Instrukcja obsługi modułu Raspberry Pi Compute 4
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| Uwolnienie | 1 |
| Zbudować data | 22/07/2025 |
| Zbudować wersja | 0afd6ea17b8b |
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Historia wersji dokumentu
| Uwolnienie | Data | Opis |
| 1 | Mar 2025 | Initial release. This document is heavily based on the ‘Raspberry Pi Compute Module 5 forward guidance’ whitepaper. |
Zakres dokumentu
Ten dokument dotyczy następujących produktów Raspberry Pi:
| Pi 0 | Pi 1 | Pi 2 | Pi 3 | Pi 4 | Pi 400 | Pi 5 | Pi 500 | CM1 | CM3 | CM4 | CM5 | Pico | Pico2 | ||||
| 0 | W | H | A | B | A | B | B | Wszystko | Wszystko | Wszystko | Wszystko | Wszystko | Wszystko | Wszystko | Wszystko | Wszystko | Wszystko |
Wstęp
Raspberry Pi Compute Module 5 kontynuuje tradycję Raspberry Pi, polegającą na wykorzystaniu najnowszego flagowego komputera Raspberry Pi i stworzeniu niewielkiego, sprzętowo równoważnego produktu, odpowiedniego do zastosowań wbudowanych. Raspberry Pi Compute Module 5 ma ten sam kompaktowy format co Raspberry Pi Compute Module 4, ale oferuje wyższą wydajność i ulepszony zestaw funkcji. Oczywiście istnieją pewne różnice między Raspberry Pi Compute Module 4 a Raspberry Pi Compute Module 5, które zostały opisane w tym dokumencie.
NOTATKA
For the few customers who are unable to use Raspberry Pi Compute Module 5, Raspberry Pi Compute Module 4 will stay in production until at least 2034.
The Raspberry Pi Compute Module 5 datasheet should be read in conjunction with this whitepaper.
https://datasheets.raspberrypi.com/cm5/cm5-datasheet.pdf
Główne cechy
Raspberry Pi Compute Module 5 has the following features:
- Quad-core 64-bit Arm Cortex-A76 (Armv8) SoC clocked @ 2.4GHz
- 2GB, 4GB, 8GB, or 16GB LPDDR4 SDRAM
- On-board eMMC flash memory, OGB (Lite model), 16GB, 32GB, or 64GB options
- 2 porty USB 3.0
- 1 Gb Ethernet interface
- 2x 4-lane MIPI ports supporting both DSI and CSI-2
- 2x HDMI ports able to support 4Kp60 simultaneously
- 28x GPIO pins
- On-board test points to simplify production programming
- Internal EEPROM on the bottom to improve security
- On-board RTC (external battery via 100-pin connectors)
- On-board fan controller
- On-board Wi-Fi®/Bluetooth (depending on SKU)
- 1-lane PCIe 2.0′
- Type-C PD PSU support
NOTATKA
Not all SDRAM/eMMC configurations are available. Please check with our sales team.
In some applications PCIe Gen 3.0 is possible, but this is not officially supported.
Zgodność modułu Raspberry Pi Compute 4
For most customers, Raspberry Pi Compute Module 5 will be pin-compatible with Raspberry Pi Compute Module 4.
The following features have been removed/altered between the Raspberry Pi Compute Module 5 and Raspberry Pi Compute Module 4 models:
- Wideo kompozytowe
- The composite output available on Raspberry Pi 5 is NOT routed out on Raspberry Pi Compute Module 5
- 2-lane DSI port
- There are two 4-lane DSI ports available on Raspberry Pi Compute Module 5, muxed with the CSI ports for a total of two
- 2-lane CSI port
- There are two 4-lane CSI ports available on Raspberry Pi Compute Module 5, muxed with the DSI ports for a total of two
- 2x ADC inputs
Pamięć
Raspberry Pi Compute Module 4’s maximum memory capacity is 8GB, whereas Raspberry Pi Compute Module 5 is available in a 16GB RAM variant.
Unlike Raspberry Pi Compute Module 4, Raspberry Pi Compute Module 5 is NOT available in a 1GB RAM variant.
Dźwięk analogowy
Analogue audio can be muxed onto GPIO pins 12 and 13 on Raspberry Pi Compute Module 5, in the same way as on Raspberry Pi Compute Module 4.
Use the following device tree overlay to assign analogue audio to these pins:
Due to an errata on the RP1 chip, GPIO pins 18 and 19, which could be used for analogue audio on Raspberry Pi Compute Module
4, are not connected to the analogue audio hardware on Raspberry Pi Compute Module 5 and cannot be used.
