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unisonic technologies co., ltd ups601 linear integrated circuit www.unisonic.com.tw 1 of 12 copyright ? 2011 unisonic technologies co., ltd qw-r119-003.g high performance current mode power switch ? description the utc ups601 is designed to provide several special enhancements to satisfy the needs, for example, power-saving mode for low standby power ( < 0.3w), frequency hopping , constant output power limiting , slope compensation ,over current protection (ocp), over voltage protection (ovp), over load protection (olp), under voltage lock out (uvlo), short circuit protection (scp) , over temperature protection (otp) etc. ic will be shutdown or can auto-restart in situations. . ? features * low startup current 22 a typ * fixed switching frequency(norm. is 68khz) * frequency hopping to reduce emi emission * lower than 0.3w standby power design * linearly decreasing frequency to 26khz during light load * soft start * internal slope compensation * constant power limit all over ac input range * gate output maximum voltage clamp(15v) * max duty cycle 74% * over temperature protection * overload protection * over voltage protection * leading edge blanking * pulse-by-pulse current limit * under voltage lock out * short circuit protection dip-8 ? ordering information ordering number package packing lead free halogen free ups601l-d08-t UPS601G-D08-T dip-8 tube
ups601 linear integrated circuit unisonic technologies co., ltd 2 of 12 www.unisonic.com.tw qw-r119-003.g ? pin configuration 1 drain gnd drain v in v cc cs fb ss 2 3 4 5 6 7 8 ? pin description pin no. symbol description 1 drain power mosfet drain 2 vin for startup and constant power limit, this pin is pulled to the line input via resistor 3 v cc supply voltage 4 gnd ground 5 ss soft-start 6 fb feedback 7 cs controller current sense input 8 drain power mosfet drain
ups601 linear integrated circuit unisonic technologies co., ltd 3 of 12 www.unisonic.com.tw qw-r119-003.g ? block diagram drain drain ss fb pwm comp ocp soft start uvlo reference voltage burstmode oscillator v cc gnd latch s rq q cs v in driver leb frequency hopping slope compensation constant power limit olp delay time otp logic control ovp 2 4 6 5 3 8 7 1 notes: olp (over load protection) ovp (over voltage protection) otp (over temperature protection) ocp (over current protection) uvlo (under voltage latch-out) leb (led edge blanking) ss (soft start)
ups601 linear integrated circuit unisonic technologies co., ltd 4 of 12 www.unisonic.com.tw qw-r119-003.g ? absolute maximum ratings (ta 25c, unless otherwise specified) parameter symbol ratings unit supply voltage v cc 30 v input voltage to vin pin vin 30 v input voltage to fb pin v fb -0.3 ~ 6.2 v input voltage to cs pin v cs -0.3 ~ 2.8 v junction temperature t j +150 c operating temperature t opr -40 ~ +125 c storage temperature t stg -50 ~ +150 c note: absolute maximum ratings are those values beyond which the device could be permanently damaged. absolute maximum ratings are stress ratings only and functional device oper ation is not implied. ? recommended operating conditions parameter symbol ratings unit supply voltage v cc 8.6 ~ 22 v ? electrical characteristics (ta 25c, v cc =15v, unless otherwise specified) parameter symbol test conditions min typ max unit supply section start up current i str v cc = v cc(on) -0.1v 22 45 a i off v ss = 0, i fb = 0 7 9 ma supply current with switch i on v ss = 4.8v, i fb = 0 7 9 ma under-voltage lockout section start threshold voltage v thd(on) 13.5 14.2 15 v min. operating voltage v cc(min) 7.5 8.2 9 v hysteresis v cc(hy) 6 v internal voltage reference reference voltage v ref measured at pin v fb 6.3 6.5 6.7 v control section v min 0.5 v v fb operating level v max 4.4 burst-mode out fb voltage v fb(out) v cs =0 1.7 v reduce-frequency end fb voltage v fb(end) v cs =0 1.6 v burst-mode enter fb voltage v fb(in) v cs =0 1.5 v normal v fb = 4v 61 68 75 khz switch frequency power-saving f (sw) before enter burst mode 20 40 khz d max v fb =4.4v, v cs =0 68 74 80 % duty cycle d min v fb < 0.5v 0 % frequency hopping f j(sw) 1.5 3 4.5 khz frequency variation vs v cc deviation f dv v cc =10 to 20v 5 % frequency variation vs temperature deviation f dt t=-40 to 105c 5 % feedback resistor r fb v fb =0v 16 21 26 k ? soft-start time t ss c ss =0.47 f 9.9 11.2 12.6 ms protection section v ovp1 v ss <3.5v,v fb > 5v 19 v ovp threshold v ovp2 v ss =4.8v, v fb =3v 28 v olp threshold v fb(olp) v cs =0, ss open 4.7 4.9 5.1 v delay time of olp t d-olp c ss =0.47 f 55 62 70 ms otp threshold t (thr) 120 135 150 c ovp disable threshold v ss(deact) v fb > 5v, v cc = 22v 3.9 4.1 4.3 v olp enable threshold v ss(act) v fb > 5v 5.1 5.4 5.7 v
