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october 2012 ? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 FL7732 ? single-stage pfc primary-side -regulation offline led driver FL7732 single-stage pfc primary-side-regulation offline led driver features ? cost-effective solution: no input bulk capacitor or feedback circuitry ? power factor correction ? accurate constant-current (cc) control, independent online voltage, output voltage, and magnetizing inductance variation ? linear frequency control improves efficiency and simplifies design ? open-led protection ? short-led protection ? cycle-by-cycle current limiting ? over-temperature protection with auto restart ? low startup current: 20 a ? low operating current: 5 ma ? v dd under-voltage lockout (uvlo) ? gate output maximum voltage clamped at 18 v ? sop-8 package ? application voltage range: 80 v ac ~ 308 v ac applications ? led lighting system description this highly integrated pwm controller provides several features to enhance the performance of low-power flyback converters. the proprietary topology, truecurrent ? enables simplified circuit design for led lighting applications. by using single-stage topology with primary-side regulation, a led lighting board can be implemented with few external components and minimized cost. no input bulk capacitor or feedback circuitry is required. to implement good power factor and low thd, constant on-time control is utilized with an external capacitor connected to the comi pin. precise constant-current control regulates accurate output current versus changes in input voltage and output voltage. the operating frequency is proportionally adjusted by the output voltage to guarantee dcm operation with higher efficiency and simpler design. FL7732 provides open-led, short-led, and over- temperature protecti on features. the current limit level is automatically reduced to minimize output current and protect external components in a short-led condition. the FL7732 controller is available in an 8-pin small- outline package (sop). ordering information part number operating temperature range package packing method FL7732m_f116 -40c to +125c 8-lead, small out line integrated circuit package (soic) tape & reel
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 2 FL7732 ? single-stage pfc primary-side -regulation offline led driver application diagram figure 1. typical application internal block diagram figure 2. functional block diagram
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 3 FL7732 ? single-stage pfc primary-side -regulation offline led driver marking information figure 3. top mark pin configuration figure 4. pin configuration pin definitions pin # name description 1 cs current sense . this pin connects a current-sense resist or to detect the mosfet current for the output-current regulation in constant-current regulation. 2 gate pwm signal output . this pin uses the internal totem-p ole output driver to drive the power mosfet. 3 gnd ground 4 vdd power supply . ic operating current and mosfet driving current are supplied using this pin. 5 nc no connect 6 vs voltage sense . this pin detects the output voltage information and discharge time for maximum frequency control and constant current regulation. this pin is connected to an auxiliary winding of the transforme r via resistors of the divider. 7 comi constant current loop compensation . this pin is connected to a capacitor between the comi and gnd pin for compensation current loop gain. 8 gnd ground f : fairchild logo z: plant code x: 1-digit year code y: 1-digit week code tt: 2-digit die run code t: package type (m=sop) m: manufacture flow code
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 4 FL7732 ? single-stage pfc primary-side -regulation offline led driver absolute maximum ratings stresses exceeding the absolute maximum ratings may dam age the device. the device may not function or be operable above the recommended operating conditions and stressi ng the parts to these levels is not recommended. in addition, extended exposure to stresses above the recomm ended operating conditions may affect device reliability. the absolute maximum ratings are stress ratings only. symbol parameter min. max. unit v vdd dc supply voltage (1,2) 30 v v vs vs pin voltage -0.3 7 v v cs cs pin input voltage -0.3 7 v v comi comi pin input voltage -0.3 7 v v gate gate pin input voltage -0.3 30 v p d power dissipation (t a 50c) 633 mw ja thermal resistance (juncti on-to-air) 158 c /w jc thermal resistance (junction-to-case) 39 c /w t j maximum junction temperature 150 c t stg storage temperature range -55 150 c t l lead temperature (soldering 10 s) 260 c notes: 1. stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. 2. all voltage values, except differential voltag es, are given with respect to the gnd pin.
