Part 1. The Critical Role of Terminal Blocks in AI Edge Computing
As AI edge computing devices power innovations in autonomous factories, smart cities, and autonomous vehicles, the demand for high-performance terminal blocks has surged. These devices require robust, compact, and intelligent connectivity solutions to handle real-time data processing in harsh environments. The Dual-Layer Screwless Terminal Block emerges as a game-changer, addressing key challenges in AI-driven edge infrastructure.
Industry Challenges:
- Signal loss due to loose connections in high-vibration environments (e.g., AGVs, robotics).
- Space constraints in miniaturized edge devices requiring high-density wiring.
- EMI interference degrading AI algorithm accuracy.
Part 2.Why Dual-Layer Terminal Blocks Excel in AI Edge Applications
Our FS2.5-XX-500-28 spring terminal block combines screwless convenience with dual-layer engineering, making it ideal for AI edge computing deployments. Here’s how it solves industry pain points:
2.1 Ultra-Compact Design with Dual-Layer Architecture
- Space Optimization: Dual-layer structure supports up to 48 circuits in 24 positions, maximizing PCB space for AI processors and sensors.
- Tool-Free Clamping: Spring-cage screwless technology enables one-handed, tool-free wire insertion, reducing installation time by 50% compared to traditional terminals.
2.2 Uncompromised Signal Integrity
- EMC Protection: Integrated shielding reduces EMI/RFI interference by 30%, ensuring stable communication between AI chips and IoT sensors.
- Low Contact Resistance: Precision-machined contacts maintain <3mΩ resistance, critical for high-speed data buses (e.g., Ethernet, CAN FD).
2.3 Rugged Reliability for Harsh Environments
- Vibration Resistance: Patented spring mechanism withstands 15G vibration (IEC 60068-2-6 compliant), ideal for automotive and industrial edge devices.
- IP67 Protection: Sealed housing prevents dust/water ingress, ensuring operation in temperatures from -40°C to +125°C.
2.4 Smart Maintenance & Scalability
- Visual Status Indicators: Color-coded openings allow quick wire integrity checks without disassembly.
- Hot-Swappable Modules: Expand sensor networks seamlessly for AI model upgrades.
Part 3.How to Select the Right Terminal Block for Your AI Edge Device
1.Current/Voltage Ratings: KFM736H supports 12-24V DC/AC, 8A current — perfect for sensors, cameras, and microcontrollers.
| Data | |
| Pitch/Poles [mm]/[P] | 500/1~30 |
| Stripping Length [mm] | 9~10 |
| Operating temperature [℃] | -40~+105 |
| Soldering temperature | 250℃/5S |
| UL/CUL | |
| Rate Voltage [V] | 300 |
| Rated Current [A] | 10 |
| Wire Range [AWG] | 20-16 AWG |
| Material | |
| Insulation Material | PA66 |
| Flame retardant rating | UL94V-0 |
2.Wire Compatibility: Accepts 0.08–2.5mm² solid/stranded wires, including shielded cables for noise-sensitive applications.
3.Certifications: UL 1059, IEC 60947-7-1, and RoHS 2.0 compliant for global deployment.
