Looking for a fun DIY Christmas project? Assemble and program this extra-large Poly Reindeer figurine and make its LEDs shine all the colors of the rainbow! Ideal for both beginners and advanced makers! This educational and fun kit combines soldering and programming skills in one XL-sized project. First, you will need to solder some simple components onto the copper plated circuit board. The components include fancy RGB LEDs that have a special diffused effect. Once the soldering work is finished, you will be able to program the colors and light effects of the different LEDs thanks to the onboard Arduino Nano Every. The Arduino will be pre-programmed with some basic LED effects, so your kit will work once you power it with the included adaptor. Or you can choose to write your own code based on the available example code. Programmable add-ons The printed circuit board of this project is designed especially so you can add different add-ons. For example, add an OLED screen to display messages or program it to countdown the days until Christmas! Or add an IoT Tuya chip so your project can communicate with your smartphone. You can even add a sound microphone, motion sensor or light sensor. Features XL-sized & copper plated circuit board (PCB) in the shape of a polymetric reindeer 22 addressable (programmable) RGB LEDs 14 x 5 mm RGB LEDs 10 x 8 mm RGB LEDs Arduino Nano Every Onboard push button USB A to USB micro cable for programming USB A to USB B cable for power supply Wooden holder Complete manual and video available in 5 languages Example code for Arduino available Educational & fun for all ages and skill levels Expandable with lots of add-ons: an OLED screen a smart IoT sensor to connect with your smartphone a microphone sensor and more! Not included: soldering iron, soldering tin, pliers and an soldering mat Specifications Dimensions: 168 x 270 mm Power supply: 5 V/2.1 A max. (cable included)
The FNIRSI DSO152 is an extremely practical and cost-effective handheld oscilloscope with a real-time sampling rate of 2.5 MSa/s, a bandwidth of 200 kHz and complete trigger functions (single, normal and automatic).
It can be used for both periodic analog signals and non-periodic digital signals and can measure voltages up to ±400 V. Equipped with an efficient one-key AUTO, it can display the measured waveform without cumbersome adjustments. It is equipped with a high-resolution 2.8-inch LCD screen with a resolution of 320x240 pixels and a built-in 1000 mAh high-quality lithium battery for up to 4 hours of operation.
Specifications
Sampling rate
2.5 MSa/s
Bandwidth
200 kHz
Vertical sensitivity
10 mV/DIV - 20 V/DIV (Progress according to the 1-2-5 way)
Time base range
10µS/DIV - 50s/DIV (Progress according to the 1-2-5 way)
Voltage range
X1: ±40 V (Vpp: 80 V)X10: ±400 V (Vpp: 800 V)
Trigger method
Auto/Normal/Single
Coupling method
AC/DC
Display
2.8" (320 x 240 pixels)
USB charging
5 V/1 A
Lithium battery capacity
1000 mAh
Square wave calibration
Frequency: 1K, Duty cycle: 50%
Dimensions
99 x 68.3 x 19.5 mm
Weight
100 g
Included
FNIRSI DSO152 oscilloscope
Alligator clip probe
USB cable
Lanyard
Manual
Downloads
Manual
Firmware V0.1
The PCW03A True RMS digital multimeter is an innovative tool for any electrician. technician. or ambitious hobbyist. It can measure AC/DC voltage. current. and resistance. as well as frequency. duty ratio. and temperature.
Due to its smart measurement function. the PCW03A detects the inteded measurement (continuity. voltage. resistance) and chooses the correct measurement range/function for the user. making super easy to use and beginner-friendly. Another great feature of the device. especially for beginners. are the illuminated input sockets. Here the device indicates which input sockets to use for the chosen measurement function. This way it is almost impossible to connect the measurement leads to the wrong socket and it will prevent the device from damage.
With its 9999 counts and bright colors. the HD display provides precise measurement read-outs. Additionally. the CAT III 1000V; CAT IV 600V rating ensures safety while in use for various applications. Its smartphone-like design is easy and intiutive to use. making it a joy for daily operations. The double insulation. ceramic fuse. and removable rubber casing provide durability and protection for device and the user.
Features
CAT III 1000 V; CAT IV 600 V
9999 counts & True RMS
Auto Range & smart measurement function: device automatically recognizes intended measurement (continuity. voltage. resistance) and chooses correct measurement range/function
LED illuminated input sockets ? the device shows you which input socket to use according to the measurement function chosen. Perfect for beginners to avoid damage to the device.
