Search results for "make lab"
JOY-iT JOY-iT DPM8605 Programmable Power Supply (0-60 V, 0-5 A)
The JT-DPM8605 is a programmable buck power supply which converts voltage and current down. It has both a constant voltage – and a constant current mode. With its TTL interface, it is possible to manage any setting comfortably via your PC with a free software. This easy operability and the high accuracy of the current and voltage display make this device stand out. On the device, there are 4 buttons to control it manually, too. The display has got a diagonal of 1.7 Inch (4.3 cm).As optional equipment for this power supply, there is a wireless control panel available, which enables telecommanding from a distance of up to 10 meters (without any obstacles) to any setting and data.Specifications Interface TTL Input Voltage 10-75 VDC Output Voltage 0-60 VDC Output Current 0-5 A Power 0-300 W Voltage Resolution 10 mV Current Resolution 1 mA Ripple <50 mVpp Response Time <50 ms Voltage Display Accuracy 10 mV Current Display Accuracy 1 mA Voltage Fault Tolerance 2 ‰ + 1 digit Current Fault Tolerance 5 ‰ + 1 digit Operating Temperature -10°C - 45°C Dimemsions 131 x 112 x 55 mm Weight 260 g Downloads JT-DPM8605 Datasheet JT-DPM8600 Manual JT-DPM86xx Driver Software
€ 42,95
Members € 38,66
Excamera Labs SPIDriver
SPIDriver shows you what’s happening on the SPI bus in real time, so no more guessing about the bus state. Its purpose is to make understanding the functioning of SPI hardware more intuitive. It's useful if you're into debugging hardware or simply introduce a class to SPI for the first time.You can directly control LEDs and LCD displays just by having SPIDriver and you won't have to deal with microcontrollers. It's also a useful tool for examining, backing up and cloning an SPI flash as well as reading and writing SPI flash in circuit.SPIDriver is also applicable if you want to drive, test and evaluate different displays.With the help of current and voltage monitoring you'll be able to detect electrical problems at early stages. Thanks to the included color coded wires you can hook SPIDriver up without much effort; no pinout diagram required. It includes 3.3 V and 5 V supplies for your device, plus a high-side current meter.SPIDriver comes with software to control it from: a GUI the command-line C and C++ using a single source file Python 2 and 3, using a module Technical features Live display shows you exactly what it’s doing all the time Sustained SPI transfers at 500 Kbps USB line voltage monitor to detect supply problems, to 0.01 V Target device high-side current measurement, to 5 mA Two auxiliary output signals, A and B Two dedicated power outlines: of 3.3 V and 5 V All signals color coded to match jumper colors All signals are 3.3 V, and are 5 V tolerant Uses an FTDI USB serial adapter, and Silicon Labs automotive-grade EFM8 controller Also reports uptime, temperature, and running CRC of all traffic All sensors and signals controlled using a simple serial protocol GUI, command-line, C/C++, and Python 2/3 host software provided for Windows, Mac, and Linux Details Maximum power out current: up to 470 mA Signal current: up to 10 mA Device current: up to 25 mA Dimensions: 61 mm x 49 mm x 6 mm Interface: USB 2.0, micro USB connector Contents (SPIDriver Core) 1x SPIDriver 1x Set of hookup jumpers
€ 49,95
Members € 44,96
Elektor Labs USB-RS232 Converter (FT231X BoB)
In 2011 we published a small PCB, FT232R USB/Serial Bridge/BOB (110553) with a USB-UART IC from FTDI, the FT232RQ. Here we present its successor with a cheaper version, an FT231XQ. But there are some other changes too. Instead of connectors, alongside the PCB, normal pin headers are used that are mounted on the bottom side and make the PCB a little smaller when mounted, compared to the old BoB. An ESD protection device (D1) is added in the USB data signal lines for extra safety. Despite less room for all parts to fit on the PCB, it is only a little over 2 mm longer. The FT231 has four configurable CBUS I/O pins, one less now. More importantly, however, the power supply for the I/O's VCCIO is only specified for +1.8 V to +3.3 but is 5 V tolerant for external UART logic running on +5 V. The +3.3 V internal regulator of the FT231 can deliver 50 mA to external circuitry. The manufacturer FTDI has a utility to configure several settings, FTPROG. Such as the function of the CBUS pins. By default, CBUS1 and CBUS 2 are low-level outputs to drive receive and transmit LEDs, indicating data transfer on the USB bus. So, when receiving data through the UART, the TX LED lights up. If you prefer this the other way around, FTPROG can be used to change this. But be careful the chip can become unresponsive when wrong settings are programmed. Some of the more important properties of the new BoB: Micro-USB connector USB 2.0 Full Speed capable VCCIO +1.8...+3.3 V (max. 4 V, 5 V input from UART logic tolerant) +3.3 V regulator output, max. 50 mA Data transfer 300 baud to 3 Mbaud UART Compatible with RS232, RS485, and RS422 I/O pin output drive 4 mA - 16 mA 4 configurable CBUS pins Here you can find information regarding the EEPROM Programming Utility, the VCP Drivers and the D2XX Drivers.