NOTATKA
The output is a bitstream rather than a genuine analogue signal. Smoothing capacitors and an amplifier będzie potrzebny na płycie IO do sterowania wyjściem liniowym.
Zmiany w rozruchu USB
USB booting from a flash drive is only supported via the USB 3.0 ports on pins 134/136 and 163/165
Raspberry Pi Compute Module 5 does NOT support USB host boot on the USB-C port
Unlike the BCM2711 processor, the BCM2712 does not have an XHCI controller on the USB-C interface, just a DWC2 controller on pins 103/105. Booting using 1800t is done via these pins.
Zmiana na tryb resetowania modułu i wyłączania zasilania
1/0 pin 92 is now set to w Button rather than sus PG this means you need to use a PMIC EN to reset the module.
The PRIC ENABLE Signal resets the PMIC, and therefore the SoC. You can view PRIC EN when it’s driven low and released, which is functionally similar to driving tus Po low on Raspberry Pi Compute Module 4 and releasing it.
Raspberry Pi Compute Module 4 has the added benefit of being able to reset peripherals via the nEXTRST signal. Raspberry Pi Compute Module 5 will emulate this functionality on CAM GPIOT.
GLOBAL EN/PHIC EN are wired directly to the PMIC and bypass the OS completely. On Raspberry Pi Compute Module 5, use
GLOBAL EN/PHIC Es to execute a hard (but unsafe) shutdown
If there is a need, when using an existing 10 board, to retain the functionality of toggling I/O pin 92 to start a hard reset, you should intercept the Button at the software level; rather than having it invoke a system shutdown, it can be used to generate a software interrupt and, from there, to trigger a system reset directly (eg. write to S)
Device tree entry handling a power button (arch/arm64/boot/dts/broadcom/bcm2712-rpi-cm5.dtsi).
Code 116 is the standard event code for the kernel’s KEY POWER event, and there is a handler for this in the OS.
Raspberry Pi recommends using kernel watchdogs if you are concerned about the firmware or the OS crashing and leaving the power key unresponsive. ARM watchdog support is already present in Raspberry Pi OS via the device tree, and this can be customised to individual use cases. In addition, a long press/pull on the PIR Button (7 seconds) will cause the PMIC’s built-in handler to shut down the device.
Szczegółowe zmiany wyprowadzeń
CAM1 and DSI1 signals have become dual-purpose and can be used for either a CSI camera or a DSI display.
The pins previously used for CAMO and DSIO on Raspberry Pi Compute Module 4 now support a USB 3.0 port on Raspberry Pi Compute Module 5.
The original Raspberry Pi Compute Module 4 VBAC COMP pin is now a VBUS-enabled pin for the two USB 3.0 ports, and is active high. Raspberry Pi Compute Module 4 has extra ESD protection on the HDMI, SDA, SCL, HPD, and CEC signals. This is removed from Raspberry Pi Compute Module 5 due to space limitations. If required, ESD protection can be applied to the baseboard, although Raspberry Pi Ltd does not regard it as essential.
