De Niimbot D110 labelprinter is gebaseerd op direct thermische technologie en biedt een printervaring zonder inkt, toner of linten, waardoor het een kosteneffectieve oplossing is in vergelijking met conventionele printers. Dankzij het compacte formaat en lichte gewicht is hij gemakkelijk mee te nemen en past hij in elke broekzak.
Dankzij de Bluetooth-connectiviteit en een ingebouwde batterij van 1500 mAh kun je met deze draadloze miniprinter afdrukken tot op 10 meter afstand, waardoor je de flexibiliteit hebt om onderweg af te drukken, of je nu vanaf je smartphone of tablet afdrukt.
De "Niimbot" app (beschikbaar voor iOS en Android) biedt een verscheidenheid aan gratis sjablonen voor het aanpassen van labels.
Specificaties
Model
D110_M (verbeterde versie 2024)
Materiaal
ABS
Resolutie
203 DPI
Afdruksnelheid
30-60 mm/s
Afdrukbreedte
12-15 mm
Afdruktechnologie
Thermisch
Bedrijfstemperatuur
5°C ~ 45°C
Batterijcapaciteit
1500 mAh
Oplaadinterface
USB-C
Oplaadtijd
2 uur
Verbinding
Bluetooth 4.0
Draadloze afstand
10 m
Afmetingen
98 x 76 x 30 mm
Gewicht
149 g
Inbegrepen
1x Niimbot D110 Labelprinter
1x Etiket rol (12 x 40 mm)
1x USB-kabel
1x Manual
Downloads
iOS App
Android App
NRF24L01 is a universal ISM band monolithic transceiver chip works in the 2.4-2.5 GHz. Features Wireless transceiver including: Frequency generator, enhanced type, SchockBurstTM, mode controller, power amplifier, crystal amplifier, modulator, demodulator The output power channel selection and protocol settings can be set extremely low current consumption, through the SPI interface As the transmit mode, the transmit power is 6 dBm, the current is 9.0 mA, the accepted mode current is 12.3 mA, the current consumption of the power-down mode and standby mode are lower Built-in 2.4 GHz antenna, supports up to six channels of data reception Size: 15 x 29 mm (including antenna)
35 Touch Develop & MicroPython Projects
The BBC micro:bit is a credit sized computer based on a highly popular and high performance ARM processor. The device is designed by a group of 29 partners for use in computer education in the UK and will be given free of charge to every secondary school student in the UK.
The device is based on the Cortex-M0 processor and it measures 4 x 5 cm. It includes several important sensors and modules such as an accelerometer, magnetometer, 25 LEDs, 2 programmable push-button switches, Bluetooth connectivity, micro USB socket, 5 ring type connectors, and a 23-pin edge connector. The device can be powered from its micro USB port by connecting it to a PC, or two external AAA type batteries can be used.
This book is about the use of the BBC micro:bit computer in practical projects. The BBC micro:bit computer can be programmed using several different programming languages, such as Microsoft Block Editor, Microsoft Touch Develop, MicroPython, and JavaScript.
The book makes a brief introduction to the Touch Develop programming language and the MicroPython programming language. It then gives 35 example working and tested projects using these language. Readers who learn to program in Touch Develop and MicroPython should find it very easy to program using the Block Editor or any other languages.
The following are given for each project:
Title of the project
Description of the project
Aim of the project
Touch Develop and MicroPython program listings
Complete program listings are given for each project. In addition, working principles of the projects are described briefly in each section. Readers are encouraged to go through the projects in the order given in the book.
