 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
| the ilc6382 series of step-up dc-dc converters operate from 1-cell to 3-cell input. in shutdown mode, the device allows true load disconnect from battery input. designed for wireless communications applications, the oscillator fre- quency is set at 300khz with no harmonics at sub 20khz audio band or at 455khz if band. oscillator frequency is externally synchronizable from 200khz to 400khz. internal synchronous rectification and dual pfm/pwm mode of operation allows greater than 90% efficiency at light and full load. the ilc6382 is capable of delivering 75ma at 3.3v output from a single cell input.the ilc6382- xx offers 3.3v or 5v fixed output voltage while the ilc6382-adj allows adjustable output voltage to 6v maxi- mum. output voltage accuracy is + 2% over specified tem- perature range. additional features include power good output (pok) and an internal low battery detector with 100s transient rejection delay. the device will reject low battery input transients under 100msec in duration. the ilc6382 series is available in a space saving eight lead micro sop (msop-8) package. ilc6382 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v or adjustable output impala linear corporation impala linear corporation 1 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 ! 0.9v to 6v input voltage ! guaranteed start up at 0.9v input ! synchronous rectification requires no external diode ! true load disconnect from battery input in shutdown ! up to 75ma@3.3v and 40ma@5v from 1v input ! up to 375ma@3.3v and 160ma@5v from 3v input ! efficiency > 90% from 10ma to 150ma at v out = 5v ! 1 a battery input current in shutdown (with v out = 0v) ! internal oscillator frequency : 300khz to 15% ! external freq synchronization from 150khz to 500khz ! ilc6382 : fixed 3.3v or 5v output ! ilc6382-adj : adjustable output to 6v maximum ! low battery detector with 100ms transient rejection delay ! powergood output flag when v out is in regulation ! cellular phones, pagers ! palmtops, pdas and portable electronics ! high efficiency 1v step up converters 10 f on off v in 1 to 3-cell r5 r6 15 h l c out r1 r2 ilc6382-adj msop-8 l x v in lbi/sd sync gnd lbo v fb v out v out v out = 1.25 (1+r1/r2) 1 2 3 4 8 7 6 5 c in + + 10 f ilc6382-xx 1 3 2 4 8 6 7 5 l x v in lbi/sd sync gnd lbo pok v out on off v in 1 to 3-cell r5 r6 15 h msop-8 l v out 10f c out low battery detector output power good output c in + + 10 f ext sync ext sync (note: pin 9 should be connected to ground if unused.) general description features applications typical circuit figure 1: ilc6382 figure 2: ilc6382-adj
1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 2 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 pin number pin name pin description 1 l x inductor input. inductor l connected between this pin and the battery 2 v in connect directly to battery 3 lbi/sd low battery detect input and shutdown. low battery detect threshold is set with this pin using a potential divider. if this pin is pulled to logic low then the device will shut down. 4 sync a logic level signal referenced to v in , at a frequency between 150khz and 500khz on this pin will override the internal 300khz oscillator. if the sync function i s unused then pin 4 should be connected to ground 5 pok (ilc6382cir - xx) this open drain output pin will go high when output voltage is within regulation, 0.92*v out (nom) < v out < 0.98*v out (nom) v fb (ilc6382cir - adj) this pin sets the adjustable output v oltage via an external resistor divider network. the formula for choosing the resistors is shown in the ?applications information? sec tion. 6 lbo this open drain output will go low if the battery voltage is below the low battery threshold set at pin 3 7 gnd connect this pin to the battery and system ground 8 v out this is the regulated output voltage ordering information* (t a = -40c to + 85c) ilc6382cir-33 3.3v output, msop-8 package ilc6382cir-50 5v output, msop-8 package ilc6382cir-adj adjustable output, msop-8 package msop (top view) ilc6382cir-xx sync lb/sd v in l x 1 2 3 4 5 6 7 8 v out gnd lbo pok sync lb/sd v in l x 1 2 3 4 5 6 7 8 v out gnd lbo v fb msop (top view) ilc6382cir-adj pin-package configurations pin functions ilc6382 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 3 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 parameter symbol conditions min typ max units output voltage v out 0.9v < v in < 3v, i out = 0ma 0.9v < v in < 3v, i out = 0ma 3.234 3.201 3.300 3.366 3.399 v output current i out v in = 0.9v, v out = v out(nom) 4% v in = 1.2v, v out = v out(nom) 4% v in = 2.4v, v o ut = v out(nom) 4% v in = 3.0v, v out = v out(nom) 4% 50 75 200 375 ma load regulation ? v out v out (no load) v in = 1.2v, 