This fiberglass outdoor antenna is optimized for receiving signals in the 868 MHz ISM band, supporting technologies such as Sigfox, LoRa, Mesh Networks, and Helium. The antenna consists of a half-wave dipole with 4.4 dBi gain, encapsulated inside a fiberglass radome with an aluminum mounting base. Specifications Frequency 868-870 MHz Antenna type Dipole 1/2 wave Connector N female Installation type Mast Diam 35-60 mm (mounting bracket included) Gain 4.4 dBi SWR ≤1.5 Type of Polarization Vertical Maximum power 10 W Impedance 50 Ohms Dimensions 52.5 cm Tube diameter 26 mm Base antenna 32 mm Operating temperature −30°C to +60°C Included ISM Band Antenna (868 Mhz) Mast bracket (for installation on a 35 to 60 mm diameter mast)

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This ultrasonic distance sensor (ME007-ULA V1) offers high performance with a robust, waterproof probe. Operating on the principle of ultrasonic echo ranging, the sensor determines the distance to a target by measuring the time elapsed between sending a pulse and receiving the echo. Its non-contact design allows it to detect a wide range of materials, including transparent or non-ferrous objects, metals, non-metals, liquids, solids, and powders. Specifications Detecting Distance 27~800 cm Output Interface RS232, Voltage Analog Operating Voltage 5-12 V Average Current <10 mA Operating Temperature −15~60°C Dimensions 60 x 43 x 31 mm

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The FNIRSI 2C53P is a powerful 2-channel oscilloscope with a 50 MHz bandwidth and 250 MS/s sampling rate, ideal for electronics professionals, makers, and students. It offers precise measurements up to ±400 V, a 4.5-digit True RMS multimeter, and an integrated signal generator for versatile applications. With a 4.3-inch color touchscreen and a 4000 mAh battery providing up to 4 hours of use, the FNIRSI 2C53P combines functionality and convenience in one compact device. Specifications General Display 4.3" TFT Color Touch screen (480 x 272) Power Supply USB-C (5 V/2 A) Battery 4000 mAh Lithium battery Languages Chinese, English, Russian, Japanese, Spanish, Portuguese, German, Korean Dimensions 145 x 98 x 35 mm Weight 360 g Oscilloscope Channels 2 Bandwidth 50 Mhz Real-time sampling rate 250 MSa/s Storage Depth Up to 64 kByte Time base range 10 ns/div – 10 s/div Vertical Sensitivity 10 mV/div – 10 V/div Waveform Display Mode YT/XY/scroll Vertical Resolution 8 bits Input Impedance 1 MΩ Bandwidth limit Support 20 MHz limit Probe Attenuation Coefficient 1x/10x Input Coupling AC/DC Trigger Type Rising/Falling edge Peak Voltage ±400 V Trigger Level Range 8 cells (positive/negative) Trigger Mode Auto/Normal/Single Storage Space 13 MB Measured Data Period, frequency, peak-to-peak value, maximum value, minimum value, average value, effective value, amplitude, duty cycle, pulse width Multimeter Function Range Accuracy DC Voltage 1.9999V/19.999V/199.99V/1000.0V ±(0.5%+3) AC Voltage 1.9999V/19.999V/199.99V/750.0V ±(1%+3) DC Current 19.999mA/199.99mA/1.9999A/9.999A ±(1.2%+3) AC Current 19.999mA/199.99mA/1.9999A/9.999A ±(1.5%+3) Resistance 19.999MΩ/1.9999MΩ/199.99KΩ/19.999KΩ ±(1.5%+3) 1.9999KΩ/199.99Ω ±(0.5%+3) Capacitance 999.9uF/99.99uF/9.999uF/999.9nF/99.99nF/9.999nF ±(2.0%+5) 9.999mF/99.99mF ±(5.0%+20) Temperature −55~1300°C (−67~2372°F) ±(2.5%+5) Diode/ON-OFF Yes Signal Generator Different Waveform Output Frequencies Sine wave: 10 MHzOther waveforms: 5 MHz Waveform Frequency 0-10 MHz Waveform Amplitude 0.1-3.0 V Square Wave Duty Cycle 0-100% Included 1x FNIRSI 2C53P (3-in-1) 2-ch Oscilloscope 2x P6100 Probes (100 MHz) 1x Multimeter Probe 1x Alligator Clip Probe 1x USB Cable 1x Manual Downloads Manual Firmware V1.8

