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4tronix Picon Zero v1.3 - Intelligent Robotics Controller for Raspberry Pi
The Picon Zero is an add-on for the Raspberry Pi. It has the same size as a Raspberry Pi Zero, making it ideal to function as a pHat. Of course, it can be used on any other Raspberry Pi via a 40-pin GPIO connector.As well as two full H-Bridge motor drivers, the Picon Zero has several Input/Output pins giving you multiple configuration options. That allows you to easily add outputs or analog inputs to your Raspberry Pi without any complicated software or kernel-specific drivers. At the same time, it opens up 5 GPIO pins from the Raspberry Pi, and it provides the interface for an HC-SR04 ultrasonic distance sensor.The Picon Zero comes with all components, including the headers and screw terminals, fully soldered. Soldering isn't required. You can use it right out of the box.Features pHat format PCB: 65 mm x 30 mm Two full H-Bridge motor drivers. Drive up to 1.5 A continuously per channel, at 3 V - 11 V. Each motor output has both a 2-pin male header and a 2-pin screw terminal. The motors can be powered from the Picon Zero's 5 V or an external power source (3 V - 11 V). The Picon Zero's 5 V can be selected to be from the Raspberry Pi's 5 V line, or a USB connector on the Picon Zero. That means that you can effectively have 2 USB battery banks: one to power the servos and motors on the Picon Zero and the other to power the Pi. 4 Inputs that can accept up to 5 V. These inputs can be configured as follows: Digital inputs Analog inputs DS18B20 DHT11 6 Outputs that can drive 5 V and be configured as: Digital Output PWM Output Servo NeoPixel WS2812 All Inputs and Outputs use GVS 3-pin male headers. 4-pin female header that connects directly to an HC-SR04 ultrasonic distance sensor. 8-pin female header for Ground, 3.3 V, 5 V, and 5 GPIO signals allowing you to add their additional features. Hardware ConfigurationPicon Zero has two jumpers for setting the hardware configuration. Ensure that you have placed them in the correct position. JP1 – Board 5 V Selector. This jumper selects where to get the 5 V power from for the Picon Zero Outputs. The options are: Jumper at the top between RPI and 5 V. The 5 V power for the board is taken from the Raspberry Pi pins on the GPIO connector. Because of the low power output devices and the 5 V motors, all devices can be powered with a single 5 V power input. Jumper at the bottom between USB and 5 V. The 5 V power is taken from the microUSB connector on the Picon Zero. Useful for higher power output devices, since you can provide extra power through the micro-USB connector on the board JP2 – Motor Power Selector. This jumper selects where the motors get the power. The two options here are the following: Jumper at the top between MotorPower and Vin. The motors are driven via the 2-pin screw terminal. The voltage can be between 3 V and 11 V. Useful for motors that require a voltage different from 5 V, or that require more current than is available on either of the USB input connectors Jumper at the bottom between 5 V and MotorPower. The motors are driven from the board's 5 V. Raspberry Pi ConfigurationThe Picon Zero is an I²C device. Make sure your Raspberry Pi is set up correctly to use I²C and SMBus: sudo apt-get install python-smbus python3-smbus python-dev python3-dev sudo nano /boot/config.txt Add the following lines at the end of the file dtparam=i2c1=on dtparam=i2c_arm=on Press Ctrl-X and use the default prompts to save sudo reboot Plugin the Picon Zero onto the Pi and run i2cdetect -y 1If everything goes well, you will see the Picon Zero showing up as address 22 as shown below:
$21.00$16.00
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Sequent Microsystems Smart Fan HAT for Raspberry Pi
