Services

At Glorious Circuit Technologies, we bring your electronic visions to life with precision and reliability. Our comprehensive services span the full product development lifecycle, from concept and design, through prototyping, to mass production and support.

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Hardware Design

Our hardware design services ensure reliable, efficient, and production-ready solutions:

  • Schematic Drafting – Accurate circuit representation for robust designs.
  • PCB Layout & Design – Optimized layouts ensuring signal integrity and manufacturability.
  • Library Management – Standard-compliant component libraries for consistency and efficiency.
  • Component Selection – Cost-effective, reliable, and lifecycle-stable parts.
  • Compliance & Standards – Designs aligned with IPC, IEEE, and safety norms.
  • Prototype to Production – Scalable solutions from concept to high-volume manufacturing.
Hardware Design
Schematic Drafting

Schematic Drafting

We provide accurate and professional schematic drafting services that form the foundation of reliable electronic systems:

  • Circuit Capture – Clear, error-free representation of electronic circuits.
  • Hierarchy Organisation – Well-structured schematics for easy navigation and scalability.
  • Standards Compliance – Drafting aligned with IPC, IEEE, and industry norms.
  • Library Integration – Use of verified, standardised symbols and footprints.
  • Design Rule Checks (DRC) – Ensuring correctness before moving to PCB layout.
  • Cross-Referencing Annotation – Simplifying multi-sheet and complex designs.
  • Production-Ready Output – Clean netlists and documentation for seamless PCB design.

PCB Library Management

We create and maintain component symbols, footprints, and 3D models strictly following international standards such as IPC-7351, IPC-2221, IEEE, and JEDEC. With rigorous validation, version control, and standardization, we eliminate errors, accelerate design cycles, and enable seamless integration with multiple EDA tools. By providing reliable, reusable, and industry-compliant libraries, we help customers achieve reduced design time, minimized manufacturing risks, and higher product quality.

PCB Library Management
PCB Layout

PCB Layout

  • Industry Coverage – Automotive, Industrial, Consumer Electronics, Medical Devices, IoT, Telecom, and Defense applications
  • Chipset Expertise – High-speed processors, FPGAs, SoCs, DDR memory, RF modules, and power management ICs
  • Interface Design – PCIe, USB, HDMI, Ethernet, CAN, LVDS, DDR, and other high-speed differential signaling standards
  • Design Process – End-to-end flow including component placement, layer stack-up definition, signal routing, impedance control, SI/PI validation, thermal optimization, and final DFM/DFT/DFA checks
  • Key Strengths – Multi-layer complex board design, rigid-flex PCB layouts, thermal-aware routing, and compliance with IPC and global manufacturing standards

Signal Integrity Analysis

  • Ensures clean and reliable signal transmission in high-speed designs
  • Timing analysis to validate setup/hold margins and minimize skew
  • Crosstalk and reflection analysis to detect interference between traces
  • Eye diagram simulation for jitter and signal quality verification
  • Impedance control and TDR analysis for accurate trace performance
  • S-parameter extraction and validation for high-frequency signals
  • Supports interfaces such as PCIe, USB, HDMI, Ethernet, DDR, LVDS, and SerDes
  • Helps achieve right-first-time design by reducing re-spins and data errors
Signal Integrity Analysis
Power Integrity Analysis

Power Integrity Analysis

  • Ensures stable power delivery across the PCB and system level
  • IR drop analysis for voltage stability across power planes
  • DC analysis to check static current distribution
  • AC analysis for noise coupling and decoupling capacitor optimization
  • PDN impedance simulation to maintain power quality over frequency
  • Transient response simulation for dynamic load conditions
  • Validation of decoupling strategies for clean supply to ICs
  • Reduces risk of power noise, ground bounce, and EMI issues

RF Analysis

  • Ensures optimal performance of RF and high-frequency circuits in PCB and system-level designs
  • S-parameter simulation for scattering, reflection, and transmission characteristics
  • Return loss and insertion loss analysis to minimize signal degradation
  • Impedance matching analysis for antennas, transmission lines, and RF paths
  • Crosstalk and isolation checks between RF, analog, and digital domains
  • EM field simulation for accurate modeling of RF propagation
  • Antenna performance evaluation including gain, radiation pattern, and efficiency
  • Compliance with wireless standards such as Wi-Fi, Bluetooth, LTE/5G, GPS, and IoT protocols
  • Helps reduce signal loss, EMI/EMC risks, and system-level interference
RF Analysis
PCB-Level Thermal Analysis

PCB-Level Thermal Analysis

  • Evaluates heat dissipation across components and copper planes on the board
  • Junction-to-ambient and junction-to-board thermal resistance checks
  • Hot-spot identification for power devices, ICs, and dense areas
  • Temperature distribution mapping across single and multi-layer PCBs
  • Via and copper trace optimization for effective thermal conduction
  • Material property analysis (FR4, metal core, ceramics, etc.) for thermal performance
  • Ensures compliance with IPC-2152 and industry thermal guidelines
  • Extends product lifespan by preventing overheating and component failures

System-Level Thermal Analysis

  • Simulates heat flow and airflow across the entire system or enclosure
  • CFD (Computational Fluid Dynamics) simulations for airflow optimization
  • Heat sink and fan performance evaluation
  • Thermal coupling analysis between PCBs, connectors, power supplies, and mechanical enclosures
  • Transient thermal simulations to assess performance under varying loads
  • Material and enclosure design optimization for thermal efficiency
  • Supports design of rugged, high-reliability systems in automotive, aerospace, and industrial environments
  • Ensures compliance with ASHRAE, JEDEC JESD51, and global thermal standards
System-Level Thermal Analysis
Mechanical CAD Design

Mechanical CAD Design

  • 3D CAD modeling of enclosures, housings, and assemblies using SolidWorks, CATIA, Creo, and AutoCAD
  • 2D drafting detailing with precision, following GD&T and manufacturing standards
  • Electro-Mechanical integration ensuring seamless PCB-to-enclosure compatibility
  • Sheet metal, plastic, die-cast, and machined component design for diverse industries
  • Tolerance stack-up analysis to ensure manufacturability and robust product performance
  • Design validation prototyping for faster time-to-market
  • Expertise in thermal-aware and ergonomic enclosure design
  • Compliance with ASME, ISO, and IEC mechanical standards

Mechanical Structural Analysis

We deliver end-to-end structural analysis services to ensure mechanical designs are safe, reliable, and optimized for real-world conditions. Using advanced tools like ANSYS, Abaqus, and SolidWorks Simulation, we validate performance under diverse operating environments.

Sub-Analysis Capabilities:

  • Simulates heat flow and airflow across the entire system or enclosure
  • CFD (Computational Fluid Dynamics) simulations for airflow optimization
  • Heat sink and fan performance evaluation
  • Thermal coupling analysis between PCBs, connectors, power supplies, and mechanical enclosures
  • Transient thermal simulations to assess performance under varying loads
  • Material and enclosure design optimization for thermal efficiency
  • Supports design of rugged, high-reliability systems in automotive, aerospace, and industrial environments
  • Ensures compliance with ASHRAE, JEDEC JESD51, and global thermal standards
Mechanical Structural Analysis