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Enhance your Raspberry Pi 5 with the Pironman 5, built with sturdy aluminum, superior cooling, NVMe M.2 SSD support, OLED display, RGB lighting, standard HDMI ports x2, and a secure power switch. It is perfect for NAS, Home Assistant, Media and Game Centers. The Pironman 5 is not just a case; it’s an upgrade that transforms your Raspberry Pi 5 into a powerful, efficient, and stylish device. The Pironman 5 includes the Pi 5 NVMe PIP (PCIe Peripheral Board), a PCIe adapter board specifically designed for NVMe solid-state drives. This board supports four sizes of NVMe SSDs: 2230, 2242, 2260, and 2280, all of which can be installed in an M.2 M key slot. The connection is certified for Gen 2.0 speeds (5 GT/sec), but can be forced to Gen 3.0 (10 GT/sec) for faster performance. Expandable NVMe M.2 SSD Slot Boost your Raspberry Pi 5's performance with the Pironman 5's NVMe M.2 SSD slot, supporting multiple sizes (2230, 2242, 2260, 2280) for increased storage and faster system response. Advanced Cooling System Keep your Raspberry Pi 5 cool and stylish with the Pironman 5's tower cooler and dual RGB fans, featuring dust filters for durable, low-maintenance operation. OLED Display for Instant Insights The Pironman 5 includes a 0.96" OLED display, providing immediate updates on CPU and RAM usage, temperature, IP address, and more. Enhanced Functionality and Safety The Pironman 5 secures your Raspberry Pi 5 with features like safe shutdown, customizable RGB LEDs, HDMI ports, an IR receiver, and an external GPIO extender, enhancing functionality and connectivity. Features Raspberry Pi 5 mini PC 0.96" OLED Display showing Raspberry Pi’s CPU usage, temperature, disk usage, IP address, RAM usage etc. Tower cooler can cool a 100% CPU load Pi to 39°C at 25°C room temperature 2 RGB Fans, with GPIO control 1 PWM Fan on the Tower Cooler is controlled by the Raspberry Pi system. Supports four (PCIe Gen 2.0 / PCIe Gen 3.0) NVMe M.2 SSD sizes: 2230, 2242, 2260, and 2280. 4 WS2812 Addressable RGB LED light up the whole case with cool light effect IR Receiver for multi-media center like Kodi or Volumio Retro metal power button for safe shut down External GPIO extender with pin name label, for easy access Equipped with a spring-loaded socket for easy card removal Aluminum main body with clear Acrylic side panel Features two standard HDMI ports Downloads Documentation

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Mastering PCB design with real-world projects This book builts on KiCad Like a Pro – Fundamentals and Projects and aims to help you practice your new KiCad skills by challenging you in a series of real-world projects. The projects are supported by a comprehensive set of recipes with detailed instructions on how to achieve a variety of simple and complex tasks. Design the PCBs for a solar power supply, an LED matrix array, an Arduino-powered datalogger, and a custom ESP32 board. Understand the finer details of the interactive router, how to manage KiCad project teams with Git, how to use an autorouter on 2 and 4-layer PCBs, and much more. KiCad 8 is a modern, cross-platform application suite built around schematic and design editors. This stable and mature PCB tool is a perfect fit for electronic engineers and makers. With KiCad 8, you can create PCBs of any complexity and size without the constraints associated with the commercial packages. Here are the most significant improvements and features in KiCad 8, both over and under the hood: Modern user interface, completely redesigned from earlier versions Improved and customizable electrical and design rule checkers Theme editor allowing you to fully customize the look of KiCad on your screen Ability to import projects from Eagle, CADSTART, and more An improved and tightly integrated SPICE circuit simulator Autorouting with the Freerouting plugin Filters define which elements of a layout are selectable Enhanced interactive router helps you draw single tracks and differential pairs with precision New or enhanced tools to draw tracks, measure distances, tune track lengths, etc. Enhanced tool for creating filled zones A customizable coordinate system facilitates data exchange with other CAD applications Realistic ray-tracing capable 3D viewer Differential pair routing Rich repositories of symbol, footprint, and 3D shape libraries Python scripting API for programmatic customization and extensions Improved footprint wizard for fast custom footprints

