Friday, April 29, 2016

Low Power High Resolution 3-Axis Accelerometer

This module is a 3-axis accelerometer sensor with high resolution and low power consumption. Has supported 16-bit binary format. This module can be used to measure the acceleration of gravity static and dynamic acceleration caused by the movement / vibration.

specifications:
- Dimensions (mm): 23.3 (L) x 18.2 (W) x 11.6 (H).
- Low power consumption: Measurement mode = 23μA | Standby mode = 0,1μA. All using typical voltage = 2,5V.
- The scale of power consumption change automatically with bandwidth.
- System memory settings are already embedded with FIFO technology makes the processor work lighter.
- Detection of single tap and double tap.
- Monitoring the presence or absence of activity. Detect motion freefall.
- Range-voltage I / O: 1,7V - Vs
- Interface SPI (3- and 4-wire) and I²C digital.
- Mode interrupt flexible so that it can be mapped to other interrupt pin.
- Hold shocks up to 10.000g.

MyoWare Cable Shield

The MyoWare Muscle Sensor is now designed to be wearable allowing you to attach biomedical sensor pads directly to the board itself. However, there still may be cases where you want to mount the sensor pads away from the other hardware, this is where the MyoWare Cable Shield comes in. This shield provides a 3.5mm jack where you can attach a three electrode sensor cable allowing you to test and use the MyoWare Muscle Sensor without actually attaching it to your person.

The MyoWare Cable Shield is equipped with two rows of 3-pin plated through holes on each end of the board. This allows for standard 0.1" headers to be used to stack the shield with other MyoWare boards.

The MyoWare Muscle Sensor, that this shield attaches to, is an Arduino-powered, all-in-one electromyography (EMG) sensor from Advancer Technologies. The MyoWare board acts by measuring the filtered and rectified electrical activity of a muscle; outputting 0-Vs Volts depending the amount of activity in the selected muscle, where Vs signifies the voltage of the power source.

Wednesday, April 27, 2016

LogicStart MegaWing for Papilio

The LogicStartMegaWing provides everything needed to get started with VHDL and FPGA development on the Papilio with one convenient and easy to connect circuit board.
 
Learn VHDL with Mike Field's free eBook written specifically for the Papilio and LogicStartMegaWing. Step by step examples and full source code walks you through using all the peripherals on the LogicStart. 
 
Dive into the exciting world of customizable Soft Processor's with the ZPUino. Custom peripheral's such as a ZX Spectrum compatible VGA adapter and classic audio chips are just a few of the exciting possibilities. The LogicStart gives you peripherals to experiment with!
 
Explore the VHDL source code of classic video games such as Pac-Man! The LogicStart's VGA output and Micro-Joystick allow all of the Papilio Arcade games to be synthesized.

Specifications
  • 7 Segment Display - 4 Character
  • VGA Port - 3r,3g,2b VGA Output
  • Mono Audio Jack - 1/8" Jack, Low Pass Filter, Delta Sigma DAC
  • Micro-Joystick - 5 directions
  • SPI ADC - 12-bit, 1Msps, 8 Channel
  • 8 LED's - User Feedback
  • 8 Slide Switches - User Input
Requirements
The LogicStartMegaWing requires the Papilio Pro,  Papilio One 500K, or the Papilio One 250k board..

Papilio Duo-512KB FPGA and Arduino-Compatible Chip

The Papilio DUO has an FPGA on the top and the same chip that is used in the Arduino Leonardo (ATmega32U4) on the bottom. It's like having an Arduino with a full circuit laboratory connected to it! For example, you can draw circuits to move pins, connect extra serial ports, or connect a bitcoin miner to the Arduino-Compatible chip. Just plug it into your computer using a USB cable, download our software and start drawing your own circuits.

FPGA Unleashed!
Our dream is to take the hardcore out of FPGA (Field Programmable Gate Array) and make it an amazing tool that anyone can use for creative technology projects. 

Just like the Arduino team simplified C++ programming, we simplify FPGA design by providing easy to use drag and drop circuit libraries. We believe that drawing circuits will result in an amazing outpouring of creative FPGA projects!

