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LD7535/LD7535a 12/11/2007 1 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 green-mode pwm controller with integrated protections rev. 01c general description the LD7535/LD7535a are low cost, low startup current, current mode pwm controllers with green-mode power- saving operation. the integrated functions include the leading-edge blanking of the cu rrent sensing, internal slope compensation and the tiny package of sot-26. they provide the users a superior ac/dc power application of higher efficiency, low external component counts, and lower cost solution. furthermore, LD7535/LD7535a features more protections like olp (over load protection) and ovp (over voltage protection) to eliminate the ex ternal protection circuits. and to satisfy different designs, 2 versions of ovp levels are implemented as --- z LD7535 --- 28.0v 1.5v. z LD7535a --- 21.0v 1.5v. features z high-voltage cmos process with excellent esd protection z very low startup current (<20 a) z current mode control z non-audible-noise green mode control z uvlo (under voltage lockout) z leb (leading-edge blanking) on cs pin z programmable switching frequency z internal slope compensation z ovp (over voltage protection) on vcc pin z olp (over load protection) z 300ma driving capability applications z switching ac/dc adaptor and battery charger z open frame switching power supply z 384x replacement typical application www..net
LD7535/LD7535a 2 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 pin configuration (LD7535) dip-8 (top view) yy, y : year code (d: 2004, e: 2005?..) ww, w: week code p : ld75.. (product family code) ## : production code 1 8 2 3 4 7 6 5 top mark yyww## out vcc nc cs gnd comp nc rt y the pb free package is identified in embossed font while green package in regular font. 123 4 5 6 wp 35 y sot-26 (top view) pin configuration (LD7535a) dip-8 (top view) yy, y : year code (d: 2004, e: 2005?..) ww, w: week code p : ld75.. (product family code) ## : production code 1 8 2 3 4 7 6 5 top mark yyww## out vcc nc cs gnd comp nc rt y the pb free package is identified in embossed font while green package in regular font. 123 4 5 6 wp 35a y sot-26 (top view) ordering information part number package top mark shipping LD7535 bl sot-26 pb free ywp/35 3000 /tape & reel LD7535 gl sot-26 green package ywp/35 3000 /tape & reel LD7535 bn dip-8 pb free LD7535bn 3600 /tube /carton LD7535a bl sot-26 pb free ywp/35a 3000 /tape & reel LD7535a gl sot-26 green package ywp/35a 3000 /tape & reel LD7535a bn dip-8 pb free LD7535abn 3600 /tube /carton the LD7535/ LD7535a are rohs complaint/ green package.
LD7535/LD7535a 3 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 pin descriptions pin name function 1 gnd ground 2 comp voltage feedback pin (same as the comp pin in uc384x), by connecting a photo-coupler to close the control loop and achieve the regulation. 3 rt this pin is to program the switching frequency. by connecting a resistor to ground to set the switching frequency. 4 cs current sense pin, connect to sense the mosfet current 5 vcc supply voltage pin 6 out gate drive output to drive the external mosfet
LD7535/LD7535a 4 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 block diagram * note: olp delay is 60ms when the sw itching frequency is set as 65khz. the olp delay time is proportional to the period of switching cycle. that is, s s delay _ olp f 1 t t = .