AC/DC voltage. AC/DC current. resistance. capacitance. frequency. duty ratio. and temperature measurement
NCV (non-contact voltage detection). live line. continuity. and diode test
Double insulation & ceramic fuses
Removable rubber casing with cushioning function for extra protection
Large colour HD display with backlight
Data hold with Min/Max function
LED work light
Innovative design and 5 button operating concept: like a smartphone
Manual in various languages: EN. GER. ES. FR. PT. IT. GR
Dimensions: 165 x 85 x 25 mm
Weight: 255 g
Included
PCW03A Multimeter
Batteries
High-quality test leads
K-type temp. probes
Transport case
Downloads
Datasheets
The DIY Mini Digital Oscilloscope Kit (with shell) is an easy-to-build kit for a tiny digital oscilloscope. Besides the power switch, it has only one other control, a rotary encoder with a built-in pushbutton. The kit's microcontroller comes preprogrammed. The 0.96" OLED display has a resolution of 128 x 64 pixels. The oscilloscope features one channel that can measure signals up to 100 kHz. The maximum input voltage is 30 V, the minimum voltage is 0 V.
The kit consists of through-hole components (THT) are surface-mount devices (SMD). Therefore, assembling the kit means soldering SMD parts, which requires some soldering experience.
Specifications
Vertical range: 0 to 30 V
Horizontal range: 100 µs to 500 ms
Trigger type: auto, normal and single
Trigger edge: rising and falling
Trigger level: 0 to 30 V
Run/Stop mode
Automatic frequency measurement
Power: 5 V micro-USB
10 Hz, 5 V sinewave output
9 kHz, 0 to 4.8 V square wave output
Display: 0.96-inch OLED screen
Dimensions: 57 x 38 x 26 mm
Downloads
Documentation
Raspberry Pi DAC+ (formerly known as IQaudio DAC+) is a high-performance audio HAT designed for any Raspberry Pi with a 40-pin GPIO header. Equipped with the Texas Instruments PCM5122 DAC, it delivers crystal-clear stereo analogue audio through a pair of phono (RCA) connectors.
No external power is needed – the DAC+ connects directly to the Raspberry Pi’s GPIO header without requiring soldering or cables.
Features
Power LED
Analogue audio out (0-2 V RMS) via panel-mounted stereo
phono (RCA) sockets with MUTE signal (headphone detect)
Dedicated headphone amplifier, output via 3.5 mm panel-mounted barrel socket
40-pin pass-through GPIO header
HAT EEPROM write-enabled
Downloads
Datasheet
The Raspberry Pi SSD Kit bundles a Raspberry Pi M.2 HAT+ with a Raspberry Pi NVMe SSD. It unlocks outstanding performance for I/O intensive applications on Raspberry Pi 5, including super-fast startup when booting from SSD.
The Raspberry Pi SSD Kit is also available with 256 GB capacity.
Features
50k IOPS (4 kB random reads)
90k IOPS (4 kB random writes)
Conforms to the Raspberry Pi HAT+ specification
Included
512 GB NVMe SSD
M.2 HAT+ for Raspberry Pi 5
16 mm GPIO stacking header
Mounting hardware kit (spacers, screws)
Downloads
Datasheet
This versatile plotter robot arm DIY kit for Arduino is equipped with MG90S metal gear servo motors to ensure precise and stable drawing movements.
Features
Fully compatible with Arduino IDE, includes complete source code for easy development and customization.
Equipped with robust MG90S metal gear servo motors for accuracy and durability.
Includes a Bluetooth module enabling wireless operation via a dedicated app.
Specially designed robotic arm tip securely holds pens or markers with a diameter of 8-10 mm, ideal for sketches and detailed drawings.
Included
Arduino-compatible Nano motherboard
Nano expansion board
Bluetooth module
MG90S all-metal gear servo motors
Aluminum structural frame
Thickened stable base plate
Screw and fastening accessories
Connecting wires
USB data cable
The ICL8038 signal generator delivers versatile waveforms, including sine, triangle, square, and forward/reverse sawtooth, making it suitable for a wide range of applications. Powered by the ICL8038 chip and high-speed operational amplifiers, it ensures exceptional precision and signal stability.
With a frequency range of 5 Hz to 400 kHz, it supports applications from audio to radio frequencies. Its adjustable duty cycle, ranging from 2% to 95%, allows for precise waveform customization to meet various needs.
The DIY kit is beginner-friendly, featuring through-hole components for easy assembly. It includes all necessary parts, an acrylic shell, and a detailed manual, providing everything required to build and use the signal generator efficiently.
Specifications
Frequency range
5 Hz~400 KHz (adjustable)
Power supply voltage
12 V~15 V
Duty cycle range
2~95% (adjustable)
Low distortion sine wave
1%
Low temperature drift
50 ppm/°C
Output triangular wave linearity
0.1%
DC bias range
−7.5 V~7.5 V
Output amplitude range
0.1 V~11 VPP (working voltage 12 V)
Dimensions
89 x 60 x 35 mm
Weight
81 g
Included
PCB incl. all necessary components
Acrylic shell
Manual
The Arduino Nano ESP32 (with and without headers) is a Nano form factor board based on the ESP32-S3 (embedded in the NORA-W106-10B from u-blox). This is the first Arduino board to be based fully on an ESP32, and features Wi-Fi, Bluetooth LE, debugging via native USB in the Arduino IDE as well as low power. The Nano ESP32 is compatible with the Arduino IoT Cloud, and has support for MicroPython. It is an ideal board for getting started with IoT development. Features
Tiny footprint: Designed with the well-known Nano form factor in mind, this board's compact size makes it perfect for embedding in standalone projects.
Wi-Fi and Bluetooth: Harness the power of the ESP32-S3 microcontroller, well-known in the IoT realm, with full Arduino support for wireless and Bluetooth connectivity.
Arduino and MicroPython support: Seamlessly switch between Arduino and MicroPython programming with a few simple steps.
Arduino IoT Cloud compatible: Quickly and easily create IoT projects with just a few lines of code. The setup takes care of security, allowing you to monitor and control your project from anywhere using the Arduino IoT Cloud app.
HID support: Simulate human interface devices, such as keyboards or mice, over USB, opening up new possibilities for interacting with your computer. Specifications Microcontroller u-blox NORA-W106 (ESP32-S3) USB connector USB-C Pins Built-in LED pins 13 Built-in RGB LED pins 14-16 Digital I/O pins 14 Analog input pins 8 PWM pins 5 External interrupts All digital pins Connectivity Wi-Fi u-blox NORA-W106 (ESP32-S3) Bluetooth u-blox NORA-W106 (ESP32-S3) Communication UART 2x I²C 1x, A4 (SDA), A5 (SCL) SPI D11 (COPI), D12 (CIPO), D13 (SCK). Use any GPIO for Chip Select (CS) Power I/O Voltage 3.3 V Input voltage (nominal) 6-21 V Source Current per I/O pin 40 mA Sink Current per I/O pin 28 mA Clock speed Processor Up to 240 MHz Memory ROM 384 kB SRAM 512 kB External Flash 128 Mbit (16 MB) Dimensions 18 x 45 mm Downloads Datasheet Schematics
This component storage box is the perfect solution for more organization on your workbench, especially when working with small electronic components. The box with 128 compartments offers enough space to store components such as resistors, capacitors, diodes and transistors clearly and safely. Each part has its own compartment, which makes it possible to access them quickly when you need them for a project. With the Niimbot label printer you can professionally label various objects.
This offer contains:
Elektor Electronic Component Storage Box (normal price: €39.95)
Niimbot D110 Label Printer (normal price: €29.95)
Elektor Electronic Component Storage Box
This Electronic Component Storage Box with 128 compartments is an essential tool for anyone handling small electronic components, particularly SMDs. It provides a practical, well-organized solution for storing a wide array of miniature parts like resistors, capacitors, diodes, and transistors. Each component can be stored in its own dedicated space, ensuring that the specific part you need for any project is always easy to locate.
Whether you're a professional electronics engineer, a maker or a DIY enthusiast, this storage box offers the perfect blend of functionality and convenience. Its design helps eliminate clutter, optimize component management and keep your work environment tidy so you can focus on what really matters: building and troubleshooting electronic circuits.
Dimensions of each compartment (L x W x H): 22 x 15 x 16 mm
Dimensions of the box (L x W x H): 280 x 215 x 45 mm
Included
1x Component Storage Box (incl. 128 compartments with lids and foam)
3x Spare lids
2x Sheets of blank labels
2x Box labels
Niimbot D110 Label Printer
Based on direct thermal technology, the Niimbot D110 label printer offers a printing experience without ink, toner or ribbons, making it a cost-effective solution compared to traditional printers. Its compact size and light weight make it easy to transport and fits easily into any pocket.