Use the Papilio DUO to unleash your inner DaVinci. Draw and debug circuits on a chip without any soldering, breadboarding, or weird programming languages. Set your imagination free and put an FPGA in your creative arsenal!

Hardware
The Papilio DUO is a third generation Papilio board. As such, it benefits from all of the tricks we've learned along the way as well as extensive feedback from the community.  This past experience and community feedback drove the development of this board and puts the users needs first.

Extensible - The first thing that people always ask for is the ability to use their Arduino shields. We listened and started with an Arduino-Compatible footprint, retained support for six Papilio Wings, and even squeezed in support for one PMOD connector! Adding new hardware to your FPGA has never been easier, there is a huge selection of hardware out there just waiting for you to discover.

SRAM - Easy to use SRAM is a must. We've used SDRAM in the past and it was a big mistake! The strict timing requirements and interfacing caused fits for everyone. SRAM is asynchronous and dead easy to use, you will greatly appreciate the simplicity of SRAM in your projects.
  
Features: 

Software and Features
The Papilio DUO is much more then just hardware. In fact, the software is the secret sauce that sets the DUO apart from other FPGA boards. It lets you draw up circuits without investing time and energy in learning VHDL/Verilog.

We start with the Arduino IDE (Integrated Development Environment) and supercharge it by adding circuits into the mix. We bring all of the pieces needed to draw and debug your very own circuits in one place. It's an easy and seamless user experience that we call Papilio DesignLab for use with both Windows and Linux.

Papilio DesignLab
We start with the Arduino IDE but every sketch now has a circuit associated with it - editing and debugging circuits is just a click away!

Simply draw and debug your circuits!
Click on the "Edit Circuit" button and simply draw your circuits using the Xilinx ISE schematic editor and our Papilio Circuit Library.

Logic Analyzer
Drop a professional quality Logic Analyzer into any circuit and know instantly what it's doing. Up to 32 channels and 200Mhz speed handles any circuit you can throw at it. Use up to 75KB of internal memory or the external SRAM memory.

System on Chip - Draw Soft Processor Circuits!
Want to get into more complex circuits? DesignLab includes the ZPUino Soft Processor with a Wishbone bus, providing greater speed and flexibility than the Arduino-Compatible chip. A Soft Processor runs inside the FPGA and uses the Wishbone bus to make it easy to connect peripheral circuits, such as UARTs, PWMs or SPI masters. Making your own Soft Processor with just the right mix of peripheral circuits is known as a SOC (System On Chip) design. With DesignLab you can draw your SOC designs in minutes! 

Create SOCs with ten serial ports, or a PWM on every pin, or something exotic like classic Atari and Commodore audio chips connected at the same time. The sky is the limit, you can create things that don't exist anywhere else!

Example of making your own SOC design with ZPUino and a Commodore 64 SID audio chip. (This tutorial was written for an earlier version of our software. DesignLab integrates circuits and sketches together for a much easier and seamless user experience.)


Hardware Specifications:
A) Spartan 6 LX9 FPGA
B) High efficiency LTC3419 Switching Voltage Regulator
C) Dual Channel FTDI FT2232H USB 2.0 Interface 
D) 512KB or 2MB ISSI IS61WV5128 SRAM 
E) 64Mbit Macronix MX25L6445 SPI Flash 
F) Atmel AVR ATmega32U4 - Arduino-Compatible Chip
G) 54 I/O pins arranged in an Arduino-Compatible Mega Form Factor
H) Digital Pins 0-16 Connected to FPGA and ATmega32U4

Raspberry Pi Essential Kit

Raspberry Pi Essential Kit
Kit Raspberry Pi which comprises all the basic spare parts to run the Raspberry Pi.
Consists of :

  • Raspberry Pi B +
  • Micro SD 8GB Class 10 w / Raspberry pi OS
  • Adaptor 5V 2A (White)
  • Casing (White)
  • HDMI Cable
  • USB to Micro USB
  • Box

Arduino Expansion Shield for Raspberry Pi B+ (Compatible with RPi 2 Model B)

We all know Raspberry Pi is a mini-computer running on Linux operating system; while Arduino is a microcontroller running on simple I/Os. Both of them focuses on very different areas. Compared with Arduino, the Pi gets much better computing performance.