LD7535/LD7535a 5 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 absolute maximum ratings supply voltage vcc 30v comp, rt, cs -0.3 ~7v junction temperature 150 c operating ambient temperature -40 c to 85 c storage temperature range -65 c to 150 c package thermal resistance (sot-26) 250 c/w package thermal resistance (dip-8) 100 c/w power dissipation (sot-26, at ambient temperature = 85 c) 250mw power dissipation (dip-8, at ambient temperature = 85 c) 650mw lead temperature (soldering, 10sec) 260 c esd voltage protection, human body model 3kv esd voltage protection, machine model 250v gate output current 300ma caution: stresses beyond the ratings specified in ?absolute maximum rati ngs? may cause permanent damage to the device. this is a stress only rating and operation of the device at these or any other conditions above those indicated in the operational sections of this s pecification is not implied. recommended operating conditions item min. max. unit supply voltage vcc (LD7535) 11 25 v supply voltage vcc (LD7535a) 11 18 v switching frequency 50 130 khz startup resistor value 1.2 4.4 m
LD7535/LD7535a 6 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 electrical characteristics (t a = +25 o c unless otherwise stated, v cc =15.0v) parameter conditions min typ max units supply voltage (vcc pin) startup current 8 20 a v comp =0v 2.0 3.0 ma v comp =3v 2.5 ma operating current (with 1nf load on out pin) protection tripped (olp , ovp) 0.5 ma uvlo (off) 9.0 10.0 11.0 v uvlo (on) 15.0 16.0 17.0 v LD7535 26.5 28.0 29.5 v ovp level LD7535a 19.5 21.0 22.5 v voltage feedback (comp pin) short circuit current v comp =0v 1.5 2.2 ma open loop voltage comp pin open 6.0 v green mode threshold vcomp 2.35 v current sensing (cs pin) maximum input voltage, vcs(off) 0.80 0.85 0.90 v leading edge blanking time 350 ns input impedance 1 m delay to output 100 ns oscillator (rt pin) frequency rt=100k 60 65 70 khz green mode frequency fs=65khz 20 khz temp. stability (-40 c ~105 c) 3 % voltage stability (vcc=11v-25v) 1 % gate drive output (out pin) output low level vcc=15v, io=20ma 1 v output high level vcc=15v, io=20ma 8 v rising time load capacitance=1000pf 50 200 ns falling time load capacitance=1000pf 30 100 ns olp (over load protection) olp trip level v comp (olp) 5.0 v olp delay time (note) fs=65khz 60 ms note: the olp delay time is proportional to the period of switching cycle. so that, the lower rt value will set the higher swi tching frequency and the shorter olp delay time.
LD7535/LD7535a 7 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 typical performance characteristics uvlo (on) (v) fig. 1 uvlo (on) vs. temperature temperature ( c) 14.0 14.8 15.6 16.4 17.2 18.0 -40 0 40 80 120 125 uvlo (off) (v) temperature ( c) fig. 2 uvlo (off ) vs. temperature 8 9.6 10.4 12 8.8 -40 0 40 80 120 125 11.2 frequency (khz) fig. 3 frequency vs. temperature temperature ( c) -40 60 62 64 66 68 70 0 40 80 120 125 green mode frequency (khz) temperature ( c) fig. 4 green mode frequency vs. temperature 16 18 20 22 24 26 -40 0 40 80 120 125 frequency (khz) vcc (v) fig. 5 frequency vs. vcc 12 14 16 18 20 22 24 60 11 25 62 64 66 68 70 green mode frequency (khz) vcc (v) fig. 6 green mode frequency vs. vcc 12 14 16 18 20 22 24 11 25 19 21 23 25 17 15
LD7535/LD7535a 8 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 max duty (%) temperature ( c) fig. 7 max duty vs. temperature -40 0 40 80 120 125 65 70 75 80 85 60 v cs (off) (v) temperature ( c) fig. 8 v cs (off) vs. temperature 0.80 0.82 0.84 0.86 0.88 0.90 -40 0 40 80 120 125 istartup ( a) temperature ( c) fig. 9 startup current (istartup) vs. temperature -40 0 40 80 120 125 2 4 6 8 10 0 12 vcc ovp (v) temperature ( c) fig. 10 vcc ovp vs. temperature 10 15 20 25 30 35 -40 0 40 80 120 125 LD7535a LD7535 v comp (v) temperature ( c) fig. 11 v comp open loop voltage vs. temperature -40 0 40 80 120 125 4.5 5.0 5.5 6.0 6.5 7.0 olp (v) temperature ( c) fig. 12 olp-trip level vs. temperature -40 0 40 80 120 125 3.5 4.0 4.5 5.0 5.5 6.0