With Bluetooth connectivity and a built-in 1500 mAh battery, this wireless mini printer allows you to print from up to 10 meters away, giving you flexibility on the go, whether you're printing from your smartphone or tablet.
The "Niimbot" app (available for iOS and Android) offers a variety of free templates for customizing labels.
Specifications
Model
D110_M (Upgraded Version 2024)
Material
ABS
Resolution
203 DPI
Printing speed
30-60 mm/s
Print width
12-15 mm
Printing technology
Thermal
Operating temperature
5°C ~ 45°C (41°F ~ 113°F)
Battery capacity
1500 mAh
Charging interface
USB-C
Charging time
2 hours
Connection
Bluetooth 4.0
Wireless distance
10 m
Dimensions
98 x 76 x 30 mm
Weight
149 g
Included
1x Niimbot D110 Label Printer
1x Label tape (12 x 40 mm)
1x USB cable
1x Manual
Downloads
iOS App
Android App
YDLIDAR TG15 is a 360-degree two-dimensional rangefinder. Based on the principle of TOF, it is equipped with related optics, electricity, and algorithm design to achieve high-frequency and high-precision distance measurement. The mechanical structure rotates 360 degrees to continuously output the angle information as well as the point cloud data of the scanning environment while ranging.
Features
360 degree omnidirectional scanning ranging distance measurement
Small distance error, stable performance and high accuracy
IP65 protection level
Strong resistance to ambient light interference
Industrial grade brush-less motor drive for stable performance
Laser power meets Class I laser safety standards
5-12 Hz adaptive scanning frequency (support customization)
Photomagnetic fusion technology to achieve wireless communication, wireless power supply
Ranging frequency up to 20 kHz (support customization)
Applications
Robot navigation and obstacle avoidance
Industrial automation
Robot ROS teaching and research
Regional security
Smart transportation
Environmental scanning and 3D reconstruction
Commercial robot /Robot vacuum cleaner
Downloads
Datasheet
User Manual
Development Manual
SDK
Tool
ROS
This NVMe M.2 2242 SSD (128 GB) is already pre-installed with Raspberry Pi OS for immediate use with the Raspberry Pi 5 M.2 HAT+.
Features
Form factor: M.2 2242 M-Key NVMe SSD
Pre-loaded with Raspberry Pi OS
High level of ability to endure shock, vibration, and high temperature
SMART TRIM support
PCIe Interface: PCIe Gen3 x2
Compliance: NVMe 1.3, PCI Express Base 3.1
Capacity: 128 GB
Speed:
Read: Up to 1700 MB/s
Write: Up to 600 MB/s
Shock: 1500 G/0.5 ms
Operation temperature: 0°C-70°C
Up to 30x faster than a typical hard disk drive
Boosts burst write performance, making it ideal for typical computer workloads
Faster boot-up, shutdown, application load, and response for Raspberry Pi
Downloads
Datasheet
HyperPixel 4.0 Square has all the great features of our standard HyperPixel 4.0 – a crisp, brilliant IPS display with touchscreen, and high-speed DPI interface – it's just more square!
This square version of HyperPixel 4.0 is great for custom interfaces and control panels, and works really well for Pico-8 games. Everything is pre-soldered and ready to go, just pop it onto your RPi, run our installer, and away you go!
Features
High-speed DPI interface
4.0" IPS (wide viewing angle, 160°) display (72x72 mm)
720x720 pixels (~254 PPI)
18-bit colour (262,144 colors)
60 FPS frame rate
Optional capacitive touchscreen
40-pin female header included to boost height for Raspberry Pi B+, 2, 3, 3B+ and 4
Standoffs included to securely attach to your RPi
Compatible with all 40-pin header Raspberry Pi models
One-line installer
HyperPixel 4.0 Square uses a high-speed DPI interface, allowing it to shift 5x more pixel data than the usual SPI interface that these small RPi displays normally use. It has a 60 FPS frame rate and a resolution of approximately 254 pixels per inch (720x720px) on its 4.0' display. The display can show 18-bits of colour (262,144 colors).
This Touch version has a capacitive touch display that's more sensitive and responsive to touch than a resistive touch display, and it's capable of multi-touch!
