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april 2012 ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 fan6208 ?secondary-side synchronous rectifier controller for llc topology fan6208 secondary-side synchronous rectifier controller for llc topology features ? specialized sr controller for llc or lc resonant converters ? secondary-side timing detection with timing estimator ? gate-shrink function to prevent shoot-through during load and line transient ? green-mode function for higher efficiency at light- load condition ? programmable dead time between primary-side gate drive signal and sr drive signal ? advanced output-short / overload protection based on the feedback information ? internal over-temperature protection (otp) ? v dd pin over-voltage protection (ovp) applications ? lcd tv ? pc power ? open-frame smps description fan6208 is a synchronous re ctification (sr) controller for isolated llc or lc res onant converters that can drive two individual sr mosfets emulating the behavior of rectifier diodes. fan6208 measures the sr conduction time of each switching cycle by monitoring the drain-to-source volta ge of each sr and determines the optimal timing of the sr gate drive. fan6208 uses the change of opto-coupler diode current to adaptively shrink the duration of sr gate drive signals during load transients to prevent shoot-t hrough. to improve light- load efficiency, green-mode operation is employed, which disables the sr drive signals, minimizing gate drive power consumption at light-load condition. optimal timing circuits and protection functions are integrated in an 8-pin sop package, which allows high- efficiency power supply design with fewer components. related resources ? evaluation board: febfan6208_cp433v1 ordering information part number operating temperature range package packing method fan6208my -40c to +105c 8-pin small outline package (sop) tape & reel
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 2 fan6208 ?secondary-side synchronous rectifier controller for llc topology application diagram figure 1. typical application block diagram figure 2. block diagram
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 3 fan6208 ?secondary-side synchronous rectifier controller for llc topology marking information figure 3. top mark pin configuration figure 4. pin assignments pin definitions pin # name description 1 detl1 low detect provides low-voltage detection of v ds of sr mosfet1. 2 detl2 low detect provides low-voltage detection of v ds of sr mosfet2. 3 rp dead time programming resistor programs h/l frequency version and dead time. 4 fd feedback detection is used for short-circuit protection and gate shrink. 5 vdd power supply 6 gate2 driver output . the totem-pole output driver fo r driving the sr mosfet2. 7 gnd ground 8 gate1 driver output . the totem-pole output driver fo r driving the sr mosfet1. f - fairchild logo z- plant code x- year code y- week code tt: die run code t - package type (m = sop) p - y: green package m - manufacture flow code 6208 tpm 6208
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 4 fan6208 ?secondary-side synchronous rectifier controller for llc topology 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 dd supply voltage 30 v v fd voltage on fd pin 30 v v lv voltage on detl1, detl2, rp pins -0.3 7.0 v p d power dissipation 350mw at t a =90c 1000mw at t a =25c ja junction?to-ambient thermal resistance 130 c/w jt junction-to-top thermal characteristics 45 c/w t j operating junction temperature -40 +125 c t stg storage temperature range -55 +150 c t l lead temperature (wave soldering or ir, 10 seconds) +260 c esd human body model, jesd22-a114 6 kv charged device model, jesd22-c101 2 recommended operating conditions the recommended operating conditions table defines the conditions for actual device operation. recommended operating conditions are specified to ens ure optimal performance to the datasheet specificatio ns. fairchild does not recommend exceeding them or designing to absolute maximum ratings. symbol parameter min. max. unit t a operating ambient tem perature -40 +105 c
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 5 fan6208 ?secondary-side synchronous rectifier controller for llc topology electrical characteristics v dd =20v, t a =25 c, unless otherwise specified. all voltages are with respect to gnd unless otherwise noted. symbol parameter conditions min. typ. max. units vdd section v dd dc supply voltage v th-off 28 v i dd-op1 operating current v dd =12v, detl=50khz, c l =6nf, r rp =24k ? 7.0 8.5 10.0 ma i dd-op2 operating current v dd =12v, detl=100khz 2.4 3.2 4.0 ma i dd-st startup current v dd =8v 180 300 500 a v th-on1 v th-on2 on threshold voltage 9.3 9.7 10.1 v v th-off1 v th-off2 off threshold voltage 8.3 8.8 9.3 v v dd-ovp1 v dd-ovp2 v cc over-voltage protection 26 27 28 v v dd-ovp-hys1 v dd-ovp-hys2 v cc over-voltage protection hysteresis 1.3 1.8 2.3 v t ovp1 ,t ovp2 v cc over-voltage- protection debounce 30 60 100 s detl section v detl1 v detl2 threshold voltage for low detection of detl v dd =12v, detl=50khz, c l =6nf, r rp =24k ? 1.7 2.0 2.3 v t sr-on-detl1 t sr-on-detl2 delay from detl low to sr gate turn-on t db + t pd + t r 300 350 400 ns v detl-floating1 v detl-floating2 detl floating voltage v dd =12v, detl pin floating 4.5 v i detl-source1 i detl-source2 detl source current v detl1 =0v 40 50 60 a t detl_green_lf1 t detl_green_lf2 detl low time threshold for green mode at low-frequency operation v rp < 1.5v 3.50 3.75 4.00 s t det(l)_green_hf1 t det(l)_green_hf2 detl low time threshold for green mode at high-frequency operation v rp > 1.5v 1.75 1.90 2.05 s thermal shutdown t shutdown shutdown temperature temperature rising, v dd =15v 140 c hysteresis 20 t startup startup temperature before startup 120 continued on the following page?
