Waveshare CM4-IO-BASE-B Instruction Manual

1. Hua Neke Atuview

The Waveshare CM4-IO-BASE-B is a versatile carrier board designed for the Raspberry Pi Compute Module 4 (CM4). It expands the CM4's capabilities by providing a wide array of connectivity options, making it suitable for various embedded applications and development projects. This bundle includes a USB HDMI Adapter to further enhance connectivity.

Ko nga ahuatanga matua ko:

Standard CM4 socket, compatible with all variants of Compute Module 4 (Lite/eMMC series).
Multiple USB and HDMI connectors via FFC for extended peripheral support.
Gigabit Ethernet RJ45 port for reliable network connectivity.
Color-coded Raspberry Pi 40PIN GPIO header for easy expansion.
Support for MIPI DSI display and MIPI CSI-2 camera interfaces.
M.2 slot for NVME SSDs or communication modules.

Waveshare CM4-IO-BASE-B with USB HDMI Adapter connected

Figure 1: Waveshare CM4-IO-BASE-B carrier board with the USB HDMI Adapter connected via FFC cable.

Components included in the Waveshare CM4-IO-BASE-B bundle

Figure 2: Included components: CM4-IO-BASE-B board, USB HDMI Adapter, FFC cables, USB-C power cable, and mounting screw.

2. Tatūnga me te Tāuta

2.1 Attaching the Compute Module 4

Carefully align your Raspberry Pi Compute Module 4 (CM4) with the CM4 socket on the CM4-IO-BASE-B board. Ensure the connectors are correctly oriented.
Gently press the CM4 into the socket until it is securely seated. Do not force it.
If using a metal case, install the CM4 and IO board into the case following the case manufacturer's instructions.

Raspberry Pi Compute Module 4 installed in a metal case on the CM4-IO-BASE-B

Figure 3: Raspberry Pi CM4 installed on the CM4-IO-BASE-B board within an optional metal case, highlighting the 40PIN GPIO header.

2.2 Connecting the USB HDMI Adapter

Locate the FFC (Flat Flexible Cable) connectors on both the CM4-IO-BASE-B board and the USB HDMI Adapter.
Gently open the latches on the FFC connectors.
Insert the FFC cables into the corresponding connectors, ensuring they are fully seated and correctly oriented.
Close the latches to secure the FFC cables.

2.3 Initial Power-Up and OS Installation

Connect a 5V/2.5A power supply to the USB-C power input port on the CM4-IO-BASE-B.
Connect a display to one of the HDMI ports (either directly on the CM4-IO-BASE-B or via the USB HDMI Adapter).
Connect a USB keyboard and mouse to the USB 2.0 ports.
If your CM4 is a Lite variant (without eMMC), insert a microSD card with a pre-installed Raspberry Pi OS image into the microSD card slot.
Set the BOOT selection switch to the appropriate position (ON for USB-C boot/programming, OFF for eMMC/microSD boot).
Power on the device. Follow the standard Raspberry Pi OS setup procedures.

3. Mahi

3.1 Port Functionality

The CM4-IO-BASE-B provides extensive connectivity:

Tauranga USB 2.0: For connecting peripherals like keyboards, mice, and USB storage devices.
Tauranga HDMI: Supports up to 4K 30fps output for displays.
Iti Gigabit: Mo nga hononga whatunga waea.
40PIN GPIO Header: For connecting various sensors, actuators, and expansion boards. Refer to Raspberry Pi documentation for pinout details.
MIPI DSI Display Port: For connecting compatible DSI displays.
MIPI CSI-2 Camera Ports: For connecting compatible CSI cameras.
Mokamoka M.2: Supports NVME SSDs or communication modules with PCIe KEY-M interface.

Demonstration of CM4-IO-BASE-B connected to a display

Figure 4: Demonstration of the CM4-IO-BASE-B with the USB HDMI Adapter connected to an external display.

Detailed diagram of CM4-IO-BASE-B components and their labels

Figure 5: Detailed diagram illustrating the various ports and components on the CM4-IO-BASE-B board, including CM4 socket, GPIO header, USB ports, HDMI ports, Ethernet, and M.2 slot.

