-PCIe socket. It contains a USB 2.0 interface with a supported SIM
signal. The mini-PCIe socket supports the module sizes of 3052.
The module supporting configuration, including power, reset, and interrupt
signals, is under software control by Core 3568. Since each module needs
specific configuration definitions, check the configuration setting before
connecting the module.
SIM Support
The mini-PCIe socket includes a SIM socket with SIM_Mini mark, which
supports 12mm x 15mm micro-SIM cards for 4G cellular function. This socket
does not support dual SIM.
USB Support
The mini-PCIe socket supports a standard USB 2.0 interface.
Gigabit Ethernet
The IEEE802.3 compliant ethernet supports 10/100/1000Mb half-duplex and
full-duplex auto-negotiation. The GbE communicates to an external PHY,
RTL8211F-CG, through an RGMII interface from the processor. The RJ45 connector
contains status and speed lights. The green light is on for connection and
flashing for data transmitting. The yellow light is on for 1000Mbps and off
for 10/100Mbps.
Power Input
Power Delivery (PD)
The power port uses a USB-C port, which supports USB PD 3.0 . An on-board
Power Delivery controller allows the maximum power input of 20V @ 3A. The Edge
2, as device mode, can be communicated by USB-C, which supports USB 2.0 for
ADB debugging, firmware update. 12V DC DC power inputs from a DC power jack
socket or a SATA power socket require 12V @ 3A.
USB 2.0/3.0 Host Ports
Edge 2 has three standard USB 2.0/3.0 host ports using type-A connectors
and one USB 2.0/3.0 port connects M.2 socket. These USB 2.0/3.0 ports are
provided by a USB 3.0 hub, VL817. The three type-A connectors support 5V at 1A
power and dependent software power dis/enabling.
RS485
RS485 connector has three pins, pin A, B, and GND for communication. RS485
connects to UART4 in CPU via interface IC, SP485REN-L. RS485 is a half-duplex
bus with a default setting on receiving state. It will automatically switch to
the sending state when needed. RS485 uses full isolation designs, the power
supply and ground are isolated from the module used in the board, and the
signal is isolated by an optocoupler.
Display Support
The video output processor supports the resolution from 1920×1080@60Hz to
4096×2304@60Hz and three simultaneous displays in the following interfaces.
The default main display is HDMI.
HDMI
HDMI display compliant HDMI 1.4 and HDMI 2.0. It supports up to
1920×1080@120Hz and 4096×2304@60Hz resolution.
eDP
The eDP display supports up to 2560×1600@60Hz resolution, up to 4 lanes of
2.7Gbps/lane. The 30-pin FPC connector includes the eDP interface and a
backlight source. The pin assignments are listed in the next chapter.
MIPI-DSI
The MIPI-DSI display supports two-channel DSI and 2.5Gbps maximum data rate
per lane. It supports up to 1920×1080@60Hz display output for single-MIPI mode
and 2560×1440@60Hz for dual-MIPI mode. Two MIPI-DIS interfaces use 30-pin FPC
connectors, MIPI-DSI0 and MIPI-DSI1, which include one channel MIPI-DSI and
one touch panel signal (TP). The connectivity is show in the following figure:
U.2 Connector
The U.2 interface uses a 68-pin U.2 connector including a standard SATA
signal, which supports 5V at 3A maximum, a SATA 3.0/PCIe 2.0 signal, a USB 2.0
signal, and another set of RGMII for ethernet.
Buttons & LEDs
The POWER button controls three statuses of the device, on, off, and sleep.
Short press POWER button to turn on device when the device is off, press and
hold POWER button to turn off device. Short press POWER button to enter sleep
mode when the device is on. Short press RESET button to reset the device. When
the device is on, press the RECOVERY button and hold, it will restart and
restore the factory settings. The MASK ROM button is for development only,
hold the MASKROM button and power up (or reset). The system will enter MaskROM
mode for firmware development.The power and system LEDs indicate the statuses
of the power supply and system operating. And two small LEDs on the front side
of board indicate the network status of M.2 and mini-PCIe modules.
Connectors & Pin Assignments
The following section lists the interfaces connector pin assignments, pin types with corresponding signal descriptions. The interface connectors on Edge 2 are listed in the table below.