|
Szpilka |
CM4 | CM5 | Komentarz |
| 16 | SYNC_IN | Fan_tacho | Fan tacho input |
| 19 | Ethernet nLED1 | Fan_pwn | Fan PWM output |
| 76 | Skryty | VBAT | RTC battery. Note: There will be a constant load of a few uA, even if CM5 is powered. |
| 92 | RUN_PG | Przycisk zasilania | Replicates the power button on Raspberry Pi 5. A short press signals that the device should wake up or shut down. A long press forces shutdown. |
| 93 | nRPIBOOT | nRPIBOOT | If the PWR_Button is low, this pin will also be set low for a short time after power-up. |
| 94 | AnalogIP1 | CC1 | This pin can connect to the CC1 line of a Type-C USB connector to enable the PMIC to negotiate 5A. |
| 96 | AnalogIP0 | CC2 | This pin can connect to the CC2 line of a Type-C USB connector to enable the PMIC to negotiate 5A. |
| 99 | Global_EN | Włącz PMIC | No external change. |
| 100 | nEXTRST | KAMERA_GPIO1 | Pulled up on Raspberry Pi Compute Module 5, but can be forced low to emulate a reset signal. |
| 104 | Skryty | PCIE_DET_nWAKE | PCIE nWAKE. Pull up to CM5_3v3 with an 8.2K resistor. |
| 106 | Skryty | PCIE_PWR_EN | Signals whether the PCIe device can be powered up or down. Active high. |
| 111 | VDAC_COMP | VBUS_EN | Output to signal that USB VBUS should be enabled. |
| 128 | CAM0_D0_N | USB3-0-RX_N | May be P/N swapped. |
| 130 | KAM0_D0_P | USB3-0-RX_P | May be P/N swapped. |
| 134 | CAM0_D1_N | USB3-0-DP | USB 2.0 signal. |
| 136 | KAM0_D1_P | USB3-0-DM | USB 2.0 signal. |
| 140 | CAM0_C_N | USB3-0-TX_N | May be P/N swapped. |
| 142 | CAM0_C_P | USB3-0-TX_P | May be P/N swapped. |
| 157 | DSI0_D0_N | USB3-1-RX_N | May be P/N swapped. |
| 159 | DSI0_D0_P | USB3-1-RX_P | May be P/N swapped. |
| 163 | DSI0_D1_N | USB3-1-DP | USB 2.0 signal. |
| 165 | DSI0_D1_P | USB3-1-DM | USB 2.0 signal. |
| 169 | DSI0_C_N | USB3-1-TX_N | May be P/N swapped. |
| 171 | DSI0_C_P | USB3-1-TX_P | May be P/N swapped. |
Oprócz tego sygnały PCIe CLK nie są już sprzężone pojemnościowo.
Płytka drukowana
Raspberry Pi Compute Module 5′s PCB is thicker than Raspberry Pi Compute Module 4′s, measuring at 1.24mm+/-10%.
Długości torów
HDMI0 track lengths have changed. Each P/N pair remains matched, but the skew between pairs is now <1mm for existing motherboards. This is unlikely to make a difference, as the skew between pairs can be in the order of 25 mm.
HDMI1 track lengths have also changed. Each P/N pair remains matched, but the skew between pairs is now <5mm for existing motherboards. This is unlikely to make a difference, as the skew between pairs can be in the order of 25 mm.
Długość ścieżek Ethernet uległa zmianie. Każda para P/N pozostaje zgodna, ale przesunięcie między parami wynosi teraz <4 mm dla istniejących płyt głównych. Jest mało prawdopodobne, aby miało to jakiekolwiek znaczenie, ponieważ przesunięcie między parami może wynosić około 12 mm.
Złącza
Dwa 100-pinowe złącza zostały wymienione na złącza innej marki. Są one kompatybilne z istniejącymi złączami, ale zostały przetestowane pod kątem wysokiego natężenia prądu. Część łącząca, która jest montowana na płycie głównej, to Amphenol P/N 10164227-1001A1RLF
Budżet mocy
As Raspberry Pi Compute Module 5 is significantly more powerful than Raspberry Pi Compute Module 4, it will consume more electrical power. Power supply designs should budget for SV up to 2.5A. If this creates an issue with an existing motherboard design, it is possible to reduce the CPU clock rate to lower the peak power consumption.
The firmware monitors the current limit for USB, which effectively means that usb mas surrant, enable is always 1 on CM5, the 10 board design should take the total USB current required into consideration.
The firmware will report the detected power supply capabilities (if possible) via device-tree. On a running system, see /proc/device tree/chosen/poser/Te filesą przechowywane jako 32-bitowe dane binarne w formacie big-endian.
Zmiany/wymagania oprogramowania
Z punktu widzenia oprogramowania viewZmiany w sprzęcie pomiędzy Raspberry Pi Compute Module 4 a Raspberry Pi Compute Module 5 są ukryte przed użytkownikiem dzięki nowemu drzewu urządzeń files, co oznacza, że większość oprogramowania zgodnego ze standardowymi interfejsami API Linuksa będzie działać bez zmian. Drzewo urządzeń files upewnij się, że podczas rozruchu zostaną załadowane właściwe sterowniki dla sprzętu.
Drzewo urządzeń fileMożna je znaleźć w drzewie jądra Linux Raspberry Pi. Na przykładampna:
https://github.com/raspberrypi/linux/blob/rpi-612.y/arch/arm64/boot/dis/broadcom/bom2712-pi-om5.dtsi.
