i-PAN T7 II
Modular system of the i-PAN HMIs
The i-PAN T7 II is a compact panel solution incl. metal housing, which may be easily integrated in customer products. It is a continued development of the i-PAN T7 and is offered with a new 7.0 inch IPS touch display (resolution 1024 x 600 pixel, brightness 500 cd/qm). The i-PAN T7 II can use different Trizeps SODIMM 200 CPU modules: Trizeps VII SOM with NXP i.MX 6, Trizeps VIII with NXP i.MX 8M, Trizeps VIII Mini/Nano/Plus with NXP i.MX 8M Mini/Nano/Plus SoC. Depending on the corresponding Trizeps CPU module the i-PAN T7 II is available with Windows 10 IoT Core/Enterprise, Windows Embedded Compact 7 or 2013, Linux and Android operating systems.
It got i-Mod flex-cable-connectors and solder-pads to extend the board functionality and connect to Seco i-Mod-Adapters and customers peripherals.
Operating Systems for i-PAN T7 II
Currently we support Windows 10 IoT Enterprise, Windows 10 IoT Core, Windows Compact 2013, Windows Embedded Compact 7, Linux and Android as operating system.
OS-Images and Tool-Chains for Linux and Android can be found at: Linux (Android,Debian,U-Boot,...).
Board Support Packages (BSP) are free for download and allow our customers to built their own OS.
Windows 10 IoT Enterprise:
Windows 10 IoT Core:
3D Model for i-PAN T7 II (no warranty)
STEP: Metal housing i-PAN T7 II (without PCBs) – Important note: Please read the 3D data disclaimer contained in the zip file.
Block diagram
1 Connector positions
Connectors:
Reference | Function |
|---|---|
J215 | SODIMM Connector for Trizeps modules |
J216 | High Speed connector for Trizeps modules |
J502 | Raspberry Pi compatible camera connector |
J503 | µSD-Card connector |
J401 | Headset 3.5 Audio Jack (CTIA) |
J405 | Speaker connector extern |
J406 | Speaker connector intern |
J404 | Power connector |
J402 | µUSB connector |
J403 | USB A connector |
J501 | Ethernet connector RJ45 |
J203 | iMOD USB/I2C connector |
J204 | iMOD UART connector |
J217 | iMOD Button/I2C or UART connector |
J211 | iMOD CAN connector |
J303 | Display connector |
J302 | Touch connector |
Soldering Pads
Reference | Function |
|---|---|
J205 | SPI1_MOSI, GPIO |
J206 | SPI1_MISO, GPIO |
J201 | SPI1_CLK, GPIO |
J200 | SPI1_SS0, GPIO |
J210 | +3V3 |
J209 | Fastboot |
J202 | Ground |
J218 | MIC |
J219 | MIC_GND |
J212 | HEADPHONE_L |
J213 | HEADPHONE_R |
J214 | HEADPHONE_GND |
J304 | Ground |
J305 | Chassis Ground |
J407 rectangular pad | Speaker + |
J407 circular pad | Speaker - |
Miscellanous
Reference | Function |
|---|---|
BAT300 | Battery connector (CR1632) |
S200 | Fastboot |
S201 | BOOTMODE_0 |
S202 | RESET_IN# |
S203 | Fastboot |
D200 | Duo LED (Power and GPIO) |
2 User connectors
J404: Power connector
Pin | Signal |
|---|---|
1 | VIN (+9V up to +24V) |
2 | GND |
Connector:
CCA 2,5/2-G-5.08 P26THR by Phoenix Contact
Mating Connector:
MSTB 2,5/2-ST-5,08 by Phoenix Contact
Voltage polarity protection is achieved through a diode.
A nanofuse (near to J404) is used for current protection.
J401: Headset 3.5mm Audio Jack (CTIA)
The 3.5mm audio-jack is using the commonly used CTIA pinning, so that a standard headphone or headset can be attached to the panel.
The signals are shared with the solder pads J212 (HEADPHONE_L), J213 (HEADPHONE_R), J214 (HEADPHONE_GND) and J219 (MIC).
HEADPHONE_L, HEADPHONE_R and HEADPHONE_GND of this connector are also connected to an audio amplifier, which outputs are routed to the audio connectors J405 and J406.
J402: µUSB connector
Connector: 47589-0001 by Molex
The USB2.0 µUSB connector is routed to USB-OTG port of the Trizeps module. Function depends on the placed Trizeps module and operating system. This interface may be used as USB-Slave, USB-Host or real USB-OTG port.
Note that the USB-OTG port can also be connected to the iMOD USB/I2C connector J203 through solder bridges. Only one of both can be used at the same time.
J403: USB A connector
Connector: 48393-0003 by Molex
The signals of the USB3.0 Typ-A connector are routed to the USB-HOST port of the Trizeps module.
The +5V supply to the USB-HOST port are short-circuit protected and current-limited (0.7A - 1.1A) by a power switch.