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Getting started with the world’s best open-source PCB tool The latest iteration of KiCad, the world’s best free-to-use Printed Circuit Board tool, is packed with features usually found only in expensive commercial CAD tools. This modern, cross-platform application suite built around schematic and design editors, with auxiliary applications is a stable and mature PCB tool. KiCad 8 is a perfect fit for electronic engineers and makers. Here are the most significant improvements and features in KiCad 8, both over and under the hood: Modern user interface, completely redesigned from earlier versions Improved and customizable electrical and design rule checkers Theme editor allowing you to customize KiCad on your screen Ability to import projects from Eagle, CADSTART, and more Python scripting API Improved integrated SPICE circuit simulator Multi-sheet schematics Filters define selectable elements Enhanced interactive router helps you draw single tracks and differential pairs with precision New or enhanced tools to draw tracks, measure distances, tune track lengths, etc. Advanced interactive router Built-in bill of materials generator Realistic ray-tracing capable 3D viewer Customizable teardrops Plug-in manager for quick installation of themes, libraries and functionalities such as autorouters and BOM generators This book will teach you to use KiCad through a practical approach. It will help you become productive quickly and start designing your own boards. Example projects illustrate the basic features of KiCad, even if you have no prior knowledge of PCB design. The author describes the entire workflow from schematic entry to the intricacies of finalizing the files for PCB production and offers sound guidance on the process. Further full-fledged projects, of incremental difficulty, will be presented in a second book, together with a variety of advanced recipes.

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YDLIDAR SDM18 is a high-performance single-point LiDAR. Based on the principle of ToF, it is equipped with related optics, electricity, and algorithm design to achieve high-precision laser distance measurement and outputting high frame rate point cloud data of the scanning environment. It can be used for UAV alt-hold, robot obstacle avoidance and navigation, etc. Specifications High Ranging frequency: 50-250 Hz Range Distance: 0.2-18 m FDA Class I eye safety standard Support UART and I²C interfaces Dimensions: 21 x 15 x 7.87 mm Weight: 1.35 g Applications UAV alt-hold and obstacle avoidance Robot obstacle avoidance Intelligent equipment obstacle avoidance Navigation and obstacle avoidance of home service robots / robot vacuum cleaners Downloads Datasheet User Manual Development Manual SDK Tool ROS

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The ZD-5L Hot Glue Gun is a versatile and easy-to-use tool designed for household, DIY, and professional use. It features a compact and lightweight design for comfortable handling, and its built-in stand ensures safe and stable operation. Whether you're a DIY enthusiast or a professional, this Glue Gun is a perfect addition to your toolkit, an efficient and practical solution for bonding, repairing, and creating. It is ideal for various materials like glass, cardboard, metal, plastic, leather, fabric and more. The ZD-5L uses 7.2 mm glue sticks. It is powered by an 18650 battery and charged via USB-C. Specifications Charging Voltage 5 V DC Charging Current Adaptive, 2 A (max) Charging Interface USB-C Battery 18650 Lithium Glue Stick 7.2 mm OD Heat-up time approx. 2 min. Time of Use approx. 60 min. Sleep Time 5 min. without action Included 1x ZD-5L Glue Gun 1x 18650 Lithium battery (2200 mAh) 2x Glue Sticks (10 cm) 1x USB cable