3.2 Boot Selection

The BOOT switch on the board controls the boot mode of the Compute Module 4:

ON: The CM4 will boot from the USB-C interface. This mode is typically used for flashing the eMMC memory or for console access.
WATE: The CM4 will boot from the eMMC (if present) or the microSD card (for Lite variants).

Always ensure the CM4 is powered off before changing the BOOT switch position.

4. Tiaki

To ensure the longevity and optimal performance of your Waveshare CM4-IO-BASE-B, follow these general maintenance guidelines:

Pupuri Ma: Horoia te papa i ia wā ki te paraihe ngohengohe, maroke, ki te hau pēhi rānei hei tango i te puehu me ngā paru. Kaua e whakamahi i ngā wai.
Whakaweto Tika: Always perform a proper software shutdown of the Raspberry Pi OS before disconnecting power to prevent data corruption.
Nga Tikanga Taiao: Operate the board within its specified temperature and humidity ranges. Avoid extreme conditions.
Te hapai me te tiaki: Avoid touching the electronic components directly. Use anti-static precautions when handling the board.

5. Te Raru

If you encounter issues with your CM4-IO-BASE-B, consider the following troubleshooting steps:

Karekau he Hiko/Ara Whakaweto: Ensure the 5V/2.5A USB-C power supply is correctly connected and functional. Check the PWR indicator LED on the board.
Kore Putanga Whakaatu: Verify that the HDMI cables are securely connected to both the board/adapter and the monitor. Ensure the monitor is set to the correct input source. Check the BOOT switch position.
Kāore ngā Pūrere USB e Mahi Ana: Confirm that USB devices are properly plugged into the USB 2.0 ports. Try different USB devices or ports.
Nga Take Hononga Whatunga: Check the Ethernet cable connection. Verify network settings within the Raspberry Pi OS.
CM4 Not Booting: Ensure the CM4 is correctly seated in its socket. If using a Lite variant, verify the microSD card has a valid OS image and is inserted correctly. Check the BOOT switch position.
Nga Take Pūmanawa: Many issues can be resolved by ensuring your Raspberry Pi OS is up-to-date. Refer to the official Raspberry Pi documentation for OS-specific troubleshooting.

6. Whakatakotoranga

The following table details the technical specifications of the Waveshare CM4-IO-BASE-B:

Āhuahira	Whakatakotoranga
Ingoa Tauira	CM4-IO-BASE-B
CM4 Socket	Suitable for all variants of Compute Module 4
Whatunga	Gigabit Ethernet RJ45 connector
Kaihono	Raspberry Pi 40PIN GPIO header
USB	USB 2.0 Type A × 2, USB 2.0 via FFC connector × 2
Whakaatu	MIPI DSI display port (15pin 1.0mm FPC connector)
Kāmera	MIPI CSI-2 camera port × 2 (15pin 1.0mm FPC connector)
Putanga Ataata	HDMI port × 2 (including one port via FFC connector), supports 4K 30fps output
RTC	Real-time clock with battery socket and ability to wake Compute Module 4
Rokiroki	TF card socket for Compute Module 4 Lite (without eMMC) variants
Pane Fan	Allows speed adjustment and measurement, 5V
Whakauru Mana	5V
Ahu	85×56mm
Taumaha Tūemi	4.8 hekere
Ahu mōkihi	5.3 x 3.8 x 1.6 inihi

Detailed specifications table for CM4-IO-BASE-B, part 1

Figure 6: Part 1 of the detailed specifications for the CM4-IO-BASE-B, including CM4 socket, networking, and USB.

Detailed specifications table for CM4-IO-BASE-B, part 2

Figure 7: Part 2 of the detailed specifications for the CM4-IO-BASE-B, including display, camera, power input, and dimensions.

7. Tautoko me te Whaimana

For further technical support, documentation, and resources, please visit the official Waveshare website or their product wiki. Waveshare provides comprehensive guides and examples for their products.

Information regarding product warranty can typically be found on the Waveshare official website or through your point of purchase. Please retain your proof of purchase for warranty claims.

Mō ētahi atu āwhina, tirohia te Waveshare CM4-IO-BASE-B Wiki Page.