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

Read more less

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

Read more less

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-AB01 (V2) is an upgraded version of the HTCC-AB01 board. 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 Specifications Main Chip ASR6502 (48 MHz ARM Cortex-M0+ MCU) LoRa Chipset SX1262 Frequency 863~870 MHz Max. TX Power 21 ±1 dBm Max. Receiving Sensitivity −134 dBm Hardware Resource 1x UART1x SPI1x I²C1x SWD1x 12-bit ADC input8-channel DMA engine8x GPIO2x PWM Memory 128 Kb FLASH16 Kb SRAM Power consumption Deep Sleep 3.5 uA Interfaces 1x USB-C1x LoRa Antenna (IPEX 1.0)SH1.25; 11x 2x 2.54 Pin header1x (2x 2.54 Pin header) Solar Energy VS pin can be connected to 5.5~7 V solar panel Battery 3.7 V Lithium battery (power supply and charging) Operating temperature −20~70°C Dimensions 40.6 x 22.9 x 7.6 mm Included 1x CubeCell HTCC-AB01 (V2) Development Board 1x Antenna 1x 2x SH1.25 battery connector Downloads Datasheet Schematic Quick start GitHub

Read more less

The digital night vision monocular is a powerful device that combines advanced technology with user-friendly comfort. Featuring high-resolution photo and video capabilities, adjustable infrared brightness, and a compact design, it is perfectly suited for a variety of outdoor activities such as camping, fishing, and wildlife observation. Specifications Optical Magnification 6x Digital Zoom 8x IR Illumination Power/Wavelength 3 W/850 nm Lens Diameter 25 mm Photo Resolution 40 MP, 30 MP, 25 MP, 20 MP, 10 MP, 8 MP, 5 MP, 3 MP Photo Format JPG Video Resolution 2.5k, 1080p, 720p Video Format AVI FOV 10° Image Sensor CMOS Recording during the Day Color Recording at Night Black and White Display 2-inch IPS screen (320x240) Battery Built-in 18650 Lithium battery (2500 mAh) Charging Port USB-C Operating Temperature −30°C to +55°C (−22°F to +122°F) Dimensions 170 x 75 x 65 mm Weight 245 g Included 1x Night Vision Monocular 1x Card Reader 1x Storage Bag 1x Wrist Strap 1x Lens Cleaning Cloth 1x USB Cable 1x Manual

Read more less

Ocean Sound Generator The Elektor Surf Synthesizer convincingly imitates the sound of breaking waves. It is based on a circuit published in the 1972 summer edition of Elektor to celebrate the Summer Olympics held that year in Munich, Germany. The Surf Synthesizer can be considered a real analog music synthesizer, as it follows the paradigm of voltage-controlled subtractive sound synthesis made popular by Robert Moog and friends (remember the Elektor Formant?). Instead of a VCO (voltage-controlled oscillator), it has a noise generator as a sound source. A VCF (voltage-controlled filter) and a VCA (voltage-controlled amplifier) modulated by three LFOs (low-frequency oscillators) shape the sound of the waves. The Surf Synthesizer comes as an easy-to-build kit using only through-hole components. The kit contains all the required parts, including a stylish wooden stand. First mount all the parts on the front side (showing the schematic). Terminate by mounting the battery holder on the backside (showing the circuit description). The use of headphones (not included) is recommended for obtaining the best sound quality. A 9 V (PP3) battery (not included) powers the Surf Synthesizer. Component List Resistors (5%, 0.25 W) R30 = 100 Ω R1 = 470 Ω R39 = 560 Ω R36 = 680 Ω R26 = 1 kΩ R35 = 2.2 kΩ R18 = 4.7 kΩ R2, R5, R6, R9, R10, R13 = 6.8 kΩ R16, R37, R38 = 10 kΩ R14, R24 = 22 kΩ R15 = 33 kΩ R7, R20 = 39 kΩ R11, R19, R21, R28 = 47 kΩ R4, R12, R17, R23, R25, R31, R32, R33, R34 = 68 kΩ R22 = 100 kΩ R8 = 180 kΩ R3 = 270 kΩ R29 = 680 kΩ R27 = 1 MΩ P1, P2 = 50 kΩ trimmer Capacitors C13 = 4.7 nF C11 = 47 nF C12 = 100 nF C10 = 220 nF C9, C14, C15, C17, C19 = 10 µF, 16 V, 2 mm pitch C2, C3, C4, C5, C6, C7 = 47 µF, 16 V, 2 mm pitch C1, C8, C16, C18 = 100 µF, 16 V, 2.5 mm pitch Semiconductors D1, D2 = 1N4148 D3 = BAT48 T1, T2, T3, T4, T5, T6, T7, T8, T9, T10 = BC547C Divers BAT1 = PP3 9 V battery holder (battery not included) K1 = speaker 8 Ω, 200 mW S1 = slide switch Elektor PCB 240095-1 Wooden stand Specifications Power 9 V, 100 mW Dimensions 170 x 140 x 70 mm Weight 250 g

