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Realizing the envisioned solution.

In today’s world of IoT-connected devices, there is untapped market need to create deeper, more meaningful relationships with customers. Success depends upon engineering those market needs into a complete solution that provides exceptional user experience. Customers are no longer satisfied with great performance of individual parts, but expect seamless and flawless performance throughout a holistic system. Choosing a partner who can translate market need into breakthrough technologies has never been more critical in new product development.


Insights: 4 Crucial Decisions for Connected Device Developers


Insights: Systems engineering in the real world


Related: Design & Engineering Services Overview (PDF)


At Logic PD, we work with you to bring together a highly skilled, full-service team of focused experts in the product development process: systems, electrical, software, and mechanical engineers. Our systems engineering approach works in tandem with you to help rethink what is possible in your new product launches. When our award-winning designers work seamlessly with our experienced engineers, the result is the kind of synergy that propels clients’ businesses beyond their expectations.

  • Electrical Engineering
  • Mechanical Engineering
  • Software Engineering
  • Systems Engineering
  • Test Development
  • Device Technology

Electrical Engineering

EngineeringOur electrical engineers balance real-world considerations like development costs and time, manufacturability and scalability, to ensure viable solutions, time and time again. The reliability of our process has made Logic PD a trusted partner to key industry leaders like Texas Instruments and NXP.

Our expertise includes:

  • Electrical and electronic system architecture design and documentation
  • High-speed digital and analog design, pre-verified with full board-level simulation tools
  • Electro-mechanical system integration and real-time digital control
  • Electro-optical system integration including image sensors
  • Electronic systems implemented using single- and multi-core microprocessors ranging from 8- to 64-bit
  • High-end microprocessor subsystem design
  • Single- and multi-radio RF design, integration and test
  • Highly optimized battery-powered systems, often with sub-milliwatt standby draw
  • High pixel-count display technologies including LCD, DLP, VFD, CRT and others
  • Single- and multi-touch user interfaces including resistive, capacitive, optical and other technologies
  • Digital audio and video systems (DVR, streaming and playback) at up to 1080p resolution
  • Networks and communication (Bluetooth, BTLE, 802.11a/b/g/n, 802.15.4, Zigbee, USB, Ethernet, CAN, etc.)
  • Dedicated internal PCB layout designers equipped with the latest tools from a variety of leading CAD vendors
  • Real-time control loop design, motor control
  • Data acquisition systems
  • FPGA design and simulation
  • Digital processing system design, including single- and multi-core DSP implementation approaches
  • Design for high volume / low cost
  • Signal integrity simulation
  • Circuit simulation using SPICE
  • Design for EMC
  • System- and board-level EMC troubleshooting

Mechanical Engineering

EngineeringOur mechanical engineers come from a wide range of backgrounds and are experienced in all areas of the product development process, from concept development and proof of concept analysis, to production documentation and manufacturing support.

Our expertise includes:

  • Material selection
  • Electronics packaging
  • Rugged and sealed enclosures
  • Motion control
  • Design for maintainability
  • Design for manufacturing and assembly
  • Complex CAD surfacing– Pro/ENGINEER and SolidWorks
  • Complex mechanisms
  • Micro fluidics
  • ASME Y14.5M and Y14.41 documentation
  • Functional rapid prototypes
  • Regulatory and certification pre-testing
  • Simulation and analysis
    • Structural
    • Thermal
    • Fluid dynamics

Software Engineering

EngineeringOur team of software engineers have not only seen it all, they’ve done it all for many leading companies including Intel, Microsoft and Android (Google).

We architect, design and develop software:

  • For 8- to 64-bit processing systems
  • In C, C++, C#, Java and other languages
  • For bare metal, uCOSII/III, freeRTOS, Linux, iOS, Android, Windows CE and Windows platforms

Code we know:

  • Application Software Engineering
    • Windows, Windows CE, Linux and Android applications
    • Message processing and communication gateways
    • UI design and implementation – from simple text panels to animated 1080p multi-touch GUIs on both embedded and desktop platforms
  • Embedded Software Engineering
    • RTOS – ISR, timer tasks, intertask communications, events and semaphores
    • Processors – ARM, DSP, Texas Instruments, Freescale, Intel
    • Bus interface – ATA, DMA, USB, I2C, SPI, RS-232, GPIO, TCP/IP, SDIO, CAN
    • Device interfaces – LCD, touch, accelerometer, motors, audio, GPS, compass, encoders
  • Software Engineering Processes
    • Software Requirements Specifications
    • Software Test Plans
    • Software Design Specifications
    • Software Development Systems
    • Software Project Management

Systems Engineering

EngineeringAs devices become smarter and more connected and the Internet of Things (IoT) grows more ubiquitous, the product development process will require unprecedented collaboration and coordination to optimize system performance at all phases of development. Our systems engineers have the multi-disciplinary experience to manage the complexity of either IoT development or non-connected development throughout the product lifecycle.

Insights: Why the Big Picture Matters

Our expertise includes:

  • Cross-functional technical leadership of complex system development
  • Requirements management
  • Human factors and usability
  • Risk management
  • Systems integration and test
  • Regulatory expertise

Test Development

EngineeringThere are no shortcuts in designing complex devices that incorporate a multitude of technologies. But through a process we call “test-driven” design, we’re able to help our clients avoid extended product development cycles, testing failures and inflated manufacturing costs.

Insights: Applying Learning Cycles to Complex System Development

We start by evaluating potential test strategies early in the development process. We scope, architect, analyze and manage test system development concurrently with the product development timeline. That allows us to address issues early and minimize risks associated with new product development.

Testing capabilities include:

  • In-circuit
  • Flying Probe
  • AOI
  • Custom Functional – Board and System Level
  • Environmental stress test

Device Technology

EngineeringThe growing market for high performance and efficient devices face many challenges, from power constraints and energy efficiency to processing power and overheating. At Logic PD, we have the expertise and resources to help you solve these common issues to create the most efficient device on the market.

eBook: The Ultimate Guide to Med Device Development Strategy

Insights: Gain efficiency through successful lifecycle management adoption

Areas of expertise include:

  • Fast Boot
  • Battery Power Design
  • Thermal/Power Management
  • DSP Design
  • PCB Design
  • SOM embedded and connected devices

Contact Logic PD and get started today.

We help deliver innovative solutions that conquer today’s complex and connected product challenges and optimize your market potential.

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