Server

Growing IT complexity to handle today’s business needs such as databases and applications has increased the demands on server and storage hardware contained within a data center. The hardware needs to be available 24 hours/day-7 days/week -365 days, respond to wide range of extreme workload, while setting a low carbon IT footprint.  It is important to save energy in data centers by using highly energy-efficient servers so HVAC or other innovative cooling systems are optimized to keep the servers cool. As a result, the servers and the cooling solutions should effectively use the electrical utility or renewable produced energy resources. Fairchild offers the broadest portfolio of power management products for keeping servers cooler.

Committed to "leading edge" technology developments, Fairchild continues to evolve and deliver innovative and energy efficient solutions to enable your company's success through improved system performance.

Fairchild’s power management solutions drive efficiency while simplifying system design, improving system reliability and accelerating time to market. Our industry leading integrated technologies and unique packaging solutions address system cooling and optimized power density.

Fairchild's analog and mixed signal ICs are developed with a particular focus on USB, audio, video, and signal routing applications, These leading integrated solutions minimize redundant circuitry, eliminate connectors, and allow for design flexibility in feature offerings, board space reduction, lower power consumption, and lower system cost.

Design Advantages

  • PowerTrench® MOSFET technology enables high-power density for high efficiency solutions providing the lowest RDS ON available, improved FOM and lower power dissipation.
  • TinyBuck® POL regulators with integrated PWM controller, driver and MOSFETs optimize performance and energy savings.
  • High-voltage SuperFET® II super-junction MOSFETs provide robust body diode performance for designs requiring high-power density, system efficiency and reliability.
  • Our 3.3 V/5 V high-speed logic gate optocouplers support isolated communications between systems without conducting ground loops or hazardous voltages.
  • Extensive portfolio of board level Analog and Mixed signal ICs offers extensive signal path expertise with a particular focus on USB, audio, video and signal routing application, provides innovative detection and routing capabilities.
Application NoteDescription
AN-6067Design and Application of Primary-Side Regulation (PSR) PWM Controller
AN-4138Design Considerations for Battery Charger Using Green Mode Fairchild Power Switch (FPS™)
AN-4107Design of Power Factor Correction Using FAN7527
AN-6300FAN6300/A/H Highly Integrated Quasi-Resonant PWM Controller
AN-6206Primary-Side Synchronous Rectifier (SR) Trigger Solution for Dual-Forward Converter
AN-8035Design Consideration for Boundary Conduction Mode Power Factor Correction (PFC) Using FAN7930
AN-4121Design of Power Factor Correction Circuit Using FAN7527B
AN-6032FAN4800 Combo Controller Applications
AN-9005Driving and Layout Design for Fast Switching Super-Junction MOSFETs
AN-9065FRFET® in Synchronous Rectification
AN-8021Building Variable Output Voltage Boost PFC Converters with the FAN9612 Interleaved BCM PFC Controller
AN-9052Design Guide for Selection of Bootstrap Components
AN-4137Design Guidelines for Offline Flyback Converters using FPS™
AN-6069Application Review and Comparative Evaluation of Low-Side Gate Driver
AN-8027FAN480X PFC+PWM Combination Controller Application
AN-6921Integrated Critical Mode PFC / Quasi-Resonant
AN-6982Power Factor Correction Converter Design with FAN6982
AN-8102Recommendations to Avoid Short Pulse Width Issues in HVIC Gate Driver Applications
AN-6076Design and Application Guide of Bootstrap Circuit for High-Voltage Gate-Drive IC
AN-42047Power Factor Correction (PFC) Basics
AN-6086Design Consideration for Interleaved Boundary Conduction Mode PFC Using FAN9611 / FAN9612
AN-4151Half-Bridge LLC Resonant Converter Design Using FSFR-Series Fairchild Power Switch (FPS™)
AN-9067Analysis of MOSFET Failure Modes in LLC Resonant Converter
AN-5232New Generation Super-Junction MOSFETs, SuperFET® II and SuperFET® II Easy Drive MOSFETs for High Efficiency and Lower Switching Noise
AN-6099New PowerTrench® MOSFET with Shielded Gate Technology Increases System Efficiency and Power Density in Synchronous Rectification Applications
AN-7536FCS Fast Body Diode MOSFET for Phase-Shifted ZVS PWM Full Bridge DC/DC Converter
AN-7733FL7732 Design Tool Flow (Buck Boost)
AN-1031Considerations in Designing the Printed Circuit Boards of Embedded Switching Power Supplies
AN-4140Transformer Design Consideration for Offline Flyback Converters Using Fairchild Power Switch (FPS™)
AN-4148Audible Noise Reduction Techniques for FPS™ Applications
AN-4141Troubleshooting and Design Tips for Fairchild Power Switch (FPS™) Flyback Applications
AN-6932Applying SG6932 to Control a PFC and Forward/PWM Power Supply
AN-4145Electromagnetic Compatibility for Power Converters
AN-7531Implementing A Primary Side Peak-Current-Mode Half-Bridge Converter
AN-6902Applying SG6902 to Control a CCM PFC and Flyback/PWM Power Supply
AN-42007Safety, EMI and RFI Considerations
AN-6754Design Guideline to Replace SG6742 with FAN6754
ApplicationDocument NumberFeatured
Product(s)
Output
Power (W)
Input Voltage
Range (VAC)
Topology
Power Supply LCD TVPDFRD-212
FSFR2100FSFR2100XSKA431A
192 W340-400V/DCLLC Resonant Half-Bridge Converter