0ma < i out < 50ma v in = 1.2v, 0ma < i out < 75ma 1.5 2.4 % no load battery input current i in( no load ) v in = 1.2v, i out = 0ma 250 a efficiency v in = 1.2v, i out = 3ma v in = 1.2v, i out =30ma 82 90 % parameter symbol ratings units voltage on v out pin v out -0.3 to 7 v voltage on lbi, sync, lbo, pok, v fb , l x and v in pins - -0.3 to 7 v peak switch current on l x pin il x 1 a current on lbo pin i sink(lbo) 5 ma continuous total power dissipation at 85 c p d 400 mw short circuit current i sc internally protected (1 sec duration) a operating ambient temperature t a -40 to 85 c maximum junction temperature t j (max) 170 c storage temperature t stg -40 to 125 c lead temperature (soldering 10 sec) 300 c package thermal resistance ja 206 c/w unless otherwise specified all limits are at v out =3.3v, v iri = 1.5v, fosc = 300khz and t a = 25c. test circuit of figure 1. boldface type indicates limits that apply over the full operating temperature range. note 2. absolute maximum ratings (note 1) electrical characteristics ilc6382cir-33 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 4 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 unless otherwise specified all limits are at v out = 5v, v iri = 1.5v, fosc = 300khz and t a = 25c. test circuit of figure 1. boldface type indicates limits that apply over the full operating temperature range. note 2. parameter symbol conditions min typ max units output voltage v out 0.9v < v in < 3v, i out = 0ma 0.9v < v in < 3v, i out = 0ma 4.950 4.900 5.000 5.050 5.100 v output current i out v in = 1.2v, v out = v out(nom) 4% v in = 2.4v, v out = v out(nom) 4% v in = 3.0v, v out = v out(nom) 4% 50 110 160 ma load regulation v in = 2.4v, 0ma < i out < 60ma 3 % no load battery input current i in ( no load ) v in = 2.4v, i out = 0ma 250 a efficiency v in = 2.4v, i out = 3ma v in = 2.4v, i out =100ma 85 92 % unless otherwise specified all limits are at v in = 2.4v, v iri = 1.5v, fosc = 300khz, i out = 0ma and t a = 25c. test cir- cuits of figure 1 and figure 2 for ilc6382cir-xx and ilc6382cir-adj respectively. boldface type indicates limits that apply over the full operating temperature range. note 2. parameter symbol conditions min typ max units minimum startup voltage v in(start) i out = 0ma 0.9 1 v input voltage range v in v out = v out(nominal) 4% i out = 0ma (note 3) 0.9 1 6 6 v battery input current in load disconnect mode i in(sd) v lbi/sd < 0.4v , v out = 0v (short circuit) 1 2 ? a switch on resistance r ds(on) n - channel mosfet p - channel mosfet 400 750 m ? oscillator frequency f osc 255 300 345 khz external clock frequency range (sync) f sync 150 500 khz external clock pulse width t w(sync) note 4 200 ns external clock ris e/fall time t r / t f note 4 100 ns lbi input threshold v ref 1.175 1.150 1.250 1.325 1.350 v input leakage current i leak pins lbi/sd, sync and v fb , note 4 200 na lbi hold time t hold(lbi) note 5 120 100 ms electrical characteristics ilc6382cir-50 general electrical characteristics for all voltage versions. 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 5 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 unless otherwise specified all limits are at v in = 2.4v, v lbi = 1.5v, fosc = 300khz, i out = 0ma and ta = 25c. test cir- cuits of figure 1 and figure 2 for ilc6382-xx and ilc6382-adj respectively. boldface type indicates limits that apply over the full operating temperature range. note 2 parameter symbol conditions min typ max units lbo output voltage low v lbo(low) i sink = 2ma, open drain output, v lbi = 1v 0.4 v lbo output leakage current i lbo(hi) v lbo = 5v 1 2 a shutdown input voltage low v sd(low) 0.4 v shutdown input voltage high v sd(hi) 1 6 v sync input voltage low v sync(low) 0.4 v sync input voltage high v sync(hi) 1 6 v pok output voltage low v pok(low) i sink = 2ma, open drain output 0.4 v pok output voltage high v pok(hi) 6 v pok output leakage current i l(pok) force 6v at pin 5 2 a pok threshold v th(pok) 0.92xv out 0.95xv o ut 0.98xv o ut v pok hysteresis v hyst 50 mv feedback voltage (ilc6382 - adj only) v fb 1.225 1.212 1.250 1.275 1.288 v output voltage adjustment range (ilc6382cir-adj only) v out(adj) min v out(adj) max v in = 0.9v, i out = 50ma v in = 3v, i out = 50ma 2.5v 6 v note 1 . absolute maximum ratings indicate limits which, when exceeded, may result in damage to the component. electrical specifi- cations do not apply when operating the device outside its rated operating conditions. note 2 . specified min/max limits are production tested or guaranteed through correlation based on statistical control methods. measurements are taken at constant junction temperature as close to ambient as possible using low duty pulse testing. note 3. v out (nom) is the nominal output voltage at i out = 0ma. note 4 . guaranteed by design. note 5 . in order to get a valid low-battery-output (lbo) signal, the input voltage must be lower than the low-battery-input (lbi) thr esh- old for a duration greater than the low battery hold time (t hold(lbi) ). this feature eliminates false triggering due to voltage transients at the battery terminal. general electrical characteristics for all voltage versions (continued). 