INNOVAS SERVICES’S EXTENSIVE TECHNICAL EXPERTISE IS THE RIGHT CHOICE TO COMPLETE ALL STAGES OF YOUR WIRELESS PRODUCT DEVELOPMENT WHETHER YOU ARE LOOKING RF CIRCUIT DESIGN CONSULTING ASSISTANCE OR A FULL TURN-KEY SOLUTION.

The RF engineering process begins with our team of RF design engineers, who have extensive expertise and passion for creative wireless solutions, working with you to determine the best wireless technology to fit your specific requirements.

This expertise combined with our state of the art RF testing equipments make INNOVAS SERVICES have the right people and tools to make your project a success.

 

RF Design Capabilities Include:

SYSTEM DESIGN

  • End-to-end system design and trade-off analysis
  • Specification definition
  • RF block & level budget analysis
  • Impairment budget and simulation and analysis
  • EMC & EMI design consideration
  • Radio parameter and performance optimization
  • Industry standards compliance test and verification

DIGITAL SIGNAL PROCESSING

  • Improved detection and synchronization algorithms
  • Channel estimation, tracking and equalization
  • Error Correction Codes (ECC) algorithms
  • Digital Pre-Distortion (DPD) algorithms
  • Crest Factor Reduction (CFR) algorithms
  • Nonlinear impairment correction algorithms
  • Multi-carrier channelization

SOFTWARE DESIGN

  • SW architecture design and development
  • Real Time Embedded Operating Systems
  • Low level driver development
  • Application development
  • UML and Object Oriented Analysis and Design

RF HARDWARE DESIGN

  • Rf architecture design and components selection
  • RF signal integrity simulation (S11, S21)
  • Power amplifiers
  • Full duplex RF architectures
  • High speed AD/DA
  • EMI & EMC design consideration and simulation

DIGITAL HARDWARE DESIGN

  • FPGA RTL development (Flash and SDRAM based)
  • Micro Processor and DSP based implementations
  • High speed design & signal integrity simulation
  • Timing design, constraints analysis and verification
  • Design test, verification and manufacturability

HARDWARE VERIFICATION

  • Design verification of ASIC implementaion aspects
  • Verification of logic using SystemVerilog
  • UVM standard verification methodology
  • Stimulus generators, monitors and checkers (scoreboadrs)
  • Test planning, random test generation, coverage collection, analysis and closure

MECHANICAL DESIGN

  • Conceptual product packaging
  • Industrial design
  • Thermal & air flow simulation
  • Plastic, sheet metal, extruded and die-cast component design
  • Seismic and vibration design

Power & Protection Design

  • Power, protection and grounding architecture
  • AC/DC and DC/DC power converter specification and design
  • Backup power solution design
  • Electrical surge and lighting protection
  • Environmental controller design