Modular PCB Terminal Blocks
Modular PCB terminal blocks have a modular structure where you can increase the number of poles by interconnecting and decrease by separating them from each other. You can easily adapt the terminal block to your needs by lengthening and shortening it.
You can make color coding by combining different color products, you can prevent application errors by ensuring easy separation of wiring.
Benefits
- Wide conductor spacing and high current carrying capacity
- Modular structure that can be multiplied to the desired number of poles by interlocking.
- Color coding thanks to the ability to combine different color terminal blocks
- Maximum protection and stability with screw and spring connection
- Space saving
- Wide range of uses in various industries and applications
Technical Specifications
| Pin spacing | 3.81mm, 5.08mm, 7.62mm, 9.52mm, 10.16mm |
| Conductor cross-section range | 0.25-16mm² / 23-6 AWG |
| Connection directions | 90° |
| Number of poles | 2-3 (by interconnecting them, the desired number of poles can be achieved.) |
| Voltage | 250V-800V |
| Current | 8A-76A |
| Working Temperature | -40°C/+100°C -40°F/+212°F |
| Color | Blue, green, orange, grey, black, red |
You may also be interested in
Pluggable PCB Terminal Blocks
Mega Radar Pluggable Connectors make a big difference with their versatile features.
They are ideal for fast, practical, and safe applications, offering three different usage options: cable-to-cable connection, rail mounting, and surface mounting.
Pluggable Connectors
Mega Radar Pluggable Connectors stand out with their versatile design, offering fast, practical, and safe connection solutions.
They provide three installation options — cable-to-cable connection, rail mounting, and surface mounting — to suit different application needs.
Pluggable Rail-Mount Terminal Blocks
Mega Radar Pluggable Rail-Mount Terminal Blocks are a multifunctional series designed to minimize wiring errors with color coding in addition to label identification, ideal for multiple wiring in tight spaces.