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 6 fan6208 ?secondary-side synchronous rectifier controller for llc topology electrical characteristics v dd =20v, t a =25c, unless otherwise specified. all voltages are with respect to gnd unless otherwise noted. symbol parameter conditions min. typ. max. units gate section v z1 v z2 gate output voltage maximum (clamping) v dd =20v 10 12 14 v v ol1 v ol2 gate output voltage low v dd =12v; i o =100ma 0.5 v v oh1 v oh2 gate output voltage high v dd =12v; i o =100ma 9 v t r1 t r2 rising time v dd =12v; c l =6nf; v gate =2v to 9v 30 70 120 ns t f1 t f2 falling time v dd =12v; c l =6nf; v gate =9v to 2v 30 50 70 ns t pd_high_detl1 t pd_high_detl2 propagation delay to gate output high (detl trigger) t r : 0v~2v, v dd =12v (det floating) 120 ns t pd_low_ detl1 t pd_low_ detl2 propagation delay to gate output low (detl trigger) t f : 100%~90%, v dd =12v (det floating) 120 ns t on_max1 t on_max2 maximum on-time trim maximum on-time 9.0 10.5 12.0 s t inhibit_lf1 t inhibit_lf2 gate inhibit time (from turn-off to next turn-on) v rp < 1.5v 1.8 2.1 2.5 s t inhibit_hf1 t inhibit_hf2 gate inhibit time (from turn-off to next turn-on) v rp > 1.5v 1.25 1.45 1.70 s t blanking1 t blanking2 blanking time for sr turn- off triggered by detl high (minimum on-time) 300 ns k r gate on-time increase rate between two consecutive cycles t on (n) / t on (n-1) % 140 % timing estimator section t dw detection window for insufficient dead time (from gate turn-off to detl high) 80 125 150 ns t shrink-dt gate shrink time by insufficienct dead time r rp =20k ? , t detl =5 s 1.00 1.25 1.50 s t dead dead time by timing estimator (70khz ~ 140khz, v rp < 1.5v) t detl =4 s, r rp =20k ? 210 300 390 ns t detl =6 s, r rp =20k ? 570 720 870 dead time by timing estimator (160khz ~ 240khz, v rp > 1.5v) t detl =2.5 s, r rp =43k ? 220 320 420 t detl =3.8 s, r rp =43k ? 560 670 780 t db detl high-to-low debounce time for gate turn-on trigger 150 ns t shrink-rng gate shrink by detl ringing around zero 1.2 s t green_dh detl pull-high time threshold for green mode 18 24 30 s continued on the following page?