This is another great IIC/I²C/TWI/SPI Serial Interface. As the pin resources of controller is limited, your project may be not able to use normal LCD shield after connected with a certain quantity of sensors or SD card. However, with this I²C interface module, you will be able to realize data display via only 2 wires. If you already has I²C devices in your project, this LCD module actually cost no more resources at all. It is fantastic for based project. I²C Address: 0X20~0X27 (the original address is 0X20,you can change it yourself) The backlight and contrast is adjusted by potentiometer Comes with 2 IIC interface, which can be connected by Dupont Line or IIC dedicated cable I²C Address: 0x27 (I²C Address: 0X20~0X27 (the original address is 0X27,you can change it yourself) Specifications Compatible for 1602 LCD Supply voltage: 5 V Weight: 5 g Size: 5.5 x 2.3 x 1.4 cm
Note: NodeMCU is the name of both a firmware and a boardNodeMCU is an open source IoT platform, whose firmware runs on Espressif's SoC Wi-Fi ESP8266, based on the ESP8266 nonOS SDK. Its hardware is based on the ESP-12 module. The scripting language is Lua which allows to use many open source projects like lua-cjson and spiffs.Features
Wi-Fi Module – ESP-12E module similar to ESP-12 module but with 6 extra GPIOs.
USB – micro USB port for power, programming and debugging
Headers – 2x 2.54 mm 15-pin header with access to GPIOs, SPI, UART, ADC, and power pins
Reset & Flash buttons
Power: 5V via micro USB port
Dimensions: 49 x 24.5 x 13 mm
Features
NFC chip material: PET + Etching antenna
Chip: NTAG216 (compatible with all NFC phones)
Frequency: 13.56 MHz (High Frequency)
Reading time: 1-2 ms
Storage capacity: 888 bytes
Read and write times: > 100,000 times
Reading distance: 0-5 mm
Data retention: > 10 years
NFC chip size: Diameter 30 mm
Non-contact, no friction, the failure rate is small, low maintenance costs
Read rate, verification speed, which can effectively save time and improve efficiency
Waterproof, dustproof, anti-vibration
No power comes with an antenna, embedded encryption control logic, and communication logic circuit
Included
1x NFC Stickers (6-color kit)
De Seeed Studio CANBed – Arduino CAN-BUS Development Kit integreert een ATmega32U4-microcontroller, waardoor een extern Arduino-bord overbodig is. Het combineert een MCP2515 CAN-buscontroller en een MCP2551 CAN-bustransceiver op één bord en biedt zo een compacte en betrouwbare CAN-communicatieoplossing.
Kenmerken
ATmega32U4 met Arduino Leonardo bootloader op het bord
MCP2515 CAN Bus controller en MCP2551 CAN Bus transceiver
OBD-II en CAN standaard pinout selecteerbaar op de sub-D connector
Compatibel met Arduino IDE
Parameter
Waarde
MCU
ATmega32U4 (met Arduino Leonardo bootloader)
Kloksnelheid
16 MHz
Flashgeheugen
32 KB
SRAM
2,5 KB
EEPROM
1 KB
Bedrijfsspanning (CAN-BUS)
9 V - 28 V
Bedrijfsspanning (MicroUSB)
5 V
Invoer Interface
sub-D
Inbegrepen
CANBed PCBA
sub-D connector
4PIN aansluiting
2x 4PIN 2.0 Aansluiting
1x 9x2 2.54-kopje
1x 3x2 2.54-kopje
Ontdek de perfecte behuizing voor jouw Raspberry Pi 5. FLIRC heeft de aan/uit-knop toegankelijk gemaakt en verbeterd met LED ondersteuning. Profiteer van het vertrouwde aluminium koellichaam dat inmiddels zo goed bevalt, genesteld tussen de twee matzwarte soft-touch paneeltjes, die goed bij uw entertainment systeem passen.
Ingebouwde heatsink
Dit is de eerste betaalbare Raspberry Pi behuizing gemaakt van aluminium. Het uitgangspunt voor FLIRC was dat de vorm niet belangrijker was dan de functie, dus gebruikten ze het aluminium van de behuizing meteen ook als koellichaam. Tevens is inbegrepen bij de case een thermisch kussentje, en 4 schroeven voor eenvoudige montage.
Stabiliteit en toegang
De FLIRC heeft rubberen voetjes om de behuizing wat omhoog te brengen, zodat deze bijvoorbeeld onder je tv kan worden geschoven. Naast het ingebouwde koellichaam zorgen kleine ventilatiesleuven aan de onderkant ervoor dat de Raspberry Pi koel blijft. De GPIO-pinnen zijn toegankelijk via de sleuf aan de onderkant van de behuizing, en om de SD-kaart te bereiken hoeft de case niet te worden gedemonteerd.
