reComputer R1000 Raspberry Pi CM4 Edge IoT Gateway Controller
reComputer R1000 Raspberry Pi CM4 Edge IoT Gateway Controller
All Kits include R Pi CM4
The reComputer R1000, built on the Raspberry Pi CM4 platform, is a powerful edge IoT gateway and controller designed for smart IoT applications. It features a quad-core processor, 3 isolated RS485, dual Ethernet, and optional wireless connectivity (4G, LoRa®, Wi-Fi/BLE, Zigbee). It supports multiple communication protocols and comes with pre-configured firmware for easy deployment. Choose from a variety of accessories to suit your needs for efficient remote device management and energy control.
The reComputer R1000 is built on the robust Raspberry Pi CM4 platform, it boasts a quad-core A72 processor for smooth operation and supports up to 8GB of RAM and 32GB of eMMC storage for demanding tasks.
This versatile controller offers exceptional connectivity options. Dual Ethernet interfaces provide reliable wired networking, while the optional 4G, LoRa®, Zigbee or Wi-Fi/BLE modules enable flexible wireless configurations to suit your specific needs. The R1000 also features three isolated RS485 channels that seamlessly support BACnet, Modbus RTU and Modbus TCP/IP protocols for comprehensive communication with various devices.
With its robust IoT network communication capabilities, the reComputer R1000 empowers you to manage and control devices across smart building subsystems, including HVAC, lighting, power distribution, and so on. This makes it a perfect solution for both new construction projects and existing building retrofits.
Key Feature
Designed for Building Automation System
- Multiple isolated RS485 channels supports high and low speeds communication.
- Supports BACnet, Modbus RTU, Modbus TCP/IP protocol
- Up to 8GB RAM supports the processing of thousands of data points, ensuring efficient performance
- Clear dual-sided visible LED indicators help check operational status quickly
- High-quality metal case, compatible with DIN-rail installation
- Supports Yocto and Buildroot for customized OS
Powerful Performance
- Powered by Raspberry Pi CM4
- Broadcom BCM2711 quad-core Cortex-A72 (ARM v8) 64-bit SoC @ 1.5GHz
- Up to 8GB RAM and 32GB eMMC
Rich Wireless Capabilities
- On-chip Wi-Fi
- On-chip BLE
- Mini-PCIe1: LTE, USB LoRa®, USB Zigbee
- Mini-PCIe2: SPI LoRa®, USB LoRa®, USB Zigbee
Rich Interfaces
- 3x RS485 (isolated)
- 1x 10M/100M/1000M Ethernet (Support PoE)
- 1x 10M/100M Ethernet
- 1x M.2 slot for NVMe SSD
- 1x HDMI 2.0
- 2x Type-A USB2.0
- 1x Type-C USB2.0 (USB console for update OS)
- 1x SIM card slot
Safety and Reliability
- Hardware Watchdog
- Real time clock
- UPS Supercapacitor(optional)
- 0/ATECC608A* supported
- Metal casing with PC side panels
- ESD: EN61000-4-2,level 3
- EFT: EN61000-4-4, level 2
- Surge: EN61000-4-5, level 2
- Production Lifetime: reComputer R1000 will remain in production until at least December 2030
Description
Hardware and Interface Overview
The reComputer R1000 boasts up to 8GB RAM for processing numerous data points efficiently, along with multiple isolated RS485 channels, versatile interfaces and various wireless communication protocols.
- Mini-PCIe1 Slot: Supports 4G LTE, USB LoRa®, USB Zigbee modules
- Mini-PCIe2 Slot: Supports SPI LoRa®, USB LoRa®, USB Zigbee modules
- 3x RS485 (isolated)Supports serial communication with isolation for enhanced safety.
- 1x 10M/100M/1000M Ethernet: Supports Power over Ethernet (PoE) for convenient power delivery over the network cable.
- 1x 10M/100M Ethernet: Ethernet port for standard network connectivity.
- 1x 0 HDMI port for high-definition video output.
- 2x Type-A USB 2.0: Standard USB ports for connecting peripherals or storage devices.
- 1x Type-C USB 2.0: USB-C port primarily used for updating the operating system and possibly other functions.
- 1x SIM Card Slot: Slot for inserting a SIM card, typically used for cellular network connectivity.
- 1x M.2 Slot: Slot for M.2 expansion cards, allowing for additional functionality or SSD storage options.
This hardware configuration offers a diverse range of connectivity options and expansion possibilities, suitable for various applications requiring communication, networking, and peripheral connections.
Architecture: The bridge between OT and IT
Developer-Friendly Platform
Designed for rapid development: Leverage the familiar Linux environment and extensive software libraries to integrate your custom applications and systems seamlessly.
Pre-flashed Edge IoT Controller: A compact, ready-to-deploy Industrial IoT (IIoT) controller with pre-configured firmware eliminates setup time for SIs. Skip the initial hardware setup and software configuration, allowing engineers to focus on application development and deployment.
Supports Yocto and Buildroot for customized OS: Yocto Project and Buildroot come into play to deliver a customized Linux distribution to run on your device and provide a convenient solution for managing software updates. Fleet management tool like Mender also provided for easy management and deployment.
Rugged Industrial Design for Smart Building Applications
To effectively cater to the demanding environments of smart buildings, your CM4-based edge IoT controller should embody a rugged industrial design and offer flexible power and installation options. Here's how to address these aspects:
Rugged Industrial Design:
- Enclosure: Utilize high-impact resistant materials of 6061 aluminum alloy casing with transparent PC side panels to withstand harsh conditions.