Debug
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| UART2_RXD| IO| Input| UART2 serial data input for debug
2| UART2_TXD| IO| Output| UART2 serial data output for debug
3| GND| GND| –| Ground
UART
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| 3.3V| PWR| Output| 3.3V @ 100mA Max
2| UART3_RX| IO| Input| UART3 serial data input
3| UART3_TX| IO| Output| UART3 serial data output
4| GND| GND| –| Ground
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| 3.3V| PWR| Output| 3.3V @ 100mA Max
2| UART5_RX| IO| Input| UART5 serial data input
3| UART5_TX| IO| Output| UART5 serial data output
4| GND| GND| –| Ground
CAN-IO
Pin #| Pin Name| Pin Type| Input/ Output| Signal
Description
---|---|---|---|---
1| 5V| PWR| Output| 5V @ 200mA Max
2| CAN1_RX| IO| Input| CAN receive data, connect to CAN transceiver
3| CAN1_TX| IO| Output| CAN transmit data, connect to CAN transceiver
4| GND| GND| –| Ground
I2C
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| 3.3V| PWR| Output| 3.3V @ 100mA Max
2| I2C3_SCL| IO| Output| I2C clock signal
3| I2C3_SDA| IO| I/O| I2C data signal
4| GND| GND| –| Ground
5V Output
Pin #| Pin Name| Pin Type| Input/ Output| Signal
Description
---|---|---|---|---
1| 5V| PWR| Output| 5V @ 2A Max in total
2| 5V| PWR| Output| 5V @ 2A Max in total
3| GND| GND| –| Ground
4| GND| GND| –| Ground
Power button connector
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| PWRON_CON| IO| Input| Active-low, same as PWR button
2| GND| GND| –| Ground
Reset button connector
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| RESET_KEY| IO| Input| Active-low reset signal, same as RESET button
2| GND| GND| –| Ground
SPDIF
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| SPDIF_TX| IO| Output| SPDIF output signal
2| 3.3V| PWR| Output| 3.3V @ 100mA Max
3| GND| GND| –| Ground
RS485
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| GND| GND| –| Ground
2| 485B| DS| I/O| RS485 differential signal Negative
3| 485A| DS| I/O| RS485 differential signal Positive
ADC
Pin #| Pin Name| Pin Type| Input/ Output| Signal
Description
---|---|---|---|---
1| 3.3V| PWR| Output| 3.3V @ 100mA Max
2| SARADC_VIN4| ANA| Input| ADC analog signal
3| SARADC_VIN5| ANA| Input| ADC analog signal
4| SARADC_VIN6| ANA| Input| ADC analog signal
5| SARADC_VIN7| ANA| Input| ADC analog signal
6| GND| GND| –| Ground
Speaker
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| SPK+| ANA| Output| speaker driver output Positive
2| SPK-| ANA| Output| speaker driver output Negative
DMIC
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| 3.3V| PWR| Output| 3.3V @ 500mA Max in total
2| 3.3V| PWR| Output| 3.3V @ 500mA Max in total
3| GND| GND| –| Ground
4| GND| GND| –| Ground
5| PDM_SDI1| IO| Input| PDM data signal
6| PDM_SDI2| IO| Input| PDM data signal
7| PDM_SDI3| IO| Input| PDM data signal
8| GND| GND| –| Ground
9| PDM_CLK1| IO| Output| PDM clock signal
10| GND| GND| –| Ground
MIPI-DSI0
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| GND| GND| –| Ground
2| MIPI_DSI_TX0_D0N| LVDS| Output| MIPI-DSI0 data signal Negative
3| MIPI_DSI_TX0_D0P| LVDS| Output| MIPI-DSI0 data signal Positive
4| GND| GND| –| Ground
5| MIPI_DSI_TX0_D1N| LVDS| Output| MIPI-DSI0 data signal Negative
6| MIPI_DSI_TX0_D1P| LVDS| Output| MIPI-DSI0 data signal Positive