Aan/uit-knop en LED ondersteuning
De aan/uit-knop van de Raspberry Pi 5 wordt standaard ondersteund door de FLIRC behuizing. Ook de LED’s voor de diverse meldingen zijn duidelijk zichtbaar.
De ESP-01 Adapter 3,3-5 V is de ideale oplossing voor het aansluiten van een ESP-01 ESP8266-module op een 5 V-systeem zoals Arduino Uno.
Kenmerken
Aansluitmodule voor ESP-01 WiFi-module
3,3 V-spanningsregelaarschakeling & niveauomzetting aan boord voor eenvoudig gebruik van 5 V-microcontroller met ESP-01 Wi-Fi-module
Compatibel met Uno R3
4,5~5,5 V (on-board 3,3 V LDO Regulator)
Interface logische spanning: 3,3-5 V compatibel (on-board level shift)
Stroom: 0-240 mA
Deze programmeur is speciaal ontworpen voor het branden van bootloaders (zonder computer) op Arduino-compatibele ATmega328P/ATmega328PB-ontwikkelborden.
Sluit de programmeur eenvoudigweg aan op de ICSP-interface om de bootloader opnieuw te branden. Het is ook compatibel met nieuwe chips, op voorwaarde dat de IC functioneel is.
Opmerking: Als u een bootloader brandt, worden alle eerdere chipgegevens gewist.
Kenmerken
Werkspanning: 3,1-5,3 V
Werkstroom: 10 mA
Compatibel met op Arduino Uno R3 gebaseerde borden (ATmega328P of ATmega328PB)
Afmetingen: 39,6 x 15,5 x 7,8 mm
The slim, hackable and attractive case for Raspberry Pi 5.
Pibow 5 lets you access all the ports and connectors on your Raspberry Pi and even has a clever little tab that will let you push the Pi 5's brand new power button whilst it's safely ensconced in its case. The case is designed to fit neatly around Raspberry Pi's Active Cooler.
Features
Compatible with Raspberry Pi 5 Official Active Cooler
Super-slimline profile
Fully HAT/pHAT compatible
Protects your Raspberry Pi 5
Clear top leaves Raspberry Pi 5 visible (so you can gaze upon its wonder).
GPIO cut-out
Leaves all ports and connectors accessible
External Power Button Nubbin via compliant mechanism magic
Mounting holes on the base that will accommodate M2.5 screws/bolts and the studs on popular Danish ABS construction blocks
Made from lightweight high-quality cast acrylic
Great for hacking and tinkering
Crafted out of five unique layers including a transparent top that leaves your Raspberry Pi visible inside. Each layer is laser-cut from colourful high-quality cast acrylic and once stacked they securely contain a Raspberry Pi 5 while leaving the primary ports and GPIO accessible.
This case is lightweight and ideal for mounting to any surface. No tools are required for assembly or disassembly!
Een gemakkelijke manier om onderdelen tijdens het solderen aan de onderkant van een PCB vast te houden
PartLift houdt onderdelen met doorlopende gaten op hun plaats zodat u uw handen vrij heeft terwijl u de benen soldeert. Een eenvoudig maar nuttig hulpmiddel voor bij uw Stickvise. De basispad is van antislip siliconenschuim, de behuizing van het gereedschap is van ABS, wat zorgt voor een zeer lichte veerspanning om uw onderdeel op zijn plaats te houden. De punt van het gereedschap is gemaakt van siliconen die bestand zijn tegen hoge temperaturen en bestand zijn tegen soldeertemperaturen zonder beschadigd te raken.
Kenmerken
PartLift houdt doorlopende onderdelen op hun plaats tijdens het solderen
Gebruik met een Stickvise of een andere PCB-houder met laag profiel
De punt is van siliconen die bestand is tegen soldeertemperaturen
Het basiskussen is gemaakt van antislip siliconenschuim
Specificaties
Materiaal
Siliconen
Afmetingen
109 x 40 x 40 mm
Gewicht
59 g
Raspberry Pi 5 provides two four-lane MIPI connectors, each of which can support either a camera or a display. These connectors use the same 22-way, 0.5 mm-pitch “mini” FPC format as the Compute Module Development Kit, and require adapter cables to connect to the 15-way, 1 mm-pitch “standard” format connectors on current Raspbery Pi camera and display products.These mini-to-standard adapter cables for cameras and displays (note that a camera cable should not be used with a display, and vice versa) are available in 200 mm, 300 mm and 500 mm lengths.