Raspberry Pi 4 was welcomed by the Pi enthusiasts for the increased processing power. However, this came at a price. The RPi 4 can draw up to 3 Amps, which means it has to dissipate 15 W of power. Raspberry Pi cooling is a must. From the simplest passive heat sink, through elaborate fan blowers and even to an exotic water-cooled idea, many options are available.The Smart Fan has the form factor of the Raspberry Pi HAT. Its own tinny 32-bit processor receives commands from Raspberry Pi through the I²C interface. A step-up power supply converts the 5 V provided by Raspberry Pi to 12 V, ensuring precise speed control. Using pulse width modulation, it powers the fan just enough to maintain a constant temperature of the Raspberry Pi processor.The Smart Fan preserves all the GPIO pins, allowing any number of cards to be stacked on top of Raspberry Pi. If another add-on card has to dissipate power, a secondary Smart Fan can be added to the stack.DIN-Rail MountingTogether with multiple add-on cards, the Smart Fan can be installed on the DIN-Rail, for sturdy industrial applications.Stack Level JumperTwo Smart Fans can be installed on top of each Raspberry Pi. The assumption is that you have one more card in the stack which requires cooling. The bottom side of the Smart Fan has a jumper which needs to be installed on the second fan, in order for the Raspberry Pi to differentiate the two I²C addresses.Features 40 x 40 x 10 mm fan with 6 CFM airflow Step-up 12 V power supply for precise fan speed control PWM Controller modulates the fan to keep constant Pi temperature Draws less than 100 mA of power Stackable to itself, 2 fans can be added to Raspberry Pi Fully stackable allows adding other cards to Raspberry Pi Uses only I²C interface, leaves full use of all GPIO pins Super quiet and efficient Included Smart Han HAT 40 x 40 x 10 mm Fan with mounting Screws Mounting Hardware Downloads User's Guide Open Source Hardware Schematic 2D CAD Drawing Command line Python Libraries Node-Red Nodes
$28.00
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FNIRSI FNIRSI HS-01 Smart Soldering Iron (incl. 6 Soldering Tips)
The perfect tool for quick repairs The HS-01 is a powerful, adjustable smart soldering iron with a built-in 0.87-inch OLED display that quickly reaches temperatures between 80-420°C (180-780°F). The display shows all important information, including the status of the temperature level, the set temperature, the supply voltage and the power percentage. You can set the input voltage from 9-20 V directly in the menu according to your needs. The integrated sleep mode automatically turns off the iron after 30 minutes. Features 96 W input (DC) 65 W PD power OLED display Constant temperature & fast heating CNC metal integral molding Smart safety anti-scald Mini pocket size Ergonomic design Aluminum material Left/right hand switch Efficient heat radiation Inductive sleep Color: Black Specifications Power 65 W Screen 0.87" OLED Operating voltage 9-20 VDC Power supply USB-C Temperature range 80-420°C (180-780°F) Fast charging protocol PD trigger Dimensions 184 x 20 x 20 mm (7.24 x 0.79 x 0.79") Weight 56 g Power Selection Operating voltage 20 V 15 V 12 V 9 V Operating current ≥3.25 A ≥2.5 A ≥2 A ≥1.5 A Power 65 W 37.5 W 24 W 13.5 W Tin melting time 8s 12s 17s 30s Included 1x FNRISI HS-01 smart soldering iron 6x Soldering iron tips (HS01-BC2, HS01-KR, HS01-K65, HS01-B2, HS01-ILS, HS01-BC3) 1x DC to USB-C power cable 1x Mini soldering iron stand 1x Manual Required Power adapter USB-C cable Downloads User Manual
$83.00
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Elektor Digital The State of Hollow State Audio (E-book)
The State of Hollow State Audio in the Second Decade of the 21st Century Vacuum-tube (or valve, depending upon which side of the pond you live on) technology spawned the Age of Electronics early in the 20th Century. Until the advent of solid-state electronics near mid-century, hollow-state devices were the only choice. But following the invention of the transistor (after their process fell to reasonable levels), within a couple of decades, the death of vacuum tubes was widely heralded. Yet here we are some five decades later, and hollow-state equipment is enjoying something of a comeback, especially in the music and high-end audio industries. Many issues surround hollow-state audio: Does it produce—as some claim—better sound? If so, is there science to back up these claims? How do hollow-state circuits work? How do you design hollow-state audio circuits? If hollow-state equipment fails, how do you go about troubleshooting and repairing it? Can we recreate some of the classic hollow-state audio devices for modern listening rooms and recording studios? How can we intelligently modify hollow-state amplifiers to our taste? These and other topics are covered in The State of Hollow State Audio.
