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  • Mon - Sat: 10.00 AM - 4.00 PM
  • Sun: 09.00 AM - 4.00 PM
  • Friday: Closed
  • Emergency: 24 hours

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Analog and Mixed Signal Design

Overview

    We specialize in high-performance analog, mixed-signal, and system-level IC design solutions tailored for demanding applications.
    From concept to silicon, our expertise ensures robust and scalable designs—delivering efficient, noise-optimized, and low-power circuit architectures.
    Whether you're building custom ASICs, SoCs, or standalone analog front-ends, we help bring your ideas to life with precision and reliability.

What We Offer

  Analog Circuit Design

  • Custom IC Development: Low-noise amplifiers, voltage references, and biasing circuits
  • PCB Design Layout: Optimized for signal integrity and low-noise performance
  • Prototyping Validation:  Analog filters, signal conditioning, and circuit debugging
  • Embedded Power Solutions: Voltage regulators and power management units

  Mixed-Signal Design

  • Data Converters: High-resolution ADCs and DACs for various applications
  • Clock Management: PLLs, clock generators, and timing circuits
  • Waveform Signal Generation:  Precision waveform and timing solutions
  • Sensor Interfaces: Mixed-signal integration for audio, imaging, and industrial sensors

 System-Level Integration

  • Custom SoC and IC Solutions: Combining analog, RF, and digital subsystems
  • Simulation Layout: Schematic-to-layout workflow with post-layout verification
  • Noise Signal Analysis:  Ensuring signal integrity across all design stages
  • Design for Test Reliability: Built-in test strategies and long-term robustness

  Industries We Serve

  • Automotive systems: ADAS, EV control units, and onboard sensors
  • Consumer electronics: Smartphones, wearables, and audio products
  • Healthcare devices:  Patient monitoring, diagnostic tools, and portable equipment
  • Industrial automation: Smart sensors, control systems, and edge computing
  • Aerospace and defense: Mission-critical systems with high-reliability standards

  Why Partner With Us

  • Deep technical knowledge in analog, RF, and mixed-signal design
  • First-pass silicon success using proven design methodologies
  • Focus on low-power, high-speed, and performance-critical circuits
  • Flexible team engagement models to suit startups and enterprise clients
  • End-to-end support from concept through production

 Our Process

  • Requirement Discovery: We collaborate closely with your team to define goals, constraints, and performance targets.
  • Design Simulation: Using industry-standard tools, we create and simulate the circuit to ensure it meets key specs.
  • Layout Verification: Parasitic-aware layout, verification, and design-rule checks to ensure manufacturability.
  • Prototyping Testing: Fabrication and functional testing to validate the design in real-world conditions.
  • Production Support: Delivery of production-ready files and continued support for updates and lifecycle changes.
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Most Comment Question?

Explore key questions and clear answers about analog and mixed-signal design. Learn how these essential technologies work, where they're used, and why they matter in today’s electronics—from audio circuits to advanced digital interfaces

Analog signal design involves creating circuits that process continuously varying electrical signals. These designs are essential in applications like audio amplifiers, power supplies, radio frequency (RF) circuits, and sensor interfaces. Analog circuits handle real-world signals such as sound, light, and temperature, making them vital for communication, measurement, and control systems.
Mixed-signal design refers to circuits that integrate both analog and digital components. These designs allow digital systems to interact with the analog world. For example, a smartphone microphone captures analog audio, which is converted to digital data for processing. Mixed-signal circuits are crucial in devices like ADCs (Analog-to-Digital Converters), DACs (Digital-to-Analog Converters), and embedded systems used in medical, automotive, and consumer electronics.
Designers of mixed-signal systems often face challenges such as noise interference between analog and digital sections, power supply isolation, layout complexity, and timing synchronization. Ensuring signal integrity, minimizing crosstalk, and achieving accurate data conversion are critical. Proper partitioning, grounding techniques, and simulation tools help address these issues effectively.
ADCs (Analog-to-Digital Converters) convert continuous analog signals into digital values that can be processed by digital systems. DACs (Digital-to-Analog Converters) do the reverse, transforming digital values into analog signals for output devices. Together, they form the bridge between the analog environment and digital computation, enabling functionalities in audio equipment, sensors, imaging systems, and more.