Specificaties
Dubbele ARM Cortex-M0+ @ 133 MHz
264 kB on-chip SRAM in zes onafhankelijke banken
Ondersteuning tot 16 MB off-chip Flash memory via speciale QSPI bus
DMA-controller
Volledig aangesloten AHB crossbar
Interpolator en integer divider peripherals
On-chip programmeerbare LDO om spanning voor de core te genereren
2x on-chip PLL's om USB en core kloksignalen te genereren
30x GPIO pins, waarvan er 4 als analoge ingangen kunnen worden gebruikt
Randapparatuur
2x UARTs
2x SPI controllers
2x I²C controllers
16x PWM kanalen
USB 1.1 controller en PHY, met host en device support
8x PIO state machines
Wat je krijgt
10x RP2040 ICs
When Raspberry Pi 4's system on chip (SoC) achieves a certain temperature, it lowers its operating speed to protect itself from harm. As a result, you don't get maximum performance from the single board computer. Fan SHIM is an affordable accessory that effectively eliminates thermal throttling and boosts the performance of RPi 4. It's quite easy to attach the fan SHIM to Raspberry pi: fan SHIM uses a friction-fit header, so it just slips onto your Pi's pins and it's ready to go, no soldering required! The fan can be controlled in software, so you can adjust it to your needs, for example, toggle it on when the CPU reaches a certain temperature etc. You can also program the LED as a visual indicator of the fan status. The tactile switch can also be programmed, so you can use it to toggle the fan on or off, or to switch between temperature-triggered or manual mode. Features 30 mm 5 V DC fan 4,200 RPM 0.05 m³/min air flow 18.6 dB acoustic noise (whisper-quiet) Friction-fit header No soldering required RGB LED (APA102) Tactile switch Basic assembly required Compatible with Raspberry Pi 4 (and 3B+, 3A+)
Python library and daemon Pinout Scope of delivery Fan SHIM PCB 30 mm 5 V DC fan with JST connector M2.5 nuts and bolts Assembly The assembly is really simple and almost takes no time With the component side of the PCB facing upwards, push the two M2.5 bolts through the holes from below, then screw on the first pair of nuts to secure them and act as spacers. Push the fan's mounting holes down onto the bolts, with the cable side of the fan downwards (as pictured) and the text on the fan upwards. Attach with another two nuts. Push the fan's JST connector into the socket on Fan SHIM. Software With the help of Python library you can control the fan (on/off), RGB LED, and switch. You'll also find a number of examples that demonstrate each feature, as well as a script to install a daemon (a computer program that runs as a background process) that runs the fan in automatic mode, triggering it on or off when the CPU reaches a threshold temperature, with a manual override via the tactile switch.
Inside the RP2040 is a 'permanent ROM' USB UF2 bootloader. What that means is when you want to program new firmware, you can hold down the BOOTSEL button while plugging it into USB (or pulling down the RUN/Reset pin to ground) and it will appear as a USB disk drive you can drag the firmware onto. Folks who have been using Adafruit products will find this very familiar – Adafruit uses the technique on all thier native-USB boards. Just note you don't double-click reset, instead hold down BOOTSEL during boot to enter the bootloader!The RP2040 is a powerful chip, which has the clock speed of our M4 (SAMD51), and two cores that are equivalent to our M0 (SAMD21). Since it is an M0 chip, it does not have a floating point unit, or DSP hardware support – so if you're doing something with heavy floating-point math, it will be done in software and thus not as fast as an M4. For many other computational tasks, you'll get close-to-M4 speeds!For peripherals, there are two I²C controllers, two SPI controllers, and two UARTs that are multiplexed across the GPIO – check the pinout for what pins can be set to which. There are 16 PWM channels, each pin has a channel it can be set to (ditto on the pinout).Technical Specifications
Measures 2.0 x 0.9 x 0.28' (50.8 x 22.8 x 7 mm) without headers soldered in
Light as a (large?) feather – 5 grams
RP2040 32-bit Cortex M0+ dual core running at ~125 MHz @ 3.3 V logic and power
264 KB RAM
8 MB SPI FLASH chip for storing files and CircuitPython/MicroPython code storage. No EEPROM
Tons of GPIO! 21 x GPIO pins with following capabilities:
Four 12 bit ADCs (one more than Pico)
Two I²C, Two SPI and two UART peripherals, one is labeled for the 'main' interface in standard Feather locations
16 x PWM outputs - for servos, LEDs, etc
The 8 digital 'non-ADC/non-peripheral' GPIO are consecutive for maximum PIO compatibility
Built in 200 mA+ lipoly charger with charging status indicator LED
Pin #13 red LED for general purpose blinking
RGB NeoPixel for full color indication.