Read more less

LoRaWAN is beneficial, but sometimes it is unnecessary, difficult, or expensive to implement a LoRaWAN network, especially when considering cloud integration. For example, monitoring soil moisture in your backyard or tracking conditions in your farm's greenhouse may not require a full LoRaWAN setup. This LoRa receiver is designed to work with Makerfabs SenseLora modules. It receives LoRa signals and forwards them to a computer, allowing the data to be displayed, recorded, and analyzed on the computer. Downloads Manual Software

Read more less

The Hti HT-18+ is a professional thermal imaging camera designed for precise temperature measurements and real-time thermal imaging. It has an impressive infrared resolution of 256 x 192 pixels at a frame rate of 25 Hz, resulting in clear and detailed thermal images. The temperature measurement range extends from −20°C to +550°C, with a measurement accuracy of ±2°C or ±2%. The camera is equipped with a 3.2-inch color display for easy viewing of thermal images. It offers five different color palettes – rainbow, iron red, cold color, black and white and white and black – to adapt the display to different requirements. It also has a built-in memory of 4 GB for storing images and videos in JPG or MP4 format, which can be transferred to a computer via a USB connection. Specifications Infrared resolution 256 x 192 Infrared response band 8 to 14 μm Cell size 12 μm NETD ≤50 mK @ 25°C, @F/1.1 Lens focal length 3.2 mm IFOV 3.75 mrad Field angle 56° x 42° Focus mode Free focus Temperature measurement range −20°C~550°C (−4~1022°F) Measurement accuracy −15°C to 550°C (±2°C or ±2%)−20°C to −15°C (±4°C) Temperature measurement resolution 0.1°C Temperature measurement mode Center point/hot and cold spot tracking Color palette Rainbow, iron oxide red, cold color, black & white, white & black Emissivity setting Adjustable from 0.01 to 1.00 Thermal imaging frame rate ≤25 Hz Visible light resolution 640 x 480 Display size 3.2-inch (240 x 320) Image display mode Infrared/visible light/dual light fusion Device storage Built-in 4 GB eMMC (user available storage space is about 3 GB Storage Image/Video Format JPG/MP4 Image/video export method USB connection to computer export Image analysis function Support offline analysis on PC Battery Type Dedicated removable rechargeable Lithium battery Battery capacity 2200 mAh Working time 2 to 3 hours Power interface Micro USB Power configuration 5 minutes, 20 minutes, no automatic shutdown Working temperature −10°C to +50°C Relative humidity 10% to 85% RH (non-condensing) Menu languages English, German, Italian, Chinese Dimensions 90 x 105 x 223 mm Weight 389 g Included 1x Hti HT-18+ Thermal Imaging Camera 1x USB cable 1x Manual Downloads Manual

Read more less

The Elektor Arduino Nano MCCAB Training Board contains all the components (incl. Arduino Nano) required for the exercises in the "Microcontrollers Hands-on Course for Arduino Starters", such as light-emitting diodes, switches, pushbuttons, acoustic signal transmitters, etc. External sensors, motors or assemblies can also be queried or controlled with this microcontroller training system. Specifications (Arduino Nano MCCAB Training Board) Power Supply Via the USB connection of the connected PC or an external power supply unit (not included) Operating Voltage +5 Vcc Input Voltage All inputs 0 V to +5 V VX1 and VX2 +8 V to +12 V (only when using an external power supply) Hardware periphery LCD 2x16 characters Potentiometer P1 & P2 JP3: selection of operating voltage of P1 & P2 Distributor SV4: Distributor for the operating voltagesSV5, SV6: Distributor for the inputs/outputs of the microcontroller Switches and buttons RESET button on the Arduino Nano module 6x pushbutton switches K1 ... K6 6x slide switches S1 ... S6 JP2: Connection of the switches with the inputs of the microcontroller Buzzer Piezo buzzer Buzzer1 with jumper on JP6 Indicator lights 11 x LED: Status indicator for the inputs/outputs LED L on the Arduino Nano module, connected to GPIO D13 JP6: Connection of LEDs LD10 ... LD20 with GPIOs D2 ... D12 Serial interfacesSPI & I²C JP4: Selection of the signal at pin X of the SPI connector SV12 SV9 to SV12: SPI interface (3.3 V/5 V) or I²C interface Switching output for external devices SV1, SV7: Switching output (maximum +24 V/160 mA, externally supplied) SV2: 2x13 pins for connection of external modules 3x3 LED matrix(9 red LEDs) SV3: Columns of the 3x3 LED matrix (outputs D6 ... D8) JP1: Connection of the rows with the GPIOs D3 ... D5 Software Library MCCABLib Control of hardware components (switches, buttons, LEDs, 3x3 LED matrix, buzzer) on the MCCAB Training Board Operating Temperature Up to +40 °C Dimensions 100 x 100 x 20 mm Specifications (Arduino Nano) Microcontroller ATmega328P Architecture AVR Operating Voltage 5 V Flash Memory 32 KB, of which 2 KB used by bootloader SRAM 2 KB Clock Speed 16 MHz Analog IN Pins 8 EEPROM 1 KB DC Current per I/O Pins 40 mA on one I/O pin, total maximum 200 mA on all pins together Input Voltage 7-12 V Digital I/O Pins 22 (6 of which are PWM) PWM Output 6 Power Consumption 19 mA Dimensions 18 x 45 mm Weight 7 g Included 1x Elektor Arduino Nano Training Board MCCAB 1x Arduino Nano

