PDP TV

There are several factors driving you to differentiate your product both on the outside and on the inside.  End customers care about a slim and sleek form factor and lowering standby power consumption for PDP televisions.

Manufacturers care about reliability and design ruggedness against abnormal lightning surge and ESD. Achieving a slim and sleek form factor for PDP TVs is the result of higher-efficiency power conversion and integration.  Fairchild Semiconductor offers compelling MOSFET technologies and power supply topologies in packages that target your PDP TV electrical and mechanical requirements, enabling you to differentiate your product and meet both end customers' and manufacturers' requirements.

Design Advantages

  • Fairchild's analog and mixed signal ICs are developed with a particular focus on USB, audio, video, and signal routing applications. Our analog switch products provide innovative detection and routing capabilities to meet your design needs.
  • Fairchild Semiconductor offers a wide portfolio of video driver and video switch matrix solutions for all channel configurations and resolutions including CV, S-video, Component Video, SD, ED, HD 1080 or HD 1080p.
  • Fairchild’s power management products provide a complete AC/DC switch mode power supply solution for consumer electronic applications with efficiency, low stand-by power and reliability.
  • Fairchild flyback converter products integrate MOSFETs and PWM controller for ruggedness and reliability.
  • Fairchild LLC and AsHB product solutions give you the flexibility to choose the right MOSFETs and control IC or best integrated solutions for your requirements.
  • Fairchild’s extensive MOSFET technology (SuperFET®, UniFET™ and SupreMOS® MOSFETs) creates ruggedness and higher system reliability.
  • Fairchild Semiconductor offers IGBTs with higher current handling and higher breakdown voltage for PDP panel driving circuits to achieve higher reliability with sufficient design margins.
Application NoteDescription
AN-4138Design Considerations for Battery Charger Using Green Mode Fairchild Power Switch (FPS™)
AN-4121Design of Power Factor Correction Circuit Using FAN7527B
AN-6206Primary-Side Synchronous Rectifier (SR) Trigger Solution for Dual-Forward Converter
AN-4150Design Guidelines for Flyback Converters Using FSQ-Series Fairchild Power Switch (FPS™)
AN-6073FAN6751 Highly Integrated Green-Mode PWM Controller
AN-6300FAN6300/A/H Highly Integrated Quasi-Resonant PWM Controller
AN-4107Design of Power Factor Correction Using FAN7527
AN-6075Compact Green-Mode Adapter Using FSQ500L for Low Cost
AN-8035Design Consideration for Boundary Conduction Mode Power Factor Correction (PFC) Using FAN7930
AN-4146Design Guidelines for Quasi-Resonant Converters Using FSCQ-Series Fairchild Power Switch (FPS™)
AN-6014Green Current Mode PWM Controller FAN7602
AN-8021Building Variable Output Voltage Boost PFC Converters with the FAN9612 Interleaved BCM PFC Controller
AN-6016LCD Backlight Inverter Drive IC (FAN7311)
AN-4137Design Guidelines for Offline Flyback Converters using FPS™
AN-6067Design and Application of Primary-Side Regulation (PSR) PWM Controller
AN-6069Application Review and Comparative Evaluation of Low-Side Gate Driver
AN-400ALow-Power Green-Mode PWM Flyback Power Controller without Secondary Feedback
AN-6032FAN4800 Combo Controller Applications
AN-8027FAN480X PFC+PWM Combination Controller Application
AN-6747Applying FAN6747 to Control a Flyback Power Supply with Peak Current Output
AN-6755Design Guideline to Replace FAN6753 with FAN6755W
AN-6921Integrated Critical Mode PFC / Quasi-Resonant
AN-6982Power Factor Correction Converter Design with FAN6982
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-1031Considerations in Designing the Printed Circuit Boards of Embedded Switching Power Supplies
AN-4153Designing Asymmetric PWM Half-Bridge Converters with a Current Doubler and Synchronous Rectifier using FSFA-Series Fairchild Power Switches (FPS™)
AN-4140Transformer Design Consideration for Offline Flyback Converters Using Fairchild Power Switch (FPS™)
AN-4141Troubleshooting and Design Tips for Fairchild Power Switch (FPS™) Flyback Applications
AN-4148Audible Noise Reduction Techniques for FPS™ Applications
AN-9719Applying Fairchild Power Switch (FPS™) FSL1x7 to Low-Power Supplies
AN-6861Applying FAN6861 to Control a Flyback Power Supply with Surge Current Output
AN-4116A Fairchild Power Switch (FPS) based on Switched Mode Power Supply for LCD Monitor Use
AN-5841Applying SG5841 to Control a Flyback Power Supply
AN-6077SG6742 - Highly Integrated Green-Mode PWM Controller
AN-6858Applying SG6858 to Control a Flyback Power Supply
AN-6902Applying SG6902 to Control a CCM PFC and Flyback/PWM Power Supply
AN-6932Applying SG6932 to Control a PFC and Forward/PWM Power Supply
AN-42007Safety, EMI and RFI Considerations
AN-6753Highly Integrated Green-Mode PWM Controller
AN-4145Electromagnetic Compatibility for Power Converters
AN-6741Flyback Power Supply Control with the SG6741
ApplicationDocument NumberFeatured
Product(s)
Output
Power (W)
Input Voltage
Range (VAC)
Topology
PDP TVPDFRD-325
FAN7621FAN7621BFAN7621S
384 W340-400VACLLC Resonant Half-Bridge Converter
Power Supply LCD TVPDFRD-212
FSFR2100FSFR2100XSKA431A
192 W340-400V/DCLLC Resonant Half-Bridge Converter
Power Supply LED PDP TVPDFRD-267
FSQ510
4.16 W85-265VACFlyback Converter