ED-IPC2200 User Manual

1 Hardware Manual

1.1 Overview

The ED-IPC2200 Series is an industrial computer based on the Raspberry Pi CM4, encompassing EDIPC2210 and ED-IPC2220 models. Users can select different specifications for RAM and eMMC/SD card storage based on application scenarios and needs.

RAM Options: 1GB, 2GB, 4GB, 8GB

Storage Options:

• eMMC: 0GB, 8GB, 16GB, 32GB
• SD Card: 0GB, 32GB, 64GB

? TIP: When purchasing a product model, you must choose either an SD card or eMMC; they cannot be selected simultaneously.

The ED-IPC2200 offers common interfaces such as HDMI, USB 2.0, USB 3.0, Audio, and Ethernet. It supports network connectivity via Wi-Fi, Ethernet, and 4G. Integrated features like an optional super capacitor backup power supply, RTC, Watch Dog, EEPROM, and encryption chip enhance its usability and reliability, making it primarily suitable for industrial control and IoT fields.

1.2 Packing List

• 1 x ED-IPC2200 Unit
• [Optional Wi-Fi/BT version] 1x 2.4GHz/5GHz Wi-Fi/BT Antenna
• [Optional 4G version] 1x 4G/LTE Antenna

1.3 Appearance

This section introduces the functions and definitions of interfaces on each panel.

1.3.1 Front Panel

This section details the front panel interface types and definitions.

1.3.2 Rear Panel

This section details the rear panel interface types and definitions.

1.3.3 Side Panel

This section details the side panel interface types and definitions.

1.4 Button

The ED-IPC2200 includes a hidden RESET button, marked as "RESET" on the case. Pressing this button will restart the device.

1.5 Indicator

This section describes the various statuses and meanings of the indicators on the ED-IPC2200.

1.6 Interface

This section introduces the definition and function of each interface.

1.6.1 Card Slot

The ED-IPC2200 includes a Micro SD card slot and a Nano SIM card slot.

1.6.1.1 SD Card Slot

The Micro SD card slot, marked with "", is used to install a Micro SD card for storing user data and booting the OS from the SD card.

? TIP: When purchasing a product model, you must choose one of SD card and eMMC, and you cannot choose both at the same time.

1.6.1.2 SIM Card Slot

The Nano SIM card slot, marked with "", is used to install a SIM card for obtaining 4G signals. The size differences between standard SIM, Micro SIM and Nano SIM cards are as follows: [Textual description of SIM card size differences would go here if visual was present].

1.6.2 Power Supply

The ED-IPC2200 features one power input via 2-Pin 3.5mm pitch phoenix terminals with screw holes. The port is marked "VIN+/GND", with pins defined as follows:

1.6.3 Audio

The ED-IPC2200 includes one audio input/output port, a 3.5mm 4-pole headphone jack, marked "". It supports OMTP stereo headphone output and mono microphone recording. Audio output automatically switches between headphones and speakers based on connection.

1.6.4 1000M Ethernet (ETH0)

The ED-IPC2200 includes one adaptive 10/100/1000M Ethernet port, marked " ", with an RJ45 connector. Cat6 or higher network cables are recommended. Pin definitions are as follows:

1.6.5 1000M Ethernet Interface (ETH1 and ETH2)

The ED-IPC2200 includes two adaptive 10/100/1000M Ethernet ports, marked " ", with RJ45 connectors. Cat6 or higher network cables are recommended. Pin definitions are as follows:

1.6.6 HDMI

The ED-IPC2200 includes one HDMI port, marked "HDMI". The Type-A connector supports up to 4Kp60 resolution for connecting to an HDMI display.

1.6.7 USB 2.0

The ED-IPC2200 includes two USB 2.0 ports, marked " ", with Type-A connectors. They support connection to standard USB 2.0 peripherals and up to 480Mbps transmission rate.

1.6.8 USB 3.0

The ED-IPC2200 includes one USB 3.0 port, marked " ", with a Type-A connector. It supports connection to standard USB 3.0 peripherals and up to 5Gbps transmission rate.

1.6.9 Micro USB

The ED-IPC2200 includes one Micro USB port, marked "PROGRAMMING". It can be connected to a PC to flash the device's eMMC.

1.6.10 Antenna (optional)

The ED-IPC2200 device may include up to two SMA antenna ports, marked "4G" and "Wi-Fi/BT", for connecting respective antennas.

? TIP: The number of antenna interfaces depends on the purchased product model. This description uses two antenna interfaces as an example.