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The FR01D (2-in-1) thermal imaging camera and multimeter is a compact and lightweight solution that simplifies diagnostic and maintenance tasks. The one-click function allows you to switch effortlessly between thermal imaging and multimeter mode, giving you two important tools in one portable device. The multimeter is capable of measuring DC and AC voltage, resistance, diode checks, continuity testing, and capacitance. The FR01D has a 2.8-inch touchscreen with a resolution of 320 x 480 pixels. The device is powered by an integrated rechargeable lithium battery and can be charged via USB. With the FR01D, you can inspect and maintain circuit boards, check power supplies, repair electronic devices, and overhaul household appliances. Its compact size, multifunctionality, and user-friendliness make the FR01D the ideal companion for electronics and maintenance technicians. General Specifications Display size 2.8" (320 x 480) Touchscreen Resistive Data transmission USB-C Image storage format BMP Battery Li-ion battery Storage temperature −20°C～60°C（−4°F～140°F) Operating temperature 0°C～50°C（32°F～122°F) Operating humidity <85% RH Dimensions 134 x 69 x 25 mm Weight 130 g Thermal Imaging Specifications Sensor Vanadium oxide (VOx) Image capture frequency 25 Hz Thermal imaging pixels 192 x 192 Field of View (FOV) 50.0°(H) x 50°(V) / 72.1°(D) Temperature range −20°C ~ +550°C (−4°F～1022°F) Gain mode Auto Accuracy ±2°C or ±2% Measurement resolution 0.1°C / 0.1°F Multimeter Specifications DC input voltage (max.) 1000 V AC input voltage (max.) 750 V Resistance (max.) 99.99 MΩ Capacitance (max.) 99.99 mF Duty cycle test range 0.1% ~ 99.9% Diode test range 0 V ~ 3 V Continuity test 999.9 Ω Display 9999 counts (Refreshes 3x per second) Accuracy Function Range Resolution Accuracy AC Voltage 400 mV 0.1 mV 2% +3 9.999 V 0.001 V 1.0% +3 99.99 V 0.01 V 999.9 V 0.1V DC Voltage 400 mV 0.1 mV 2% +3 9.999 V 0.001 V 1.0% +3 99.99 V 0.01 V 999.9 V 0.1 V Resistance 999.9 Ω 0.1 Ω 0.5% +3 9.999 KΩ 0.001 kΩ 99.99 KΩ 0.01 kΩ 999.9 KΩ 0.1 kΩ 9.999 MΩ 0.001 MΩ 99.99 MΩ 0.01 MΩ 1.5% +3 Diode Test 3.000 V 0.001 V 10% Capacitance 9.999 nF 0.001 nF 2% +5 99.99 nF 0.01 nF 999.9 nF 0.1 nF 9.999 uF 0.001 uF 99.99 uF 0.01 uF 999.9 uF 0.1 uF 9.999 mF 0.001 mF 5% +5 99.99 mF 0.01 mF Included 1x FR01D IR-Camera and Multimeter 2x Test Leads 1x USB Cable 1x Manual

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The Cleqee P1503E Multimeter Test Lead Kit is a reliable tool that provides safe and accurate measurements of electrical performance. Compatible with multimeters, clamp meters and other test instruments, this kit ensures versatility and precision for a wide range of testing applications. With removable tips, banana plugs, crocodile clips and cable lugs, the kit offers extended testing capabilities and flexibility. The rubber-coated surfaces provide a secure and comfortable grip and improve stability even in slippery conditions. The kit includes 8 interchangeable test probes – 4 in nickel-plated copper and 4 in gold-plated copper – specially designed to access the tightest spots, making them ideal for SMD testing. In addition, the insulated, flexible silicone gripping hooks act as an extra hand during testing, allowing sequential testing of components. The powerful spring mechanism ensures a firm grip on tiny components and minimizes the risk of short circuits. Included 2x 1.4 mm Banana Plug Mutimeter Probe Test Leads, Length: 1 m (red & black) Replaceable Needles Kit 4x Gilded sharp needle 4x Standard needle 2x Protective Cap (red & black) 2x U-Type Insert (red & black) 2x 2 mm inner spring to 4 Mmm male banana plug adapter (red & black) 2x Crocodile Clips (red & black) 2x IC testing hook (red & black) 1x 4 mm banana plug testing clip

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The BSIDE U0 digital clamp meter multimeter is a versatile tool designed for measuring AC current, AC/DC voltage, and resistance with high accuracy. Equipped with features like an on/off buzzer, alarm alert, automatic shutdown, and V-alert detection, it ensures user safety and ease of operation. Compact, precise, and user-friendly, it’s an ideal troubleshooting tool for quickly and safely addressing electrical issues in vehicles, industrial settings, and home environments. This multimeter is widely used across various fields, including electric power, telecommunications, railways, construction, oil and gas, metering, scientific research, education, as well as industrial and mining enterprises. Specifications Function Range Accuracy DC Voltage 0.800~610 V ±(0.8%+3) AC Voltage 0.800~610 V ±(1.0%+3) AC Current 1~100 A ±(2.5%+5) DC Current 1~100 A ±(2.5%+5) Resistance 5~40 MΩ ±(1.2%+3) Display 4000 Counts Battery Built-in 3.7 V 4000 mAh Lithium battery Automatic Shutdown After 15 minutes of inactivity LED Light Yes Dimensions 192 x 36 x 30 mm Weight 100 g Included 1x BSIDE U0 Clamp Meter 2x Test leads 1x USB cable 1x Manual