J501 Ethernet connector:
Connector: 74981104400 by Wuerth Electronic
The Ethernet connector uses the 10/100/1000Mbit Ethernet interface of the Trizeps module.
The integrated LEDs in this connector shows the status of the Ethernet connection:
yellow - link-activity
green - link-speed
J503: µSD-Card connector
Connector: DM3AT-SFPEJM5 by Hirose
This µSD-Card slot is powered by 3.3V.
Its signals are connected to the first SD/SDIO port of the Trizeps module. It may be used to extend the storage-memory of the panel with a Micro-SD card or to transfer files (i.e. updates).
3 Internal connectors
J302: iMOD USB/I2C connector
The iMod USB/I2C connector is a standard connector defined by SECO to allow customers to
easily add functions to a baseboard.
SECO offers different extension boards ranging from a simple breakout board or an additional
USB-type A connector to current-, voltage-, TOF-, NFC- sensors or IO-expander boards.
Customers may design their own peripherals which can be connected through a 10pol FFC
cable.
Pin | Signal | Function |
|---|---|---|
1 | +5V | Power |
2 | USB_OTG_DM_C | USB D- signal |
3 | USB_OTG_DP_C | USB D+ signal |
4 | GND | Ground |
5 | +3V3 | Power |
6 | I2C2_SCL | I2C2 clock signal |
7 | I2C2_SDA | I2C2 data signal |
8 | GPIO00 | GPIO; mainly used as interrupt pin by attached boards |
9 | GPIO_AUX | GPIO; minly used as output |
10 | RESET_OUT# | Reset output of the Trizeps module. Low during reset and suspend, high when running |
Connector: 687110149022 by Wuerth
The USB-OTG port of the Trizeps module is used by this connector.
This interface may be used as USB-Slave, USB-Host or real USB-OTG port. Actual function depends on Trizeps module and operating system.
Note that the USB-OTG port is also connected to the Micro-USB connector J402.
Only one of both connectors can be used at the same time!
The +5V power supply is not over-current protected.
J204: iMOD UART connector
The iMod UART connector is a standard connector defined by SECO to allow customers to easily add functions to a baseboard.
SECO offers different extension boards ranging from a simple breakout board to RS232/RS485/RS422 transceiver boards.
Customers may design their own peripherals which can be connected through a 10pol FFC cable.
Pin | Signal | Function |
|---|---|---|
1 | UART1_RI | RI input |
2 | UART1_DCD | DCD input |
3 | UART1_DSR | DSR input |
4 | GND | Ground |
5 | +3V3 | Power |
6 | UART1_RTS | RTS output |
7 | UART1_CTS | CTS input |
8 | UART1_TXD | TXD output |
9 | UART1_RXD | RXD input |
10 | UART1_DTR | DTR output |
Connector: 687110149022 by Wuerth
This connector uses UART1 (COM1:) of the Trizeps-module.
Besides using it as normal serial-port, it can additional be configured to give debug-output of the operating system or to enter the bootloader of the Trizeps on startup.
Most signal pins of a Trizeps can be configured as GPIOs. Some or even all UART-pins of this connector could be used as GPIOs.
J211: iMOD CAN connector
The iMOD CAN connector is a standard connector defined by SECO to allow customers to easily add a CAN transceiver & connector to the baseboard.
Pin | Signal | Function |
|---|---|---|
1 | +5V | Power |
2 | CAN_GPIO2 | Generic GPIO |
3 | CAN_GPIO3 | Generic GPIO |
4 | GND | Ground |
5 | +3V3 | Power |
6 | CAN2_TX | Single ended TX output of CAN port 2 |
7 | CAN2_RX | Single ended RX input of CAN port 2 |
8 | CAN1_TX | Single ended TX output of CAN port 1 |
9 | CAN1_RX | Single ended RX input of CAN port 1 |
10 | CAN_GPIO0 | Generic GPIO |
Connector: 687110149022 by Wuerth
The CAN_TX and CAN_RX are single-ended 3V3-level signals.
A CAN-transceiver is needed to convert these to a differential CAN signal.
CAN_GPIO signals may be used for auxiliary functions, i.e. enabling CAN-termination.
J217: iMOD Button/I2C or UART connector
The iMOD connectors are standard connectors defined by SECO to allow customers to easily add functions to a baseboard.
There are two mounting options for J217:
a) iMOD Button/I2C
The connector got 3 GPIOs for buttons and an I2C interface for sensors etc.
Pin | Signal | Function |
|---|---|---|
1 | FASTBOOT | On/Off, Fastboot, …(OS specific) |
2 | SP113 | Generic GPIO, i.e. Volume+ |
3 | SP117 | Generic GPIO, i.e. Volume- |
4 | GND | Ground |
5 | +3V3 | Power |
6 | I2C2_SCL | I2C2 clock signal |
7 | I2C2_SDA | I2C2 data signal |
8 | SP119 | GPIO, mailnly used as interrupt input pin by attached boards |
9 | SP112 | GPIO, mainly used as output |
10 | RESET_OUT# |