So What happens when a Pi meets an Arduino?

A simple example would be, when building a mobile robot, we use the Raspberry Pi to extend its vision and get a nice tiny monitor. Meanwhile, Arduino handle nicely with the motor driving part and delivers fast responses like obstacle avoidance. Because, without the OS, the response time of rapid changes on the Arduino is much shorter. Also the high performance Pi can deals much easily with wireless communications, imaging and running complex algorithm.

Therefore, with the Arduino and Pi together, you get a powerful "brain" and "cerebellum" for your project, at one time.

SPECIFICATION

  • Onboard Microcontroller: ATmega32u4
  • Arduino Leonardo Chip
  • Arduino Compatible pin mapping
  • Compatible with All arduino standard shield and sensors
  • System Voltage: 5v
  • Arduino Digital I/O: 20
  • Arduino Analog I/O: 6
  • Raspberry Pi B+ GPIO: 16
  • Raspberry Pi B+ I2C: 1
  • Raspberry Pi B+ ID_I2C: 1
  • Raspberry Pi B+ SPI: 1
  • Raspberry Pi B+ TTL UART: 1
  • Dimension: 88mm x 56mm x 26mm(3.46" x 2.20" x 1.02")

Saturday, April 23, 2016

HDMI to VGA Converter Cable

Standard HDMI to VGA converter. This tool does not require an external power supply in the conversion process. Besides these tools also provide output line 3.5 for the analog audio output from HDMI.

  • Interface or HDMI port Standard
  • Converter HDMI to VGA

Friday, April 22, 2016

MyoWare Muscle Sensor

Using our muscles to control things is the way that most of us are accustomed to doing it. We push buttons, pull levers, move joysticks… but what if we could take the buttons, levers and joysticks out of the equation? This is the MyoWare Muscle Sensor, an Arduino-powered, all-in-one electromyography (EMG) sensor from Advancer Technologies. The MyoWare board acts by measuring the filtered and rectified electrical activity of a muscle; outputting 0-Vs Volts depending the amount of activity in the selected muscle, where Vs signifies the voltage of the power source. It’s that easy: stick on a few electrodes (not included), read the voltage out and flex some muscles!

The MyoWare Muscle Sensor is the latest revision of the Muscle Sensor of old, now with a new wearable design that allows you to attach biomedical sensor pads directly to the board itself getting rid of those pesky cables. This new board also includes a slew of other new features including, single-supply voltage of +3.1V to +5V, RAW EMG output, polarity protected power pins, indicator LEDs, and (finally) an On/Off switch. Additionally, we have developed a few shields (Cable, Power, and Proto) that can attach to the Myoware Muscle Sensor to help increase its versatility and functionality!

Measuring muscle activity by detecting its electric potential, referred to as electromyography (EMG), has traditionally been used for medical research. However, with the advent of ever shrinking yet more powerful microcontrollers and integrated circuits, EMG circuits and sensors have found their way into all kinds of control systems.

Note: Biomedical sensor pads can be found in the Recommended Products section below to be purchased separately.

Features:
  • Wearable Design
  • Single Supply
    • +2.9V to +5.7V
    • Polarity reversal protection
  • Two Output Modes
    • EMG Envelope
    • Raw EMG
  • Expandable via Shields
  • LED Indicators
  • Specially Designed For Microcontrollers
  • Adjustable Gain
  • Dimensions: 0.82" x 2.06"

24 Channel Veyron Servo Driver

Veyron Servo Driver (24-Channel) is a multiple servo controller, especially designed for humanoid robots, spider robots, robotic arms, and many other likewise applications. The controller integrates wireless data transmission interface, which is fully compatible with DFRobot Bluetooth module, APC220 wireless data transmission module and Xbee module. The controlling modes include real-time, timer, constant speed. Veyron Servo Driver (24-Channel) is the most powerful Mirco USB servo driver with high reliability on the market. It uses a high-performance, low-power STM32F103 microcontroller as its core control unit, which has a powerful, fast execution speed, high accuracy, strong I / O drive power. It supports Futaba, Hitec, Fraser and most common servos. The servo control range could be 0 ~ 180 ° (for 360 ° continuous rotation, retrofitting is needed); It has two servo control modes: single servo control, group servo control. In group control mode, the same group can be coordinated automatically with start and stop at the same time. It will be very useful in multi-DOF biomimetic robots, which requires smooth actions.