7| GND| GND| –| Ground
8| MIPI_DSI_TX0_CLKN| LVDS| Output| MIPI-DSI0 clock signal Negative
9| MIPI_DSI_TX0_CLKP| LVDS| Output| MIPI-DSI0 clock signal Positive
10| GND| GND| –| Ground
11| MIPI_DSI_TX0_D2N| LVDS| Output| MIPI-DSI0 data signal Negative
12| MIPI_DSI_TX0_D2P| LVDS| Output| MIPI-DSI0 data signal Positive
13| GND| GND| –| Ground
14| MIPI_DSI_TX0_D3N| LVDS| Output| MIPI-DSI0 data signal Negative
15| MIPI_DSI_TX0_D3P| LVDS| Output| MIPI-DSI0 data signal Positive
16| GND| GND| –| Ground
17| LCD0_BL_PWM4| IO| Output| PWM Output for backlight adjust
18| NC| –| –| Not connected pin
19| 3.3V| PWR| Output| 3.3V @ 200mA Max
20| LCD0_RST_L_GPIO1_D1| IO| Output| GPIO output for lcd reset
21| SARADC_VIN2_LCD_ID| ANA| Input| Analog signal Input
22| LCD0_PWREN_H_GPIO0_C7| IO| Output| GPIO output for lcd power on
23| I2C1_SCL_TP| IO| Output| I2C clock signal for touch panel
24| I2C1_SDA_TP| IO| I/O| I2C data signal for touch panel
25| TP_INT_L_GPIO0_B5| IO| Input| GPIO for touch panel interrupt
26| TP_RST_L_GPIO0_B6| IO| Output| GPIO for touch panel reset
27| GND| GND| –| Ground
28| 5V| PWR| Output| 5V @ 500mA Max in total
29| 5V| PWR| Output| 5V @ 500mA Max in total
30| 5V| PWR| Output| 5V @ 500mA Max in total
MIPI-DSI1
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| GND| GND| –| Ground
2| MIPI_DSI_TX1_D0N| LVDS| Output| MIPI-DSI1 data signal Negative
3| MIPI_DSI_TX1_D0P| LVDS| Output| MIPI-DSI1 data signal Positive
4| GND| GND| –| Ground
---|---|---|---|---
5| MIPI_DSI_TX1_D1N| LVDS| Output| MIPI-DSI1 data signal Negative
6| MIPI_DSI_TX1_D1P| LVDS| Output| MIPI-DSI1 data signal Positive
7| GND| GND| –| Ground
8| MIPI_DSI_TX1_CLKN| LVDS| Output| MIPI-DSI1 clock signal Negative
9| MIPI_DSI_TX1_CLKP| LVDS| Output| MIPI-DSI1 clock signal Positive
10| GND| GND| –| Ground
11| MIPI_DSI_TX1_D2N| LVDS| Output| MIPI-DSI1 data signal Negative
12| MIPI_DSI_TX1_D2P| LVDS| Output| MIPI-DSI1 data signal Positive
13| GND| GND| –| Ground
14| MIPI_DSI_TX1_D3N| LVDS| Output| MIPI-DSI1 data signal Negative
15| MIPI_DSI_TX1_D3P| LVDS| Output| MIPI-DSI1 data signal Positive
16| GND| GND| –| Ground
17| PWM5| IO| Output| PWM Output for backlight adjust
18| NC| –| –| Not connected pin
19| 3.3V| PWR| Output| 3.3V @ 200mA Max
20| LCD1_RST_L_GPIO3_B6| IO| Output| GPIO output for lcd reset
21| SARADC_VIN2_LCD_ID| ANA| Input| Analog signal Input
22| LCD1_PWREN_H_GPIO4_D2| IO| Output| GPIO output for lcd power enable
23| I2C1_SCL_TP| IO| Output| I2C clock signal for touch panel
24| I2C1_SDA_TP| IO| I/O| I2C data signal for touch panel
25| TP_INT_L_GPIO0_B5| IO| Input| GPIO for touch panel interrupt
26| TP_RST_L_GPIO0_B6| IO| Output| GPIO for touch panel reset
27| GND| GND| –| Ground
28| 5V| PWR| Output| 5V @ 500mA Max in total
29| 5V| PWR| Output| 5V @ 500mA Max in total
30| 5V| PWR| Output| 5V @ 500mA Max in total
eDP
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| GND| GND| –| Ground
2| EDP_TX_D1N| LVDS| Output| EDP data signal Negative
3| EDP_TX_D1P| LVDS| Output| EDP data signal Positive
4| GND| GND| –| Ground
5| EDP_TX_D0N| LVDS| Output| EDP data signal Negative
6| EDP_TX_D0P| LVDS| Output| EDP data signal Positive
7| GND| GND| –| Ground
8| EDP_TX_AUXN_CON| LVDS| Output| EDP clock signal Negative