ups601 linear integrated circuit unisonic technologies co., ltd 5 of 12 www.unisonic.com.tw qw-r119-003.g ? electrical characteristics(cont.) parameter symbol test conditions min typ max unit current limiting section peak current limitation v cs v fb =4.4v 0.86 1 v threshold voltage for i vin =60 a v sense-l i vin =60 a 0.77 v power mos-transistor section drain-source breakdown voltage v dss v gs =0v, i d =250 a 600 v turn-on voltage between gate and source v th v ds =v gs , i d =250 a 2 4 v drain-source diode continuous source current i s 1.2 a static drain-source on-state resistance r ds(on) v gs =10v, i d =0.6a 9.3 11.5 ? rise time t r 25 60 ns fall time t f v dd =300v, i d =1.2a rg=50 ? (note 1,2) 25 60 ns notes: 1. pulse test: pulse width 300 s, duty cycle 2% 2. essentially independent of operating temperature
ups601 linear integrated circuit unisonic technologies co., ltd 6 of 12 www.unisonic.com.tw qw-r119-003.g ? functional description the internal reference voltages and bias circuit work at v cc > v thd (on) , and shutdown at v cc < v cc (min) . (1) soft-start when every ic power on, driver output duty cycle will be decided by voltage v ss on soft-start capacitor and v cs on current sense resistor at beginning. after v ss reach 4.2v, the whole soft-star t phase end, and driver duty cycle depend on v fb and v cs . the relation among v ss , v fb and v out as followed fig.3. furthermore, soft-start phase should end before v cc reach v cc (min) during v cc power on. otherwise, if soft-start phase remain not end before v cc reach v cc (min) during v cc power on, ic will enter aut o-restart phase and not set up v out . so the value of c ss should be between 0.1 fand 4.7 f. finally soft-start also set ovp1 active phase. ovp1 active phase between 0 and v ss(deact) , ovp1 will not be sensed after v ss reach v ss(deact) .the soft-start phase t ss t ss = 23.8c ss (ms) (example: c ss =0.47 f, then t ss =23.80.47=11.2ms). fig.3 soft-start phase
ups601 linear integrated circuit unisonic technologies co., ltd 7 of 12 www.unisonic.com.tw qw-r119-003.g ? functional description(cont.) (2) switch frequency set the maximum switch frequency is set to 68khz. switch frequency is modulated by output power p out during ic operating. at no load or light load cond ition, most of the power dissipation in a switching mode power supply is from switching loss on the mosfet transisto r, the core loss of the transformer and the loss on the subber circuit. the magnitude of power loss is in proportion to the number of sw itching events within a fixed period of time. so lower switch frequency at lower load, which more and more improve ic?s efficiency at light load. at from no load to light load condition, the ic will operate at from burst m ode to reducing frequency mode. the relation curve between f sw and p out /p out (max) as followed fig.4. fig.4 the relation curve between f sw and relative output power p out / p out (max) (3) internal synchronized slope compensation built-in slope compensation circuit adds voltage ra mp onto the current sens e input voltage for pwm generation, this greatly improves t he close loop stability at ccm and prevents the sub-harmonic oscillation and thus reduces the output ripple voltage. (4) frequency hopping for emi improvement the frequency hopping is implemented in the ic; there are two oscillators built-in the ic. the first oscillator is to set the normal switching frequency; the switching frequ ency is modulated with a period signal generated by the 2nd oscillator. the relation betwe en the first oscillator and t he 2nd oscillator as followed fig.5. so the tone energy is evenly spread out, the spread spectrum minimizes the conduction band emi and therefor e eases the system design in meeting stringent emi requirement. fig.5 frequency hopping
ups601 linear integrated circuit unisonic technologies co., ltd 8 of 12 www.unisonic.com.tw qw-r119-003.g ? functional description(cont.) (5) constant output power limit when the sense voltage, acro ss the sense resistor r s , reaches the threshold volt age, around 0.8v, the output gate drive will be turned off after a small propagation delay t d . this propagation delay will introduce an additional current proportional to t d v in /lp. since the propagation dela y is nearly constant regardl ess of the input line voltage v in . higher input line voltage will result in a larger additional current and hence the output power limit is also higher than that under low input line vo ltage. to compensate this variation for wi de ac input range, the threshold voltage is adjusted by the v in current. since v in pin is connected to the rectified i nput line voltage