1.6.11 Motherboard

This section introduces interfaces reserved on the ED-IPC2200 series device's motherboard, accessible after opening the device case for expansion.

1.6.11.1 12V 1A Output

The motherboard includes three expanded 12V 1A power output ports with 2-Pin 2.0mm pitch white WTB connectors, intended for extended LCD screens. Pin definitions:

1.6.11.2 10-Pin GPIO

The motherboard features a 10-Pin GPIO Pin Header (2x5-Pin 2.54mm pitch) for extended GPIO ports. Pin definitions:

1.6.11.3 5V 1A Output

The motherboard includes an expanded 5V 1A power output port with a 3-Pin 2.0mm pitch white WTB connector for extended LCD screens. Pin definitions:

1.6.11.4 40-Pin GPIO

The motherboard provides a 40-Pin GPIO terminal (2x20-Pin 2.54mm pitch) for CM4 GPIO ports and extended accessories. Pin definitions:

ℹ️ Note: GPIO6 and GPIO7 are used for specific functions. To use them as ordinary IO, remove the jumper resistance on the corresponding signal line.

1.6.11.5 FPC DSI (optional)

The motherboard includes an extended DSI port with a 30-pin 0.5mm pitch FPC connector and 4-Lane DSI signal for MIPI display output to LCD screens. It supports USB/I2C touch screen and backlight adjustment. Pin definitions:

1.6.11.6 FPC HDMI (optional)

The motherboard includes an extended HDMI interface with a 40-pin 0.5mm pitch FPC connector. It supports video signal output to LCD screens and USB/I2C touch screen and backlight adjustment. Pin definitions:

1.6.11.7 USB 2.0

The motherboard includes an extended USB 2.0 Pin Header with a 5-Pin 1.5mm pitch WTB connector for expanding a USB 2.0 interface. Pin definitions:

1.6.11.8 Speaker (optional)

The motherboard includes an extended Speaker output with a 4-Pin 2.0mm pitch WTB connector for dual-channel stereo output, supporting two 4W stereo speakers. Pin definitions:

1.6.11.9 CSI

The motherboard includes an extended CSI interface with a 2x15Pin 0.4mm pitch connector and 2-Lane CSI signal, used to connect an 8-megapixel CSI camera. Pin definitions:

1.6.11.10 RTC Battery Base

The motherboard is integrated with RTC (Real-Time Clock). In China, a CR1220 battery is installed by default as RTC backup power. RTC ensures an uninterrupted and reliable clock, unaffected by power outages.

? TIP: Some international logistics do not support battery transportation, and some devices may not be equipped with a CR1220 battery from the factory. Please prepare and install a CR1220 battery before using RTC.

1.6.11.11 mSATA

The motherboard includes an mSATA port with a mini PCIe connector for connecting an mSATA SSD.

2 Installing Components (optional)

2.1 Installing Internal Components

This section describes the detailed operations for opening/closing the device casing and installing the RTC battery.

2.1.1 Open Device Case

Preparation: A cross screwdriver.

Steps:

1. Pull out the default configuration of the phoenix connector (male for wiring).
2. Use a screwdriver to loosen two M3 screws on the sides counterclockwise.
3. Remove the front cover by sliding it to the right.
4. Use a screwdriver to loosen four M2.5 screws and one grounding screw on the sides counterclockwise.
5. Remove the upper cover by lifting it upwards and turning it towards the antenna port side.
6. Use a screwdriver to loosen the 8 screws fixing the PCBA counterclockwise. Remove the upper cover and flip it to the back of the PCBA.

2.1.2 Install RTC battery

? TIP: Some international logistics do not support the transportation of batteries, and some ex-factory devices are not equipped with CR1220 batteries. Therefore, before using RTC, please prepare a CR1220 battery and install it on the motherboard.

Preparation:

• The device case has been opened.
• The CR1220 battery has been prepared.

Steps:

1. Locate the RTC battery base where the battery is to be installed (indicated by a red box in the original diagram).
2. Place the battery with the positive pole facing upwards and press it into the RTC base.

2.1.3 Close Device Case

Preparation: A cross screwdriver.