$34.00
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Peak Peak Atlas DCA75 Pro Advanced Semiconductor Analyser
The DCA75 Pro is a great instrument that combines ease-of-use with amazing features. It can automatically identify a huge range of semiconductors, automatically identify pinouts and measure detailed parameters. Features Built-in graphics display (now backlit) to show detailed schematic of the component you're testing as well as pinout and measurement data. USB connectivity to allow curve tracing, data storage/retrieval and device matching on your Windows PC (Windows 7 and higher). Single internal AAA alkaline cell for standalone operation. Component Support Bipolar transistors (NPN/PNP inc Silicon/Germanium) Darlington transistors (NPN/PNP) Enhancement mode MOSFETs (N-Ch and P-Ch) Depletion mode MOSFETs (N-Ch and P-Ch) Junction FETs (N-Ch and P-Ch). Both symmetrical and asymmetrical types Enhancement IGBTs (N-Ch and P-Ch) Diodes and diode networks (2 and 3 lead types) Zener diodes (up to about 9 V) Voltage regulators (up to about 8 V) LEDs and bi-colour LEDs (2 lead and 3 lead types) Low power sensitive Triacs and Thyristors (<10 mA trigger and hold) Measurements BJT current gain (hFE) BJT base emitter voltage (Vbe) BJT collector leakage current MOSFET on and off gate threshold voltages MOSFET transconductance JFET pinch-off voltage JFET transconductance JFET IDSS (drain current for Vgs=0) IGBT on and off gate threshold voltages IGBT transconductance Voltage regulator output voltage Voltage regulator quiescent current consumption Voltage regulator drop-out voltage Zener voltage Diode forward voltage drop Specifications Analyser type Semiconductor components Component detection Automatic Pinout detection Automatic, connect any way round Display type Graphic LCD (now backlit) Interface type USB for optional PC connection PC functions Curve tracing (Windows 7 and higher) Software Included on USB drive for Windows 7 and higher Battery Single AAA cell (supplied) Included DCA75 Semiconductor Component Analyser PC software on a USB Flash Drive for Windows 11, 10, 8, 7, XP Micro USB cable Fitted universal premium hook probes AAA Alkaline battery Downloads Datasheet (EN) User Guide (EN) User Guide (FR) User Guide (DE) User Guide (IT) Software Installation Guide (EN) Software and Firmware Package
$189.00
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Ulanzi TC001 ESP32-based Smart Pixel Clock
Ulanzi TC001 is an LED pixel clock consisting of 256 individual addressable RGB LEDs (8x32) with built-in battery, buzzer, light, temperature and humidity sensor. The integrated rechargeable battery offers a runtime of up to 5 hours. The WiFi connection to the clock is made via an ESP32 chip. Ulanzi TC001 uses an ESP32-WROOM-32D module. Features Pixelated message display Simultaneous Display of the Number of Followers: Fan growth is immediately visible, suitable for YouTube, Bilibili, and Weibo. Pomodoro Clock Design: Manage your own time more scientifically. Explore unlimited possibilities: Multiple programs need to be installed through the control server to achieve more functions. Awtrix Makes it Better: Awtrix simulator in TC001’s firmware simulates an Awtrix matrix and allows you to control the clock using a standard Awtrix host. Hi-tech and stunning appearance: Modeling simple atmosphere, LED full-color pixel screen with better imaging. Built-in 4400 mAh battery with up to 5 hours of battery life. Specifications Number of LEDs: 256 (8x32) Operating voltage: 3.7 V Power: 3 W Battery capacity: 4400 mAh Interface: USB-C Dimensions: 200.6 x 70.3 x 31.9 mm Weight: 283 g Inbegrepen Ulanzi TC001 Smart Pixel Clock USB cable Manual Downloads Firmware
$100.00
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Creality Creality HALOT-ONE CL-60 Resin 3D Printer