Specifications

  • Output channels: 24 (PWM output or TTL level output);
  • Servo Power: DC 4.8V ~ 6V;
  • Logic Power: DC 6V ~ 12V or USB (with a resettable fuse in debugging);
  • Driver Resolution: 1uS; 0.09°;
  • Drive speed Resolution: 1uS/s; 0.09°/s
  • Communication Interface: Micro USB /TTL serial interfaces;
  • Baud rate: 2400,9600,38400,115200
  • Size: 57.3 x 72.3mm
  • Weight: 26g(without package)

Thursday, April 21, 2016

Switching Adaptor 24V/2.7A include AC cord


Switching Adaptor 24V / 2.7Amp  include AC power cord. made by LG.

Official Raspberry Pi 3 Case

Official Raspberry Pi Case (for use with Raspberry Pi 3 Model B only)

Features:
- Case 3 official of the Raspberry Pi.
- Case consists of five parts that can be removed.
- There are four rubber feet on the bottom of the case.
- On the side of the GPIO, the cover case can be removed, making it easier to access to GPIO pins.
- Size: 96mm x 26mm x 71mm.

5V 2Amp Adaptor EU Asia/Korea Round Plug


Adaptor 5V / 2A of Hardkernel with a small tube plug. Can be directly used for SBC/ minicomputer ODROID series.

Sonoff SV Safe Voltage

Sonoff SV Safe Voltage WiFi Wireless Switch Smart Home Module Support Secondary Development

Sonoff SV(safe voltage) is a low power supply Sonoff version,which supports 5-24V power supply. The power separation circuit enables it to control AC or DC power for the connected device, but you need to do some welding to realize this function. Sonoff SV has GIPO reserved to support secondary development. This version does not have 433 RF function and without shell.

Sonoff is a low-cost, affordable device that help you to step into the amazing smart home.It is a WiFi wireless switch that can connect to appliance of different types and brands. Sonoff sends data to cloud platform through the WiFi Router, which enables you to remotely control all appliances with the App eWeLink on your smart phone. The server of Sonoff is Amazon AWS global server.Sonoff makes all your home appliances smart, as long as your phone has network you can remotely turn on or turn off your appliances from anywhere at any time. And by setting timing schedules for your appliances, you can maintain a carefree life.

The App eWeLink enables you to control your devices easily. You can download the iOS version in App Store and the Android version in Google Play.

Wednesday, April 20, 2016

Meanwell RSP-2000-48

Mean Well RSP-2000-48 specifications: AC-DC Enclosed power supply; Output 48Vdc at 42A; PFC, forced air cooling

Specifications

Max. output2,016 W
Output typeSingle
Output description+48V42A
 
Power supply typeAC/DC power supply
Enclosure typeEnclosed Type
 
RoHSCompliant
Suitable for medicalNo
DimmableNo

Input

Input rangePhase(s)
90 - 264 VAC1
127 - 370 VDC1
 

Output

VoltageCurrent
48 V0 - 42 A

Intel Edison Module IoT Internal Antenna

Intel Edison Module IoT Internal Antenna (EDI1.SPON.AL.S)
Intel Edison is actually a very small computers with capabilities that quite a lot. As contained in it have WiFi and Bluetooth. SOM (System On Module) is very supportive to the development of IOT (Internet of Things) is done either by beginners, "Makers" and "Inventors".
3:15 power supply VDC to 4.5 VDC
LPDDR3 features 1GB of RAM, 4GB flash, WiFi 2.1, Bluetooth 4.0 Low Energy / BLE, I2C, UART, etc

Specifications:

  • Dimensions 35.5 × 25.0 × 3.9 mm (1.4 × 1.0 × 0:15 inches) max
  • Based microcontroller / microprocessor Intel SoC that includes a dual-core, dual-threaded Intel® Atom ?? CPU at 500 MHz and a 32-bit
  • Total port i / o +/- 70
  • Port interface connector Hirose
  • Linux bootloader
  • USB programming port (with additional board)