On-board STEMMA QT connector that lets you quickly connect any Qwiic, STEMMA QT or Grove I²C devices with no soldering!
Both Reset button and Bootloader select button for quick restarts (no unplugging-replugging to relaunch code)
3.3 V Power/enable pin
Optional SWD debug port can be soldered in for debug access
4 mounting holes
24 MHz crystal for perfect timing.
3.3 V regulator with 500mA peak current output
USB Type C connector lets you access built-in ROM USB bootloader and serial port debugging
RP2040 Chip Features
Dual ARM Cortex-M0+ @ 133 MHz
264 kB on-chip SRAM in six independent banks
Support for up to 16 MB of off-chip Flash memory via dedicated QSPI bus
DMA controller
Fully-connected AHB crossbar
Interpolator and integer divider peripherals
On-chip programmable LDO to generate core voltage
2 on-chip PLLs to generate USB and core clocks
30 GPIO pins, 4 of which can be used as analog inputs
Peripherals
2 UARTs
2 SPI controllers
2 I²C controllers
16 PWM channels
USB 1.1 controller and PHY, with host and device support
8 PIO state machines
Comes fully assembled and tested, with the UF2 USB bootloader. Adafruit also tosses in some header, so you can solder it in and plug it into a solderless breadboard.
De Raspberry Pi Pico 2 H (met headers) is een nieuw microcontrollerbord van de Raspberry Pi Foundation, gebaseerd op de RP2350. Het beschikt over een hogere kloksnelheid, het dubbele van de on-chip SRAM, het dubbele van het ingebouwde flashgeheugen, krachtigere Arm-cores, optionele RISC-V-cores, nieuwe beveiligingsfuncties en verbeterde interfacemogelijkheden. De Raspberry Pi Pico 2 H biedt een aanzienlijke verbetering in prestaties en functies, terwijl de hardware- en softwarecompatibiliteit met eerdere leden van de Raspberry Pi Pico-serie behouden blijft.
De RP2350 biedt een uitgebreide beveiligingsarchitectuur gebouwd rond Arm TrustZone voor Cortex-M. Het bevat ondertekend opstarten, 8 KB antifuse OTP voor sleutelopslag, SHA-256-versnelling, een hardware TRNG en snelle glitch-detectoren.
Dankzij de unieke dual-core en dual-architectuurmogelijkheden van de RP2350 kunnen gebruikers kiezen tussen een paar industriestandaard Arm Cortex-M33-kernen en een paar open-hardware Hazard3 RISC-V-kernen. Programmeerbaar in C/C++ en Python, en ondersteund door gedetailleerde documentatie, is de Raspberry Pi Pico 2 het ideale microcontrollerbord voor zowel liefhebbers als professionele ontwikkelaars.