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This highly sensitive source picoammeter is designed for measuring and logging very small currents down to the pA range – making it an ideal instrument for scientific and research applications, including physics, materials science and electron microscopy. Full-featured at an affordable price, the SPA100 combines sensitivity, accuracy and stability to allow users to measure low currents with high precision as well as conveniently source bias voltages for experimentation. SPA100 also doubles as an ultra-high resistance meter, measuring accurately into the teraohm range. The SPA100 connects to PC via USB and utilises the complimentary software SPA – enabling users to easily measure, graph and capture readings with timestamps and measurement stability information. Features Input: ±2 mA to ±200 pA in 8 ranges Accuracy and Resolution (2 Hz): ±2 mA range: ±0.1%, resolution <20 nA ±200 uA range: ±0.1%, resolution <2 nA ±20 uA range: ±0.2%, resolution <200 pA ±2 uA range: ±0.2%, resolution <20 pA ±200 nA range: ±0.5%, resolution <2 pA ±20 nA range: ±0.5%, resolution <200 fA ±2 nA range: ±1.0%, resolution <20 fA ±200 pA range: ±1.5%, resolution <2 fA Sample rate: 2 Hz (18 bit) or 10 Hz (16 bit) Adjustable filter: 1 sample to 64 samples Output voltage: -40 V to +40 V (in 1 V increments), output resistance 2.7 Kohms Resistance Measurement: ~1 Kohms to 40 Tohms (e.g 40 V source, 1 pA measure) Accuracy: >±0.5% 1 Mohm to 1 Tohm Powered via USB 2.0 (instrument uses up to 0.3 A when in-use) Included 1x SPA100 Source Picoammeter 1x USB cable Downloads Manual Software

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The GTMEDIA V8 Finder2 is a handheld satellite meter that supports DVB-S/S2 and MPEG-2/4 H.264 (8-bit) standards. Designed for convenience, it boasts a compact size, lightweight build, user-friendly interface, extended battery life, and a comprehensive set of features. This meter provides all the essential functions needed for efficient installation and verification of digital satellite TV services, whether for individual residences or multi-dwelling units. Specifications Frequency Range 950-2150 MHz DC IN 13 V/18 V (max 350 mA) Display 3.5" HD TFT LCD Screen (320 x 240) Standard DVB-S/S2/S2X Battery Built-in 7.4 V/4000 mAh Lithium battery Dimensions 95 x 155 x 45 mm Weight 450 g Included GTmedia V8 Finder 2 USB cable Manual

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The Elektor Audio DSP FX Processor combines an ESP32 microcontroller and an ADAU1701 Audio DSP from Analog Devices. Besides a user-programmable DSP core, the ADAU1701 has high-quality analog-to-digital and digital-to-analog converters built-in and features an I²S port. This makes it suitable as a high-quality audio interface for the ESP32. Programs for the ESP32 can be created with Arduino, Platform IO, CMake or by using the Espressif IDF in another way. Programs for the ADAU7101 audio DSPs are created with the free visual programming tool SigmaStudio by dragging and dropping pre-defined algorithm blocks on a canvas. Applications Bluetooth/Wi-Fi audio sink (e.g. loudspeaker) & source Guitar effect pedal (stomp box) Music synthesizer Sound/function generator Programmable cross-over filter for loudspeakers Advanced audio effects processor (reverb, chorus, pitch shifting, etc.) Internet-connected audio device DSP experimentation platform Wireless MIDI MIDI to CV converter and many more... Specifications ADAU1701 28-/56-bit, 50-MIPS digital audio processor supporting sampling rates of up to 192 kHz ESP32 32-bit dual-core microcontroller with Wi-Fi 802.11b/g/n and Bluetooth 4.2 BR/EDR and BLE 2x 24-bit audio inputs (2 V RMS, 20 kΩ) 4x 24-bit audio outputs (0.9 V RMS, 600 Ω) 4x Control potentiometer MIDI in- and output I²C expansion port Multi-mode operation Power supply: 5 V DC USB or 7.5-12 V DC (barrel jack, center pin is GND) Current consumption (average): 200 mA Included 1x ESP32 Audio DSP FX Processor board (assembled) 1x ESP32-PICO-KIT 2x Jumpers 2x 18-pin headers (female) 4x 10 KB potentiometers Downloads Documentation GitHub

