?

Sensor module 3D Models

Find the best Sensor module 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

You May Also Like :
sensor-portsdetector-devicemeter-devicemotion-sensor
Anonymous1767437075
Anonymous1768940262
Anonymous1768916407
A 3D model of a full-fingered Lycra compression glove extending to the elbow. The glove MUST have closed fingertips. Material is matte charcoal grey. Anatomically accurate sensor placement on two distinct sides: ON THE PALM SIDE (Front): Three circular silver FSR sensors located at the center of the palm, the thenar muscle (base of thumb), the tip of the index finger, and the tip of the pinky finger. ON THE UNDERSIDE FOREARM: One rectangular EMG sensor with metallic electrodes. ON THE BACK OF THE HAND (Reverse side): One small square IMU sensor module. All fingers are fully covered by the glove fabric. The design is a professional medical wearable with visible integrated circuit traces connecting the sensors. 4k resolution, industrial design, realistic fabric folds.
Anonymous1768887559
A 3D model of a full-fingered Lycra compression glove extending to the elbow. The glove MUST have closed fingertips. Material is matte charcoal grey. Anatomically accurate sensor placement on two distinct sides: ON THE PALM SIDE (Front): Three circular silver FSR sensors located at the center of the palm, the thenar muscle (base of thumb), the tip of the index finger, and the tip of the pinky finger. ON THE UNDERSIDE FOREARM: One rectangular EMG sensor with metallic electrodes. ON THE BACK OF THE HAND (Reverse side): One small square IMU sensor module. All fingers are fully covered by the glove fabric. The design is a professional medical wearable with visible integrated circuit traces connecting the sensors. 4k resolution, industrial design, realistic fabric folds.
Anonymous1768887559
A high-fidelity 3D medical prototype of a Lycra compression glove, matte navy blue finish, extending from fingertips to the elbow. Embedded components: 1. A rectangular EMG sensor with silver electrodes on the inner forearm near the elbow. 2. A square IMU sensor module on the back of the hand (back of wrist). 3. Four circular silver FSR sensors located at: the center of the palm, the thenar eminence (base of thumb)(between the side of thumb and index), the fingertip of the index finger, and the fingertip of the pinky finger. Sleek industrial design, thin integrated wiring traces visible, high-resolution textures, anatomical accuracy for ALS patient monitoring.
Anonymous1768887559
A high-fidelity 3D medical prototype of a Lycra compression glove, matte black finish, extending from fingertips to the elbow. Embedded components: 1. A rectangular EMG sensor with silver electrodes on the inner forearm. 2. A square IMU sensor module on the back of the hand. 3. Four circular silver FSR sensors located at: the center palm, the thenar eminence (base of thumb), the tip of the index finger, and the tip of the pinky finger. Sleek industrial design, thin integrated wiring traces visible, high-resolution textures, anatomical accuracy for ALS patient monitoring.
Anonymous1768887559
Anonymous1758422909
glove with flex sensors connected to each finger that are connected to MPU6050,ESP32 / Arduino, lithium battery that are all connected together by wires on the backside
Anonymous1768737301
KARDUS BOLONG DI TENGAH, DENGAN TEKTKSTUR YANG SUDAH TUA DAN BAWAHNYA SUDAH TERBUKA
Anonymous1768706872
"highly detailed 3D model of an HC-SR04 ultrasonic distance sensor. Show the green PCB with two black cylindrical transducers (one labeled T, one R), a black 8-pin IC, small electronic components, and a 4-pin male header (VCC, GND, Trig, Echo). White printed labels 'HC-SR04'. Realistic materials, isometric view, on a white background, suitable for 3D printing. Dimensions: 45mm x 20mm."
Anonymous1768642935
"highly detailed 3D model of an HC-SR04 ultrasonic distance sensor. Show the green PCB with two black cylindrical transducers (one labeled T, one R), a black 8-pin IC, small electronic components, and a 4-pin male header (VCC, GND, Trig, Echo). White printed labels 'HC-SR04'. Realistic materials, isometric view, on a white background, suitable for 3D printing. Dimensions: 45mm x 20mm."
Anonymous1768642935
Anonymous1768420272
Anonymous1768420272
Anonymous1765626293
Anonymous1767937940
Anonymous1767937940
Anonymous1752106745
Enter invite code to get credits!