Steps:

1. Turn the PCBA over to the front and place it on the upper cover. Align the 8 screw holes on the PCBA with the stud holes in the upper cover, insert the 8 mounting screws, and tighten them clockwise with a screwdriver to fix the PCBA to the upper cover.
2. Turn the upper cover downwards, aligning the ports on the PCBA with the ports on each side panel, and close the upper cover.
3. Align the screw holes on the upper and side panels. Use a screwdriver to tighten four M2.5 screws and one grounding screw on the sides clockwise.
4. Align the ports on the PCBA with the ports on the front panel and insert the front cover.
5. Insert 2 M3 screws and tighten them clockwise with a screwdriver.
6. Plug in the default phoenix connector.

2.2 Installing/Removing External Components

This section details the operations for installing/removing optional accessories.

2.2.1 Install Antenna

If the purchased ED-IPC2200 series device includes 4G and Wi-Fi functions, the antennas must be installed before using the device.

Preparation: The corresponding antennas from the packaging box.

Steps:

1. Locate the antenna ports (indicated by red marks in the original diagram).
2. Align the ports on both sides of the device with the antenna connectors and tighten them clockwise to ensure they are secure.

2.2.2 Install Micro SD Card

If the product model includes a Micro SD card, it is installed by default. If not, follow these steps for installation.

⚠️ WARNING: Please turn off the power before inserting or removing the Micro SD card.

Preparation:

• Micro SD card is ready.
• The device has been disconnected from power.

Steps:

1. Locate the Micro SD card slot (indicated by a red mark in the original diagram).
2. Insert the Micro SD card into the corresponding card slot with the contact side facing down until a click is heard, indicating completion.

2.2.3 Pull Out Micro SD Card

To remove the Micro SD card while the product is in use:

Preparation: The device has been disconnected from power.

Steps:

1. Locate the Micro SD card slot (indicated by a red mark in the original diagram).
2. Press the Micro SD card into the card slot with your finger to pop it out, then pull it out.

2.2.4 Install Nano SIM Card

If the purchased ED-IPC2200 series device includes 4G functionality, the Nano SIM card must be installed before using 4G.

Preparation: The 4G Nano SIM card.

Steps:

1. Use a cross screwdriver to loosen three screws on the DIN-rail bracket counterclockwise and remove the bracket.
2. Locate the Nano SIM card slot (indicated by a red mark in the original diagram).
3. Insert the Nano SIM card into the corresponding card slot with the chip side up until a click is heard, indicating completion.
4. Reinstall the DIN-Rail bracket onto the device case.

3 Installing Device

3.1 DIN-Rail Installation

The DIN-rail bracket is installed by default when the ED-IPC2200 series device leaves the factory.

Steps:

1. Face the side of the DIN-rail bracket towards the rail, and sleeve the upper side of the bracket onto the upper side of the rail.
2. Press down the buckle on the lower side of the DIN-rail bracket until it securely latches onto the rail. Installation is complete.

4 Booting The Device

4.1 Connecting Cables

This section describes how to connect cables. Refer to Section 1.6 Interfaces for pin definitions and specific wiring methods.

Preparation:

• Accessories such as a display, mouse, keyboard, and power adapter.
• A functional network connection.
• HDMI cable and network cable.

4.2 Booting The System For The First Time

The ED-IPC2200 series device does not have a power switch; the system starts automatically upon power connection.

• The red PWR indicator will be on, indicating the device is powered normally.
• The green ACT indicator will blink, indicating the system is starting normally. The Raspberry Pi logo will appear in the upper left corner of the screen.

? TIP: Default username is 'pi', default password is 'raspberry'.

4.2.1 Raspberry Pi OS (Desktop)

If the Desktop version of the system is installed, the device will boot directly into the desktop environment.

4.2.2 Raspberry Pi OS (Lite)

If the Lite version of the system is installed, the device will automatically log in with the default username 'pi' and password 'raspberry' after booting.

5 Configuring System

This chapter introduces how to configure the system.

• Finding Device IP
• Remote Login
• Configuring Storage Devices
• Configuring Wi-Fi (Optional)
• Configuring Ethernet IP
• Configuring Bluetooth (Optional)
• Configuring 4G (Optional)
• Configuring Buzzer
• Configuring RTC
• Configuring Audio (Optional)
• Configuring USER Indicator

6 Installing OS (optional)

The device is shipped with an operating system by default. If the OS becomes corrupted or needs replacement, a new system image must be installed. EDATEC supports installing the standard Raspberry Pi OS first, followed by the Firmware package.

The following sections describe OS file download, image flashing, and firmware package installation.