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 5 FL7732 ? single-stage pfc primary-side -regulation offline led driver electrical characteristics v dd =15 v and t a =25c, unless otherwise specified. symbol parameter condition min. typ. max. unit v dd section v dd-on turn-on threshold voltage 14.5 16.0 17.5 v v dd-off turn-off threshold volta ge 6.75 7.75 8.75 v i dd-op operating current at maximum frequency c l =1 nf 3 4 5 ma i dd-st startup current v dd =v dd-on ? 0.16 v 2 20 a v ovp v dd over-voltage-protection level 22.0 23.5 25.0 v gate section v ol output voltage low v dd =20 v, i gate =-1 ma 1.5 v v oh output voltage high v dd =10 v, i gate =+1 ma 5 v i source peak sourcing current v dd =10 ~ 20 v 60 ma i sink peak sinking current v dd =10 ~ 20 v 180 ma t r rising time c l =1 nf 100 150 200 ns t f falling time c l =1 nf 20 60 100 ns v clamp output clamp voltage 12 15 18 v oscillator section f max-cc maximum frequency in cc v dd =10 v, 20 v 60 65 70 khz f min-cc minimum frequency in cc v dd =10 v, 20 v 21.0 23.5 26.0 khz vs max-cc v s for maximum frequency in cc f=f max -2 khz 2.25 2.35 2.45 v vs min-cc v s for minimum frequency in cc f=f min +2 khz 0.55 0.85 1.15 v t on(max) maximum turn-on time 12 14 16 s current-sense section v rv reference voltage 2.475 2.500 2.525 v v ccr eai voltage for cc regulation v cs =0.44 v 2.38 2.43 2.48 v t leb leading-edge blanking time 300 ns t min minimum on time in cc v comi =0 v 600 ns t pd propagation delay to gate 50 100 150 ns t dis-bnk t dis blanking time of vs 1.5 s i vs-bnk vs current for vs blanking 100 a current-error-amplifier section gm transconductance 85 mho i comi-sink comi sink current v eai =3 v, v comi =5 v 25 38 a i comi-source comi source current v eai =2 v, v comi =0 v 25 38 a v comi-hgh comi high voltage v eai =2 v 4.9 v v comi-low comi low voltage v eai =3 v 0.1 v continued on the following page?
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 6 FL7732 ? single-stage pfc primary-side -regulation offline led driver electrical characteristics (continued) v dd =15 v and t a =25c, unless otherwise specified. symbol parameter condition min. typ. max. unit over-current protection section v ocp v cs threshold voltage for ocp 0.60 0.67 0.74 v v lowocp v cs threshold voltage for low ocp 0.13 0.18 0.23 v v lowocp-en v s threshold voltage to enable low ocp level 0.4 v v lowocp-dis v s threshold voltage to disable low ocp level 0.6 v over-temperature protection section t otp threshold temperature for otp (3) 140 150 160 o c t otp-hys restart junction temperature hysteresis 10 o c note: 3. if over-temperature protection is activated, the power system enters auto-recovery mode and output is disabled. device operation above the maximum junction temperat ure is not guaranteed. otp is guaranteed by design.
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 7 FL7732 ? single-stage pfc primary-side -regulation offline led driver typical performance characteristics 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c figure 5. v dd-on vs. temperature figure 6. v dd-off vs. temperature 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c figure 7. i dd-op vs. temperature figure 8. v ovp vs. temperatu r e 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c figure 9. f max_cc vs. temperature figure 10. f min_cc vs. temperature
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 8 FL7732 ? single-stage pfc primary-side -regulation offline led driver typical performance characteristics (continued) 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c figure 11. v ccr vs. temperature figure 12. v vvr vs. temperature 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c 0.5 0.7 0.9 1.1 1.3 1.5 -40 -30 -15 0 25 50 75 85 100 125 temp [c] normalized to 25 c figure 13. v ocp vs. temperature figure 14. v ocp_low vs. temperatu r e
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 9 FL7732 ? single-stage pfc primary-side -regulation offline led driver functional description FL7732 is ac-dc pwm controller for led lighting applications. truecurrent ? techniques regulate accurate led current independent or input voltage, output voltage, and magnetiz ing inductance variations. the linear frequency control in the oscillator reduces conduction loss and maintains dcm operation in the wide range of output voltag e, which implements high power factor correction in a single-stage flyback topology. a variety of prot ections, such as short/open- led protection, over-temper ature protection, and cycle- by-cycle current limitatio n stabilize system operation and protect external components. startup powering at startup is slow due to the low feedback loop bandwidth in pfc converter. to boost powering during startup, an internal oscill ator counts 12 ms to define startup mode. during start up mode, turn-on time is determined by current-mode control with a 0.2 v cs voltage limit and transconductance becomes 14 times larger, as shown in figure 15. after startup, turn-on time is controlled by voltage m ode using comi voltage and error amplifier transconductance is reduced to 85 mho. figure 15. startup sequence constant-current regulation the output current can be es timated using the peak drain current and inductor cu rrent discharge time since output current is same as the average of the diode current in steady state. t he peak value of the drain current is determined by the cs pin and the inductor discharge time (t dis ) is sensed by t dis detector. by using three points of information (peak drain current, inductor discharging time, and operating switching period); truecurrent ? calculation block estimates output current. the output of the calc ulation is compared with an internal precise reference to generate an error voltage (v comi ), which determines turn-on time in voltage-mode control. with fairchild?s innovative truecurrent ? technique, constant-current output can be precisely controlled. pfc and thd in a conventional boost converter, boundary conduction mode (bcm) is generally used to keep input current in- phase with input voltage for pf and thd. in flyback/buck boost topology, constant turn-on time and constant frequency in disco ntinuous conduction mode (dcm) can implement high pf and low thd, as shown in figure 16. constant turn-on time is maintained by the internal error amplifier and a large external capacitor (typically over 1 f) at the comi pin. constant frequency and dcm operation are managed by linear frequency control. figure 16. input current and switching linear frequency control as mentioned above, dcm should be guaranteed for high power factor in flyback topology. to maintain dcm across the wide range of out put voltage, frequency is linearly adjusted by output voltage in linear frequency control. output voltage is detected by the auxiliary winding and the resistive divider connected to the vs pin, as shown in figure 17. figure 17. linear frequency control