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 7 fan6208 ?secondary-side synchronous rectifier controller for llc topology electrical characteristics v dd =20v, t a =25c, unless otherwise specified. all voltages are with respect to gnd unless otherwise noted. symbol parameter conditions min. typ. max. units feedback detection (fd) section ? v1% ? v2% feedback increase threshold for gate shrink [(v dd -v fd ) n+1 /(v dd -v fd ) n ] 120 % t shrink-fd gate shrink by feedback detection 1.4 s t d-shrink-fd gate-shrink du ration by feedback detection 60 90 120 s v dd -v fd.scp short-circuit protection (scp) threshold by feedback detection 200 270 340 mv t db-scp debounce time for short- circuit protection (scp) 12 16 20 s rp section i rp rp source current 38.5 41.5 44.5 a v rpo rp open protect 3.40 3.65 3.90 v v rps rp short protect 0.25 0.30 0.35 v t rpos rp open/short debounce 1.6 2.0 2.4 s v rphl h/l frequency threshold 1.40 1.46 1.52 v figure 5. t dead vs. t detl rp curve for lf mode figure 6. t dead vs. t detl rp curve for hf mode
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 8 fan6208 ?secondary-side synchronous rectifier controller for llc topology function description operation principle fan6208 is a secondary-side synchronous rectifier controller for llc or lc re sonant converters that drive two synchronous rectifier mosfets. figure 7 is the simplified circuit diagram of an llc converter. the fan6208 determines sr mosfet turn-on/off timing by detecting the drain-to-source voltage of each sr mosfet. the key wavefo rms for llc resonant converter for below resonance and above resonance are shown in figure 8 and figure 9, respectively. figure 7. simplified schematic of llc converter figure 8. key waveforms of llc resonant converter for below resonance operation figure 9. key waveforms of llc resonant converter for above resonance operation timing estimator figure 10 shows the timing diagram for fan6208. once the body diode of sr begins conducting, the drain-to- source voltage drops to zero, which causes detl pin voltage to drop to zero. fan6208 turns on the mosfet after t on-on-detl (about 350ns), when voltage on detl drops below 2v. as depicted in figure 11, the turn-on delay (after t sr-on-detl ) is the sum of debounce time (150ns) and propagation delay (200ns). fan6208 measures the sr conduction duration (t detl ), during which detl stays lower than 2v, and uses this information to determine the turn-off instant of sr gates of the next switching cycle. the turn-off timing is obtained by subtracting a dead time (t dead ) from the measured sr conduction durat ion of the previous switching cycle. the dead time can be programmed using a resistor on the rp pin and the relationship between the dead time and sr conduction duration (t detl ) for different resistor values on rp pin is given in figure 5.
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 9 fan6208 ?secondary-side synchronous rectifier controller for llc topology v det v gate 2v v gate t detl (n) - t dead t detl (n+1) t sr-on-detl t detl (n-1) - t dead t detl (n) t sr-on-detl figure 10. sr gate timing diagram figure 11. detl debounce (blanking) time gate-shrink functions in normal operation, the turn-off instant is determined by subtracting a dead time (t dead ) from the measured sr conduction duration of the pr evious switching cycle, as shown in figure 10. this allows proper driving timing for sr mosfets when the conver ter is in steady state and the switching frequency does not change much. however, this control method may cause shoot-through of sr mosfets when the switching frequency increases fast and switching transition of the primary- side mosfets takes place before the turn-off command of sr is given. to prevent the shoot-through, fan6208 has gate-shrink functions. gate shrink occurs under three conditions: (a) when insufficient dead time is detected in the previous switching cycle. when the detl goes high within 125ns of detection window after sr gate is turned off, the sr ga te drive signal in the next switching cycle is reduced by t shrink-dt (about 1.25s) to increase the dead time, as shown in figure 12. v det v gate 2v v gate t detl_low (n) C t dead C t shrink t detl_low (n+1) 125ns t detl_low (n-1) - t dead t detl_low (n) detection window shrink figure 12. gate shrink by minimum dead time detection window (b) when the feedback information changes fast. fan6208 monitors the current through the opto- coupler diode by measuring the voltage across the resistor in series with the opto-coupler diode, as depicted in figure 13. if the feedback current through the opto-coupler diode increases by more than 20% of the feedback cu rrent of the previous switching cycle, the sr gate signal is shrunk by t shrink-fd (about 1.4s) for t d-shrink-fd (about 90s), as shown in figure 14. figure 13. typical application circuit
