The SEQURE ES666 is a smart electric screwdriver designed for precision tasks such as assembling and disassembling electronics, RC models, drones, and more.
It features multiple operation modes: Sensing Mode, Fixed Mode, and Automatic Mode, allowing for versatile use. The device includes an OLED display and a 600 mAh rechargeable battery providing up to 4 hours of no-load operation.
Features
Smart Control: Supports angle sensing control and adjustable sensitivity. It starts and stops automatically for hands-free operation, and stops automatically when the screw is fully tightened.
Enhanced Visibility: Equipped with front-facing shadowless LED lights with on/off and delay modes.
Robust Design: Constructed with a metal shell and anti-slip strips for a secure grip that prevents rolling.
High-Quality Bits: Includes durable S2 steel bits with built-in strong magnets for fast screw assembly and disassembly.
Powerful Performance: Features a metal gear reduction motor and a built-in high-capacity battery for stable, continuous use.
Smart Display: Comes with a dynamic multi-functional UI interface and supports firmware upgrades.
Versatile Use: Offers 7 torque settings to suit a variety of tasks – ideal for repairing, assembling, or disassembling RC models, drones, mobile phones, computers, watches, glasses, and other electronics.
Specifications
Manual Torque
22kgf.cm / 2.2N.m
Torque Gears
7
Battery
600 mAh
No-load Speed
250 rpm
Working Time
No-load 4h
Charging
USB-C 5 V
Bits
4 mm Hexagon
Display
128 x 32 OLED
Front Lighting
LED
Working Modes
Sensing, Fixed, Automatic
Firmware Upgrades
Yes
Menu Languages
English, Russian, and Chinese
Dimensions
15 x 16 x 140 mm
Weight (Screwdriver)
57 g
Included
1x SEQURE ES666 Electric Screwdriver
30x Magnetic S2 steel bits
1x USB-C charging cable
1x Carrying case
Clever Tricks with ATmega328 Pro Mini BoardsWith a simple Pro Mini board and a few other components, projects that 20 or 30 years ago were unthinkable (or would have cost a small fortune) are realized easily and affordably in this book: From simple LED effects to a full battery charging and testing station that will put a rechargeable through its paces, there’s something for everyone.All the projects are based on the ATmega328 microcontroller, which offers endless measuring, switching, and control options with its 20 input and output lines. For example, with a 7-segment display and a few resistors, you can build a voltmeter or an NTC-based thermometer. The Arduino platform offers the perfect development environment for programming this range of boards.Besides these very practical projects, the book also provides the necessary knowledge for you to create projects based on your own ideas. How to measure, and what? Which transistor is suitable for switching a certain load? When is it better to use an IC? How do you switch mains voltage? Even LilyPad-based battery-operated projects are discussed in detail, as well as many different motors, from simple DC motors to stepper motors.Sensors are another exciting topic: For example, a simple infrared receiver that can give disused remote controls a new lease on life controlling your home, and a tiny component that can actually measure the difference in air pressure between floor and table height!
The ZD-987 Soldering & Desoldering Station is a high-performance, multifunctional tool designed for electronic product research, manufacturing, and rework. It is ideal for use in laboratories, education, and production environments – especially for repairing and reworking electronic devices and communication equipment.
The soldering iron and desoldering gun are each controlled automatically by dedicated microprocessors. Thanks to digital control electronics, a high-precision sensor, and an efficient heat exchange system, the station ensures accurate temperature regulation at the soldering tip.
Maximum temperature accuracy and optimal thermal response under load are achieved through rapid, precise measurement within a closed-loop control circuit. This design is specifically optimized for lead-free soldering processes.
Soldering Iron
The 60 W soldering iron, compatible with a wide range of N4 series soldering tips, is suitable for virtually any task in the electronics field. Its high power output and slim design make it ideal for precise, fine-pitch soldering work.
Equipped with a PTC heating element and a sensor located directly at the soldering tip, the iron ensures fast and accurate temperature control for consistent soldering results.
Desoldering Gun
The 80 W desoldering gun, compatible with a wide range of N5 series tips, is suitable for virtually any desoldering task in the electronics field. Its high power output and ergonomic gun-type design make it perfect for precise and detailed desoldering work.
Featuring a PTC heating element and a sensor located directly at the desoldering tip, it ensures rapid and accurate temperature control for consistent performance.