Tuesday, April 19, 2016

Water Level Switch

The switch or switches are used to detect the level / high and low liquid level in a tank. This switch can activate the pump, indicators, alarms or other equipment.
When the ball floats up or down (depending on high or low fluid level), then the magnetic field contained in the float ball can activate this swtich.


specifications:
- Cable length: 40 cm.
- Load max: 10 watts.
- Max switching voltage: 100 Vdc.
- Breakdown voltage max: 250 Vdc.
- Flow switching max: 0.5 A.
- The load current max: 1 A.
- Prisoners contacts max: 0.4 ohm.
- The working temperature: -10 ° C to 80 ° C.

The ODROID-C2 is a 64-bit quad-core single board computer

The ODROID-C2 is a 64-bit quad-core single board computer(SBC) that is one of the most cost-effective 64bit development boards available in the ARM world. It can function as a home theater set-top box, a general purpose computer for web browsing, gaming and socializing, a compact tool for college or office work, a prototyping device for hardware tinkering, a controller for home automation, a workstation for software development, and much more. 

Some of the modern operating systems that run on the ODROID-C2 are Ubuntu, Android, ARCHLinux, Debian, with thousands of free open-source software packages available. The ODROID-C2 is an ARM device -- the most advanced architecture for mobile devices and embedded 64-bit computing. The ARM processor’s small size, reduced complexity and low power consumption makes it very suitable for miniaturized devices such as wearables and embedded controllers.


* Amlogic ARM® Cortex®-A53(ARMv8) 2Ghz quad core CPUs 
* Mali™-450 GPU (3 Pixel-processors + 2 Vertex shader processors)
* 2Gbyte DDR3 SDRAM
* Gigabit Ethernet
* HDMI 2.0 4K/60Hz display
* H.265 4K/60FPS and H.264 4K/30FPS capable VPU
* 40pin GPIOs + 7pin I2S
* eMMC5.0 HS400 Flash Storage slot / UHS-1 SDR50 MicroSD Card slot
* USB 2.0 Host x 4, USB OTG x 1 (power + data capable)
* Infrared(IR) Receiver
* Ubuntu 16.04 or Android 5.1 Lollipop based on Kernel 3.14LTS


Pepper, the robot who understands your emotions

Pepper is capable of identifying the principal emotions: joy, sadness, anger or surprise.

He is also capable of interpreting a smile, a frown, your tone of voice, as well as the lexical field you use and non-verbal language such as the angle of your head, for example.

The combination of all this information enables the robot to determine whether his human interlocutor is in a good or a bad mood.

Pepper was designed to make his interaction with human beings as natural and intuitive as possible.

Hearing and Speaking : Interacting and interpreting emotions wouldn't be possible without the 4 directional microphones located on Pepper's head. They enable him to detect where sounds are coming from and locate your position, while also allowing him to identify the emotions transmitted by your voice.

Seeing : Pepper is able to function in complex environments thanks to his 3D camera and 2 HD cameras that enable him to identify movements, and recognise the emotions on the faces of his interlocutors. If you are happy, Pepper will share your joy, and if you are sad, Pepper will comfort you.

Connection : Connected directly to the internet, Pepper can keep you up to date with the latest news, the weather forecast, or even help you to find a recipe! Don't hesitate to chat with him on the subject of your choice. 

Tablette: Pepper uses his tablet to help you make choices, but also to express his own emotions.

Emotion engine : By perceiving and analysing your emotions, and learning to get to know you, Pepper is able to adapt his attitude to suit your own as closely as possible. This constant dialogue between perception, adaptation, learning and choice is the result of what is known as the emotion engine. 

Control and balance : Thanks to his anti-collision system, Pepper detects both people and obstacles in order to reduce the risk of unexpected collisions. Pepper is also able to maintain his balance, which stops him from falling if somebody knocks him over.

Movement and autonomy : You will be amazed by the flexibility and fluidity of Pepper's movements! His 3 multi-directional wheels enable him to move around freely through 360°, at a maximum speed of 3 km/h. No less than 20 engines (head, arms, back) control his movements with great precision. Lastly, Pepper is equipped with a high capacity lithium-ion battery, giving him approximately 12 hours of autonomy.