Please note: when installing HyperPixel 4.0 Square onto your RPi make sure not to press down on the screen surface! Hold the board by its edges and wiggle it to mate with the extended header (or GPIO header). Also take care not to pull on the edges of the glass display when removing your HyperPixel.
It'll work with any 40-pin version of the RPi, including RPi Zero and RPi Zero W. If you're using it with a larger RPi then use the extra 40-pin header that's included to boost it up to the required height. If you're using a Zero or Zero W then just pop it straight onto the GPIO.
The included standoff kit allows you to mount your HyperPixel 4.0 Square safely and securely to your RPi. Just screw them into the posts on the underside of the HyperPixel 4.0 Square PCB and then secure with screws through the mounting holes on your RPi.
Downloads
GitHub
A meteorologically minded Raspberry Pi HAT designed to make hooking up weather sensors a breeze (or a squall, or a gale). Weather HAT is an all-in-one solution for hooking up climate and environmental sensors to a Raspberry Pi. It has a bright 1.54' LCD screen and four buttons for inputs. The onboard sensors can measure temperature, humidity, pressure and light. The sturdy RJ11 connectors will let you easily attach wind and rain sensors. It will work with any Raspberry Pi with a 40-pin header. You could install it outside in a suitable weatherproof enclosure and connect to it wirelessly – logging the data locally or piping it into Weather Underground, a MQTT broker or a cloud service like Adafruit IO. Alternatively, you could house your weather Pi inside and run wires to your weather sensors outside - making use of the nice screen to display readouts. Features 1.54' IPS LCD screen (240 x 240) Four user-controllable switches BME280 temperature, pressure, humidity sensor (datasheet) LTR-559 light and proximity sensor (datasheet)
Nuvoton MS51 microcontroller with inbuilt 12-bit ADC (datasheet) RJ11 connectors for connecting wind and rain sensors (optional) HAT-format board Fully-assembled Compatible with all 40-pin header Raspberry Pi models Downloads Python library Schematic Included Weather HAT 2 x 10 mm standoffs
Opera Cake is an antenna switching add-on board for HackRF One that is configured with command-line software either manually, or for automated port switching based on frequency or time. It has two primary ports, each connected to any of eight secondary ports, and is optimized for use as a pair of 1x4 switches or as a single 1x8 switch. Its recommended frequency range is 1 MHz to 4 GHz.
When HackRF One is used to transmit, Opera Cake can automatically route its output to the appropriate transmit antennas, as well as any external filters, amplifiers, etc. No changes are needed to the existing SDR software, but full control from the host is available.
Opera Cake also enhances the HackRF One’s use as a spectrum analyzer across its entire operating frequency range of 1 MHz to 4 GHz. Antenna switching works with the existing hackrf_sweep feature, which can sweep the whole tuning range in less than a second. Automatic switching mid-sweep enables the use of multiple antennas when sweeping a wide frequency range.
Downloads
Documentation
GitHub
These high-precision, anti-static tweezers with black ESD coating can be used in electronics for placing SMD components when soldering and for repairing smartwatches, smartphones, tablets, PCs etc. It is ideal for picking up small components in hard to reach places.
Specifications
Length
120 mm
Width
9 mm
The Raspberry Pi USB 3 Hub expands your device connectivity by converting a single USB-A port into four USB 3.0 ports. With an optional external USB-C power input, it can support high-power peripherals, while lower-power peripherals work without additional power. The USB 3 Hub is fully tested for seamless compatibility with all Raspberry Pi products.
Features
Single Upstream Connection: USB 3.0 Type-A connector with an 8 cm captive cable
Four Downstream Ports: USB 3.0 Type-A ports for multiple device connections
High-Speed Data Transfer: Supports speeds up to 5 Gbps
Compatibility: Works with USB 3.0 Type-A host ports and is backward-compatible with USB 2.0 ports
Downloads
Datasheet
This versatile microscope covers a wide magnification range (60-240x, 18-720x, 1560-2040x) with 3 lenses. With this digital microscope, you can examine plants, insects, gems and coins, or do electronic work such as repairing or making circuit boards.
Specifications
AD246S-M
AD249S-M
Magnification
Lens A
18-720
18-720
Focus range
12-320 mm
12-320 mm
Lens D
1800-2040
1800-2040
Focus range
4-5 mm
4-5 mm
Lens L
60-240
60-240
Focus range
90-300 mm
90-300 mm
Screen size
7 inch (17.8 cm)
10 inch (25.7 cm)
Video resolution (max.)