LD7535/LD7535a 9 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 application information operation overview the LD7535/LD7535a meet the green-power requirement and are intended for the use in those modern switching power suppliers and adaptors which demand higher power efficiency and power-saving. they integrated more functions to reduce the external component counts and the size. their major features are described as below. under voltage lockout (uvlo) an uvlo comparator is implemented in it to detect the voltage on the vcc pin. it would assure the supply voltage enough to turn on the LD7535/LD7535a pwm controller and further to drive the power mosfet. as shown in fig. 13, a hysteresis is built in to prevent the shutdown from the voltage dip during startup. the turn-on and turn-off threshold level are set at 16.0v and 10.0v, respectively. vcc uvlo(on) uvlo(off) t t i(vcc) startup current (~ua) operating current (~ ma) fig. 13 startup current and startup circuit the typical startup circuit to generate the LD7535/LD7535a vcc is shown in fig. 14. du ring the startup transient, the vcc is lower than the uvlo threshold thus there is no gate pulse produced from LD7535/LD7535a to drive power mosfet. therefore, the current through r1 will provide the startup current and to charge the capacitor c1. whenever the vcc voltage is high enough to turn on the LD7535/LD7535a and further to de liver the gate drive signal, the supply current is provided from the auxiliary winding of the transformer. lower startup current requirement on the pwm controller will help to increase the value of r1 and then reduce the power consumption on r1. by using cmos process and the special circuit design, the maximum startup current of LD7535/LD7535a is only 20 a. if a higher resistance value of the r1 is chosen, it usually takes more time to start up. to carefully select the value of r1 and c1 will optimize the power consumption and startup time. fig. 14 current sensing and leading-edge blanking the typical current mode of pwm controller feedbacks both current signal and voltage signal to close the control loop and achieve regulation. as shown in fig. 15, the LD7535/LD7535a detect the primary mosfet current from the cs pin, which is not only for the peak current mode control but also for the pulse-by-pulse current limit. the maximum voltage threshold of the current sensing pin is set at 0.85v. from above, the mosfet peak current can be obtained from below. s ) max ( peak r v 85 . 0 i =
LD7535/LD7535a 10 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 fig. 15 a 350ns leading-edge blanking (leb) time is included in the input of cs pin to prevent the false-trigger from the current spike. in the low power application, if the total pulse width of the turn-on spikes is less than 350ns and the negative spike on the cs pin doesn?t exceed -0.3v, it could eliminated the r-c filter (as shown in the figure16). however, the total pulse width of the turn-on spike is decided by the output power, circuit design and pcb layout. it is strongly recommended to adopt a smaller r-c filter (as shown in figure 17) for higher power application to avoid the cs pin being damaged by the negative turn-on spike. output stage and maximum duty-cycle an output stage of a cmos buffer, with typical 300ma driving capability, is incorporated to drive a power mosfet directly. and the maximum duty-cycle of LD7535/LD7535a is limited to 75% to avoid the transformer saturation. oscillator and switching frequency connect a resistor from rt pin to gnd according to the equation below to program the normal switching frequency: ) khz ( 100 rt 0 . 65 f ) k ( sw = the operating frequency range for the LD7535/LD7535a is recommended to set between 50khz and 130khz. fig. 16 fig. 17 voltage feedback loop the voltage feedback signal is provided from the tl431 at the secondary side through the photo-coupler to the comp pin of the LD7535/LD7535a. similar to uc3842, the LD7535/LD7535a would carry 2 diodes voltage offset at the stage to feed the voltage divider at the ratio of 1/3, that is,
