BENCHMarks ™ New Products, Tips and Tools for Power and Mobile Applications VOL. 1, 2012 Advantages Digital Microphones Improve Sound Quality, Lower Power • Lower power compensation, 0.8mW Achieve better sound quality in mobile handset and notebook microphone applications with Fairchild’s FAN3850x series of digital microphone pre-amplifiers. These high performance analog mobile audio devices provide advanced noise rejection capabilities as well as an easy interface to mobile handset processors. • <20μW power down mode The series includes: • Excellent signal-to-noise ratio • FAN3850A that features both 16dB and 19dB gain versions, Applications • Mobile handsets • Notebook PC microphones For more information, please visit: • FAN3850T offering 15dB gain and integrated negative temperature coefficient to compensate for ECM positive temperature coefficient to achieve a flat sensitivity response over temperature. Both devices integrate a pre-amplifier, low drop-out regulator (LDO) and analogto-digital converter (ADC) that converts Electret Condenser Microphone (ECM) outputs to digital pulse density modulation (PDM) data streams. www.fairchildsemi.com/pf/FA/FAN3850A.html www.fairchildsemi.com/pf/FA/FAN3850T.html 90 SNR (dBa), THD (dB), SINAD (dB) 80 70 60 50 40 30 SNR (dBa) THD (dB) 20 SINAD (dB) 10 0 -10 -20 0.001 0.01 0.1 1 10 100 Input Signal (mVpp) FAN3850T 15dB SNR (dBa), THD (-dB), SINAD (dB) over Input Amplitude Product Number FAN3850x IDD (μA) ISLEEP (μA) SNR (dB) THD (%) 120dB SPL THD + N (%) ESD (HBM) (kV) 420 1.4 62 0.01 3 7 VDD = 1.8V, FCLOCK = 2.4MHz, 94dBSPL SINGLE-CHIP PWM SOLUTION Advantages • Proven, reliable mWSaver™ Technology • Achieves <30mW no load/ standby power consumption • Reduces up to 15 external components Applications • Notebooks • Game consoles • Printer adapters • LCD TVs Single-Chip PWM Solution Saves Board Space Designers who need to achieve lower standby power consumption in devices such as notebooks, printers, LCD TVs, now have an industry-leading single-chip solution with Fairchild’s FAN6756. Lower standby power in 75W spaceconstrained applications is achieved without additional external circuitry, complex designs or higher costs. The single-chip solution is a highly integrated greenmode PWM controller that significantly reduces standby losses in SMPS designs, and eliminates up to 15 external components. The FAN6756 also includes an innovative AX-CAP™ discharge method that minimizes losses in the EMI filter stage, while meeting the IEC61010-1 safety requirement. This functionaity is achieved by eliminating the X-cap discharge resistors and discharging X-cap energy through the HV pin when the power is unplugged from the AC outlet. Ideal for power supplies that demand extremely low standby power, the FAN6756 incorporates mWSaver™ Technology. This technology allows the device to reduce power losses not only in the controller, but also in the external circuits and components. It also includes a proprietary deep burst mode technology that reduces switching loss at no-load and light-load conditions. For more information, please visit: FAN6756 www.fairchildsemi.com/pf/FA/FAN6756.html www.fairchildsemi.com/mwsaver 5.4V VDD Sensed Current Signal Impedence Modulator ZFB 3R VFB 2 PWM Comparator FB 1R CFB Deep Burst Mode Control Circuit Protection* Product Number OLP OVP OTP SSCP FAN6756MRMY A/R L L A/R FAN6756MLMY L L L A/R Max Power (W) Rating Feedback Mode Protection Package 65 Current OLP, OCP, OVP, OTP, SSCP SOIC-8 *Auto Recovery Mode protection, L = Latch Mode protection. OptoHiT™ PHOTOTRANSISTOR OPTOCOUPLERS Advantages • Excellent CTR linearity at high temperature • CTR at very low input current, IF (1mA, 1.6mA, and 3mA) • Small footprint: half-pitch mini-flat package (MFP) saves board real estate for more flexibility and overall systems cost savings Reliable Isolation and Minimized System Failure with OptoHiT™ Optocouplers Realize