Specificaties
CPU
Dual Arm Cortex-M33 of dubbele RISC-V Hazard3-processors @ 150 MHz
Geheugen
520 KB SRAM op de chip; 4 MB ingebouwde QSPI-flitser
Interfaces
26 multifunctionele GPIO-pinnen, waaronder 4 die kunnen worden gebruikt voor AD
Randapparatuur
2x UART
2x SPI-controllers
2x I²C-controllers
24x PWM-kanalen
1x USB 1.1-controller en PHY, met host- en apparaatondersteuning
12x PIO-statusmachines
Ingangsvermogen
1,8-5,5 V DC
Afmetingen
21 x 51 mm
Downloads
Datasheet (Pico 2)
Datasheet (RP2350)
Fully updated for Raspberry Pi 5
Raspberry Pi is a small, clever, British-built computer that's packed with potential. Made using a desktop-class, energy-efficient processor, Raspberry Pi is designed to help you learn coding, discover how computers work, and build your own amazing things. This book was written to show you just how easy it is to get started.
Learn how to:
Set up your Raspberry Pi, install its operating system, and start using this fully functional computer.
Start coding projects, with step-by-step guides using the Scratch 3, Python, and MicroPython programming languages.
Experiment with connecting electronic components, and have fun creating amazing projects.
New in the 5th edition:
Updated for the latest Raspberry Pi computers: Raspberry Pi 5 and Raspberry Pi Zero 2 W.
Covers the latest Raspberry Pi OS.
Includes a new chapter on the Raspberry Pi Pico.
Downloads
GitHub
The Robotics Board features 2 Dual H Bridge Motor Driver ICs. These are capable of driving 2 standard motors or 1 stepper motor each, with full forward, reverse, and stop control. There are also 8 servo outputs, capable of driving standard and continuous rotation servos. They can all be controlled by the Pico using the I²C protocol, via a 16 channel driver IC. The IO break out provides connections to all the unused pins on the Pico. The 27 available I/O pins allow other devices, such as sensors or ZIP LEDs, to be added to the board. Power is provided via either a terminal block or servo style connector. The supply is then controlled by an on/off power switch to the board and there is also a green LED to indicate when the board has power. The board then produces a regulated 3.3V supply which is fed into the 3 V and GND connections to power the connected Pico. This removes the need to power the Pico separately. The 3 V and GND pins are also broken out on the header, which means external devices can also be powered. To use the robotics board, the Pico should be firmly inserted into the dual row pin socket on the board. Ensure the Pico is inserted with the USB connector at the same end as the power connectors on the robotics board. This will allow access to all of the board functions and each pin is broken out. Features A compact yet feature-packed board designed to sit at the heart of your Raspberry Pi Pico robotics projects. The board can drive 4 motors (or 2 stepper motors) and 8 servos, with full forward, reverse, and stop control. It also features 27 other I/O expansion points and Power and Ground connections. The I²C communication lines are also broken out allowing other I²C compatible devices to be controlled. This board also features an on/off switch and power status LED. Power the board via either a terminal block or servo style connector. The 3V and GND pins are also broken out on the Link header, allowing external devices to be powered. Code it with MicroPython or via an editor such as the Thonny editor. 1 x Kitronik Compact Robotics Board for Raspberry Pi Pico Dimensions: 68 x 56 x 10 mm Requires Raspberry Pi Pico board
Raspberry Pi Pico Wireless Pack attaches to the back of your Pico and uses an ESP32 chip to let your Pico connect to 2.4 GHz wireless networks and transfer data. There's a microSD card slot for if you want to store lots of data locally as well as a RGB LED (for status updates) and a button (useful for things like enabling/disabling Wi-Fi).Great for quickly adapting an existing Pico project to have wireless functionality, Raspberry Pi Pico Wireless Pack would come in handy for sending sensor data into home automation systems or dashboards, for hosting a web page from a matchbox or for letting your Pico interact with online APIs.Features
ESP32-WROOM-32E module for wireless connectivity (connected via SPI) (datasheet)
1x tactile button
RGB LED
Micro-SD card slot