€ 19,95
Members € 17,96
Cytron Cytron Maker pHAT for Raspberry Pi
The Maker pHAT is the solution to the most common problems beginners face starting with Raspberry PI. Its intelligent and simple design makes it easy to attach to your Pi, and it helps you avoid all the tedious work of connection various other accessories. Additionally, the LEDs corresponding to each pin makes it extremely easy to see where a potential problem lies The Maker pHat has the same size as the Raspberry Pi Zero with all 4mounting holes aligned. However, it can be used with Raspberry Pi 3B, 3B+ and 3A+, by inserting a 2 x 20 stacking header. Features Raspberry Pi Zero size, stack perfectly on to Raspberry Pi Zero Compatible with standard size Raspberry Pi 3B / 3B+, medium size Raspberry Pi 3A+ and smaller size Raspberry Pi Zero / W / WH. Standard Raspberry Pi GPIO footprint. LED array for selected GPIO pins (GPIO 17, 18, 27, 22, 25, 12, 13, 19). 3x on board programmable push buttons (GPIO 21, 19 and 20, need to configure as input pull up). Onboard active buzzer (GPIO 26). Proper labels for all GPIOs, including SPI, UART, I2C, 5V, 3.3V, and GND. Utilize USB Micro-B socket for 5V input and USB to UART communication. USB serial facilitated by the FT231X Input voltage: USB 5 V, from a computer, power bank or a standard USB adapter. Mount on Raspberry Pi Zero Mount on Raspberry Pi 3B, 3B+ and 3A+
€ 14,95
Members € 13,46
Cytron Cytron Maker Pi Pico (with pre-soldered Raspberry Pi Pico)
The Cytron Maker Pi Pico (with Raspberry Pi Pico RP2040 soldered on Board) incorporates the most wanted features for your Raspberry Pi Pico and gives you access to all GPIO pins on two 20 ways pin-headers, with clear labels. Each GPIO is coupled with an LED indicator for convenient code testing and troubleshooting. The bottom layer of this board even comes with a comprehensive pinout diagram showing the function of each pin. Features Work out-of-the-box. No soldering! Access to all Raspberry Pi Pico's pins on two 20 ways pin headers LED indicators on all GPIO pins 3x programmable push button (GP20-22) 1x RGB LED – NeoPixel (GP28) 1x Piezo buzzer (GP18) 1x 3.5 mm stereo audio jack (GP18-19) 1x Micro SD card slot (GP10-15) 1x ESP-01 socket (GP16-17) 6x Grove port Specifications Core 32-bit ARM Cortex-M0+ CPU Clock 48 MHz, up to 133 MHz Flash Size 2 MByte Q-SPI Flash Programming Language MicroPython, C++ Board Power Input 5 VDC via MicroUSB Alternative Board Power 2-5 VDC via VSYS Pin (Pin 39) MCU Voltage 3.3 VDC GPIO Voltage 3.3 VDC USB Interface USB 1.1 Device Host Program Loading MicroUSB, USB Mass Storage GPIO 26x Input/Output ADC 3x 12-bit 500 ksps Temperature Sensor Built-in, 12-bit UART 2x UART I²C 2x I²C SPI 2x SPI PWM 16x PWM Timer 1x Timer with 4 x Alarm Real-Time Counter 1x Real Time Counter PIO 2x Programmable High-Speed I/O On-Board LED 1x Programmable LED On-Board Button 1x BOOTSEL Button
€ 24,95
Members € 22,46
Cytron Cytron Maker Hat Base - HAT & GPIO Extension for Raspberry Pi 400
Maker Hat Base extends out all the GPIOs of the Raspberry Pi 400 in a quick and simple way – be it using your favorite HAT or building your own simple circuit with jumper wires on the mini breadboard.Since a ribbon cable is used for the connection, the Maker Hat Base is compatible with the Raspberry Pi 3 and Pi 4 too. This is especially useful when the Raspberry Pi is enclosed in a case and you want to extend its GPIOs out for HAT.Each GPIO pin is clearly labeled and its status LED is definitely helpful during testing and troubleshooting. The onboard buzzer and push buttons will get you to start coding in no time without the need of building your own circuit. Features Specially designed for Raspberry Pi 400 Compatible with Raspberry Pi 3 & 4 Extension pins for HAT Labeled GPIOs breakout for jumper wires Status LEDs for each GPIOs 1x programmable buzzer 4x programmable push buttons 3x Grove ports (GPIO, UART & I²C) for external modules Onboard 3.3 V regulator provides extra current up to 800 mA Included 1x Maker Hat Base 1x Mini Breadboard (Random Color) 1x 40 Ways Female to Female IDE cable (10 cm) 1x Flat Cable Clamper with Adhesive (60 mm) 4x Silicone Bumper 1x PC104 2x20 Header Pin Downloads Datasheet CAD File
