📦 Product Overview
An 800-Tie Point Breadboard is a solderless prototyping board that allows you to quickly build and test electronic circuits without soldering. It consists of a grid of tie points (holes with metal clips underneath) for inserting wires, components, and modules.
This breadboard is ideal for Arduino, Raspberry Pi, ESP32 projects, robotics, and electronics learning. The 800 tie points offer plenty of space for medium-sized circuits.
Key Features:
Solderless design for easy prototyping.
Supports standard 0.1 in (2.54 mm) pitch components.
Includes power rails for easy voltage distribution.
Compatible with jumper wires, ICs, resistors, LEDs, sensors, and modules.
Reusable and flexible for multiple projects.
📊 Specifications
Parameter Specification
Type Solderless Breadboard
Tie Points 800 (approx.)
Layout 63 rows × 10 columns for main area + 2 × 50 points for power rails
Pitch 2.54 mm (0.1 in) standard
Power Rails 2 (positive and negative) on each side
Compatibility Standard 0.1 in (2.54 mm) components and jumper wires
Dimensions ~82 × 55 × 8 mm (may vary by manufacturer)
Material White ABS plastic top, phosphor bronze clips underneath
Operating Temperature –20 °C to +80 °C
Applications Electronics prototyping, Arduino/ESP32 projects, sensor testing, educational circuits, DIY electronics
🔧 How It Works
Insert components such as resistors, capacitors, ICs, and sensors into the breadboard holes.
Connect components using jumper wires through the internal metal clips.
Power the circuit through the horizontal power rails.
Test and modify circuits quickly without soldering.
Notes:
Each vertical column in the main area is electrically connected.
Horizontal power rails provide continuous voltage along the row.
Avoid exceeding current ratings of the internal clips (~1 A max).
⚡ Features
✔ Reusable, solderless prototyping.
✔ Standard 2.54 mm pitch for ICs and modules.
✔ 800 tie points for medium-sized circuits.
✔ Easy to combine with multiple breadboards for larger projects.
✔ Compact and lightweight.
🧠 Applications
Arduino, Raspberry Pi, and ESP32 prototyping.
Testing and learning electronics circuits.
Sensor and module experimentation.
Educational STEM projects.
Robotics and IoT electronics prototyping.