Features
Ideal for production and service use
The soldering iron and desoldering gun can be operated independently or simultaneously
Dual two-line LCD readout simultaneously displays tip temperature and setpoint in °C or °F
Adjustable temperature range from 160°C to 480°C (320°F to 896°F)
Push-button up/down control for temperature setting
Specifications
Voltage
220-240 V, 50 Hz
Power
160 W
Included
1x ZD-987 Soldering & Desoldering Station (Unit)
1x Soldering iron
1x Desoldering gun
1x Soldering iron stand with sponge
1x Desoldering iron stand
4x Filters
2x Nozzles
3x Clearing tool set
1x Black air nozzle with seal ring
1x Cable
1x Manual
Cool Projects for Test, Measurement, and Control
The Raspberry Pi has dominated the maker scene for many years. Freely accessible I/O pins have made it one of the most popular processor boards of all time. However, the classic Raspberry Pi has no analog inputs. Direct measurement of analog values is therefore not possible. Consequently, photodiodes, NTCs, Hall sensors, etc. cannot be read directly. In addition, the pins are connected directly to the exposed contacts, i.e. without a driver or protection circuit. This can quickly destroy the central controller and thus the entire Raspberry Pi.
These problems can be elegantly solved with the Pico. As a front-end, it can easily handle a wide range of measurement tasks. In addition, the Pico is much cheaper than a classic Raspberry Pi 4 or 5. If a faulty circuit leads to the destruction of the Pico, this is relatively easy to handle. This makes the combination of a classic Raspberry Pi 4 or 5 and the Pico an ideal pair.
The book introduces the broad and highly topical field of modern controller technology using the combined force of a Raspberry Pi 4 or 5 and a Raspberry Pi Pico. In addition to a detailed introduction to the operation and functionality of the controller boards themselves, the book also focuses on data acquisition and processing with digital processors. Especially the combination of both systems offers a wide range of interesting possibilities.
Some practical projects from the contents:
USB between Raspberry Pi 4 or 5 and Pico
I²C Communication and Pico as an I²C device
Voltmeter and Computer Thermometer
Pico W as a Web Server and WLAN Scanner
Frequency Meters and Generators
OLED Displays on Raspberry Pi 4 or 5 and Pico
Energy Saving Monitor
Which Astronauts are in Orbit?
Mini Monitor for Current Bitcoin Exchange Rate
Cool Projects for Test, Measurement, and Control
The Raspberry Pi has dominated the maker scene for many years. Freely accessible I/O pins have made it one of the most popular processor boards of all time. However, the classic Raspberry Pi has no analog inputs. Direct measurement of analog values is therefore not possible. Consequently, photodiodes, NTCs, Hall sensors, etc. cannot be read directly. In addition, the pins are connected directly to the exposed contacts, i.e. without a driver or protection circuit. This can quickly destroy the central controller and thus the entire Raspberry Pi.
These problems can be elegantly solved with the Pico. As a front-end, it can easily handle a wide range of measurement tasks. In addition, the Pico is much cheaper than a classic Raspberry Pi 4 or 5. If a faulty circuit leads to the destruction of the Pico, this is relatively easy to handle. This makes the combination of a classic Raspberry Pi 4 or 5 and the Pico an ideal pair.
The book introduces the broad and highly topical field of modern controller technology using the combined force of a Raspberry Pi 4 or 5 and a Raspberry Pi Pico. In addition to a detailed introduction to the operation and functionality of the controller boards themselves, the book also focuses on data acquisition and processing with digital processors. Especially the combination of both systems offers a wide range of interesting possibilities.
Some practical projects from the contents:
USB between Raspberry Pi 4 or 5 and Pico
I²C Communication and Pico as an I²C device
Voltmeter and Computer Thermometer
Pico W as a Web Server and WLAN Scanner
Frequency Meters and Generators
OLED Displays on Raspberry Pi 4 or 5 and Pico
Energy Saving Monitor
Which Astronauts are in Orbit?
Mini Monitor for Current Bitcoin Exchange Rate
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
Whatever the methods or even then financial means you have to make your circuits work, the power supply should rank high if not Number One in your considerations. The design block simply called “power supply” is hugely underrated both in electronics creation and repair. Yet, the “PSU” has enormous diversity and comes in wildly differing guises like AC/DC, generator, battery (rechargeable or not), PV panel, benchtop, linear or switch-mode, to mention but a few. The output ranges are also staggering like nano-amps to kiloamps and the same for voltages.This special covers the features and design aspects of power supplies.ContentsBasics
Battery ManagementWhat to be aware of when using (Lithium) batteries.
Fixed-Voltage Power Supply using Linear RegulatorsThe best result right after batteries.
Light Energy HarvestingA small solar panel is used in an energy harvesting project to manage and charge four AAA cells.
Mains Powered Adapter DesignBasic circuits and tips for transformers, rectification, filtering and stabilization.
LM317 Soft StartThe high inrush current pulse should be avoided.
Controllable RectifiersSome suggestions to keep the power loss in the linear regulator as low as possible.
Components
Worksheet: The LM117 / LM217 / LM317 Voltage Regulators
SupercapsLow voltage but lots of current… or not?
Reviews
JOY-iT RD6006 Benchtop Power Supply Kit
Siglent SDL1020X Programmable DC Electronic Load
Projects
Balcony Power PlantDIY solar balcony = speedy payback!