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 6 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 the ilc6382 performs boost dc-dc conversion by control- ling the switch element as shown in the simplified circuit in figure 3 below. when the switch is closed, current is built up through the inductor. when the switch opens, this current has to go somewhere and is forced through the diode to the output. as this on and off switching continues, the output capacitor voltage builds up due to the charge it is storing from the inductor current. in this way, the output voltage gets boost- ed relative to the input. in general, the switching characteristic is determined by the output voltage desired and the current required by the load. specifically the energy transfer is determined by the power stored in the coil during each switching cycle. p l = ?(t on , v in ) synchronous rectification the ilc6382 also uses a technique called "synchronous rectification" which removes the need for the external diode used in other circuits. the diode is replaced with a second switch or in the case of the ilc6382, an fet as shown in figure 4 below. the two switches now open and close in opposition to eachother, directing the flow of current to either charge the inductor or to feed the load. the ilc6382 monitors the volt- age on the output capacitor to determine how much and how often to drive the switches. pwm mode operation the ilc6382 uses a pwm or pulse width modulation tech- nique. the switches are constantly driven at typically 300khz. the control circuitry varies the power being deliv- ered to the load by varying the on-time, or duty cycle, of the switch sw1 (see fig. 5). since more on-time translates to higher current build-up in the inductor, the maximum duty cycle of the switch determines the maximum load current that the device can support. there are two key advantages of the pwm type controllers. first, because the controller automatically varies the duty cycle of the switch's on-time in response to changing load conditions, the pwm controller will always have an opti- mized waveform for a steady-state load. this translates to very good efficiency at high currents and minimal ripple on the output. ripple is due to the output cap constantly accepting and storing the charge received from the induc- tor, and delivering charge as required by the load. the "pumping" action of the switch produces a sawtooth-shaped voltage as seen by the output. the other key advantage of the pwm type controllers is that the radiated noise due to the switching transients will always occur at the (fixed) switching frequency. many appli- cations do not care much about switching noise, but certain types of applications, especially communication equipment, need to minimize the high frequency interference within their system as much as possible. using a boost converter requires a certain amount of higher frequency noise to be generated; using a pwm converter makes that noise high- ly predictable thus easier to filter out. pfm mode operation there are downsides of pwm approaches, especially at very low currents. because the pwm technique relies on constant switching and varying duty cycle to match the load conditions, there is some point where the load current gets too small to be handled efficiently. an actual switch con- sumes some finite amount of current to switch on and off; at very low currents this can be of the same magnitude as the load current itself, driving switching efficiencies down to 50% and below. the ilc6382 overcomes this limitation by automatically switching over to a pfm, or pulse frequency modulation, technique at low currents. this technique con- serves power loss by only switching the output if the current drain requires it. as shown in the figure 5, the waveform actually skips pulses depending on the power needed by the output. this technique is also called "pulse skipping" because of this characteristic. v out pok lbo lb/sd sync gnd l x v in ilc6382 pwm/pfm controller shutdown control v ref delay + + - - sw1 sw2 figure 3: basic boost circuit figure 4: simplified ilc6382 block diagram applications information 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 7 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 in the ilc6382, the switchover from pwm to pfm mode occurs when the pwm waveform