6.1 Downloading OS File

You can download the official Raspberry Pi OS files from the provided paths:

6.2 Flashing to eMMC or Flashing to SD Card

The ED-IPC2200 supports booting the system from either eMMC or SD card. Refer to the following sections for burning instructions.

6.2.1 Flashing to eMMC

It is recommended to use the Raspberry Pi official tools. Download paths:

• Raspberry Pi Imager: https://downloads.raspberrypi.org/imager/imager_latest.exe
• SD Card Formatter: https://www.sdcardformatter.com/download/
• Rpiboot: https://github.com/raspberrypi/usbboot/raw/master/win32/rpiboot_setup.exe

Preparation:

• Official tools downloaded and installed on the computer.
• A Micro USB to USB Type-A cable (USB flashing cable).
• The OS file has been obtained.

Steps (using Windows system as an example):

1. Remove the DIN-rail bracket by loosening three screws counterclockwise.
2. Locate the Micro USB port on the side of the device.
3. Connect the power cord and the USB flashing cable (Micro-USB to USB Type-A). Connect the Micro USB end to the device and the USB Type-A end to the PC. Connect the power cord to the DC 2Pin Phoenix terminal on the device and an external power supply.
4. Disconnect and then reconnect the power supply of the ED-IPC2200.
5. Open the rpiboot tool; it will automatically convert the drive to a letter.
6. A drive letter will pop up in the lower right corner of the computer upon completion.
7. Open SD Card Formatter, select the formatted drive letter, and click "Format".
8. Confirm the format operation in the prompt box.
9. Click "OK" when formatting is completed.
10. Close SD Card Formatter.
11. Open Raspberry Pi Imager, select "CHOOSE OS", and then select "Use Custom" from the pop-up pane.
12. Select the OS file from your defined path and return to the main page.
13. Click "CHOOSE STORAGE", select the default device, and return to the main page.
14. Click "NEXT", and select "NO" in the "Use OS customization?" pane.
15. Select "YES" in the "Warning" pane to start writing the image.
16. After OS writing is completed, the file will be verified.
17. After verification, click "CONTINUE" in the "Write Successful" box.
18. Close Raspberry Pi Imager, remove the USB cable, and power on the device again.

6.2.2 Flashing to SD Card

It is recommended to use the Raspberry Pi official tools. Download paths:

• Raspberry Pi Imager: https://downloads.raspberrypi.org/imager/imager_latest.exe
• SD Card Formatter: https://www.sdcardformatter.com/download/

Preparation:

• Official tools downloaded and installed on the computer.
• An SD card reader.
• The OS file has been obtained.

Steps (using Windows system as an example):

1. Before flashing, remove the SD card (refer to Section 2.2.3 Pull Out Micro SD Card).
2. Insert the Micro SD card into the card reader, and then insert the card reader into the computer's USB port.
3. Open SD Card Formatter, select the formatted drive letter, and click "Format".
4. Confirm the format operation in the prompt box.
5. Click "OK" when formatting is completed.
6. Close SD Card Formatter.
7. Open Raspberry Pi Imager, select "CHOOSE OS", and then select "Use Custom" from the pop-up pane.
8. Select the OS file from your defined path and return to the main page.
9. Click "CHOOSE STORAGE", select the default device, and return to the main page.
10. Click "NEXT", and select "NO" in the "Use OS customization?" pane.
11. Select "YES" in the "Warning" pane to start writing the image.
12. After OS writing is completed, the file will be verified.
13. After verification, click "CONTINUE" in the "Write Successful" box.
14. Close Raspberry Pi Imager, remove the card reader and SD card.
15. Insert the SD card into the device and power it up.

6.3 Installing Firmware Package

After flashing the standard Raspberry Pi OS to the ED-IPC2200, you need to add the EDATEC apt source and install the firmware package to configure the system for normal use. This guide uses Debian 12 (bookworm) desktop version.

Preparation:

• Raspberry Pi standard OS (bookworm) has been flashed to the eMMC.
• The device has booted normally and relevant boot configurations are completed.

Steps:

1. After the device starts normally, execute the following commands in the command pane to add the EDATEC apt source and install the firmware package:

curl -s https://apt.edatec.cn/bsp/ed-install.sh | sudo bash -s ipc2200

2. After the installation is complete, the system automatically reboots.
3. Execute the following command to check if the firmware package is installed successfully:

dpkg -l | grep ed-

The result shown in the original diagram indicates successful installation.

? TIP: If you have installed the wrong firmware package, you can remove it by executing sudo apt-get --purge remove package, where "package" is the package name.