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 10 fan6208 ?secondary-side synchronous rectifier controller for llc topology figure 14. gate shrink by feedback detection (c) when the detl voltage has ringing around zero. as depicted in figure 8, the drain voltage of sr has ringing around zero at light-load condition after the switching transition of t he primary-side switches. when detl voltage rises above 2v within 350ns after detl voltage drops to zero and stays above 2v longer than 150ns, the gate is shrunk by 1.2s (t shrink-rng ), as shown in figure 15. figure 15. gate shrink by detl voltage ringing around zero rp pin function the rp pin programs the level of green mode and t dead . figure 16 shows how the mode is selected by the voltage on the rp pin (open pr otection, short protection, and hf/lf mode). when r rp is less than 36k ? , fan6208 operates in low-frequency mode. green mode is enabled when t detl is smaller than 3.75s. when r rp is larger than 36k ? , high-frequency mode is selected and green mode is enabled for t detl < 1.90s. t dead can be also adjusted by a resistor on the rp pin. figure 5 shows the relationship between t dead and t detl for different rp resistors. figure 16. rp pin operation to handle abnormal conditions for ic pins, the rp pin also provides open/short protection. when v rp is less than v rps (0.3v) or v rp is higher than v rpo (3.65v), the protection is triggered. figur e 17 shows the rp pin short protection timing sequence. if v rp < v rps (0.3v) for longer than t rpos (2s), fan6208 is disabled. figure 18 shows the rp pin open protection timing sequence. if v rp > v rpo (3.65v) for longer than t rpos (2s), fan6208 is disabled. figure 17. rp pin short protection rp v rpo t rpos t rpos gate1 detl1 gate2 detl2 soft-start area soft-start area rp open protection area v rp = i rp r rp figure 18. rp pin open protection
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 11 fan6208 ?secondary-side synchronous rectifier controller for llc topology green mode switching frequency increases in llc topology at light- load condition, which increases the power consumption for the sr gate drive. green mode reduces power loss at light load. fan6208 has two ways to enable green mode. green mode is triggered when detl voltage is pulled low for less than 3.75s (lf mode) or 1.90s (hf mode) for seven switching cycles. fan6208 resumes normal sr gate driving when detl voltage is pulled low for longer than 3. 75s (lf mode) or 1.90s (hf mode) for seven switching cycles. when detl voltage is pulled high for longer than 24s. this occurs when the llc resonant converter operates in burst mode (skipping mode). short-circuit protection as depicted in figure 13, fan6208 monitors the current through the opto-coupler diode by measuring the voltage across the resistor in series with the opto- coupler diode. when the outpu t of the power supply is short circuited, the output voltage drops and the cathode of the shunt regulator (ka431) is saturated to high. no current flows through the opt o coupler diode. the output short protection is triggered when the voltage between v dd and fd is smaller than 0.3v, as shown in figure 19. figure 19. output short protection by feedback detection v dd pin over-voltage protection over-voltage conditions are usually caused by an open feedback loop. v dd over-voltage protection prevents damage of sr mosfet. w hen the voltage on the v dd pin exceeds 27v, fan6208 disables gate output. internal over-temperature protection internal over-temperature pr otection prevents the sr gate from fault triggering in high temperatures. if the temperature is over 140c, the sr gate is disabled until the temperature drops below 120c.
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 12 fan6208 ?secondary-side synchronous rectifier controller for llc topology typical performance characteristics figure 20. v th_on1 vs. t a figure 21. v th_on2 vs. t a figure 22. v th_off1 vs. t a figure 23. v th_off2 vs. t a figure 24. i dd_st vs. t a figure 25. i dd_op1 vs. t a
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 13 fan6208 ?secondary-side synchronous rectifier controller for llc topology typical performance characteristics (continued) figure 26. t sr_on_detl1 vs. t a figure 27. t sr_on_detl2 vs. t a figure 28. v z1 vs. t a figure 29. v z2 vs. t a figure 30. v detl1 vs. t a figure 31. v detl2 vs. t a
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 14 fan6208 ?secondary-side synchronous rectifier controller for llc topology typical performance characteristics (continued) figure 32. t dw1 vs. t a figure 33. t dw2 vs. t a figure 34. v shrink_dt1 vs. t a figure 35. v shrink_dt2 vs. t a figure 36. i detl_source1 vs. t a figure 37. i detl_source2 vs. t a
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 15 fan6208 ?secondary-side synchronous rectifier controller for llc topology typical performance characteristics (continued) figure 38. t dead1 (r rp =20k, 6 s) vs. t a figure 39. t dead2 (r rp =20k, 6 s) vs. t a figure 40. t dead1 (r rp =43k, 2.5 s) vs. t a figure 41. t dead2 (r rp =43k, 2.5 s) vs. t a figure 42. i rp vs. t a figure 43. v rphl vs. t a
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 16 fan6208 ?secondary-side synchronous rectifier controller for llc topology typical application circuit (llc converter with sr) application fairchild devices input voltage range output tv power fan7621 fan6208 350~400v dc 24v/8a figure 44. application circuit
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 17 fan6208 ?secondary-side synchronous rectifier controller for llc topology physical dimensions figure 45. 8-lead, soic, jedec ms-012, .150-inch narrow body 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 st andard: soic127p600x175-8m. e) drawing filename: m08arev13 land pattern recommendation seating plane 0.10 c c gage plane x 45 detail a scale: 2:1 pin one indicator 4 8 1 c m ba 0.25 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 0.406 (1.04) option a - bevel edge option b - no bevel edge
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fan6208 ? rev. 1.0.2 18 fan6208 ?secondary-side synchronous rectifier controller for llc topology

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