UHD 2880x2160 (24fps)
UHD 2880x2160 (24fps)
Video format
MP4
MP4
Photo format
JPG
JPG
Photo resolution
5600x2400 (with interpolation)
5600x2400 (with interpolation)
Frame rate
Max. 120fps
Max. 120fps
HDMI output
Yes (support dual-screen display)
Yes (only HDMI monitor displays)
PC output
Yes
Yes
Stand size
20 x 18 x 30 cm
20 x 18 x 30 cm
Included
1x Andonstar AD246S-M Digital Microscope
3x Lenses (A, D & L)
1x Slide holder
1x 32 GB microSD card
1x USB cable
1x Switch cable
1x HDMI cable
1x Remote control
5x Prepared Slides
1x Observation box
1x Tweezers
1x Manual
Downloads
Manual
Software
YARD Stick One (Yet Another Radio Dongle) is a sub-1 GHz wireless transceiver IC on a USB dongle. It is based on the Texas Instruments CC1111.
YARD Stick One can transmit or receive digital wireless signals at frequencies below 1 GHz. It uses the same radio circuit as the popular IM-Me. The radio functions that are possible by customizing IM-Me firmware are now at your fingertips when you attach YARD Stick One to a computer via USB.
Features
Half-duplex transmit and receive
Official operating frequencies: 300-348 MHz, 391-464 MHz, and 782-928 MHz
Unofficial operating frequencies: 281-361 MHz, 378-481 MHz, and 749-962 MHz
Modulations: ASK, OOK, GFSK, 2-FSK, 4-FSK, MSK
Data rates up to 500 kbps
Full-Speed USB 2.0
SMA female antenna connector (50 ohms)
Software-controlled antenna port power (max 50 mA at 3.3 V)
Low pass filter for elimination of harmonics when operating in the 800 and 900 MHz bands
GoodFET-compatible expansion and programming header
GIMME-compatible programming test points
Open source
Downloads
Documentation
GitHub
This pack contains the LCR45 Passive Component Impedance Meter, great for advanced hobbyists and professionals. It also contains the very popular DCA Pro (model DCA75), fantastic for component identification, pinout identification, detailed characteristic measurement and curve tracing on a PC. Complete with USB cable and software on a USB flash drive.
DCA75
Building on the continued success of Peak's existing component identification and analysis instruments, the DCA Pro brings an array of exciting new features for the hobbyist and professional alike.
The DCA Pro is an advanced new design that features a graphics display, USB communications, PC Software and an enhanced component identification library.
Automatic component type identification
Automatic pinout identification (connect any way round)
The DCA Pro supports all the components that the popular Peak Atlas DCA55 supports, but adds plenty more. Components supported include:
Transistors (including Darlingtons), Silicon and Germanium types. Measures gain, Vbe and leakage
MOSFETs, enhancement mode and depletion mode types. Measure on-threshold (at 5 mA) and approx transconductance (for span of 3-5 mA)
JFETs, including normally off SiC types. Measures pinch-off voltage (at 1 uA) and approx transconductance (for span of 3-5 mA)
IGBTs (insulated gate bipolar transistors). Measures on-threshold (at 5 mA)
Diodes and Diode networks
LEDs and bicolour LEDs (2 lead and 3 lead types)
Zener Diodes with measurement of zener voltage up to 9 V at 5 mA
Voltage regulators (measures regulation voltage, drop-out voltage, quiescent current)
Triacs and Thyristors that require less than 10 mA of gate current and holding current
Stand-alone or with a PC
The instrument can be used stand-alone or connected to a PC. Either way, the DCA Pro will automatically identify the component type, identify the pinout and also measure a range of component parameters such as transistor gain, leakage, MOSFET and IGBT threshold voltages, pn characteristics and much more.
Curve Tracing
When connected to a PC using the supplied USB cable, a range of low current curve-tracing functions can be performed. Various graph types are available, with more to follow:
Bipolar transistor output characteristics, IC vs VCE
Bipolar transistor gain characteristics, HFE vs VCE
Bipolar transistor gain characteristics, HFE vs IC
MOSFET and IGBT output function, ID vs VDS
MOSFET and IGBT transfer function, ID vs VGS
JFET output function, ID vs VDS
JFET transfer function, ID vs VGS
Voltage regulator, VOUT vs VIN
Voltage regulator, IQ vs VIN.