€ 19,95€ 12,95
Members identical
Elektor Digital Elektor Special: Power Supplies and Batteries (PDF)
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
€ 11,95
Members € 10,76
Elektor Special: Power Supplies and Batteries
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
€ 14,95
Members € 13,46
Cambridge University Press The Art of Electronics (3rd Edition)
At long last, here is the thoroughly revised and updated third edition of the hugely successful The Art of Electronics. It is widely accepted as the best single authoritative book on electronic circuit design.In addition to new or enhanced coverage of many topics, the third edition includes 90 oscilloscope screenshots illustrating the behavior of working circuits, dozens of graphs giving highly useful measured data of the sort that is often buried or omitted in datasheets but which you need when designing circuits, and 80 tables (listing some 1650 active components), enabling intelligent choice of circuit components by listing essential characteristics (both specified and measured) of available parts.The new Art of Electronics retains the feeling of informality and easy access that helped make the earlier editions so successful and popular. It is an indispensable reference and the gold standard for anyone, student or researcher, professional or amateur, who works with electronic circuits. Over 450,000 copies sold of first and second editions The leading practical guide to circuit design Fully up to date and packed with valuable advice About the authorsPaul Horowitz is a Research Professor of Physics and of Electrical Engineering at Harvard University, where in 1974 he originated the Laboratory Electronics course from which emerged The Art of Electronics. In addition to his work in circuit design and electronic instrumentation, his research interests have included observational astrophysics, x-ray and particle microscopy, and optical interferometry. He is one of the pioneers of the search for intelligent life beyond Earth (SETI). He is the author of some 200 scientific articles and reports, has consulted widely for industry and government, and is the designer of numerous scientific and photographic instruments.Winfield Hill is by inclination an electronics circuit-design guru. After dropping out of the Chemical Physics graduate program at Harvard University, and obtaining an EE degree, he began his engineering career at Harvard’s Electronics Design Center. After 7 years of learning electronics at Harvard he founded Sea Data Corporation, where he spent 16 years designing instruments for Physical Oceanography. In 1988 he was recruited by Edwin Land to join the Rowland Institute for Science. The institute subsequently merged with Harvard University in 2003. As director of the institute’s Electronics Engineering Lab he has designed some 500 scientific instruments. Recent interests include high-voltage RF (to 15kV), high-current pulsed electronics (to 1200A), low-noise amplifiers (to sub-nV and pA), and MOSFET pulse generators.
€ 89,00
Members € 80,10
SB Components StackyPi - Raspberry Pi RP2040 based Board
StackyPi consists of standard Raspberry Pi 40 pins on its board for Raspberry Pi HAT. One can plug Raspberry Pi HAT by directly putting it on the StackyPi that has the power pins for the connection. StackyPi is a board on which, clear and descriptive pin labels make the process easier for the user. Features Dual Arm Cortex-M0+ processor 264 KB RAM DMA Controller Operating Voltage: 3.3 V GPIO / UART / SPI / I²C Pins: 40 Flash Memory: 64 MB Dimensions: 65 x 30 mm Downloads STEP File Product Dimension 3D PDF File Schematic File GitHub
€ 19,95
Members € 17,96
About Elektor
-
, by Clemens Valens FNIRSI SG-003A Signal Generator
The FNIRSI SG-003A Multi-Functional Signal Generator is a kind of process meter for generating and measuring voltages, currents, and frequencies compatible with PLCs and other...