To coincide with the launch of Raspberry Pi 4, Raspberry Pi Press has created a new edition of The Official Raspberry Pi Beginner’s Guide book — as if this week wasn’t exciting enough! Weighing in at 252 pages, the book is even bigger than before, and it’s fully updated for Raspberry Pi 4 and the latest version of the Raspbian operating system, Buster.
The long awaited BME680 from Bosch gives you all the environmental sensing you want in one small package. This little sensor contains temperature, humidity, barometric pressure, and VOC gas sensing capabilities. All over SPI or I2C at a great price!
Like the BME280 & BMP280, this precision sensor from Bosch can measure humidity with ±3% accuracy, barometric pressure with ±1 hPa absolute accuracy, and temperature with ±1.0°C accuracy. Because pressure changes with altitude, and the pressure measurements are so good, you can also use it as an altimeter with ±1 meter or better accuracy!
The BME680 takes those sensors to the next step in that it contains a small MOX sensor. The heated metal oxide changes resistance based on the volatile organic compounds (VOC) in the air, so it can be used to detect gasses & alcohols such as Ethanol, Alcohol and Carbon Monoxide, and perform air quality measurements. Note it will give you one resistance value, with overall VOC content, but it cannot differentiate gasses or alcohols.
Please note this sensor, like all VOC/gas sensors, has variability and to get precise measurements you will want to calibrate it against known sources! That said, for general environmental sensors, it will give you a good idea of trends and comparisons. We recommend that you run this sensor for 48 hours when you first receive it to "burn it in", and then 30 minutes in the desired mode every time the sensor is in use. This is because the sensitivity levels of the sensor will change during early use, and the resistance will slowly rise over time as the MOX warms up to its baseline reading.
For your convenience we've pick-and-placed the sensor on a PCB with a 3.3V regulator and some level shifting, so it can be easily used with your favorite 3.3V or 5V microcontroller.
Datasheet Library Sample Code
Output: red dot (650 nm).
Size: Φ 12.0x35mm.
line length: about 135mm.
Net weight: 13.5g.
Voltage: 3.0 v-5 v.
Current: 40 mA (maximum).
Purpose: industrial positioning.
It can be used to aim for positioning
Can be used for laser test instruments
Can be used for concentricity positioning
Can be used for positioning medical equipment
Can be used for signal equipment production
Metal alloy mechanical arm with 6 Degree Of Freedom. The kit is delivered in a simple carton. The subassemblies are packaged in separate bags. The structural elements of the robotic arm are made by stamping aluminum plate. To give a better appearance and deburr the edges, the pieces are sandblasted. Black anodising (visible on the assembly instructions) has been abandoned. Positive point of this kit, we find very easily spare parts. Most structural elements, servo motors MG996R, flanged base, clamp (or claw) are standard elements that are found very often our store.
This kit with 4x MG996R Servo Motors, and 2x DS3115MG Servo Motors
NOTE: Use DS3115MG Motors for high load sections on the Robot Arm.
Specifications of DS3215 (15kg-cm Large Torque Digital Servo):
Stall Torque (5V): 19 kg/cm (263.8oz/in)
Stall Torque (6.8V): 21.5 kg/cm (298.5 oz/in)
Speed : 0.16 sec/60°(5V) / 0.14 sec/60°(6.8V)
Operating Voltage: 4.8 ~ 6.8 DC Volts
Dead band: 3μs
Weight: 60 g (2.12 oz)
Motor Type: DC Motor
Gear Type: Copper & Aluminum
Working frequence: 1520μs / 333hz
Size: 40 x 20 x 40.5 mm ( 1.58 x 0.79 x 1.60 in)
Specifications of MG996R:
Dimension : 40mm x 19mm x 43mm
Net weight: 69g
Operating Speed : 0.17sec / 60 degrees (4.8V no load)
Operating Speed : 0.13sec / 60 degrees (6.0V no load)
Stall Torque : 13 kg-cm (180.5 oz-in) at 4.8V
Stall Torque : 15 kg-cm (208.3 oz-in) at 6V
Operation Voltage : 4.8 - 7.2Volts
Gear Type: All Metal Gears
A carefully designed mobile power supply for your Arduino / Raspberry Pi projects. The mobile power is stacked on the for Arduino board and powered via the 5V/GND pin. We also provide a USB-A output interface that you can use to connect to other devices using a USB cable.
The charging interface is micro USB, and any standard Micro USB charger can be used to charge the module.
Lithium Battery Model: 16340Charging current: 500mADischarge current: 1000mAFeature:1. Adapter 16340 lithium battery2. 5V and 3.3V dual output3. Built-in lithium battery protection IC with overcurrent, overvoltage, undervoltage and short circuit protection4. Built-in battery anti-reverse protection5. The toggle switch can freely turn the output
Charging interface: Micro USB (Android port)Charging voltage: 4.5V -5.5VCharging current: 580mA maxOutput interface: 2.5mm header and standard USB socket5V output current: 1.3A max3.3V output current: 1.0A maxCharging indicator: red light during charging, full green lightProduct size: 60mm * 28mm * 16mm(L * W * H)
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