9| EDP_TX_AUXP_CON| LVDS| Output| EDP clock signal Positive
10| GND| GND| –| Ground
11| EDP_TX_D2N| LVDS| Output| EDP data signal Negative
12| EDP_TX_D2P| LVDS| Output| EDP data signal Positive
---|---|---|---|---
13| GND| GND| –| Ground
14| EDP_TX_D3N| LVDS| Output| EDP data signal Negative
15| EDP_TX_D3P| LVDS| Output| EDP data signal Positive
16| 3.3V| PWR| Output| 3.3V @ 500mA Max in total
17| 3.3V| PWR| Output| 3.3V @ 500mA Max in total
18| GND| GND| –| Ground
19| GND| GND| –| Ground
20| EDP_HPD_GPIO0_C2| IO| Input| eDP hot plug detect signal
21| GND| GND| –| Ground
22| GND| GND| –| Ground
23| GND| GND| –| Ground
24| GND| GND| –| Ground
25| EDP_BL_EN_GPIO3_C1| IO| Output| Output for enable backlight power
26| EDP_PWM12_GPIO4_C5| IO| Output| PWM Output for backlight adjust
27| GND| GND| –| Ground
28| 12V| PWR| Output| 12V power supply for backlight
29| 12V| PWR| Output| 12V power supply for backlight,
30| 12V| PWR| Output| 12V power supply for backlight
Camera
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| GND| GND| –| Ground
2| MIPI_CSI_RX_D0N| LVDS| Input| MIPI_CSI data signal Negative
3| MIPI_CSI_RX_D0P| LVDS| Input| MIPI_CSI data signal Positive
4| GND| GND| –| Ground
5| MIPI_CSI_RX_D1N| LVDS| Input| MIPI_CSI data signal Negative
6| MIPI_CSI_RX_D1P| LVDS| Input| MIPI_CSI data signal Positive
7| GND| GND| –| Ground
8| MIPI_CSI_RX_CLK0N| LVDS| Input| MIPI_CSI clock signal Negative
9| MIPI_CSI_RX_CLK0P| LVDS| Input| MIPI_CSI clock signal Positive
10| GND| GND| –| Ground
11| MIPI_CSI_RX_D2N| LVDS| Input| MIPI_CSI data signal Negative
12| MIPI_CSI_RX_D2P| LVDS| Input| MIPI_CSI data signal Positive
13| GND| GND| –| Ground
14| MIPI_CSI_RX_D3N| LVDS| Input| MIPI_CSI data signal Negative
15| MIPI_CSI_RX_D3P| LVDS| Input| MIPI_CSI data signal Positive
16| GND| GND| –| Ground
17| CIF_CLKOUT| IO| Output| CLOCK output for camera
18| GND| GND| –| Ground
19| NC| –| –| Not connected pin
20| CAMERA0_RST_L_GPIO4_B5| IO| Output| GPIO output for camera reset
---|---|---|---|---
21| CAMERA0_PDN_L_GPIO4_B4| IO| Output| GPIO output for camera disable
22| CAMERA0_PWREN_GPIO1_D4| IO| Output| GPIO output for camera enable
23| I2C4_SCL_M0| IO| Output| I2C clock signal
24| I2C4_SDA_M0| IO| Input| I2C data signal
25| PWM14_M0| IO| Output| PWM Output signal
26| GND| GND| –| Ground
27| GND| GND| –| Ground
28| 5V| PWR| Output| 5V @ 500mA Max in total
29| 5V| PWR| Output| 5V @ 500mA Max in total
30| 5V| PWR| Output| 5V @ 500mA Max in total
31| GND| GND| –| Ground
32| NC| –| –| Not connected pin
33| NC| –| –| Not connected pin
34| NC| –| –| Not connected pin
35| GND| GND| –| Ground
36| MIPI_MCLK1| IO| Output| CLOCK output for camera
37| GND| GND| –| Ground
38| MIPI_CSI_RX_CLK1N| LVDS| Input| MIPI_CSI clock signal Negative
39| MIPI_CSI_RX_CLK1P| LVDS| Input| MIPI_CSI clock signal Positive
40| GND| GND| –| Ground
M.2
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| NC| –| –| Not connected pin
2| 3.8V| PWR| Output| 3.8V @ 3A Max in total
3| GND| GND| –| Ground
4| 3.8V| PWR| Output| 3.8V @ 3A Max in total
5| GND| GND| –| Ground
6| M2_ONOFF_GPIO1_D2| IO| Output| GPIO output for on or off to module
7| HUB_HOST3_DP| LVDS| I/O| USB2.0 data signal Positive
8| NC| –| –| Not connected pin