Features NEW Light Source Structure120W Power Super spotlight. The self-developed integral light source, Precision light control High agility slicing, Creality New Slicing SystemA Simplified user interface and Easy Modeling function, and supports the parameter customizedHigh-stability Z-axis for high-quality printing. WIFI-APP intelligent control. Supports Creality Cloud. OTA online upgradeNew Firmware/new system. One-click upgrade. Get better experience in firmware upgrade Smart Operation System Linux64-bit 4-core CPU+GPU Mainboard supports the faster operation and greatly improves printing efficiency. Great Operation ExperienceLinux System For a better AI Experience, a 5-inch high definition colorful touch screen keep easy works. Specifications Build Size 127 x 80 x 160 mm XY Axis Resolution 1620 x 2560 Print Speed 1-4s/layer Layer Thickness L0.01-0.2 mm Touch Screen 5 inch touch screen Light Source Type Integral Light Source (wavelength 405 nm) Rated Voltage 100-240 VAC 50/60Hz Print Method USB Disk, Creality Cloud, HALOT BOX WiFi Machine Language 14 languages (English, French, German, Spanish, Portuguese, Japanese, Korean, Turkish, Italian, Russian, Dutch, Polish, Simplified Chinese, Traditional Chinese) Compatible Resin Common rigid photosensitive, Standard resin, High hardness, High toughness, Dental model resin Gross Weight 8.8 kg Package Size 295 x 295 x 545 mm Net Weight 7.1 kg Rated Power 100 W Machine Size 221 x 221 x 404 mm Downloads Manual & Firmware
$309.00$254.00
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Creality Creality HALOT-LITE CL-89L Resin 3D Printer
Integral Light Source, High Precision and Uniformity The self-developed integral light source adopts the reflection & refraction to make the light intensity distribution of the whole screen uniform, and each dimension of the model with consistent accuracy. Integral Light Source vs Matrix Light Source Integral light source: It is composed of 12 lamp beads, and each lamp bead e is composed of 4 light-emitting chips, the uniformity of light source energy can reach more than 80%. When the individual lamp beads are attenuated, the uniformity of the printed model e is not affected. Ordinary light source: It consists of many ultraviolet lamp beads evenly arranged in a row. The light intensity of the lamp bead splicing area is uneven, and the lamp bead damage has a greater impact on the uniformity of the printed model. Wi-Fi/APP Remote Control Creality Cloud APP for monitor printing progress, adjust the printing settings, Start/Stop prints. Built-in Wi-Fi allows one-click upgrades to the firmware. Double Heat Dissipation, Efficient Purification Specially designed dual heat dissipation system, precise and intelligent control to detect the heat source, and quickly evaporate heat. Activated carbon air filtration system to reduce odor emission and optimize printing experience. Specifications LCD pixel 3840 x 2400 LCD screen 8.9' monochrome Light source Integral Light Source Printing size 192 x 120 x 200 mm XY-axis precision 0.05 mm Printing speed 1-4s/layer Layer thickness 0.01-0.2 mm Interaction screen 5' color touch screen Material 405 nm UV Resin Auto-leveling Easy manual leveling Input power 100-240 V Machine size 330 x 301 x 572 mm Machine weight 10.6 kg
$719.00$608.00
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Elecrow CrowVi 13.3" IPS HD Touch Display (1920x1080)
Nowadays, more and smarter phones and laptops adopt USB-C ports for its powerful function that can transmit power, data, and video information. USB-C solution can also make the device much thinner compared to the Thunderbolt 3 or HDMI-compatible port. That’s why we the CrowVi portable USB-C monitor was created. The super thin CrowVi 13.3" monitor has 2 USB-C ports, one is for power delivery, and the other is for data transmission of video and touch screen commands. The screen also can be connected through the mini HDMI-compatible port. The resolution of CrowVi is 1920x1080, which will provide a better experience for gaming and watching movies. Features CrowVi shell is made of aluminum alloy, its thickness is as thin as 5 mm, and the screen border is as