increased design margins and stable parameters in high temperature environments with Fairchild’s new FODM8801 OptoHiT™ high temperature phototransistor optocoupler. You’ll achieve high noise immunity and reliable isolation at high operating temperatures, up to 125°C, as this new series implements Fairchild’s proprietary OPTOPLANAR® coplanar packaging technology. In addition, the FODM8801 offers excellent CTR linearity and operates at a very low input current (IF). The optocoupler consists of an aluminum gallium arsenide (AlGaAs) infrared light emitting diode optically coupled to a phototransistor. Because the FODM8801 is packaged in a compact, half-pitch, mini-flat, 4-pin package (1.27mm lead pitch), benefits also include board space savings and design flexibility, ultimately allowing for overall reductions in system cost. Applications 1.2 VCE = 5V • Ground loop isolation, signal-to-noise isolation • Communications: adapters, chargers • Consumer: appliances, set-top boxes IF = 2mA 1.0 NORMALIZED CTR @ 25°C • Primarily suited for DC-DC converters 0.8 IF = 0.5mA IF = 1mA 0.6 0.4 0.2 • Industrial: power supplies, motor control, programmable logic control 0 -40 -20 0 20 40 60 80 100 120 140 TA– AMBIENT TEMPERATURE (°C) For more information, please visit: Normalized CTR vs. Ambient Temperature www.fairchildsemi.com/pf/FO/FODM8801A.html www.fairchildsemi.com/products/opto/ CTR (Min) @ IF = 1mA CTR (Max) @ IF = 1mA FODM8801A 80% 160% FODM8801B 130% 260% FODM8801C 200% 400% Product Number BVCEO (Min) BVECO (Min) tON/tOFF (Max) VISO (Min) TOPR (Min) TOPR (Max) 75V 7V 20µs 3750V -40 °C 125 °C LED LAMP DRIVER IC Advantages • High functional density in a small form factor • Up to 60% board space savings compared to other solutions • Up to 20% lower bill of material costs compared to other solutions • Digital power factor (PF) realization greater than 0.9 • Lower total harmonic distortion (THD) • 90% electrical efficiency • Meets worldwide Energy Star® regulations Small-Spaced Dimming Challenges Solved with LED Lamp Driver IC With Fairchild’s FL7701 smart non-isolated Buck LED driver with power factor correction, designers attain efficient dimming solutions that also fit within existing sockets. Because the need to work reliably in a small space while providing high efficiency is imperative, the device uses a digital technique that allows it to automatically detect the AC input voltage condition. A special internal reference signal is then created, resulting in high power factor correction. The FL7701 will work from a DC input voltage condition, automatically sensing AC versus DC input voltage conditions. It also combines high functional density to create the smallest form factor and allows designers to save up to 20% BOM costs and up to 60% board space savings. The LED driver provides energy savings that meet the most stringent worldwide regulations, such as Energy Star®. Designers also benefit from the high degree of integration offered by the FL7701. The result is increased luminary lifespan to more than five years (current solution only achieves three years.) And reliability is also improved since no electrolytic capacitors for the input, output or the FL7701 VDD supply are required. Applications • Decorative lighting • Low-power lighting For more information, please visit: www.fairchildsemi.com/pf/FL/FL7701.html www.fairchildsemi.com/ledlighting Typical application Engineering Connections Need to Design a Dimmable LED Lamp Small Enough to Fit Existing Sockets? Read the latest in our blog at www.fairchildsemi.com/engineeringconnections. Product Number Topology PFC Dimming CC Variance (%) Frequency (kHz) Package FL7701 Non-Isolation PFC Buck Yes Yes 3 Variable SOIC-8 FLYBACK CONTROLLERS Advantages • FAN302HL • 8mW standby • 15W chargers • PSR for CC & SSR for CV • mWSaver™ Technology • FAN6920MR, FAN7382, FAN6204 • Dual-switch QR + CRM PFC + HV half-bridge driver + SR control • Exceeds 2013 ErP no load spec • mWSaver™ Technology • FAN6756, FAN6204 • PWM controller + SR controller • 90+% efficiency • 26mW standby • mWSaver™ Technology Achieve Industry-Best Energy Savings for Flyback Designs Designers using flyback topology can now achieve optimum converter performance with Fairchild’s expansive portfolio of flyback controllers. Enabling power savings, achieving high-power density and meeting energy standards, the portfolio includes: • The FAN302HL mWSaver™ Technology PWM controller, a highly integrated device that includes a proprietary burst-mode function with low operation current and minimizes standby power consumption. • The dual switch flyback solution for 75W~230W applications and consists of the FAN6920MR integrated critical mode PFC and quasi-resonant current mode PWM controller, the FAN7382 gate driver, in tandem with the FAN6204 secondary synchronous rectifier controller for flyback topology and forward freewheeling rectification. • The FAN6756 mWSaver™ Technology PWM controller, dramatically reduces standby and no-load power consumption, enabling conformance to worldwide standby mode efficiency guidelines. In addition, Fairchild offers the Power Supply WebDesigner (PSW) online design and simulation tool that takes your specifications and provides a complete primary-side regulated (PSR) flyback converter or secondary-side regulated (SSR) flyback converter designs in minutes—at no expense. Applications Energy-Efficient Controllers for Flyback Designs Power level vs. efficiency vs. standby power 200W The industry’s best efficiency and standby power combination for each power rating. FAN6920MR + FAN6204 + FAN7382 • Dual-switch QR + CRM PFC + HV half-bridge driver + SR control For more information, please visit: Engineering Connections • mWSaver Technology TM FAN6756 + FAN6204 75W FAN6756 • Single-chip solution • Ideal for ≤75W adapters • ≤26mW standby • mWSaver Technology TM FAN6862/63 TM FSB127H • • • • 15W FAN302HL • ≤8mW standby • ≤15W chargers • PSR for CC & SSR for CV • mWSaver Technology PWM + 700V MOSFET Single-chip solution ≤40mW standby mWSaver Technology Save engineering time and costs with Power Supply WebDesigner—without being a power expert. Find out how in our blog, or listen to our podcast, at www.fairchildsemi.com/engineeringconnections. 85% • Cost-effective solution • ≤300mW standby • 85+% efficiency (19V, 40W) FAN6300A/H • QR current mode solution • 85+% efficiency, 19V • ≥100W range FSQ500 30mW 80% TM FSL116HR FSL206MR • Integrated 650V SenseFET TM 10mW 90% • PWM controller + SR controller • 90+% efficiency • ≤26mW standby • mWSaver Technology • • • • Integrated 700V SenseFET 6.5W adapter power ≤150mW standby 70+% efficiency 100mW S TA N D B Y P O W E R C O N S U M P T I O N ( 2 3 0 V A C ) Power Supply WebDesigner Blog and Podcast 95% • Exceeds 2013 ErP no load spec POWER LEVEL www.fairchildsemi.com/pf/FA/FAN302HL.html www.fairchildsemi.com/pf/FA/FAN6920MR.html www.fairchildsemi.com/pf/FA/FAN7382.html www.fairchildsemi.com/pf/FA/FAN6756.html www.fairchildsemi.com/pf/FA/FAN6204.html www.fairchildsemi.com/powersupplywebdesigner www.fairchildsemi.com/flybackconverter 100% 300mW 75% 70% 500mW O P E R AT I N G E FF I C I E NC Y ( 1 00V A C ) • Adapters/converters for mobile phones and firewalls, tablets, PCs and large flat panel TVs N-CHANNEL PowerTrench® MOSFET Advantages • Provides lower conduction losses, max RSS(ON) = 16.5mΩ at VGS = 4.5V, ID = 8A • 40% smaller than legacy solutions • MicroFET 2mm x 3mm2 • RoHS Compliant • HBM ESD protection >2kV Applications Improve Battery Life, Reduce Space in Li-Ion Battery Pack For mobile applications that use a one-cell Li-Ion battery pack, Fairchild’s FDMB2307NZ dual N-channel PowerTrench® MOSFET, addresses design space and efficiency challenges. The device enables bidirectional current flow, and by using advanced PowerTrench processes, the FDMB2307NZ provides high power density and a maximum RSS(ON) of 16.5mΩ at VGS = 4.5V, ID = 8A. This results in lower conduction losses, lower voltage drop, less power dissipation and increased overall design efficiency when compared to competitive solutions. Designers will also benefit from excellent thermal performance, resulting in cooler system operation, further increasing efficiency. The device’s small package size (MicroFET 2mm x 3mm2) provides one of the smallest MLP solutions available—40% smaller than existing legacy solutions—saving significant board space in their design. • Ultraportable applications For more information, please visit: www.fairchildsemi.com/pf/FD/FDMB2307NZ.html rS1S2(on), SOURCE1 TO SOURCE2 ON-RESISTANCE (mΩ) 80 PULSE DURATION = 80 µs DUTY CYCLE = 0.5% MAX 60 IS1S2 = 8 A 40 TJ = 150 o C 20 TJ = 25 oC 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 VGS, GATE TO SOURCE VOLTAGE (V) On Resistance vs. Gate to Source Voltage Product Number FDMB2307NZ ID max (A) PD max (W) RSS(ON) max @ 4.5V /mΩ RSS(ON) max @ 4.2V/ mΩ RSS(ON) max @ 3.1V/ mΩ Qg typ nc ESD HBM (kV) Package (mm) 9.7 2.2 16.5 18 21 18 >2 2 x 3 x 0.8 ENGINEERING CONNECTIONS Flyback Design and Simulation in Minutes Faster power supply designs—whether you are a power supply expert or not—are now a reality with Fairchild’s Power Supply WebDesigner (PSW). This online design and simulation tool takes your specifications and provides a complete Primary-Side Regulated (PSR) Flyback Converter or Secondary-Side Regulated (SSR) Flyback Converter design. Applications: • SMPS for STB, DVD, DVCD players • SMPS for home appliances, printer, scanner, facsimile, LCD monitor, LCD TV • Battery charger for cellular phones, cordless phones, digital cameras, power tools Power Supply WebDesigner Blog and Podcast Save engineering time and costs with Power Supply WebDesigner—without being a power expert. Read our full blog, or listen to our podcast to learn more: www.fairchildsemi.com/engineeringconnections. For more information, visit: www.fairchildsemi.com/powersupplywebdesigner. You get a schematic, simulated verification, and bill of material costs in minutes. Fine-tune design parameters without a bench prototype, swap component choices and perform detailed simulations and analyses—all with the ability to confidentially save your design for future reference. Engineering Connections offers blogs, videos, online seminars and podcasts that help designers solve their design challenges and speed timeto-market. Get the latest information at www.fairchildsemi.com/engineeringconnections. Automatic Design Enter Basic Input/Output System Requirements Choose e Advanced Design Enter Detailed System Requirements Components Selected Design Simulated Design requirements matched to Fairchild's products Fine-tune design without building bench prototype Report Generated Schematic and bill of material including auto selection from preferred distributor's catalog for a complete listing of sales representatives and sales offices, visit: www.fairchildsemi.com/cf/sales_contacts for information on fairchild products, tradeshows, seminars and other items, register here: www.fairchildsemi.com/my_fairchild For datasheets, application notes, samples and more, please visit: www.fairchildsemi.com PRODUCTS Power Management Power Factor Correction • Continuous Conduction Mode (CCM) PFC Controllers • Critical/Boundary Conduction Mode (CrCM/BCM) PFC Controllers • Interleaved PFC Controllers • PFC + PWM Combination (Combo) Controllers Off-Line and Isolated DC-DC • AC-DC Linear Regulators • Flyback & Forward PWM Controllers • Flyback & Forward PWM Controllers with Integrated MOSFET • LLC Resonant & Asymmetric Half Bridge PWM Controllers • LLC Resonant & Asymmetric Half Bridge PWM Controllers with Integrated MOSFETs • Primary-Side Regulation CV/CC Controllers • Primary-Side Regulation CV/CC Controllers with Integrated MOSFET • Standard PWM Controllers • Supervisory/Monitor ICs • Synchronous Rectifier Controllers Non-Isolated DC-DC • Charge-pump Converters • DrMOS FET plus Driver Multi-Chip Modules • Step-down Controllers (External Switch) • Step-down Regulators, Non-Synchronous (Integrated Switch) • Step-down Regulators, Synchronous (Integrated Switch) • Step-up Regulators (Integrated Switch) MOSFET and IGBT Gate Drivers • 3-Phase Drivers • Half-Bridge Drivers • High- & Low-Side Drivers • High-Side Drivers • Low-Side Drivers Voltage Regulators • LDOs • Positive Voltage Linear Regulators • Negative Voltage Linear Regulators • Shunt Regulators • Voltage Detector • Voltage Stabilizer • Voltage to Frequency Converter APPLICATIONS DESIGN SUPPORT ABOUT FAIRCHILD Motion Control • BLDC/PMSM Controller • Motion-SPM™ (Smart Power Modules) • PFC SPM® (Smart Power Modules) Interface • LVDS • Serializers/Deserializers (µSerDes™) • USB Transceivers Diodes & Rectifiers • Bridge Rectifiers • Circuit Protection & Transient Voltage Suppressors (TVS) • Diacs • Rectifiers • Schottky Diodes & Rectifiers • Small Signal Diodes • Zener Diodes Signal Conditioning • Video Filter Drivers • Video Switch Matrix/Multiplexers IGBTs • Discrete IGBTs • Ignition IGBTs MOSFETs • Discrete MOSFETs • Level-Shifted Load Switches • MOSFET/Schottky Combos Transistors • BJTs • Darlingtons • Digital/Bias-Resistor Transistors • JFETs • RF Transistors • Small Signal Transistors Advanced Load Switches • Advanced Current Limited Load Switches • Slew Rate Controlled Load Switches Battery Management • Battery Charger ICs Ground Fault Interrupt • Ground Fault Interrupt (GFI) Controllers Backlight Unit (BLU) • CCFL Inverter ICs Signal Path ICs Amplifiers & Comparators • Comparators • Operational Amplifiers Audio Amplifiers • Audio Subsystems • Audio Headphone Amplifiers • Digital Microphone Amplifiers Signaling, Sensing & Timing • Signaling, Sensing & Timing • Timing Switches • Accessory Switches • Analog Switches • Audio Jack Detection Switches • Audio Switches • Bus Switches • MIPI Switches • Multimedia Switches • USB Switches • Video Switches Logic Buffers, Drivers, Transcievers • Buffers • Line Drivers • Transceivers Flip Flops, Latches, Registers • Counters • Flip Flops • Inverters • Latches • Registers Gates • AND Gates • NAND Gates • OR Gates • NOR Gates • Schmitt Triggers • Configurable Gates Multiplexer / Demultiplexer / Decoders • Decoders • Demultiplexers • Multiplexers • Multivibrators LIGHTING ICs • Fluorescent Lamp ICs • HID ICs • LED Lighting ICs • Portable LED Drivers Optoelectronics High Performance Optocouplers • Low Voltage, High Performance • High Speed Logic Gate • High Performance Transistor • IGBT/MOSFET Gate Driver • Specific Function Infrared • Emitting Diodes • Photo Sensors • Photo Sensor – Transistors • Ambient Light Sensors • Reflective Sensors • Optical Interrupt Switches Phototransistor Optocouplers • Isolated Error Amplifier • Phototransistor Output DC Sensing Input • Phototransistor Output AC Sensing Input • Photo Darlington Output TRIAC Driver Optocouplers • Random Phase TRIAC Driver • Zero Crossing TRIAC Driver AUTOMOTIVE PRODUCTS Automotive Discrete Power • Automotive Ignition IGBTs • Automotive IGBTs • Automotive N-Channel MOSFETs • Automotive P-Channel MOSFETs • Automotive Rectifiers Automotive High Voltage Gate Drivers (HVICs) • Automotive High Voltage Gate Drivers (HVICs) High Side Smart Switches • High Side Smart Switches Voltage Level Translators • Voltage Level Translators Battery Protection ICs • Battery Protection ICs Trademarks, service marks, and registered trademarks are the property of Fairchild Semiconductor or 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For a listing of Fairchild Semiconductor trademarks and related information, please see: www.fairchildsemi.com/legal Lit code: 970042-001 © 2012 Fairchild Semiconductor. All Rights Reserved. Solutions for Your Success™