Description
• Hokuyo's URG-04LX-UG01 detectable range is 20mm to 5600mm
• 100msec/scan
• 5V operating voltage
• 240° area scanning range with 0.36° angular resolution
Description
• Hokuyo's URG-04LX detectable range is 20mm to 4000mm
• 100msec/scan
• 5V operating voltage
• 240° area scanning range with 0.36° angular resolution
• USB and Serial (RS-232) interfaces for maximum flexibility
Description
• Hokuyo's UBG-04LX-F01 detectable range is 20mm to 5600mm
• 28msec/scan
• 12V operating voltage
• 240° area scanning range with 0.36° angular resolution
• USB and Serial (RS-232) interfaces for maximum flexibility
این ماژول یکی از ماژول ها حرفه ای IMUبوده که از سنسورهای بسیاری ازجمله: جایروسکوپ، شتاب سنج، دماسنج، قطب نمای سه محوره و فشارسنج تشکیل شده است.
این ماژول یک برد کوچک است که تمامی سنسورهای مورد نیاز برای ۱۰ درجه آزادی روی آن قرار گرفته است. ارتباط این ماژول با میکروکنترل ها از طریق رابط i2c برقرار می شود، از این ماژول می توانید در پروژه های مختلفی از جمله ربات های پروازی و... استفاده کنید.
The 9DOF Sensor board is a very small sensor board with 9 degrees of freedom. It includes the ADXL345 accelerometer, the HMC5883L magnetometer, and the ITG-3205 gyro.
Description: Need to put your finger on the pulse of the Earth? Did I just blow your mind? A geophone works by translating ground movement into voltage, which can easily be read by a microcontroller. The SM-24 geophone element is designed to offer the highest performance in seismic exploration based upon field-proven I/O Sensor technology. Low distortion, combined with excellent specifications, provide high-fidelity data. Basically, it’s a super low frequency microphone for the ground.
Description: This is a force sensitive resistor with a round, 0.5" diameter, sensing area. This FSR will vary its resistance depending on how much pressure is being applied to the sensing area. The harder the force, the lower the resistance. When no pressure is being applied to the FSR its resistance will be larger than 1MΩ. This FSR can sense applied force anywhere in the range of 100g-10kg.
Description: This is a force sensitive resistor with a square, 1.75x1.5", sensing area. This FSR will vary its resistance depending on how much pressure is being applied to the sensing area. The harder the force, the lower the resistance. When no pressure is being applied to the FSR its resistance will be larger than 1MΩ. This FSR can sense applied force anywhere in the range of 100g-10kg.
Description: This very long force sensitive resistor - over 2 feet - has a sensing area of 0.25x24". This FSR from Interlink Electronics will vary its resistance depending on how much pressure is being applied to the sensing area. The harder the force, the lower the resistance. When no pressure is being applied to the FSR its resistance will be larger than 1MΩ. This FSR can sense applied force anywhere in the range of 100g-10kg.
Description: The FLiR Dev Kit includes a breakout as well as a Lepton® longwave infrared (LWIR) imager. With this kit you will be able to bring FLiR’s thermal imaging reliability and power to your Arduino, Raspberry Pi, or any ARM based development tool all in an easy to access breadboard friendly package. All you need to do to get this kit set up, simply attach the Lepton® imager module into the provided breakout, connect the headers, and you will be seeing in full darkness in no time!
Description: This is a piezoresistive force sensor from Tekscan. The harder you press, the lower the sensor’s resistance. Pressing hard, the resistance changes from infinite to ~300k. The sensor itself is thin and flexible, but the resistance does not change while being flexed. Resistance changes only when pressure is applied to the round area at the end of the sensor. Used as a presence sensor (someone standing), weight sensor, pressure sensor (impact testing), etc.
Description: This is a piezoresistive force sensor from Tekscan. The harder you press, the lower the sensor’s resistance. Pressing lightly, the resistance changes from infinite to ~300k. The sensor itself is thin and flexible, but the resistance does not change while being flexed. Resistance changes only when pressure is applied to the round area at the end of the sensor. Used as a presence sensor (someone standing), weight sensor, pressure sensor (impact testing), etc.
Description: This is a piezoresistive force sensor from Tekscan. The harder you press, the lower the sensor’s resistance. Pressing hard, the resistance changes from infinite to ~300k. The sensor itself is thin and flexible, but the resistance does not change while being flexed. Resistance changes only when pressure is applied to the round area at the end of the sensor. Used as a presence sensor (someone standing), weight sensor, pressure sensor (impact testing), etc.
Description: A simple flex sensor 4.5" in length. As the sensor is flexed, the resistance across the sensor increases. Patented technology by Spectra Symbol - they claim these sensors were used in the original Nintendo Power Glove. I love the Nintendo Power Glove. It’s so bad!
Description: A simple flex sensor 2.2" in length. As the sensor is flexed, the resistance across the sensor increases. Patented technology by Spectra Symbol - they claim these sensors were used in the original Nintendo Power Glove. I love the Nintendo Power Glove. It’s so bad!
Description
• Compatible with mainstream 2.54 and 4-pin grove interfaces
• Switch to shift between analog and digital output
• Working voltage: 3.3 or 5V DC
• Hysteresis comparator circuit
This is a digital tilt switch. It can be used as a simple tilt sensor. Simple plug to our IO/Sensor Expansion board, you can make amazing interactive projects.
The DFRobot Vibration Sensor buffers a piezoelectric transducer that responds to strain changes by generating a measurable output voltage change which is propotional with the strength of vibration.So you can know the extent of vibration. Different from digital vibration sensor that only accounts times, this analog one can tell extent of vabiration.
Description
• Relative humidity and temperature measurement
• All calibration, digital output
• Excellent long-term stability
• Completely interchangeable
سنسور CSNE151-100 که درواقع یک سنسور جریان حلقه بسته می باشد بر اساس اصل اثر هال (Hall Effect) و متد فلو مغناطیسی صفر (سیستم فیدبک) عمل می نماید. به این معنا که فلو مغناطیسی همواره در مرکز سنسور در سطح صفر حفظ می گردد. به زبان ساده تر عملکرد سنسور اینگونه است که جریان اصلی از سیم پیچ اولیه عبور کرده و نسبتی از این جریان که متناسب با تعداد دور سیم پیچ ثانویه است در خروجی سنسور ظاهر میگردد. حال از این جریان ایجاد شده جهت بالانس کردن هسته سنسور استفاده شده و در واقع بدین ترتیب یک حلقه بسته تشکیل میگردد. این جریان حلقه بسته می تواند در خروجی سنسور توسط یک مقاومت به ولتاژ تبدیل شده و توسط یک پردازنده اندازه گیری شود.
