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Bluetooth Low Energy-BLE Solutions

Bluetooth Low Energy-BLE Solutions

Bluetooth Low Energy-BLE Solutions

Bluetooth Low Energy-BLE Solutions

E Chip Control Systems,Chennai,Tamil nadu provides BLE Beacons based Shopping Advertisment,Indoor Localization,Object Tracking,Access control Systems.

Beacons are one-way transmitters that are used to mark important places and objects. Typically, a beacon is visible to a user’s device from a range of a few meters, allowing for highly context-sensitive use cases. Google’s beacon platform is designed to make it easy to incorporate these kinds of use cases into your own apps and venues, whether or not you maintain a widely distributed app.

Using the beacon platform, including Google Proximity Beacon API and Eddystone, you can:

The Google Proximity Beacon API can be used to register any beacon that supports one of the following specifications:

Components

The Google beacon platform consists of the following components:

  • Eddystone, the open beacon format from Google that works with Android and iOS.
  • Nearby API for Android and iOS, managing beacon scanning for your own app.
  • Proximity Beacon API for integrating with Google products and your own app.

Beacons with Eddystone

Eddystone is an open beacon format from Google that works with Android and iOS. The process of setting up a beacon to broadcast (sometimes called ‘provisioning’) can be completed using Google’s Beacon Tools app forAndroid and iOS, using a tool from your manufacturer, or sometimes in bulk by prior arrangement with the beacon manufacturer.

Beacons can be deployed at fixed places such as airports, museums, and bus stops, and attached to movable objects such as bicycles, kiosks, and taxis.

Once you have identified the places and objects that are important to your users, you should decide which frame types to include. In almost all cases, you should include an abstract identifier frame such as Eddystone-UID or Eddystone-EID. These frame types allow the greatest flexibility in how your infrastructure can be used in the future.

Once your beacon is provisioned and deployed, you should register it with Google Proximity Beacon API to get the full benefits of the Google beacon platform. The Google beacon platform provides an abstraction between the beacon hardware or identifier and information associated with the beacon. This allows a single beacon to play a role for many different apps, services, and features. Once a beacon is provisioned and registered, you should focus on attachment data, namespace and types in order to take full advantage of the beacon platform’s flexibility.

See Get Started with Beacons to learn more about setting up and using beacons.

Proximity Beacon API

The Proximity Beacon API allows you to interact with Google’s cloud registry of beacons. Registering your beacons with Google allows you to:

  • Manage information associated with your beacon network remotely, in real time.
  • Share information associated with your beacons with other projects.
  • Allow Google products to react to your beacon network.
  • Take advantage of power-efficient beacon scanning (including background scans) using Nearby.

In addition to currently launched beacon integrations, registering your beacons with Google will make it easy to take advantage of new Google products as they are announced.

Data use in the Proximity Beacon API

There are two types of data associated with beacons in the Proximity Beacon API.

  1. Registration data, generally used for administration and lower-level integration with Google products (such as Places API integration).
  2. Attachments, used by specific (sets of) apps that scan for beacons using Nearby or Proximity Beacon API directly.

Google may use registration data, including for example Place ID or Latitude/Longitude/Level, across its full range of products.

Attachment data is associated with specific Namespace and Type. The data, together with thenamespacedType, makes up the attachment. Attachments in a namespace associated only with your project, and where the visibility is set to UNLISTED, are not used by Google except for the purpose of abuse detection or to improve the performance of Proximity Beacon API.

Since attachments are stored in the cloud, the Google Proximity Beacon API provides a scalable, low-latency way to manage and update the data associated with your deployed beacons. This ensures that your users always see the latest available data, and eliminates the need to manually re-provision beacons.

The diagnostics component of the Google Proximity Beacon API helps you to monitor your fleet of registered beacons, providing a means to detect remotely when individual beacons behave unusually.

PCB Design

PCB Design in Chennai

PCB Design in Chennai

PCB Design 

E Chip Control Systems,Chennai offers PCB Design,PCB Layout Design,Schematic Design,Circuit Design,Hardware Design, High Speed PCB Design Services, Component Library Creation,EMI Analysis,Thermal Analysis and Signal Integrity Analysis with emphasis on Quality On-time deliverables. Our Design cycle evolves with Process oriented approach, minimum customer involvement, maximum Customer & Design requirement and error free timely output delivery. PCB design service activity is carried out by a team of highly experienced professionals dedicated to customer services and interaction. We also undertake customized unconventional PCB design for various Form factors with very high mechanical constraints.

We are specialised in offering design services which can be on turnkey basis or with limited involvement in the project. Our core expertise lies in area of PCB Design, ASIC/FPGA design, Contract manufacturing including proto-typing to production and highly specialised software development in embedded domain.

Our technical team is fully equipped with various skills on various domains which in turn helps the clients in reducing the time to market with cost advantage.

Our Services include system architecture, Design capture,layout, complete Design Analysis, Production test program and setting up production line for PCB manufacturing, assembly and test.

