Forget the hassle get your electrical equipments delivered by us

IOT-A-SYNC is rapid prototyping development board for Internet of Things (IOT) applications. This board is powered by ESP32 system on chip microcontroller with Extensa dual-core. Esp32 officially supports Arduino and ESP-IDF framework built around FreeRTOS. IOT-A-SYNC supports multiple globally accepted network interfaces for IOT devices communication. Various wireless communication options it supports are WIFI, BLE,NFC, LoRa PHY. In terms of range of communication, For Short range, it supports NFC. For Medium range, it supports Wi-Fi (802.11 b/g/n) and Bluetooth (v4.2 BR/EDR and BLE). For Long range, it supports LoRa communication. IOT-A-SYNC also support network topology like Star and Mesh for creating Wireless sensor network(WSN). Programming of IOT-A-SYNC is supported by onboard USB-to-Serial converter as well as it also supports external JTAG interface for programming and debugging. Other interfaces available include:- On-Board Led, Switch, Oled(128x64) screen, BME280 sensor (provides Temperature, Humidity, Pressure), IR transmitter led and IR Receiver sensor. All I/O pins are provide on 0.1 male as well as female header, as well as few distinctive feature I/O are available on 3 Pin JST connector compatible with commonly available sensors and other modules. The 180-point breadboard further facilitates temporary/external circuit testing via jumpers on board itself. Also, for low power WSN, shorting jumpers are provided to limit power usage.

IOTA-SYNC is a platform to teach the embedded system basics and Internet of things applications. This IOTA-SYNC 2 is second board in this series. This variant of the board uses AVR (Atmega328P), ESP8266 and SIM800L. Both MCUs operates at 3.3V voltage logic level same as that of sim800L to make the development more easier. Pin naming are mentioned in both AVR port naming scheme as well as that of Arduino platform naming scheme to save time while development. Earlier variant of this board exposes ESP32 (Wi-Fi, Bluetooth), NFC and LORA.

MSP430 Lunchbox is a DIY platform for learning to interface and controlling different peripherals based on the requirements. It supports TI MSP430G series value line microcontroller series. The development platform is low cost and easy to program. Mini USB cable is provided for using the MSP430 Lunchbox with Computer.

LED based interactive pendant that react to surrounding light conditions. It comes with a chain for wearing. A perfect gift for you and your loved ones.

Rachnakar is a high speed open source 3D Printer for use in education, industry and hobbyist space. Print Volume 350mm X 350mmX 350mm High Print Speed upto 300mm/s Fully Enclosed Modified CoreXYZ Design Automatic Bed Leveling Direct Drive Feeding Mechanism Linear rail based sturdy design Remote monitoring and control capabilities can be controlled with mobile phone also PLA, ABS, TPU, PETG, (Optional - Nylon, CF, Wood/Metal Infused)

Features of the Kit:<br/> 1.Generation of signal through controller.<br/> 2.Implementation of FIR filters.<br/> 3.Implementation of IIR filters.<br/> 4.Implementation of Convolution Algorithm.<br/> 5.Implementation of Fast Fourier Transform Algorithm.<br/> 6.Implementation of IIR notch filter.<br/> DTMF generation and decoding.<br/> Generation of signal through python.<br/> Kit Contents:<br/> PCB with ESP32 microcontroller, optimised for DSP applications.<br/> 3.5mm audio cable.<br/> Micro-USB cable.<br/> Windows application for interfacing and plotting signals compatible with the hardware <br/>

The peripheral kit named as Mini Voyager 1 is peripheral interfacing experimenter board. The main aim of the peripheral board is to depict the ease with which any hardware peripheral can be interfaced with microcontroller using a software application. Easy to interface with access to individual peripherals. Software and manual are available for various microcontroller platforms. Compact in size and portable, can be interfaced with 3.3V and 5V based systems. MINI VOYAGER 1 LIST OF PERIPHERALS<br/> S. NO. PERIPHERAL<br/> 1 LEDs - Red,Green, Blue<br/> 3 4 Digit Seven Segment Display<br/> 4 LDR ( Light Dependent Resistor)<br/> 5 Thermistor (NTC Type)<br/> 6 Potentiometer (Variable Resistor)<br/> 7 Navigation keys ( Array of 5 switches - Analog based)<br/> 8 Charlieplexed LEDs (Array of 6 LEDs)<br/> 9 Interrupt generator using 7555<br/>

AkshayaPatra is an easy to use, digital circuits experimentation platform, targeted for use in introductory as well as intermediate level digital electronics laboratories. The CPLD on board is programmed using an inexpensive microcontroller based JTAG interface implementation, which as a bonus can be used to learn microcontroller programming and interfacing, making AkshayaPatra a really attractive learning platform. The AkshayaPatra features a Xilinx XC9572XL high performance CPLD operating at a system voltage of 3.3V. The input/output pins are 5V tolerant and can accept 5V, 3.3V, and 2.5V logic levels. The device can operate up to a frequency of 178MHz with maximum pin-to-pin logic delay of 5ns. The XC9572XL has four 54-input function blocks, each with 18 macro cells, providing total of 72 macro cells with 1600 usable gates on chip and 34 to 72 I/O pins depending on the device package. There is an on-board Atmega328p microcontroller operating at 3.3V, which acts as a JTAG bridge. It can also be used as clock source for the CPLD and provides a default clock with frequency of 65535Hz. AkshayaPatra has the following on-board peripherals which can be easily interfaced with the CPLD and the Atmega328p.<br/> 1. 12 Input Slide Switches<br/> 2. 12 Output LEDs<br/> 3. 4 Push Buttons (2 with Pull Up resistors, 2 with Pull Down resis-tors)<br/> 4. 16x2 Alphanumeric LCD<br/> 5. 2 Single Digit SSDs.<br/> 6. 1 4-Digit SSD.<br/> 7. 12 Charlieplexed LEDs<br/> 8. 1 Buzzer<br/> 9. 1 Potentiometer<br/> 10. 1 RGB LED<br/> 11. 1 LDR<br/> 12. 1 LM35 temperature sensor<br/>

The LunchBox Additional Components Kit provides the electronic components that a student needs in order to perform all the experiments in the NPTEL course - Introduction to Embedded System Design by Prof. Dhananjay V. Gadre and Prof. Badri Subudhi.

The LunchBox Additional Components Kit provides the electronic components that a student needs in order to perform all the experiments in the NPTEL course - Introduction to Embedded System Design by Prof. Dhananjay V. Gadre and Prof. Badri Subudhi.

The peripheral kit named as Mini Voyager 2 is peripheral interfacing experimenter board. The main aim of the peripheral board is to depict the ease with which any hardware peripheral can be interfaced with microcontroller using a software application. Easy to interface with access to individual peripherals. Software and manual are available for various microcontroller platforms. Compact in size and portable, can be interfaced with 3.3V and 5V based systems.

Phycom is a physical computing platform with a host of digital and analog inputs, outputs and sensors. Interaction with the analog world using software and hardware is the key part of Physical computing. Based on Arduino platform and Python, Phycom board is easy to use platform for students of various engineering disciplines at the undergraduate level.