RK3588 Compact Embedded Computer: 6.0TOPS NPU, 16+128G Storage, Advanced GPU Performance
The RK3588 Compact Embedded Computer utilizes the Rockchip RK3588 platform to provide a robust and versatile solution for industrial and AI-focused applications. Its fanless, all-aluminum casing ensures efficient heat dissipation, allowing it to perform reliably under tough conditions. Supporting multi-camera connections, 4G/5G expansions, and NPU computing cards, it excels in AI vision systems. With multiple OS compatibility (Android, Debian, Ubuntu) and a host of interfaces like USB 3.0, Type-C, HDMI, and CANBUS, it’s a comprehensive, scalable platform for developers to quickly build and deploy innovative solutions.
Choose Your RK3588 Compact Embedded Computer
The RK3588 Compact Embedded Computer equipped with versatile connectivity options such as USB 3.0, Type-C, dual mini-PCIe slots. With a variety of interfaces—USB 3.0, Type-C, HDMI, and dual Ethernet—it excels in industrial scenarios like panoramic stitching or intelligent vehicle terminals.
| Feature | LPA3588 Compact Embedded Computer | LPB3588 Compact Embedded Computer | LPC3588 Compact Embedded Computer | LPM3588 Compact Embedded Computer |
| CPU | RK3588 (4x Cortex-A76 + 4x Cortex-A55) | RK3588 (4x Cortex-A76 + 4x Cortex-A55) | RK3588 (4x Cortex-A76 + 4x Cortex-A55) | RK3588 (4x Cortex-A76 + 4x Cortex-A55) |
| GPU | ARM Mali-G610 MP4, 450 GFLOPS | ARM Mali-G610 MP4, 450 GFLOPS | ARM Mali-G610 MP4, 450 GFLOPS | ARM Mali-G610 MP4, 450 GFLOPS |
| NPU (AI) | 6.0 TOPS, TensorFlow/Caffe/PyTorch, etc. | 6.0 TOPS, TensorFlow/Caffe/PyTorch, etc. | 6.0 TOPS, TensorFlow/Caffe/PyTorch, etc. | 6.0 TOPS, TensorFlow/Caffe/PyTorch, etc. |
| Material | Aluminum Alloy | Aluminum Alloy (Industrial-Grade) | Aluminum Alloy | Aluminum Alloy |
| Power Supply | 9V-36V, protection features | 9V-36V, protection features | 9V-36V, protection features | 9V-36V, protection features |
| Cooling | Passive cooling | Passive cooling | Passive cooling | Passive cooling |
| Network | Dual 1000M Ethernet, WiFi 6, BT 5.0 | Dual 1000M Ethernet, WiFi 6, BT 5.0 | Dual 1000M Ethernet, WiFi 6, BT 5.0 | 5x 1000M Ethernet, 1x 100M Ethernet, WiFi 6, BT 5.0 |
| Storage | M.2 SSD, SATA, Micro SD | M.2 SSD, SATA, Micro SD | M.2 SSD, SATA, Micro SD | M.2 SSD, SATA, Micro SD |
| Video | 1*HDMI2.0 Input, 8*AHD input up to 1920*1080@30fps per channel | 3x HDMI, 1x DP, 1x LVDS | 3x HDMI, 1x DP, 1x Type-C (DP1.4) | 2x HDMI, 1x DP, 1x HDMI-IN |
| USB Ports | Not specified | Not specified | 3x USB 3.0 Type-A, 1x USB Type-C OTG | 2x USB 3.0 Type-A |
| Audio | 1*φ3.5mm audio out, 1*φ3.5mm microphone, 2*Speaker output with 10W@8Ω | 3.5mm input/output, 10W@8Ω | 3.5mm MIC input, LINK output | 3.5mm input/output |
| Industrial Control Interfaces | 4x Relay, 4x Switch, 4x Analog input | 4x Relay, 4x Switch, 4x Analog input | Not specified | Not specified |
| Operating Systems | Android, Ubuntu, Buildroot, Debian | Android, Ubuntu, Buildroot, Debian | Android, Ubuntu, Buildroot, Debian | Android, Ubuntu, Buildroot, Debian |
| Dimensions | 182x120x63 mm | 182x120x63 mm | 204×120.5×48.2 mm | 227x120x57.7 mm |
| Target Applications | General purpose | Industrial applications (hardened specs) | General purpose | High-demand applications (5 Ethernet ports) |
RK3588 Compact Embedded Computer: Fanless Compact Embedded Computers
How the neardi fanless design prevents dust, debris, and overheating?
Neardi’s fanless compact embedded computers are crafted with precision-engineered aluminum casings that eliminate the need for traditional cooling fans. By removing moving parts, these systems are impervious to dust and debris that could otherwise cause malfunctions in fan-based setups. The thermal design leverages the aluminum casing as a natural heat sink, dissipating heat efficiently even in high-temperature or industrial environments. This innovative structure ensures reliable operation in harsh conditions like factories, outdoor installations, and transportation hubs, where air contaminants and extreme temperatures are a concern.
How Neardi fanless systems consume less power and reduce maintenance costs while delivering high performance?
Neardi’s fanless embedded computers are designed for energy efficiency, operating at significantly lower power consumption compared to traditional systems. The absence of fans reduces mechanical power draw and eliminates the need for frequent fan replacements or cleaning. These systems are built with high-performance processors Rockchip RK3588 and optimized components, ensuring robust computing power without compromising on energy use. Additionally, their fanless design minimizes wear and tear, extending the lifespan of the hardware and reducing long-term maintenance costs, making them an ideal choice for cost-conscious industrial applications.
Fanless vs. Fan-Based Embedded Computers: How to Choose the Best Fanless Compact Embedded Computer for Your Project?
When deciding between fanless and fan-based embedded computers, consider the unique demands of your application. Fanless systems, like those from Neardi, excel in environments where dust, moisture, or vibration pose risks to traditional fan-based cooling. They are quieter, more energy-efficient, and require less maintenance, making them ideal for industrial automation, transportation, and outdoor deployments. On the other hand, fan-based systems may be better suited for applications requiring high airflow for extreme computing loads. Neardi offers customizable fanless solutions with advanced thermal management and versatile interfaces, ensuring you can find a system tailored to your needs.