PN junction I/V curves, forward and reverse options (for Zener diodes)
Curve tracing is performed using test parameters in the range of +/-12 V or +/-12 mA. All curve-tracing data can be instantly pasted into Excel for further graphing and analysis. PC Software is included with the DCA Pro on a Peak USB memory stick. Software designed for Windows 7 and higher (all 32 or 64 bit).
LCR45
A great handheld LCR analyzer that can measure the value of your passive component (inductor, capacitor or resistor) and also measure the detailed impedance in a number of modes. The LCR45 offers enhanced measurement resolution (better than 0.1 uH!) whilst also giving you continuous fluid measurements. Additionally, the test frequencies of DC, 1 kHz, 15 kHz and 200 kHz can be set to automatic or manual modes. Supplied with removable gold plated hook probes, battery and user guide. Compatible with standard 2 mm test connectors. Not designed for in-circuit use.
Automatic or manual component type selection: Inductor, Capacitor or Resistor
Automatic or manual test frequency selection: DC, 1 kHz, 15 kHz and 200 kHz
Inductance from 0.1 uH to 10 H
Capacitance from 0.1 pF to 10,000 uF
Resistance from 0.1 Ohm to 2 MOhm
Inductance measurement also shows DC winding resistance
Display of "Component type and values", "Complex Impedance", "Magnitude/Phase" and "Admittance"
Test frequency displayed for all measurements
Typical accuracy of 1.5% for inductors and capacitors (see spec table for details)
Typical accuracy of 1% for resistors
Test lead complete with gold plated 2 mm plugs and sockets
Supplied with removable gold plated hook probes
Included
LCR45
DCA75
Extra GP23 Battery
Extra AAA cell
Dual Carry Case
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
GreatFET One is a hardware hacker’s best friend. With an extensible, open source design, two USB ports, and 100 expansion pins, GreatFET One is your essential gadget for hacking, making, and reverse engineering. By adding expansion boards called neighbors, you can turn GreatFET One into a USB peripheral that does almost anything.Whether you need an interface to an external chip, a logic analyzer, a debugger, or just a whole lot of pins to bit-bang, the versatile GreatFET One is the tool for you. Hi-Speed USB and a Python API allow GreatFET One to become your custom USB interface to the physical world.Features
Serial protocols: SPI, I²C, UART, and JTAG
Programmable digital I/O
Analog I/O (ADC/DAC)
Logic analysis
Debugging
Data acquisition
Four LEDs
Versatile USB functions
High-throughput hardware-assisted streaming serial engine
Downloads
Documentation
GitHub
The Siglent SDL1020X-E DC Load leads with measurement resolution of 0.1 mV/0.1 mA and the base SDL1000X-E series resolution is 1 mV/1 mA and adjustable current rise times from 0.001 A/μs~2.5 A/μs. For remote communication and control, the SDL series includes S232/USB/LAN interface types. The SDL1020X-E delivers stability over a wide range of applications and can meet all kinds of testing requirements. including: Power, battery/handheld device design, industry, LED lighting, automotive electronics, and aerospace.
Features
SDL1020X-E (Single channel): DC 150 V/30 A, total power 200 W
4 static modes / Dynamic mode: CC/CV/CR/CP
CC Dynamic mode: Continuous, pulsed, toggled
CC Dynamic mode: 25 kHz, CP Dynamic mode: 12.5 kHz, CV Dynamic mode: 0.5 Hz
Measuring speed of voltage and current: up to 500 kHz
Adjustable current rise time range: 0.001 A/us~2.5 A/us
Min. readback resolution: 0.1 mV, 0.1 mA
Short-circuit, Battery test, CR-LED mode, and factory test functions
4-wire SENSE compensation mode function
List function supports editing as many as 100 steps
Program function supports 50 groups of steps
OCP, OVP, OPP, OTP and LRV protection
External analog control
Voltage, Current monitoring via 0-10 V
3.5 inch TFT-LCD display, capable of displaying multiple parameters and states simultaneously
Built-in RS232/USB/LAN communication interface, USB-GPIB module (optional)
Waveform trend chart and easy-to-use file storage and call functions
Includes PC software: Supports SCPI, LabView driver
Included
1x Siglent SDL1020X-E DC Programmable Load
1x Quick start guide
1x Guarantee Card
1x Power Cord
1x USB Cable
Downloads
Datasheet
Manual
Programming Guide
PC Software