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This endoscope camera features an 8 mm micro lens with a 170° viewing angle and 6 adjustable LED lights for clear, high-definition visuals. Its ergonomic handheld design allows one-handed operation, and the 2 m semi-flexible cable easily navigates narrow spaces. With IP67 waterproofing, the camera is ideal for wet environments, while the non-slip matte body ensures comfort and ease of use. It operates without the need for WiFi, phones, or apps, making it a practical tool for industrial tasks like plumbing, auto repair, and home maintenance. Specifications Display 2.4 inch LCD Resolution 1920 x 1080 Lens size 8 mm Focal length 3-10 cm Horizontal viewing angle 170° Image format JPEG Lights 6 LEDs (adjustable) Interface USB-C Battery Built-in 2600 mAh Lithium battery Battery runtime 4-5 hours Cable length 2 m Included Endoscope Camera with 2.4" LCD USB cable Manual

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This development board (also known as "Cheap Yellow Display") is powered by the ESP-WROOM-32, a dual-core MCU with integrated Wi-Fi and Bluetooth capabilities. It operates at a main frequency of up to 240 MHz, with 520 KB SRAM, 448 KBROM, and a 4 MB Flash memory. The board features a 2.8-inch display with a resolution of 240x320 and resistive touch. Furthermore, the board includes a backlight control circuit, touch control circuit, speaker drive circuit, photosensitive circuit, and RGB-LED control circuit. It also provides a TF card slot, serial interface, DHT11 temperature and humidity sensor interface, and additional IO ports. The module supports development in Arduino IDE, ESP-IDE, MicroPython, and Mixly. Applications Image transmission for Smart Home device Wireless monitoring Smart agriculture QR wireless recognition Wireless positioning system signal And other IoT applications Specifications Microcontroller ESP-WROOM-32 (Dual-core MCU with integrated Wi-Fi and Bluetooth) Frequency Up to 240 MHz (computing power is up to 600 DMIPS) SRAM 520 KB ROM 448 KB Flash 4 MB Operating voltage 5 V Power consumption approx. 115 mA Display 2.8-inch color TFT screen (240x320) Touch Resistive Touch Driver chip ILI9341 Dimensions 50 x 86 mm Weight 50 g Included 1x ESP32 Dev Board with 2.8" Display and acrylic Shell 1x Touch pen 1x Connector cable 1x USB cable Downloads GitHub

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The HT-M00 is a dual-channel gateway that is specifically designed to cater to smart family LoRa applications that work with less than 30 LoRa nodes. The gateway has been built around two SX1276 chips that are driven by ESP32. To enable monitoring of 125 KHz SF7~SF12 spreading factor, a software mixer has been developed, which is commonly referred to as a baseband simulation program. The software mixer is a critical component that enables the HT-M00 gateway to operate with high efficiency. It is designed to simulate baseband signals, which are then mixed with the radio frequency signals to produce the desired output. The software mixer has been developed with great care and precision, and has undergone rigorous testing to ensure that it is capable of delivering accurate and reliable results. Features ESP32 + SX1276 Emulates LoRa demodulators Automatic adaptive spread spectrum factor, SF7 to SF12 for each channel is optional Maximum output: 18 ±1dBm Support for LoRaWAN Class A, Class C protocol Specifications MCU ESP32-D0WDQ6 LoRa Chipset SX1276 LoRa Band 863~870 MHz Power Supply Voltage 5 V Receiving Sensitivity -110 dBm @ 300 bps Interface USB-C Max. TX Power 17dB ±1dB Operating Temperature −20~70°C Dimensions 30 x 76 x 14 mm Included 1x HT-M00 Dual Channel LoRa Gateway 1x Wall bracket 1x USB-C cable Downloads Manual Software Documentation