9| HUB_HOST3_DM| LVDS| I/O| USB2.0 data signal Negative
10| M2_LED1| IO| Input| Connect negative for network status
11| GND| GND| –| Ground
20| NC| –| –| Not connected pin
21| NC| –| –| Not connected pin
22| NC| –| –| Not connected pin
23| M2_WAKE_GPIO0_B7| IO| Input| GPIO for module to wakeup CPU
24| NC| –| –| Not connected pin
25| NC| –| –| Not connected pin
26| NC| –| –| Not connected pin
---|---|---|---|---
27| GND| GND| –| Ground
28| NC| –| –| Not connected pin
29| PCIE30_TX1_N/HUB_USB3_SSTXN| LVDS| Output| PCIE3.0/USB3.0 data signal
Negative
30| M2_UIM_RESET| IO| Input| Reset signal to SIM socket
31| PCIE30_TX1_P/HUB_USB3_SSTXP| LVDS| Output| PCIE3.0/USB3.0 data signal
Positive
32| M2_UIM_CLK| IO| Input| Clock signal to SIM socket
33| GND| GND| –| Ground
34| M2_UIM_DATA| IO| Input| data signal to SIM socket
35| PCIE30_RX1N/HUB_USB3_SSRXN| LVDS| Input| PCIE3.0/USB3.0 data signal
Negative
36| M2_UIM_PWR| IO| Input| power to SIM socket
37| PCIE30_RX1P/HUB_USB3_SSRXP| LVDS| Input| PCIE3.0/USB3.0 data signal
Positive
38| NC| –| –| Not connected pin
39| GND| GND| –| Ground
40| NC| –| –| Not connected pin
41| PCIE30_TX0_N| LVDS| Output| PCIE3.0 data signal output Negative
42| NC| –| –| Not connected pin
43| PCIE30_TX0_P| LVDS| Output| PCIE3.0 data signal output Positive
44| NC| –| –| Not connected pin
45| GND| GND| –| Ground
46| NC| –| –| Not connected pin
47| PCIE30_RX0N| LVDS| Input| PCIE3.0 data signal input Negative
48| NC| –| –| Not connected pin
49| PCIE30_RX0P| LVDS| Input| PCIE3.0 data signal input Positive
50| PCIE30X2_PERSTN_M1| IO| Output| PCIe warm reset request
51| GND| GND| –| Ground
52| PCIE30X2_CLKREQN_M1| IO| Input| clock request from PCIe peripheral
53| CLK0N_CON| LVDS| Output| PCIE3.0 clock signal output Negative
54| PCIE30X2_WAKEN_M1| IO| Input| PCIe wake up
55| CLK0P_CON| LVDS| Output| PCIE3.0 clock signal output Positive
56| NC| –| –| Not connected pin
57| GND| GND| –| Ground
58| NC| –| –| Not connected pin
59| NC| –| –| Not connected pin
60| NC| –| –| Not connected pin
61| NC| –| –| Not connected pin
62| NC| –| –| Not connected pin
63| NC| –| –| Not connected pin
64| NC| –| –| Not connected pin
65| NC| –| –| Not connected pin
66| M2_SIM_DETECT| IO| Output| Card detect signal to SIM socket
67| M2_RESET_GPIO3_B5| IO| Output| GPIO output for reset to module
68| CLK32K_OUT0| IO| Output| Clock output 32.768K to module
69| NC| –| –| Not connected pin
---|---|---|---|---
70| 3.8V| PWR| Output| 3.8V @ 3A Max in total
71| GND| GND| –| Ground
72| 3.8V| PWR| Output| 3.8V @ 3A Max in total
73| GND| GND| –| Ground
74| 3.8V| PWR| Output| 3.8V @ 3A Max in total
75| NC| –| –| Not connected pin
Mini-PCIe
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| WAKEUP_MINIPCIE_GPIO0_C1| IO| Input| GPIO for module to wakeup CPU
2| 3.8V| PWR| Output| 3.8V @ 3A Max in total
3| NC| –| –| Not connected pin
4| GND| GND| –| Ground
5| NC| –| –| Not connected pin
6| NC| –| –| Not connected pin
7| NC| –| –| Not connected pin
8| UIM_PWR| PWR| Input| SIM power supply
9| GND| GND| –| Ground
10| UIM_DATA| IO| Input| SIM data signal
11| NC| –| –| Not connected pin
12| UIM_CLK| IO| Input| SIM clock signal
13| NC| –| –| Not connected pin
14| UIM_RESET| IO| Input| SIM reset signal
15| GND| GND| –| Ground