narrow as 6 mm. The whole monitor looks exquisite and elegant. CrowVi can not only act as the dual monitor for smartphones, and laptops but also as the single monitor for gaming devices and some computer mainframes like Mac mini, Raspberry Pi, etc. CrowVi brings you a much larger view compared to the phone. It enables better experiences for gaming and watching movies. Specifications Screen 13.3" TFT IPS LCD Screen Size 294.5 x 164 mm Thickness 5-10 mm Resolution 1920 x 1080 Brightness 300 nits Refresh Rate 60 Hz Color Gamut 16.7M, NTSC 72%, sRGB up to 100% Contrast 800:1 Backlight LED Viewing Angle 178° Aspect Ratio 16:9 Speaker Dual speakers 8 Ω, 2 W Shell Aluminum alloy Input Mini-HD, Type-C, PD Output 3.5 mm headphone jack Power PD 5-20 V or USB-C 3.0 Operating Temperature 0-50°C Dimensions 313 x 198 x 10 mm Weight (Smart Case) 350 g Weight (Monitor) 700 g Included 13.3-inch Touch screen monitor Smart case USB-C to USB-C cable (1 m) USB-A to USB-C power cable (1 m) HDMI to mini-HDMI cable (1 m) Power adapter (5 V/2 A) HDMI to mini-HDMI adapter Dust cloth User manual Downloads User manual
$222.00
Members $199.80
Arduino Arduino Nano RP2040 Connect with Headers
The Arduino Nano RP2040 Connect is an RP2040-based Arduino board equipped with Wi-Fi (802.11b/g/n) and Bluetooth 4.2. Besides wireless connectivity the board comes with a microphone for sound and voice activation and a six-axis smart motion sensor with AI capabilities. An RGB LED is available too. 22 GPIO ports (20 with PWM support and eight analogue inputs) let the user control e.g. relays, motors and LEDs and read switches and other sensors. Program memory is plentiful with 16 MB of flash memory, more than enough room for storing many webpages or other data. Technical Specifications Microcontroller Raspberry Pi RP2040 USB connector Micro USB Pins Built-in LED pins 13 Digital I/O pins 20 Analog Input pins 8 PWM pins 20 (Except A6, A7) External interrupts 20 (Except A6, A7) Connectivity Wi-Fi Nina W102 uBlox module Bluetooth Nina W102 uBlox module Secure element ATECC608A-MAHDA-T Crypto IC Sensors IMU LSM6DSOXTR (6-axis) Microphone MP34DT05 Communication UART Yes I²C Yes SPI Yes Power Circuit operating voltage 3.3 V Input Voltage (VIN) 5-21 V DC Current per I/O pin 4 mA Clock speed Processor 133 MHz Memory AT25SF128A-MHB-T 16 MB Flash IC Nina W102 uBlox module 448 KB ROM, 520 KB SRAM, 16 MB Flash Dimensions 45 x 18 mm Weight 6 g Downloads Schematics Pinout Datasheet
$34.00
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The State of Hollow State Audio
Vacuum-tube (or valve, depending upon which side of the pond you live on) technology spawned the Age of Electronics early in the 20th Century. Until the advent of solid-state electronics near mid-century, hollow-state devices were the only choice. But following the invention of the transistor (after their process fell to reasonable levels), within a couple of decades, the death of vacuum tubes was widely heralded. Yet here we are some five decades later, and hollow-state equipment is enjoying something of a comeback, especially in the music and high-end audio industries.Many issues surround hollow-state audio: Does it produce—as some claim—better sound? If so, is there science to back up these claims? How do hollow-state circuits work? How do you design hollow-state audio circuits? If hollow-state equipment fails, how do you go about troubleshooting and repairing it? Can we recreate some of the classic hollow-state audio devices for modern listening rooms and recording studios? How can we intelligently modify hollow-state amplifiers to our taste? These and other topics are covered in The State of Hollow State Audio.
$39.00$17.00
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, by Jean-François Simon Fnirsi HS-01 Smart Soldering Iron (Review)
Get to know the Fnirsi HS-01, a soldering iron designed for versatility. The adjustable soldering iron features a built-in 0.87-inch OLED display that quickly reaches...