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The CubeCell series is designed primarily for LoRa/LoRaWAN node applications. Built on the ASR605x platform (ASR6501, ASR6502), these chips integrate the PSoC 4000 series MCU (ARM Cortex-M0+ Core) with the SX1262 module. The CubeCell series offers seamless Arduino compatibility, stable LoRaWAN protocol operation, and straightforward connectivity with lithium batteries and solar panels. The HTCC-AB02 is a developer-friendly board, ideal for quickly testing and validating communication solutions. Features Arduino compatible Based on ASR605x (ASR6501, ASR6502), those chips are already integrated the PSoC 4000 series MCU (ARM Cortex M0+ Core) and SX1262 LoRaWAN 1.0.2 support Ultra low power design, 3.5 uA in deep sleep Onboard SH1.25-2 battery interface, integrated lithium battery management system (charge and discharge management, overcharge protection, battery power detection, USB/battery power automatic switching) Good impendence matching and long communication distance Onboard solar energy management system, can directly connect with a 5.5~7 V solar panel Micro USB interface with complete ESD protection, short circuit protection, RF shielding, and other protection measures Integrated CP2102 USB to serial port chip, convenient for program downloading, debugging information printing Onboard 0.96-inch 128x64 dot matrix OLED display, which can be used to display debugging information, battery power, and other information Specifications Main Chip ASR6502 (48 MHz ARM Cortex-M0+ MCU) LoRa Chipset SX1262 Frequency 863~870 MHz Max. TX Power 22 ±1 dBm Max. Receiving Sensitivity −135 dBm Hardware Resource 2x UART1x SPI2x I²C1x SWD3x 12-bit ADC input8-channel DMA engine16x GPIO Memory 128 Kb FLASH16 Kb SRAM Power consumption Deep sleep 3.5 uA Interfaces 1x Micro USB1x LoRa Antenna (IPEX)2x (15x 2.54 Pin header) + 3x (2x 2.54 Pin header) Battery 3.7 V lithium battery (power supply and charging) Solar Energy VS pin can be connected to 5.5~7 V solar panel USB to Serial Chip CP2102 Display 0.96" OLED (128 x 64) Operating temperature −20~70°C Dimensions 51.9 x 25 x 8 mm Included 1x CubeCell HTCC-AB02 Development Board 1x Antenna 1x 2x SH1.25 battery connector Downloads Datasheet Schematic Quick start GitHub

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The CubeCell series is designed primarily for LoRa/LoRaWAN node applications. Built on the ASR605x platform (ASR6501, ASR6502), these chips integrate the PSoC 4000 series MCU (ARM Cortex-M0+ Core) with the SX1262 module. The CubeCell series offers seamless Arduino compatibility, stable LoRaWAN protocol operation, and straightforward connectivity with lithium batteries and solar panels. The HTCC-AB02S is a developer-friendly board with an integrated AIR530Z GPS module, ideal for quickly testing and validating communication solutions. Features Arduino compatible Based on ASR605x (ASR6501, ASR6502), those chips are already integrated the PSoC 4000 series MCU (ARM Cortex M0+ Core) and SX1262 LoRaWAN 1.0.2 support Ultra low power design, 21 uA in deep sleep Onboard SH1.25-2 battery interface, integrated lithium battery management system (charge and discharge management, overcharge protection, battery power detection, USB/battery power automatic switching) Good impendence matching and long communication distance Onboard solar energy management system, can directly connect with a 5.5~7 V solar panel Micro USB interface with complete ESD protection, short circuit protection, RF shielding, and other protection measures Integrated CP2102 USB to serial port chip, convenient for program downloading, debugging information printing Onboard 0.96-inch 128x64 dot matrix OLED display, which can be used to display debugging information, battery power, and other information Using Air530 GPS module with GPS/Beidou Dual-mode position system support Specifications Main Chip ASR6502 (48 MHz ARM Cortex-M0+ MCU) LoRa Chipset SX1262 Frequency 863~870 MHz Max. TX Power 22 ±1 dBm Max. Receiving Sensitivity −135 dBm Hardware Resource 2x UART1x SPI2x I²C1x SWD3x 12-bit ADC input8-channel DMA engine16x GPIO Memory 128 Kb FLASH16 Kb SRAM Power consumption Deep sleep 21 uA Interfaces 1x Micro USB1x LoRa Antenna (IPEX)2x (15x 2.54 Pin header) + 3x (2x 2.54 Pin header) Battery 3.7 V lithium battery (power supply and charging) Solar Energy VS pin can be connected to 5.5~7 V solar panel USB to Serial Chip CP2102 Display 0.96" OLED (128 x 64) Operating temperature −20~70°C Dimensions 55.9 x 27.9 x 9.5 mm Included 1x CubeCell HTCC-AB02S Development Board 1x Antenna 1x 2x SH1.25 battery connector Downloads Datasheet Schematic GPS module (Manual) Quick start GitHub

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