LD7535/LD7535a 11 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 ) v 2 v ( 3 1 v f comp ) pwm ( comparator ? = ? a pull-high resistor is embedded internally and can be eliminated externally. internal slope compensation in the conventional application, the problem of the stability is a critical issue for current mode controlling, when it operates in higher than 50% of the duty-cycle. as uc384x, it takes slope compensation from injectin g the ramp signal of the rt/ct pin through a coupling capacitor. it therefore requires no extra design for the LD7535/LD7535a since it has integrated it already. on/off control the LD7535/LD7535a can be turned off by pulling comp pin lower than 1.2v. the gate output pin of the LD7535/LD7535a will be disabled immediately under such condition. the off-mode can be released when the pull-low signal is removed. dual-oscillator green-mode operation there are many different topologies has been implemented in different chips for the green-mode or power saving requirements such as ?burst-m ode control?, ?skipping-cycle mode?, ?variable off-time cont rol ??etc. the basic operation theory of all these approaches intended to reduce the switching cycles under light-load or no-load condition either by skipping some switching pulses or reduce the switching frequency. by using this dual-oscillator control, the green-mode frequency can be well controlled and further to avoid the generation of audible noise. ovp (over voltage protection) on vcc the v gs ratings of the nowadays power mosfets are often limited up to max. 30v. to prevent the v gs from the fault condition, LD7535/LD7535a are implemented an ovp function on vcc. whenever the vcc voltage is higher than the ovp threshold voltage, the ou tput gate drive circuit will be shutdown simultaneously thus to stop the switching of the power mosfet until the next uvlo(on). the vcc ovp function in LD7535/LD7535a is an auto-recovery type protection. if the ovp condition, usually caused by the feedback loop opened, is not released, the vcc will tripped the ovp level again and re-shutdown the output. the vcc is working as a hiccup mode. the figure. 18 shows its operation. on the other hand, if the ovp condition is removed, the vcc level will get back to normal level and the output will automatically return to the normal operation. fig. 18 the ovp levels are --- z LD7535 --- 28.0v 1.5v. z LD7535a --- 21.0v 1.5v. over load protection (olp) to protect the circuit from being damaged under over load condition or short condition, a smart olp function is implemented in the LD7535/LD7535a. the figure 20 shows the waveforms of the olp operation. in this case, the feedback system will force the voltage loop proceed toward the saturation and then pull up the voltage on comp pin (v comp ). whenever the v comp trips up to the olp threshold 5v and stays longer than 60ms, the protection will activate and then turn off the gate output to stop the switching of power circuit. the 60ms delay ti me is to prevent the false trigger from the power-on and turn-off transient. by such protection mechanism, the average input power can be reduced to very low level so that the component temperature and stress can be controlled within the safe operating area.
LD7535/LD7535a 12 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 vcc uvlo(on) uvlo(off) t t comp olp 5.0v t out 60ms switching switching non-switching olp trip level uvlo(off) olp reset fig. 19 fault protection there are several critical protections were integrated in the LD7535/LD7535a to prevent the power supply or adapter from being damaged. those damages usually come from open or short condition on the pins of LD7535/LD7535a. under the conditions listed below, the gate output will turn off immediately to protect the power circuit --- y rt pin short to ground y rt pin floating y cs pin floating