DIFFERENTIATING FACTORS

  • Over 6000+ complex and HDI designs completed in 5 years.
  • Expertise in High speed digital, Mixed signal, Analog & Power boards.
  • Innovative design methods in Fine Pitch Micro BGA designs.
  • Handled upto 0.37mm BGA pitch designs with 2 mil/ 2mil track/spacings.
  • Design technologies with stacked and staggered µ via HDI technology.
  • Integrating Mechanical & Electrical CAD data for assembly verification.
  • Board level, System level SI , PI, EMI/EMC & Thermal analysis.
  • High bit rate (~ 15Gbps) analysis for serial I/O designs.
  • Signal performance analysis for Reflections, Timing, BER, EYE opening.
  • DC drop analysis in power supply rails due to copper losses.
  • Custom Programs: Over the years we have developed custom programs and scripts to gain efficiencies, improve quality and augment the current design tools.

Microcontroller Hardware Design

Microcontroller Hardware Design

Microcontroller Hardware Design

Microcontroller Hardware Design

Embedded Hardware Design and Development is an integral part of product development. These services are intended to complement the embedded systems design and software design and development services offered. This hardware design is for microcontrollers and microprocessors or smaller FPGA systems. The hardware design, both mechanical and electronics, is done in parallel with software development..

Embedded System Hardware Design and Development Overview

The hardware design process involves both mechanical design and electronics design. The basic process starts with conceptual design during the embedded systems design and requirements specification phase. In this activity the requirements and conceptual design is explored further to ensure suitability for the final implementation. The following factors need to be considered to ensure that all elements of the design will come together later. These elements are detailed in the embedded economics – managers section of the web site.

  • ● Bill of materials (BOM) costs
  • ● Manufacturing cost
  • ● Usability
  • ● Durability
  • ● Power consumption and battery life if applicable
  • ● Fit and finish
  • ● Product image
  • ● Design for manufacture
  • ● Repair costs for expensive devices
  • ● Display visibility
  • ● Heat disapation
  • ● Noise
  • ● Acoustic quality and properties
  • ● Weight
  • ● Electronics size and configuration with packaging design

Hardware Design Process

The hardware design process is as follows:

  • ● Node Hardware Requirements specirfication
  • ● Detailed node architecture and design for electronics in parallel with detailed mechanical design and packaging concept and initial prototypes
  • ● Part selection, schematic capture, printed circuit board design and layout in parallel with mechanical prototype refinement
  • ● Prototype assembly and further mechanical refinement
  • ● Prototype bring-up, design verification and testing
  • ● Documentation and support in parallel with automated manufacturing testing and end of line testing.

Bootloader Solutions

Bootloader Solutions

Bootloader Solutions

Bootloader Solutions

E Chip Control Systems experts in assembly level programming and embedded C programming we have designed and developed Low Cost Sensors and Single Board Computers running on Low Level Firmware with no OS. Our engineers are well trained on board bringup of processors varying from ARM, Intel , MIPS , IBM and Freescale PowerPCs.

E Chip Control Systems offers Bootloaders that are a standard software component used in Electronic Control Units (ECUs) with flash memory for ECU software reprogramming. They can be embedded with the application software on the ECU in order to download the updated application. The Bootloader tool controls the reprogramming by communicating with the ECU by means of the Controller Area Network (CAN) bus.

E Chip Control Systems has experienced professionals who deliver advanced Bootloader solutions to the client. The company combines its knowhow of automobiles with its domain knowledge in Bootloader development solutions to provide clients with tailor-made solutions for the automotive industry vertical.

Embedded Linux Solutions

Embedded Linux Solutions

Embedded Linux Solutions

Embedded Linux Solutions

Companies these days are increasingly relying on embedded Linux solutions for hardware solutions and also to evaluate multiple architectures. Embedded Linux platform enables them to build a customized commercial quality solution that helps them being ahead of the curve. Embedded Linux systems finds application in various domains such as consumer electronics, industrial automation, navigation equipment, medical instruments, etc.

Embedded Linux Solutions

With years of experience in Linux based solutions,  E Chip Control Systems delivers custom built Linux solutions that cater to the different needs of the customers. Bosch has the expertise and the knowhow to leverage the growing demand for Linux in embedded devices and provides solutions to its clients.

 

E Chip Control Systems has over two decades of industry experience; and this translates into advanced products and excellent services in every industry vertical the company is operating in. E Chip Control Systems utilizes its enviable experience to deliver advanced open source Linux-based products to its customers.

E Chip Control Systems has a global presence and is equipped with cutting edge infrastructure and highly trained professionals. The Linux Services offered by Bosch helps customers in improving their bottom line by delivering high quality embedded products to market in time.

Microcontroller Software Solutions

Microcontroller Software Solutions

Microcontroller Software Solutions

Microcontroller Software Solutions

Microcontrollers form an essential part of embedded applications in modern day industries. Rapid advancements in the field of microcontroller technology have forced the companies to look for an experienced partner to fully exploit the possibilities in this industry vertical.

Microcontroller Software Solutions

With its experienced staff and advanced infrastructure, Bosch Engineering and Business Solutions provides the required expertise in a wide variety of peripherals such as Analog to Digital Converters, Digital I/O’s, Digital to Analog Converters, counters and timers.

 With its unmatched experience and state of the art facilities, E Chip Control Systems  delivers a host of microcontroller features like high integration, real-time performance, and low power consumption of microcontroller applications. The microcontroller solutions offered by the Bosch enables clients to release cost-optimized devices to suit specific market needs.

The skilled professionals at E Chip Control Systems work relentlessly with the client to simplify the process of deploying microcontrollers. This ensures that the client is ahead of the competition as he will be using the latest technology in his products.