Pre-soldered female headers for attaching your Raspberry Pi Pico
Fully assembled
No soldering required (as long as your Pico has header pins attached)
Compatible with Raspberry Pi Pico
Dimensions: approx 53 x 25 x 11 mm (L x W x H, including headers and components)
C++ and MicroPython libraries
Gebruik je Raspberry Pi met LTE Cat-4 4G/3G/2G communicatie & GNSS plaatsbepaling, voor data transmissie/telefoon/SMS op afstand, geschikt voor het op afstand bewaken/alarmeren. Deze 4G Hat is gebaseerd op de Maduino Zero 4G LTE, maar zonder controller. Hij moet werken met de Raspberry Pi (2x20 connector en USB). De Raspberry Pi communiceert met deze Hat met behulp van AT commando's (via de TX/RX pinnen in de 2X20 connector) voor eenvoudige besturingen, zoals SMS/Phone/GNSS; met de USB aansluiting en de juiste Linux driver geïnstalleerd, fungeert de 4G hat als een 4G netwerkadapter, die toegang heeft tot het Internet en gegevens kan verzenden met het 4G protocol. Vergeleken met een gewone USB 4G dongle heeft deze Raspberry Pi 4G Hat de volgende voordelen: Onboard audio codec, zodat je rechtstreeks met je RPi kunt bellen, of automatisch met een luidspreker kunt meeluisteren; Hardware UART communicatie, hardware besturing van de stroomvoorziening (door 2s puls van PI GPIO of POWERKEY toets), hardware besturing van de flight mode; Twee antennes voor LTE 4G en een voor GPS Kenmerken LTE Cat-4, met uplink snelheid van 50 Mbps en downlink snelheid 150 Mbps GNSS Positionering Audio Driver NAU8810 Ondersteuning voor dial-up, phone, SMS, TCP, UDP, DTMF, HTTP, FTP, etcetera Ondersteuning voor GPS, BeiDou, Glonass, LBS base station positionering SIM card slot, ondersteuning voor 1.8V/3V SIM card Onboard audio jack en audio decoder voor het maken van een telefoongesprek 2x LED indicatoren, om de bedrijfstatus eenvouding te volgen Supports SIM application toolkit: SAT Class 3, GSM 11.14 Release 99, USAT Inbegrepen 1x 4G LTE Hat voor Raspberry Pi 1x GPS antenne 2x 4G LTE antenne 2x Afstandbussen Downloads GitHub
Een verbeterde kakenset die bestand is tegen direct contact met een soldeerbout
Stickvise PTFE-klemkaken voor hoge temperaturen zijn bestand tegen onbedoeld contact met een soldeerbout en smelten niet. Dit is een geweldige upgrade voor je Stickvise.
Kenmerken
Gemaakt van PTFE met extreem hoog smeltpunt
Bestand tegen incidenteel contact met een soldeerbout
Dit zijn alleen de kaakplaten, er zit geen Stickvise bij
Specificaties
Materiaal
Aluminium
Afmetingen
73 x 53 x 3 mm
Gewicht
21 g
The ESP32-WROOM-32, measuring 25.2 x 18 mm only, contains the ESP32 SoC, flash memory, precision discrete components, and PCB antenna to provide outstanding RF performance in space-constrained applications.
ESP32-WROOM-32 is a powerful, generic Wi-Fi + BT + BLE MCU module that targets a wide variety of applications, ranging from low-power sensor networks to the most demanding tasks, such as voice encoding, music streaming and MP3 decoding.
At the core of this module is the ESP32-D0WDQ6 chip. The chip embedded is designed to be scalable and adaptive. There are two CPU cores that can be individually controlled, and the clock frequency is adjustable from 80 MHz to 240 MHz. The user may also power off the CPU and make use of the low-power co-processor to monitor the peripherals for changes or crossing of thresholds constantly. ESP32 integrates a rich set of peripherals, ranging from capacitive touch sensors, Hall sensors, SD card interface, Ethernet, high-speed SPI, UART, I²S and I²C.
The integration of Bluetooth, Bluetooth LE and Wi-Fi ensures that a wide range of applications can be targeted and that the module is future proof. Using Wi-Fi allows a vast physical range and direct connection to the internet through a Wi-Fi router while using Bluetooth allows the user to conveniently connect to the phone or broadcast low energy beacons for its detection.
The sleep current of the ESP32 chip is less than 5 µA, making it suitable for battery powered and wearable electronics applications. ESP32 supports a data rate of up to 150 Mbps, and 20.5 dBm output power at the antenna to ensure the broadest physical range. As such the chip does offer industry-leading specifications and the best performance for electronic integration, range, power consumption, and connectivity.
Downloads
Datasheet