High Definition vision : Pepper is equipped with two high-resolution cameras as well as a 3D camera enabling him to effectively understand his environment. The images are processed by shape recognition software capable of identifying faces and objects.

Interpreting emotions : Pepper boasts the latest technology, which means he is able to identify your emotions by your voice as well as the expressions on your face. Pepper reacts accordingly and is delighted if you are happy, or does his best to comfort you if you are sad. In addition to faces, Pepper is also able to recognise people by their voices. Thanks to his 4 directional microphones and his loudspeakers, Pepper is able to locate the source of sounds and engage in conversation in response.

A network of sensors : Pepper possesses numerous sensors: two ultrasound transmitters and receivers, six laser sensors and three obstacle detectors placed in his legs. These sensors provide him with information about the distance of nearby objects (a range of 3 metres), in addition to his three cameras (two RGB cameras and one 3D camera placed in his head). Another sensor within the battery indicates its level of charge as well as its temperature. Pepper also possesses tactile sensors in his hands, which are used when he is playing games or for social interaction.

Linked to the world : For autonomous internet access, Pepper is equipped with wireless connectivity 802.11a/b/g/n.

Welcome to the community : A community of developers in Japan and throughout the world is imagining and designing new content for Pepper. The library of applications for this new type of companion is growing and evolving every single day.

Specifications
. Dimensions: 1210mm × 480mm × 425mm
. Weight : 29kg
. Battery: 
Lithium-ion battery 
Capacity: 30.0Ah/795Wh
Operation time: approx. over 12 hours*
. Sensors : 
Head : Mic × 4, RGB camera × 2, 3D sensor × 1 / Touch sensor × 3
Chest : Gyro sensor ×1
Hands :Touch sensor ×2
Legs : Sonar sensor ×2, Laser sensor ×6 /Bumper sensor ×3, Gyro sensor ×1,Infrared sensor ×2
. Moving parts:
Degrees of motion : Head (2°), Shoulder (2°) (L&R), Elbow (2 rotations) (L&R), Wrist (1°) (L&R), Hand 5 fingers (1°) (L&R), Hip (2°), Knee (1°), Base (3°) / 20 Motors
. Display : 10.1-inch touch display
. Platform :NAOqi OS
. Networking :
Wi-Fi: IEEE 802.11 a/b/g/n (2.4GHz/5GHz)
. Motion speed : Up to 2km/h
. Climbing : Up to 1.5cm

Customers can use robot apps by signing up for the Pepper Basic Plan. In addition to the pre-installed basic apps, customers can download robot apps from the app store to add new possibilities. Robot apps can be downloaded for free and by using ‘cocorogumi’, special robot apps are also available for download.
SoftBank also plans to offer charged apps.

One Wire Temperature Sensor

Waterproof temperature sensor is shaped cable with a length of ± 2 meters. It is used for measuring the temperature at the depth of the water.
The sensor chip used was adopted from DS18B20.

Features:
- It only takes one cable for the data interface.
- Waterproof.
- Power Supply: 3V - 5.5 V..
- Range of temperature: -55 ° C to 125 ° C.
- Accuracy: ± 0.5 ° C (for a temperature range of -10 ° C to 85 ° C).

Sensor/Motor Drive Board - Version 2.2


This Sensor/Motor Drive Board (Cortex M3 CPU) is the integration of multiple communication interfaces that quickly build robotic systems. This board (Cortex M3 CPU) features the SPI Interface and works as a bridge between the whole system. There are many types of sensors on the board such as I2C bus communication protocol sensors, Ultrasonic sensors, SP03 TTS, CMP03 electronic compass, RS485-bus sensors, analog output sensors, infrared distance sensors, gyro sensors, acceleration sensors, and light sensors etc. The RS23 serial port is used to send signals to the host PC or other embedded systems. At the same time SDB plates with two-way DC motor-driven, two-way rotary encoder interface and a PID motor control algorithms which can be controlled through the serial port. The mounting hole structure is compatible with PC104.