DIY LiPo Supercharger KitFrom handcrafted to mass market
Dual-Anode MOSFET ThyristorFaster and less wasteful than the old SCR
Battery JuicerDo not throw away, squeeze!
High-Voltage Power Supply with Curve TracerGenerate voltages up to 400 V and trace characteristics curves for valves and transistors
High Voltage Supply for RIAAFor RIAA tube preamps and other applications.
MicroSupplyA lab power supply for connected devices
Phantom Power Supply using Switched CapacitorsVoltage tripler using three ICs
The SMPS800RE Switch-Mode Supply for the Elektor Fortissimo-100Reliable, light and affordable
Soft Start for PSUBe nice to your power supply – and its load
UniLab 20-30 V, 3 A compact switch-mode lab power supply
Tips
Soft Start for Step-Down Switching Regulators
Low Loss Current Limit
Powerbank Surprise
A Virtual Ground
Battery Maintainer
Battery Pack Discharger
Connecting Voltage Regulators in Parallel
This carrier board combines a 2.4" TFT display, six addressable LEDs, onboard voltage regulator, a 6-pin IO connector, and microSD slot with the M.2 pin connector slot so that it can be used with compatible processor boards in our MicroMod ecosystem. We've also populated this carrier board with Atmel's ATtiny84 with 8kb of programmable flash. This little guy is preprogrammed to communicate with the processor over I²C to read button presses.
Features
M.2 MicroMod Connector
240 x 320 pixel, 2.4" TFT display
6 Addressable APA102 LEDs
Magnetic Buzzer
USB-C Connector
3.3 V 1 A Voltage Regulator
Qwiic Connector
Boot/Reset Buttons
RTC Backup Battery & Charge Circuit
microSD
Phillips #0 M2.5 x 3 mm screw included
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
Features Simple slide angle adjustment Camera Module protection 'sandwich' plates Made from crystal clear laser-cut acrylic in the UK 1/4 inch hole for tripod mounting Stable 4-leg base Here you can find the Assembly Instructions.
This kit is based on ESP32 and LoRa. The ESP32 3.5" display is the console for the system, it receives the LoRa message from LoRa moisture sensors (support up to 8 sensors in the default firmware), and send control commands to LoRa 4-channel MOSFET (2 4-channel MOSFET supported, with totally 8 channels), to control the connected valves open/close, and thus to control the irrigation for multiple points.
Features
Ready to use: Firmware are pre-programmed for all the modules before shipping, the user can only power them up and set the ID to the console, and start to use. Suitable for none-programmers, in 3 minutes to create filed application.
With Lora wireless connection: The monitor & control range can be up to few kilometer, suitable for garden/small farm.
Soil moisture sensor with good corrosion resistance, can be used at least half an year with 2 AAA battery.
Easy to install: Compares to cheap solution with wires, which is hard to implement in files application, there the connection wires do not needed, the whole installation clean and easy; The valves can be connected Lora MOSFET easily.
Hardware & Software Open: To study Lora & FreeRTOS. The ESP32 display console/Lora Soil Moisture Sensor/LoRa MOSFE are all programmed with Arduino. For programmers/engineers, can development further more specialized application.
Based on ESP32, with WiFi connection, the console can also access to internet, the create much more applications including the moisture data updating to internet for remote monitor, and remote control with MQTT.
Included
1x ESP32 3.5' Display (without camera)
1x Lora Expansion for ESP32 Display
2x Lora Moisture Sensor
1x Lora 4-channel MOSFET
1x 12 V Power Supply
Water Pipe (5 m)
1x 1-input & 4-output Pipe Joint
Downloads
Instructable: Soil Monitoring & Irrigation with LoRa
GitHub
Clever Tricks with ATmega328 Pro Mini BoardsWith a simple Pro Mini board and a few other components, projects that 20 or 30 years ago were unthinkable (or would have cost a small fortune) are realized easily and affordably in this book: From simple LED effects to a full battery charging and testing station that will put a rechargeable through its paces, there’s something for everyone.All the projects are based on the ATmega328 microcontroller, which offers endless measuring, switching, and control options with its 20 input and output lines. For example, with a 7-segment display and a few resistors, you can build a voltmeter or an NTC-based thermometer. The Arduino platform offers the perfect development environment for programming this range of boards.Besides these very practical projects, the book also provides the necessary knowledge for you to create projects based on your own ideas. How to measure, and what? Which transistor is suitable for switching a certain load? When is it better to use an IC? How do you switch mains voltage? Even LilyPad-based battery-operated projects are discussed in detail, as well as many different motors, from simple DC motors to stepper motors.Sensors are another exciting topic: For example, a simple infrared receiver that can give disused remote controls a new lease on life controlling your home, and a tiny component that can actually measure the difference in air pressure between floor and table height!