16| NC| –| –| Not connected pin
17| NC| –| –| Not connected pin
18| GND| GND| –| Ground
19| NC| –| –| Not connected pin
20| NC| –| –| Not connected pin
21| GND| GND| –| Ground
22| MiniPCIE_reset_GPIO3_D4| IO| Output| GPIO output for reset to module
23| NC| –| –| Not connected pin
24| 3.8V| PWR| Output| 3.8V @ 3A Max in total
25| NC| –| –| Not connected pin
26| GND| GND| –| Ground
27| GND| GND| –| Ground
28| NC| –| –| Not connected pin
29| GND| GND| –| Ground
30| NC| –| –| Not connected pin
31| NC| –| –| Not connected pin
NC| NC| –| –| Not connected pin
---|---|---|---|---
33| NC| –| –| Not connected pin
34| GND| GND| –| Ground
35| GND| GND| –| Ground
36| USB2_HOST2_DM| LVDS| I/O| USB2.0 data signal Negative
37| NC| –| –| Not connected pin
38| USB2_HOST2_DP| LVDS| I/O| USB2.0 data signal Positive
39| 3.8V| PWR| Output| 3.8V @ 3A Max in total
40| GND| GND| –| Ground
41| 3.8V| PWR| Output| 3.8V @ 3A Max in total
42| LED| IO| Input| System status LED
43| NC| –| –| Not connected pin
44| SIM_DETECT| IO| Output| SIM detect
45| NC| –| –| Not connected pin
46| NC| –| –| Not connected pin
47| NC| –| –| Not connected pin
48| NC| –| –| Not connected pin
49| NC| –| –| Not connected pin
50| GND| GND| –| Ground
51| NC| –| –| Not connected pin
52| 3.8V| PWR| Output| 3.8V @ 3A Max in total
U.2
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| GND| GND| –| Ground
2| SATA0_SSRXP| LVDS| Input| SATA data signal input Positive
3| SATA0_SSRXN| LVDS| Input| SATA data signal input Negative
4| GND| GND| –| Ground
5| SATA0_SSTXN| LVDS| Output| SATA data signal output Negative
6| SATA0_SSTXP| LVDS| Output| SATA data signal output Positive
7| GND| GND| –| Ground
8| GMAC0_TXEN| IO| Output| RGMII signal
9| GMAC0_RXD2| IO| Input| RGMII signal
10| NC| –| –| Not connected pin
11| GMAC0_RXD3| IO| Input| RGMII signal
12| GMAC0_RXD0| IO| Input| RGMII signal
13| GMAC0_RXD1| IO| Input| RGMII signal
14| NC| –| –| Not connected pin
15| I2C3_SCL_M0| IO| Output| I2C clock signal
16| I2C3_SDA_M0| IO| I/O| I2C data signal
17| GND| GND| –| Ground
18| GND| GND| –| Ground
---|---|---|---|---
19| GND| GND| –| Ground
20| 5V| PWR| Output| 5V @ 3A Max
21| 5V| PWR| Output| 5V @ 3A Max
22| 5V| PWR| Output| 5V @ 3A Max
23| GND| GND| GND| Ground
24| NC| –| –| Not connected pin
25| GND| GND| –| Ground
26| NC| –| –| Not connected pin
27| NC| –| –| Not connected pin
28| NC| –| –| Not connected pin
29| SATA0_LED| IO| Output| SATA0 status for LED
30| SATA2_LED| IO| Output| SATA2 status for LED
31| GMAC0_MCLKINOUT| IO| I/O| CLOCK output 125MHz for GMAC0
32| GND| GND| –| Ground
33| ETH0_REFCLKO_25M| IO| Output| CLOCK output 25MHz for GMAC0
34| GMAC0_MDIO| IO| I/O| GMAC management interface data
35| GND| GND| –| Ground
36| GMAC0_MDC| IO| Output| GMAC management interface clock
37| GMAC0_RXDV_CRS| IO| Input| RGMII signal
38| GND| GND| –| Ground
39| NC| –| –| Not connected pin
40| NC| –| –| Not connected pin
41| GND| GND| –| Ground
42| NC| –| –| Not connected pin
43| NC| –| –| Not connected pin
44| GND| GND| –| Ground
45| USB2_USB3_DM| LVDS| I/O| USB2.0 data signal Negative
46| USB2_USB3_DP| LVDS| I/O| USB2.0 data signal Positive
47| GND| GND| –| Ground
48| GMAC0_RSTN_GPIO2_D3| IO| Output| RGMII signal
49| GMAC0_INT/PMEB_GPIO2_D2| IO| Input| RGMII signal