Specification

  • Supply Voltage:6V-12V, 15V maximum
  • Working Current:150mA @ 12V
  • Working Temperature :-10~+70℃
  • CPU: Cortex-M3 (90MIPS),support DMA access
  • Interface:RS232/TTL at 9600、19200、38400 or115200 bps
  • 8 Analog Input (12 bits)
  • 11 Digital I/O Lines (IO0-IO7 can be configured for servo control)
  • Up to 8 servo with speed control
  • Support I2C,RS485,(CAN and SPI interfaces are not supported in V2.2)
  • Dual 4 Amp H-Bridge: Control 2 DC motors with A/B encoders interface. Integrated PID speed *control. Support odometer and motor current reading.
  • Size:96mmx90mmx20mm (compatible with PC104 mounting holes)
  • Weight:87g

Non-invasive AC Current Sensor (100A max)

Current transformers (CTs) are sensors that are used for measuring alternating current. They are particularly useful for measuring whole building electricity consumption (or generation for that matter).

The split core type such as the CT in the picture above, is particularly suitable for DIY use it can be clipped straight on to either the live or neutral wire coming into the building without having to do any high voltage electrical work.

Applications

  • Suitable for the current measuring
  • Monitoring and protection of AC motor
  • Lighting equipment
  • Air compressor


Specifications

  • Input Current: 0~100A AC
  • Output Mode: 0~50mA
  • Non-linearity: ±3%
  • Turn Ratio: 100A:0.05A
  • Resistance Grade: Grade B
  • Work Temperature: -25°C ~ ﹢70°C
  • Dielectric Strength(between shell and output): 1000V AC/1min 5mA
  • Leading Wire in Length: 1m
  • Open Size: 13mm x 13mm

Monday, April 18, 2016

Serial PPI module

Serial PPI is a pin module with 16 channels of I / O MCS-51, 24-pin channels of I / O PPI, and 2 Counter MCS-51 each width of 16 bits are controlled via RS-232 UART. This module is optimized for interfacing to a PC via Serial Port computer and comes with a DLL file and TPU that contains routines for use of the module.

specifications:
- The input voltage is 12 VDC to 5 VDC output.
- RS-232 UART interface with a data rate of 9600 bps minimum and maximum data rate of 115200 bps.
- Path I / O up to 40 pins and 2 counters each width of 16 bits.
- There DLL files and TPU along with sample programs.
- Can be used to control the Relay, LED, Switch, etc.

Friday, April 15, 2016

Sensor Cable - Electrode Pads (3 connector)

This is your simple three conductor sensor cable with electrode pad leads. These cables are 24" long and feature a 3.5mm audio jack connector on one end with snap style receptacles for biomedical sensor pads. Each cable comes in a red/blue/black set.

Dimensions: 24" Long

Aluminium Heat Sink with adhesive tape

Aluminum cooler that comes with the adhesive tape.

LED Matrix for Raspberry Pi

LED Matrix Designed for Raspberry Pi


Features

  • Supports any revision of Raspberry Pi (directly-pluggable)
  • Driver : MAX7219
  • Matrix type : 8 × 8 common cathode LEDs
  • Color : red
  • Dimension : 64.3 × 35.0 × 26.5mm

Interface
PIN NO.SYMBOLDESCRIPTION
1, 173.3Vpower positive (3.3V input)
2, 45Vpower positive (5V input)
3, 5, 7, 8, 10, 11, 12, 13, 15, 16, 18, 21, 22, 26NCNC
6, 9, 14, 20, 25GNDground
19MOSIdata input
23SCKclock
24CE0chip selection

G3/4 Water Flow sensor

Water flow sensor consists of a plastic valve body, a water rotor, and a hall-effect sensor. When water flows through the rotor, rotor rolls. Its speed changes with different rate of flow. The hall-effect sensor outputs the corresponding pulse Signal.

Specification

Mini. Wokring VoltageDC 4.5V
Max. Working Current15mA(DC 5V)
Working Voltage5V~24V
Flow Rate Range1~60L/min
Load Capacity≤10mA(DC 5V)
Operating Temperature≤80℃
Liquid Temperature≤120℃
Operating Humidity35%~90%RH
Water Pressure≤2.0MPa
Storage Temperature-25℃~+80℃
Storage Humidity25%~95%RH

Sonoff - WiFi Wireless Smart Switch For Smart Home



Home automation is "The Internet of Things". The way that all of our devices and appliances will be networked together to provide us with a seamless control over all aspects of our home and more.