- Temperature Range: Ensure the controller operates reliably within a wide temperature range, typically -30°C to 70°C.
- Vibration and Shock Resistance: This device is built for industrial use, meeting vibration and shock resistance standards, and exceeding Electrostatic Discharge (ESD), Electrical Fast Transient (EFT), and Surge immunity levels.
- IP Rating: An IP40 rating for superior dust protection in industrial settings.
Power Options:
- Power Input Range: Support a wide power input range, 12 to 24V AC and 9 to 36V DC, to accommodate various power sources.
- Power Redundancy: Implement power redundancy options - PoE (Power over Ethernet)(need to purchase additionally), for mission-critical applications.
- Low Power Consumption: Optimize the controller's power consumption to minimize energy usage and heat generation.
- Battery Backup: Provide an option for UPS(need to purchase additionally) as battery backup to ensure continuous operation and power-off notification during power outages.
Installation Options:
- Wall Mount: Offer a wall mount option for easy installation on walls or other surfaces.
- DIN Rail Mount: Provide DIN_rail mounting compatibility for industrial control panels and cabinets.
By incorporating these design elements, your CM4-based edge IoT controller will be well-equipped to handle the rigors of smart building environments, ensuring reliable operation and long-lasting performance.
Application
The following graph provide a comprehensive overview of the application of reComputer R1000, within the context of various smart building technologies, smart city, and smart grid initiatives.
Applications of Smart Building Technologies:
- Building Energy Management: reComputer R1000 facilitates the monitoring and analysis of energy usage within buildings. By identifying areas of energy wastage and offering recommendations for improvement, it contributes to overall energy efficiency.
- Smart HVAC Control: With reComputer R1000, users can remotely manage heating, ventilation, and air conditioning systems, thereby enhancing energy efficiency and occupant comfort.
- Connected Lighting: The controller enables remote control of lighting systems, promoting energy efficiency and enhancing security within the building.
- Room Automation: reComputer R1000 integrates control of various building devices including lighting, HVAC, and security systems. This integration enhances comfort, convenience, and energy efficiency.
- Building Management System (BMS): Acting as the central hub for automation and control systems, reComputer R enables centralized monitoring and control, streamlining building operations and enhancing overall efficiency.
sourcing from website
Demo--A proposal of smart water monitoring system for schools
In today’s world, where sustainability and efficiency are paramount, schools are increasingly turning to smart technologies to manage their resources effectively. One critical resource that often goes overlooked is water.
reComputer R1000 would be the revolution of water system management that this powerful controller serves as the brain of our system, seamlessly integrating various components to create a comprehensive water management solution.
- Acts as the central processing unit, managing data flow and communication between different components.
- Utilizes Raspberry Pi Compute Module 4 for robust processing capabilities running machine learning model and report/notification generation.
- Integrates multiple wireless communication technologies such as LoRaWAN for long-range, low-power communication.
Specification
Parameter |
Description |
|
Hardware Spec |
||
Product Series |
R10xx-10 |
R10xx-00 |
CPU |
Raspberry Pi CM4, Quad-core Cortex-A72@ 1.5GHz |
|
Operating System |
Raspbian, Debian |
|
RAM |
1GB/2GB/4GB/8GB |
|
eMMC |
8GB/16GB/32GB |
|
System Spec |
||
Input |
2-pin Terminal Block |
|
PoE(as powered device) |
IEEE 802.3af Standard 12.95W PoE* |
|
Supply Voltage(AC/DC) |
12~24V AC/9~36V DC |
|
Overvoltage Protection |
40V |
|
Power Consumption |
Idle:2.88W; Full Load:5.52W |
|
Power Switch |
No |
|
Reboot Switch |
Yes |
|
Interface |
||
Ethernet |
1 x 10/100/1000 Mbps (supports PoE*) |
|
1 x 10/100 Mbps IEEE802.3/802.3u |
||
USB |
2 x USB-A 2.0 Host |
|
1 x USB-C 2.0 (For flashing OS) |
||
RS485 |
3 x 3-pin Terminal Block (isolated) |
|
SIM Card Slot |
supports Standard SIM Card |
|
M.2 Slot |
supports M.2 NVMe SSD |
|
LED |
6 x LED indicators |
|
Buzzer |
1 |
|
Reset Button |
1 |
|
HDMI |
1 x HDMI 2.0 |
|
Wireless Communication |
||
Wi-Fi 2.4/5.0 GHz |
On-chip Wi-Fi* |
No |
BLE 5.0 |
On-chip BLE* |
No |
LoRa® |
USB LoRa®*/SPI LoRa®* |
|
4G Cellular |
4G LTE* |
|
Zigbee |
USB Zigbee* |
|
Standards |
||
EMC |
ESD: EN61000-4-2, Level 3 |
|
EFT: EN61000-4-4, Level 2 |
||
Surge: EN61000-4-5, Level 2 |
||
Certification |
CE, FCC |
|
TELEC |
||
RoHS |
||
Ambient Conditions |
||
Ingress Protection |
IP40 |
|
Operating Temperature |
-30~70 °C |
|
Operating Humidity |
10~95% RH |
|
Storage Temperature |
-40~80 °C |
|
Others |
||
Supercapacitor UPS |
SuperCAP UPS LTC3350 Module* |
|
Hardware Watchdog |
1~255s |
|
RTC |
High Accuracy RTC |
|
Security |
Encryption Chip TPM 2.0* |
|
ATECC608A |
||
Heat Dissipation |
Fanless |
|
Warranty |
2 years |
|
Production Lifetime |
Until December 2030 |
|
Statement |
Options marked with * require additional purchase according to the accessories list. |
Documentations