The Studica Robotics Ultrasonic Distance Sensor provides stable, accurate and high precision distance measurements.
· 450mm Length
· 3 position
· TJC8 MH-FC on one end
· TJC8 FH-MC on the other end
· Twisted cable
· Colors: White, Red, Black (red in middle)
· 24AWG Guage
A pack of 100 Studica Robotics M3 Nyloc Nuts for robotics design.
150mm Blue Zip Tie, 100 pack, can be used for wire management.
Specifications:
The Studica Robotics 100mm Flex Wheel (4"), with a 25mm axial width can be used for intake systems and conveyors with your robotics design builds.
This GT2 (also called 2GT) timing belt has a 2mm Pitch, 6mm width, and open 1000mm in length. Use any of the GT2 pulleys from Studica and the clamp kit.
The Studica Robotics Slide Rail is made of 6061 lightweight aluminum, is 24mm wide, and is perfect for linear motion and building a multi-stage slide system. Closed length is 288m, with a 180mm stroke, creating an extended length of 468mm.
The Studica Robotics Slide Rail is made of light weight aluminum, is 24mm wide, and is perfect for building a multi-stage slide system. Ideal for linear motion the closed length is 384mm, with a 240mm stroke, creating a 624mm extended length.
Made from aluminum and anodized in blue, the Studica Robotics 42mm Hinge with Bearings connects to the Studica structure hole pattern such as the channel, plates, and beams. The holes are 3.2mm diameter to use with the M3 screws.
The Studica Robotics 100mm (4") blue Flex Wheel with an axial width of 25mm and a durometer of 50A can be used for intake systems and conveyors.
The Studica Robotics Ultrasonic Distance Sensor Bracket is used to secure the Ultrasonic Distance Sensor to channels.
The Sharp IR Distance Sensor GP2Y0A21YK0F uses a beam of infrared light to reflect off an object to measure its distance.
The Studica Robotics IR Range Sensor Bracket can be used to secure the IR Range Sensor to the Studica build structure.
The Studica Robotics Cobra Line Follower Array provides 4 X QRE1113 IR reflectance sensor mounted on a 9mm pitch. Each sensor is comprised of two parts - an IR emitting LED and an IR sensitive phototransistor. When you apply power to the VCC and GND pins the IR LED inside the sensor will illuminate.