Sonoff is a low-cost, affordable device that help you to step into the amazing smart home.It is a WiFi wireless switch that can connect to appliance of different types and brands. Sonoff sends data to cloud platform through the WiFi Router, which enables you to remotely control all appliances with the App eWeLink on your smart phone. The server of Sonoff is Amazon AWS global server.

Sonoff makes all your home appliances smart, as long as your phone has network you can remotely turn on or turn off your appliances from anywhere at any time. And by setting timing schedules for your appliances, you can maintain a carefree life.

Note: this Sonoff does NOT have 433Mhz RF remote function. If you want RF function, please buy Sonoff RF.

Specification
  • Voltage range: 90-250v AC(50/60Hz)
  • Max current: 10A
  • Max Wattage: 2200 watts
  • Dimensions: (L)88*(W)38*(H)23mm
  • Color: White
  • Humidity: 5%-95%
  • Wireless Frequency: 2.4Ghz
  • Working Temp: ﹣20℃-75℃

Slampher: WiFi 433MHz RF Wireless Light Holder For Smart Home

Slampher is a WiFi wireless light holder that can connect to various light bulbs with E27 screw base. Slampher sends data to cloud platform through WiFi Router, which enables you to remotely control all light bulbs with the App eWeLink on your smart phone. The server of Slampher is Amazon AWS global server.
Slampher make all lights smart, as long as your phone has network you can remotely turn on or turn off your lights from anywhere at any time. And by setting timing schedules for your lights, you can maintain a carefree life.
Note: this Slampher has 433Mhz RF remote function.
The App eWeLink enables you to control your devices easily. You can download the iOS version in App Store and the Android version in Google Play.

Features

  • Support WiFi network.
  • Support status tracking, devices' status will timely feedback to your App.
  • Support Max 8 timing tasks for each added device.
  • Support numerous WiFi smart light holders one smart phone.
  • Easy installation, easy handling and can be activated immediately and stably.

Specification

  • Voltage range: 90-260v AC(50/60Hz)
  • Max current: 2A
  • Operating current: 1A
  • Max Wattage: 200 watts
  • Color: White
  • Humidity: 5%-95%
  • Wireless Frequency: 2.4Ghz
  • Working Temp: ﹣20℃-75℃

5V 600mA Monocrystalline PET Solar Cell With USB Cable



This is 5V 600mA Monocrystalline PET Solar Cell with USB Cable. The cable is 60cm. It is high quality and exquisite appearance. It is used in all kinds of 5V high-grade electronic products such as cell phones, Iphone, Ipad,digital camera,MP3,MP4,GPS and so on.

Specification
  • Rated Power: 3W
  • Operating Voltage:5V
  • Operating Current:600mA
  • Open Circuit Voltage:5.85V
  • Short Circuit Current:636mA
  • Dimension:120*180*3mm
  • Operating Temperature:-20℃±85℃
  • Light Intensity:1000W/M2,25℃,AM1.5
  • Package Material:Anti-UV,resistance to yellowing,high transparent polyethylene terephthalate(PET)
  • Base Material:Resistance to deformation, high strength PCB board
Additional info:
Rated Power3W
Operating Voltage5V
Operating Current600mA
Open Circuit Voltage5.85V
Short Circuit Current636mA
Solar Cell MaterialMonocrystalline Silicon
Panel Dimension120*180*3mm
Weight70.0000

Thursday, April 14, 2016

Mean Well SP-240-24 Industrial standard Swiching Power Supply

Mean Well SP-240-24 specifications: AC-DC Enclosed power supply; Output 24Vdc at 10A; PFC, forced air cooling

Specifications

Max. output240 W
Output typeSingle
Output description24V,0-10A
Power supply typeAC/DC power supply
Enclosure typeEnclosed Type
RoHSCompliant
Suitable for medicalNo
DimmableNo















Input

Input rangePhase(s)
85 - 264 VAC1

Output

VoltageCurrent
24 V0 - 10 A