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The Studica U Channel is 3mm thick and has a 48mm x 48mm profile. As with the other Studica Robotics building components, it has the common hole pattern which makes it easy to connect to other structure with very little or no additional machining required. You can easily connect to other channel, extrusions, bushings, bearing, mounting brackets and more so you can quickly assemble and disassemble robots and automated systems.
Specifications:
The M3 T-Slot Nut 100 pack, is a Hammer Head Series 20 and is used with any M3 screw and fits the Studica T-Slot Extrusions.
The myDevBoard is an accessory board designed to connect directly to the NI myDAQ hardware. The Protoboard consists of a prototyping space as well as each I/O line from NI myDAQ broken out through quad contact blocks to make wiring easier.
Includes,
The 100mm (4") Flex Wheel can be used for intake systems and conveyors.
Specifications:
The JST-GH to 4 Pin Dupont Cable can be used for the VMX Controller.
The Studica U-Channel Bumper is connected to the end of the Studica 48mm U-Channel and helps remove sharp corners that can cause damage when the robot is bumping into other objects. It also creates an ecstatically clean finish to your robot.
Specifications:
The 100mm (4") Flex Wheel can be used for intake systems and conveyors.
Specifications:
The 100mm (4") Flex Wheel can be used for intake systems and conveyors.
Specifications:
The 100mm (4") Flex Wheel can be used for intake systems and conveyors.
Specifications:
The 50mm (2") Drive Wheel can be used as a simple wheel providing good traction on carpet and tile flooring. They can also be used for intake systems.
Use with 1/2" hex shaft of use 6mm Shaft Hub to use connect 6mm D-Shaft Axles.
Specifications:
The 50mm (2") Drive Wheel can be used as a simple wheel providing good traction on carpet and tile flooring. They can also be used for intake systems.
Use with 1/2" hex shaft of use 6mm Shaft Hub to use connect 6mm D-Shaft Axles.
Specifications:
The 50mm (2") Drive Wheel can be used as a simple wheel providing good traction on carpet and tile flooring. They can also be used for intake systems.
Use with 1/2" hex shaft of use 6mm Shaft Hub to use connect 6mm D-Shaft Axles.
Specifications:
The 50mm (2") Drive Wheel can be used as a simple wheel providing good traction on carpet and tile flooring. They can also be used for intake systems.
Use with 1/2" hex shaft of use 6mm Shaft Hub to use connect 6mm D-Shaft Axles.
Specifications:
The 75mm Drive Wheel can be used as a simple wheel providing good traction on carpet and tile flooring. They can also be used for intake systems.
Use with 1/2" hex shaft of use 6mm Shaft Hub to use connect 6mm D-Shaft Axles.
Specifications:
The navX2-Micro is the greatest sensor for orientation in competitive robots. navX2-Micro is a second-generation 9-axis inertial/magnetic sensor and motion processor. Designed for plug-n-play installation onto robots such as those used in the WorldSkills Robotics, FIRST Technology Challenge (FTC) and the FIRST Robotics Challenge (FRC), navX2-Micro helps build better robots by adding sophisticated navigation capabilities. Significant improvements over the classic navX-Micro allow for more accuracy, decreased yaw drift, and faster boot time. navX-2 Micro includes software algorithms for enhanced sensor calibration as well as KalmanFilter-based data fusion combining gyro, accelerometer, and magnetometer data into a 9-axis heading and high-quality magnetometer calibration including magnetic disturbance detection.
In addition to being an Inertial Measurement Unit, navX2-Micro capabilities are referred to within the aerospace industry as an “Attitude/Heading Reference System” (AHRS). Studica brings this high-tech AHRS capability to FIRST teams – to use, learn, and explore. navX2-Micro is a key component of Studica's ongoing efforts to make state-of-the-art navigation technologies used in drones and autonomous vehicles (e.g., the Google Car) available to robotics students and enthusiasts as low-cost, open-source products.
Improvements over navX "Classic":
navX2-Micro features a new set of IMU & Magnetometer sensors with superior sensor specifications to those on the MPU-9250 sensor. This board has a faster 180Mhz microcontroller and an optimized startup time at 5 seconds versus 15 seconds. In addition, it has a completely new Kalman Filter-based Sensor Fusion algorithm running internally at a blazing fast 416Hz.
RoboRIO Installation
It's recommended to connect to the RoboRIO using a USB Mini-B type (Male) to USB A type (Male) connector, navX2-Micro can receive both power and also communicate with the RoboRIO. This preferred installation method allows the navX2-Micro circuit board to be placed up to 6 meters away from the RoboRIO.
IMPORTANT NOTE: To avoid having the navX2-Micro reset due to a RoboRIO brownout, connecting the navX2-Micro to the RoboRIO via USB is highly recommended.
Designed as a more affordable replacement for the RealSense D435, the Studica 3D Depth Camera provides an accurate high-definition depth-sensing camera for mobile robotics and consumer electronic projects.
The Studica Servo Arm Extended can be used with the Multi Mode Servo, Multi Mode Servo 200, or most servos with a 25 Tooth gear.
Specifcations:
The Studica Servo Hub Pro can be used with the Multi Mode Servo, Multi Mode Servo 200, or most servos with a 25 Tooth gear.
Specifcations:
The Studica Linear Servo RC Actuator 50-50 is a new Servo motor which has a stroke of 50mm. It works the same way as the any standard rotary servo but in a linear movement. It uses the same 2.54mm Dupont 3-Pin Female wire connector and can be controlled with an RC receiver or any device that controls a servo. Includes mounting brackets.
The Studica Linear Servo RC Actuator 50S-190N is a new Servo motor which has a stroke of 50mm and a max force of 190N. It works the same way as the any standard rotary servo but in a linear movement. It uses the same 2.54mm Dupont 3-Pin Female wire connector and can be controlled with an RC receiver or any device that controls a servo. Includes mounting brackets.
The Studica Linear Servo RC Actuator 140S-95N is a new Servo motor which has a stroke of 140mm and a max force of 95N. It works the same way as the any standard rotary servo but in a linear movement. It uses the same 2.54mm Dupont 3-Pin Female wire connector and can be controlled with an RC receiver or any device that controls a servo. Includes mounting brackets.
The Studica Linear Servo RC Actuator 140S-190N is a new Servo motor which has a stroke of 140mm and a max force of 190N. It works the same way as the any standard rotary servo but in a linear movement. It uses the same 2.54mm Dupont 3-Pin Female wire connector and can be controlled with an RC receiver or any device that controls a servo. Includes mounting brackets.