Read more less

This Arduino-based Christmas Tree Kit contains 36 digitally programmable 8 mm RGB LEDs (WS2812D-F8) that are individually addressable for creating impressive light effects. The LEDs can be controlled externally or by an Arduino Nano ESP32. Features 36 digital RGB LEDs (NeoPixel-addressable) Suitable for any microcontroller system Perfect match with Arduino Nano ESP32 (not included) High-quality PCBs: 5x circular, 1x square Easy, fun assembly with popular tools Detailed construction manual Dimensions: 136 x 136 x 175 mm Included PCB (136 x 136 mm) Resistors R1…R36 = 75 #, 0W125, 5%, SMD 0805 P1 = 10 k#, 0W1, 20%, trimmer, top adjust, 6mm round (Piher PT6KV-103A2020) Capacitors C1…C36 = 100 n, 50 V, 5%, X7R, SMD 0805 C37, C38 = 47u, 6V3, 10%, tantalum, case size A (1206) Semiconductors D1, D2 = S5J-E3/57T, SMD case size SMC LED1-LED36 = WS2812D-F8, 8mm, THT Others K1, JP1 = Pin header, 3x1, vertical, 2.54mm pitch Shunt jumper for JP1, 2.54 mm spacing K2 = MJ-179PH (Multicomp Pro), DC power connector, 4A, pin diam. 1.95mm S1 = DIP switch, 4-way PA1…PE6 = 2m wire, 0.81mm solid, 0.52mm² / 20AWG, insulated green (Alpha Wire 3053/1 GR005) H1…H5 = Nylon standoff, female-female, M3, 5mm H1…H5 = Nylon screw, M3, 5mm Optional Arduino Nano ESP32 with Headers Links Elektor Labs

Read more less

This upgraded version 2.0 (available exclusively from Elektor) contains the following improvements: Enhanced protective earthing (PE) for furnace chassis Extra thermal insulation layer around furnace to reduce odors Connection to a computer, allowing curve editing on a PC Features such as constant temperature control and timing functions The infrared IC heater T-962 v2.0 is a microprocessor-controlled reflow oven that you can use for effectively soldering various SMD and BGA components. The whole soldering process can be completed automatically and it is very easy to use. This machine uses a powerful infrared emission and circulation of the hot air flow, so the temperature is being kept very accurate and evenly distributed. A windowed drawer is designed to hold the work-piece, and allows safe soldering techniques and the manipulation of SMDBGA and other small electronic parts mounted on a PCB assembly. The T-962 v2.0 may be used to automatically rework solder to correct bad solder joints, remove/replace bad components and complete small engineering models or prototypes. Features Large infrared soldering area Effective soldering area: 180 x 235 mm; this increases the usage range of this machine drastically and makes it an economical investment. Choice of different soldering cycles Parameters of eight soldering cycles are pre defined and the entire soldering process can completed automatically from Preheat, Soak and Reflow through to cool down. Special heat up and temperature equalization with all designs Uses up to 800 Watts of energy efficient Infrared heating and air circulation to re-flow solder. Ergonomic design, practical and easily operated Good build quality but at the same time light weight and a small footprint allows the T-962 v2.0 to be easily bench positioned transported or stored. Large number of available funtions The T-962 v2.0 can solder most small parts of PCB boards, for example CHIP, SOP, PLCC, QFP, BGA etc. It is the ideal rework solution from single runs to on-demand small batch production. Specifications Soldering area (max) 180 x 235 mm (7.1 x 9.3") Power (max) 800 W Temperature range 0-280°C (32-536°F) Heating method Infrared Processing time 1~8 minutes Power supply 220 V AC/50 Hz Display LCD with Backlight Control mode 8 intelligent temperature curves Dimensions 310 x 290 x 170 mm (12.2 x 11.4 x 6.7") Weight 6.2 kg Included 1x T-962 v2.0 Reflow Soldering Oven (Elektor Version) 1x USB Stick (with Manual and Software) 2x Fuses 1x Power cord (EU) Downloads Manual

Read more less