Użytkownikom przechodzącym na Raspberry Pi Compute Module 5 zaleca się korzystanie z wersji oprogramowania wskazanych w poniższej tabeli lub nowszych. Chociaż nie ma wymogu korzystania z systemu operacyjnego Raspberry Pi, jest to przydatne źródło informacji, dlatego uwzględniono je w tabeli.
| Oprogramowanie | Wersja | Data | Notatki |
| Raspberry Pi OS | Bookworm (12) | ||
| Oprogramowanie sprzętowe | From 10 Mar 2025 | Widzieć https://pip.raspberrypi.com/categories/685-app-notes-guides- whitepapers/documents/RP-003476-WP/Updating-Pi-firmware.pdf for details on upgrading firmware on an existing image. Note that Raspberry Pi Compute Module 5 devices come pre-programmed with appropriate firmware | |
| Jądro | 6.12.x | Od 2025 | This is the kernel used in Raspberry Pi OS |
Moving to standard Linux APIs/libraries from proprietary drivers/
oprogramowanie układowe
Wszystkie zmiany wymienione poniżej były częścią przejścia z Raspberry Pi OS Bullseye na Raspberry Pi OS Bookworm w październiku 2023 r. Chociaż Raspberry Pi Compute Module 4 mógł korzystać ze starszych, wycofanych interfejsów API (ponieważ wymagane starsze oprogramowanie układowe było nadal obecne), Raspberry Pi Compute Module 5 nie ma takiej możliwości.
Raspberry Pi Compute Module 5, podobnie jak Raspberry Pi 5, korzysta teraz ze stosu wyświetlania DRM (Direct Rendering Manager), a nie ze starszego stosu, często nazywanego DispmanX. Raspberry Pi Compute Module 5 NIE obsługuje oprogramowania układowego dla DispmanX, dlatego przejście na DRM jest niezbędne.
A similar requirement applies to cameras, Raspberry Pi Compute Module 5 only supports the libcamera library’s API, so older applications that use the legacy firmware MMAL APIs, such as raspi-still and rasps-vid, no longer function.
Aplikacje wykorzystujące API OpenMAX (kamery, kodeki) nie będą już działać na Raspberry Pi Compute Module 5, dlatego konieczne będzie ich przepisanie w celu wykorzystania V4L2.ampPliki te można znaleźć w repozytorium libcamera-apps na GitHubie, gdzie służą do uzyskiwania dostępu do sprzętu kodującego H264.
OMXPlayer is no longer supported, as it also uses the MMAL API for video playback, you should use the VLC application. There is no command-line compatibility between these applications: see the VLC documentation for details on usage.
Raspberry Pi previously published a whitepaper that discusses these changes in more detail: https://pip.raspberrypi.com/categories/685-app-notes-guides-whitepapers/documents/RP-006519-WP/Transitioning-from-Buliseye-to-Bookworm.pdf.
Informacje dodatkowe
While not strictly related to the transition from Raspberry Pi Compute Module 4 to Raspberry Pi Compute Module 5, Raspberry Pi Ltd has released a new version of the Raspberry Pi Compute Module provisioning software and also has two distro generation tools that users of Raspberry Pi Compute Module 5 may find useful.
rpi-sb-provisioner is a minimal-input, automatic secure boot provisioning system for Raspberry Pi devices. It is entirely free to download and use, and can be found on our GitHub page here: https://github.com/raspberrypi/rpi-sb-provisioner.
pi-gen is the tool used to create the official Raspberry Pi OS images, but it is also available for third parties to use to create their own distributions. This is the recommended approach for Raspberry Pi Compute Module applications that require customers to build a custom Raspberry Pi OS-based operating system for their specific use case. This is also free to download and use, and can be found here: https://github.com/RPi-Distro/pi-gen. The pi-gen tool integrates well with rpi-sb-provisioner to provide an end-to-end process for generating secure boot OS images and implementing them on Raspberry Pi Compute Module 5.
rpi-image-gen is a new image creation tool (https://github.com/raspberrypi/rpi-image-gen) that may be more appropriate for more lightweight customer distributions
For bring-up and testing and where there is no requirement for the full provisioning system rpiboot is still available on Raspberry Pi Compute Module 5. Raspberry Pi Ltd recommends using a host Raspberry Pi SBC running the latest version of Raspberry Pi OS and the latest rathoot from https://github.com/raspberrypi/usbboot. You must use the ‘Mass Storage Gadget option when running rpiboot, as the previous firmware-based option is no longer supported.
Dane kontaktowe w celu uzyskania dalszych informacji
Proszę o kontakt
applications@iraspberrypi.com
if you have any queries about this whitepaper.
Web: www.raspberrypi.com
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