50| GND| GND| –| Ground
51| GMAC0_RXCLK| IO| Output| RGMII signal
52| GND| GND| –| Ground
53| GMAC0_TXD3| IO| Output| RGMII signal
54| GMAC0_TXD2| IO| Output| RGMII signal
55| GND| GND| –| Ground
56| GMAC0_TXD1| IO| Output| RGMII signal
57| GMAC0_TXD0| IO| Output| RGMII signal
58| GND| GND| –| Ground
59| GMAC0_TXCLK| IO| Output| RGMII signal
60| GND| GND| –| Ground
61| SATA2_TXN| LVDS| Output| SATA data signal output Negative
---|---|---|---|---
62| SATA2_TXP| LVDS| Output| SATA data signal output Positive
63| GND| GND| –| Ground
64| SATA2_RXN| LVDS| Input| SATA data signal Input Negative
65| SATA2_RXP| LVDS| Input| SATA data signal Input Positive
66| GND| GND| –| Ground
67| PCIE20_REFCLKN| LVDS| Output| PCIE2.0 reference clock Negative
68| PCIE20_REFCLKP| LVDS| Output| PCIE2.0 reference clock Positive
SATA Power
Pin
#
| Pin
Name
| Pin
Type
| Input/
Output
| Signal Description
---|---|---|---|---
1| ADC_VIN3| ANA| Input| Measure external voltage, 1.8V Max
2| I2C0_SCL| IO| Output| I2C clock signal
3| I2C0_SDA| IO| I/O| I2C data signal
4| GND| GND| –| Ground
5| GND| GND| –| Ground
6| GND| GND| –| Ground
7| NC| –| –| Not connected pin
8| NC| –| –| Not connected pin
9| NC| –| –| Not connected pin
10| GND| GND| –| Ground
11| GND| GND| –| Ground
12| GND| GND| –| Ground
13| VIN_12V| PWR| Input| 12V @ 3A
14| VIN_12V| PWR| Input| 12V @ 3A
15| VIN_12V| PWR| Input| 12V @ 3A
Specifications
Environmental
| Parameter | Specifications |
|---|---|
| Operating Temperature | 0 ° to +70 °C |
| Storage Temperature | 0 ° to +70 °C |
Mechanical
| Parameter | Specifications |
|---|---|
| PCBA dimensions, Length x Width | 140mm x 100mm |
| Edge 2 dimensions, Length x Width x Height | 148mm x 105mm x 32mm |
| Weight, Device (Board) | 665g (113g) |
Support
Technical Support
MIXTILE technical support team assists you with the questions you may have.
Contact us with the following methods below.
Email: support@mixtile.com Website: https://www.mixtile.com
FCC Statement
This device complies with part 15 of the FCC rules. Operation is subject to
the following two conditions: this device may not cause harmful interference,
and this device must accept any interference received, including interference
that may cause undesired operation.
Changes or modifications not expressly approved by the party responsible for
compliance could void the user’s authority to operate the equipment.
NOTE:
This equipment has been tested and found to comply with the limits for a Class
B digital device, pursuant to part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference in a
residential installation. This equipment generates uses and can radiate radio
frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications. However,
there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or more
of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
Radiation Exposure Statement
To comply with FCC RF exposure compliance requirements, this grant is
applicable to only mobile configurations. The antennas used for this
transmitter must be installed to provide a separation di stance of at least
20cm from all persons and must not be co-located or operating in conjunction
with any other antenna or transmitter.
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>