through a resistor r vin , a higher line voltage will generate higher v in current into the v in pin. the threshold volt age is decreased if the v in current is increased. smaller threshold voltage, forces the output gate drive to termi nate earlier, thus reduce the total pwm turn-on time and make the output power equal to that of low line input. this proprietary internal compensation ensures a constant output power limit for wide ac input voltage from 90vac to 264vac. (6) protection section the ic takes on more protection functions such as olp, ovp and otp etc. in case of those failure modes for continual blanking time, the driv er is shut down. at the same time, ic enters auto-restart, v cc power on and driver is reset after v cc power on again. olp after soft-start phase end, ic will shutdown driver if over load state occurs for continual t d-olp . olp function will not inactive during soft-start phase. olp case as followed fig. 6. the test circuit as followed fig.8. t d-olp =5.53t ss. ovp there are two kinds of ovp circuits, the first ovp function are enabled only when v ss < v ss (deact) & v fb > v fb (olp) during soft-start phase. during above condition, driver will be shutdown if over voltage state occurs (v cc > v ovp1 ) for continual a blanking time. the first ovp function will not inactive after soft-start phase. the second ovp will shutdown the switching of the power mosfet whenever v cc > v ovp2 . the first ovp case as followed fig.7. the test circuit as followed fig.9. fig.6 olp case fig.7 ovp case
ups601 linear integrated circuit unisonic technologies co., ltd 9 of 12 www.unisonic.com.tw qw-r119-003.g ? functional description(cont.) fig.8 olp test circuit fig.9 ovp test circuit otp otp will shut down driver when junction temperature t j > t (thr) for continual a blanking time. (7) driver output section the driver-stage drives the gate of the mosfet and is optimized to minimize emi and to provide high circuit efficiency. this is done by reducing the switch on slope when reaching the mosfet threshold. this is achieved by a slope control of the rising edg e at the driver?s output. the output driver is clamped by an internal 15v zener diode in order to protect power mosfet transisto rs against undesirable gate over voltage. (8) inside power switch mos transistor specific power mos transistor parameter is as ?power mos transistor section? in electrical characteristics table.
ups601 linear integrated circuit unisonic technologies co., ltd 10 of 12 www.unisonic.com.tw qw-r119-003.g ? typical application circuit fig.10 ups601 typical application circuit table1. components reference description for ups601 application circuit designator part type designator part type designator part type c1 6.8 f r1 3.4 ? d1 1n4007 c2 0.0022 f r2 100k ? d2 1n4007 c3 22 f r3 100 ? d3 1n4007 c4 6.8 f r4 1m ? d4 1n4007 c5 1000 f r5 0 ? d5 fr107 c6 100 f r6 15 ? d6 rs1d c7 0.1 f r7 510 ? d7 sb340 c8 0.001 f r8 4.7k ? ic1 ups601 c9 0.1 f r9 1.8k ? ic2 pc-817 c10 0.01 f r10 5.11k ? ic3 tl431nsl r11 1.5~4m ? yc1 0.001 f r12 4.99k ? t1 ee-16 r13 1k ? l1 1mh l2 2uh ld1 led f1 1a/250v znr1 07d471k
ups601 linear integrated circuit unisonic technologies co., ltd 11 of 12 www.unisonic.com.tw qw-r119-003.g ? typical characteristics feedback voltage during loadjump from 10% up to 100% load (v ac =90v) feedback voltage during loadjump from 10% up to 100% load (v ac =264v) startup with full load condition at v ac =90v, v ss and v out startup with full load condition at v ac =264v, v ss and v out startup behavior at nominal load condition v ac =90v startup behavior at nominal load condition v ac =264v 0 2000 0 -2v 2v time (400 s/div) 4v 6v 8v 10v 12v 0 -2v 2v 4v 6v 8v 10v 12v time (10ms/div) 0 50 100 0 2v 4v 0 2v 4v time (10ms/div) 0 50 100 0 2v 4v 0 2v 4v time (4ms/div) 0 20 40 0 2v 4v 0 2v 4v time (4ms/div) 0 20 40 0 2v 4v 0 2v 4v 4000 0 2000 time (400 s/div) 4000 6v 8v 6v 8v 6v 8v 6v 8v v ss v out v out v fb v fb v ss v ss v ss
ups601 linear integrated circuit unisonic technologies co., ltd 12 of 12 www.unisonic.com.tw qw-r119-003.g ? typical characteristics(cont.) no load input power vs. line voltage (normal mode) 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 100 150 200 250 300 ac input voltage, v in (v) input power (w) frequency vs. output power 0 20 40 60 80 01234 5 output power, p out (w) frequency(khz) 678910 input power no load (po ut =0w) v ac =90v utc assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all utc products described or contained herein. utc products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. the information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice.

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