v5.2 Link Layer, Physical Layer, Software Stack and Profiles for Bluetooth low energy

Overview

LTIMindtree’s BlueLitE 5.3 IP is a single mode silicon IP consisting of the link layer controller, digital PHY, protocol stack, and profiles for Bluetooth low energy. LTIMindtree’s BlueLitE IP is qualified by Bluetooth SIG and is proven in Silicon. BlueLitE 4.x and 5 IP is in mass production with multiple leading semiconductor companies across the globe.

LTIMindtree two has two flavors of Bluetooth low energy IP:

Hardware Oriented Design
Software Oriented Design
The Hardware oriented design is ideal for high-end applications which need multiple simultaneous connection support with high throughput whereas, the software-oriented design is suitable for all mid end applications, which need high flexibility.

BlueLitE IP includes all the essential components needed for a complete single mode solution, excluding RF. For RF LTIMindtree has partnered with leading RF IP suppliers across the globe.

Key Features

  • Key advantages of BlueLitE Hardware oriented Link Layer
    • High degree of configurability based on target application
    • Designed for portability across 8-bit/16-bit/32-bit processors
    • Firmware is architected for low foot-print and high latency tolerance
    • Optimized memory architecture
    • Built-in power management module for ultra-low power consumption
    • Flexible interfaces for easy integration with third party modem/RF
  • Key Features of BlueLitE Software Link Layer
    • Most procedures for the protocols implemented in software
    • Minimum set of standard functions in hardware
    • Designed for portability across 32-bit processors
    • Architecture of firmware for low code and data foot-print
    • Complete reuse of all firmware components of the existing link layer IP
    • HCI, Algorithms, Data Structures etc
    • Complete reuse of OS, MCU and Transport abstraction layers
    • Hardware abstraction layer to ensure no changes in the core firmware even if h/w changes
  • Key advantages of BlueLitE Digital PHY
    • High performance modem
    • Configurable architecture based on RF fr ont end
    • Optimized gate count
    • Easily customizable

Benefits

  • Reduced development risk
    • Robust, interoperable and optimized implementation
    • Leverages over 19 years of experience in helping product companies engineer low-footprint and low power applications
  • Faster time-to-market
    • Total Bluetooth low energy solution comprising of modules -Link Layer, Digital PHY, Stack and Profile
    • Well-defined platform Abstraction Layer for easy and risk-free porting and integration
    • Highly customizable for product-specific optimization and differentiation
  • Reduced product costs
    • Optimized use of resources for low footprint, gate count and MIPS
    • Bluetooth-specific power management for ultra-low power consumption
    • Backed by solid documentation
  • Competitive differentiation
    • Supports all mandatory and optional features; supports all modes; extensive profile support
    • One-stop-shop for total solution in Bluetooth low energy
    • Flexible support in various stages of development and productization cycle
    • Helps customers win business by adding new profiles, feature licensing and providing support in selling

Block Diagram

v5.2 Link Layer, Physical Layer, Software Stack and Profiles for Bluetooth low energy Block Diagram

Video

BlueLitE Bluetooth low energy Demo

Technical Specifications

Maturity
In Production
Availability
Now available
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Semiconductor IP