LD7535/LD7535a 13 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 reference application circuit --- 10w (5v/2a) adapter schematic
LD7535/LD7535a 14 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 reference application circuit --- 10w (5v/2a) adapter bom p/n component value original r1a n/a r1b n/a r2a 750k , 1206 r2b 750k , 1206 r4a 39k , 1206 r4b 39k , 1206 r6 10 , 1206 r7 10 , 1206 r8 10k , 1206 rs1 2.70 , 1206, 1% rs2 2.70 , 1206, 1% rt 100k , 0805, 1% r51a 100 , 1206 r51b 100 , 1206 r52 2.49k , 0805, 1% r53 2.49k , 0805, 1% r54 220 , 0805 r55 10k , 0805 r56a 510 , 1206 r56b n/a ntc1 08sp005 fl1 20mh uu9.8 t1 ei-22 l51 2.7 h p/n component value note c1 22 f, 400v l-tec c2 10 f, 50v c4 1000pf, 1000v, 1206 holystone c5 0.01 f, 16v, 0805 c51 1000pf, 50v, 0805 c52 1000 f, 10v l-tec c54 470 f, 10v l-tec c55 0.01 f, 16v, 0805 cx1 0.1 f x-cap cy1 2200pf y-cap d1a 1n4007 d1b 1n4007 d1c 1n4007 d1d 1n4007 d2 ps102r d4 1n4007 q1 2n60b 600v/2a cr51 sb540 zd51 6v2c ic1 LD7535/LD7535a bl sot-26 ic2 el817b ic51 tl431 1% f1 250v, 1a z1 n/a
LD7535/LD7535a 15 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 reference application circuit #2 --- 10 w adapter with 2-st age startup circuit pin < 0.25w when pout = 0w 2-stage startup circuit
LD7535/LD7535a 16 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 reference application circuit #2 --- 10w adapter with 2-stage startup circuit bom p/n component value original r1a n/a r1b n/a r2a 2.2m , 1206 r2b 2.2m , 1206 r4a 39k , 1206 r4b 39k , 1206 r6 2.2 , 1206 r7 10 , 1206 r8 10k , 1206 rs1 2.70 , 1206, 1% rs2 2.70 , 1206, 1% rt 100k , 0805, 1% r51a 100 , 1206 r51b 100 , 1206 r52 2.49k , 0805, 1% r53 2.49k , 0805, 1% r54 220 , 0805 r55 10k , 0805 r56a 1k , 1206 r56b n/a ntc1 5 , 3a 08sp005 fl1 20mh uu9.8 t1 ei-22 l51 2.7 h p/n component value note c1 22 f, 400v l-tec c2 10 f, 50v l-tec c3 2.2 f, 50v c4 1000pf, 1000v, 1206 holystone c5 0.01 f, 16v, 0805 c51 1000pf, 50v, 0805 c52 1000 f, 10v l-tec c54 470 f, 10v l-tec c55 0.01 f, 16v, 0805 cx1 0.1 f x-cap cy1 2200pf y-cap d1a 1n4007 d1b 1n4007 d1c 1n4007 d1d 1n4007 d2 ps102r d3 1n4148 d4 1n4007 q1 2n60b 600v/2a cr51 sb540 zd51 6v2c ic1 LD7535/LD7535a il sot-26 ic2 el817b ic51 tl431 1% f1 250v, 1a z1 n/a
LD7535/LD7535a 17 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 package information sot-26 dimension in millimeters dimensions in inches symbol min max min max a 2.692 3.099 0.106 0.122 b 1.397 1.803 0.055 0.071 c ------- 1.450 ------- 0.058 d 0.300 0.550 0.012 0.022 f 0.838 1.041 0.033 0.041 h 0.080 0.254 0.003 0.010 i 0.050 0.150 0.002 0.006 j 2.600 3.000 0.102 0.118 m 0.300 0.600 0.012 0.024 0 10 0 10
LD7535/LD7535a 18 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 package information dip-8 dimension in millimeters dimensions in inches symbol min max min max a 9.017 10.160 0.355 0.400 b 6.096 7.112 0.240 0.280 c ----- 5.334 ------ 0.210 d 0.356 0.584 0.014 0.023 e 1.143 1.778 0.045 0.070 f 2.337 2.743 0.092 0.108 i 2.921 3.556 0.115 0.140 j 7.366 8.255 0.290 0.325 l 0.381 ------ 0.015 -------- important notice leadtrend technology corp. reserves the right to make changes or corrections to its products at any time without notice. custom ers should verify the datasheets are current and complete before placing order.
LD7535/LD7535a 19 leadtrend technology corporation www.leadtrend.com.tw LD7535&LD7535a-ds-01c december 2007 revision history rev. date change notice 00 03/01/?06 renew from the LD7535 spec. (rev =0) by adding the LD7535a related descriptions and data. the revision number is reset from 0. 01 01/11/07 revision: block diagram and characteristic 01a 5/17/07 revision: marking description 01b 11/29/07 revision: green package option 01c 12/11/07 revision: block diagram/ LD7535a ovp

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