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 10 FL7732 ? single-stage pfc primary-side -regulation offline led driver when output voltage decreases, secondary diode conduction time is increased and the linear frequency control lengthens the switch ing period, which retains dcm operation in the wide output voltage range, as shown in figure 18. the frequency control lowers the primary rms current with better power efficiency in the full-load condition. m l nv o dis t m l v 4 3 n o dis t 3 4 m l v 5 3 n o dis t 3 5 t t 3 4 t 3 5 figure 18. primary and secondary current bcm control the end of secondary diode conduction time is possibly over a switching period set by linear frequency control. in this case, FL7732 doesn?t allow ccm and the operation mode changes from dcm to bcm. therefore, magnetizing inductance can be largely designed to add bcm for better efficiency if pf and thd meet specification with enough margin. short-led protection in case of a short-led condition, the switching mosfet and secondary diode are stressed by the high powering current. however, FL7732 changes the ocp level in a short-led condition. when v s voltage is lower than 0.4 v, ocp level become s 0.2 v from 0.7 v, as shown in figure 19, so powering is limited and external components current stress is reduced. figure 19. internal ocp block figure 20 shows operational waveforms in short-led condition. output voltage is quickly lowered to 0v right after a short-led event. then the reflected auxiliary voltage is also 0 v, making v s less than 0.4 v. 0.2 v ocp level limits primary-side current and v dd hiccups up and down between uvlo hysteresis. figure 20. waveforms in short-led condition open-led protection FL7732 protects external components, such as diode and capacitor, at secondary side in open-led condition. during switch-off, the v dd capacitor is charged up to the auxiliary winding voltage, which is applied as the reflected output voltage. because the v dd voltage has output voltage information, the internal voltage comparator on the vdd pin can trigger output over- voltage protection (ovp), as shown in figure 21. when at least one led is open- circuited, output load impedance becomes very high and output capacitor is quickly charged up to v ovp x n s / n a then switching is shut down and the v dd block goes into hiccup mode until the open-led condition is removed, as shown in figure 22.
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 11 FL7732 ? single-stage pfc primary-side -regulation offline led driver figure 21. internal ovp block figure 22. waveforms in open-led condition under-voltage lockout (uvlo) the turn-on and turn-off thresholds are fixed internally at 16 v and 7.5 v, respectively. during startup, the v dd capacitor must be charged to 16 v through the startup resistor to enable the FL7732. the v dd capacitor continues to supply v dd until power can be delivered from the auxiliary winding of the main transformer. v dd must not drop below 7.5 v during this startup process. this uvlo hysteres is window ensures that the v dd capacitor is adequate to supply v dd during startup. over-temperature protection (otp) the FL7732 has a built-in temperature-sensing circuit to shut down pwm output if the junction temperature exceeds 150c. while pwm output is shut down, the v dd voltage gradually drops to the uvlo voltage. some of the internal circuits are shut down and v dd gradually starts increasing again. when v dd reaches 16 v, all the internal circuits start operating. if the junction temperature is still high er than 140c, the pwm controller is shut down immediately.
? 2012 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 11 FL7732 ? single-stage pfc primary-si de-regulation offline led driver physical dimensions figure 23. 8-lead, small outline integrated circuit package (soic) package drawings are provided as a service to customers consi dering fairchild components. drawings may change in any manner without notice. please note the revision and/or date on the drawi ng and contact a fairchild semiconductor representative to ver ify or obtain the most recent revision. package specifications do not expand the terms of fairchild?s worldwide terms and conditions, specifically the warranty therein, which covers fairchild products. always visit fairchild semiconductor?s online packagi ng area for the most recent package drawings: http://www.fairchildsemi.com/packaging/. 8 0 see detail a notes: unless otherwise specified a) this package conforms to jedec ms-012, variation aa, issue c, b) all dimensions are in millimeters. c) dimensions do not include mold flash or burrs. d) landpattern standard: soic127p600x175-8m. e) drawing filename: m08arev13 land pattern recommendation seating plane c gage plane x 45 detail a scale: 2:1 pin one indicator 4 8 1 b 5 a 5.60 0.65 1.75 1.27 6.20 5.80 3.81 4.00 3.80 5.00 4.80 (0.33) 1.27 0.51 0.33 0.25 0.10 1.75 max 0.25 0.19 0.36 0.50 0.25 r0.10 r0.10 0.90 0.40 (1.04) option a - bevel edge option b - no bevel edge 0.25 cba 0.10 c
? 2011 fairchild semiconductor corporation www.fairchildsemi.com FL7732 ? rev. 1.0.6 13 FL7732 ? single-stage pfc primary-si de-regulation offline led driver

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