drops to a low duty cycle. the low pwm duty cycle indicates to the controller that the load current is small and so it switches over to the pfm mode to improve efficiency and conserve power. the dual pwm/pfm mode architecture was designed specifically for applications such as wireless communica- tions, which need the spectral predictability of a pwm-type dc-dc converter, yet also need the highest efficiencies possible, especially in standby mode. other considerations the other limitation of pwm techniques is that, while the fundamental switching frequency is easier to filter out since it's constant, the higher order harmonics of pwm will be present and may have to be filtered out, as well. any filter- ing requirements, though, will vary by application and by actual system design and layout, so generalizations in this area are difficult, at best. however, pwm control for boost dc-dc conversion is widely used, especially in audio-noise sensitive applica- tions or applications requiring strict filtering of the high fre- quency components. external frequency syncronization external frequency syncronization is allowed on the ilc6382. when an external signal between 150khz to 500khz is connected to pin 4, the internal oscillator will be over-ridden. this technique is useful when designers wish to synchronize two or more converters using the same external source in order to avoid unexpected harmonics. connect pin 4 to ground or v in if the external frequen- cy syncronization function is not used. low battery detector the ilc6382's low battery detector is a based on a cmos comparator. the negative input of the comparator is tied to an internal 1.25v (nominal) reference, v ref . the positive input is the lbi/sd pin. it uses a simple potential divider arrangement with two resistors to set the lbi threshold as shown in figure 6. the input bias current of the lbi pin is only 200na. this means that the resistor values r1 and r2 can be set quite high. the formula for setting the lbi thresh- old is: vlbi = vref x (1+r5/r6) since the lbi input current is negligible (<200na), this equation is derived by applying voltage divider formula across r6. a typical value for r6 is 100k ? . r5 = 100k ? x [(v lbi /v ref ) -1], where v ref =1.25v (nom.) the lbi detector has a built in delay of 120ms. in order to get a valid low-battery-output (lbo) signal, the input volt- age must be lower than the low-battery-input (lbi) thresh- old for a duration greater than the low battery hold time (t hold(lbi) ) of 120msec. this feature eliminates false trigger- ing due to voltage transients at the battery terminal caused by high frequency switching currents. the output of the low battery detector is an open drain capable of sinking 2ma. a 10k ? pull-up resistor is recom- mended on this output. note that when the device is not in pwm mode or is in shutdown the low battery detec- tor does not operate. for vlbi < 1.25v the low battery detector can also be configured for voltages <1.25v by bootstrapping the lbi input from v out . the cir- cuitry for this is shown in figure 7. v set v out switch waveform r6 r5 lbi/sd 3 2 v in ilc6382 shutdown delay 100ms 1.25v internal reference gnd 7 lbo 3.3v r pu 6 + - figure 5: pfm waveform figure 6: low battery detector 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 8 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 the following equation is used when v in is lower than 1.25v: r1 = r2 x [(v ref - v in ) / (v out - v ref )], where v ref = 1.25v (nom.) this equation can also be derived using voltage divider for- mula across r2. a typical value for r2 is 100k ? . note that the low battery detector does not operate when the ilc6382 is in pfm mode or in shutdown. shut down the lbi pin is shared with the shutdown pin. a low voltage (<0.4v) will put the ilc6382 into a power down state. the simplest way to implement this is with an fet across r6 as shown in figure 8. note that when the device is not in pwm mode or is in shutdown the low battery detector does not operate. when the ilc6382 is shut down, the synchronous rectifier disconnects the output from the input. this ensures that there is only leakage (i in < 1a typical) from the input to the output so that the battery is not drained when the ilc6382 is shut down. power good output (pok) the pok output of the ilc6382 indicates when v out is within the regulation tolerance of the set output voltage. pok output is an open drain device output capable of sink- ing 2ma. it will remain pulled low until the output voltage has risen to typically 95% of the specified v out. note that a pull-up resistor must be connected from the pok output (pin 5 of ilc6382cir-xx) to either ilc6382's output or to some other system voltage source. adjustable output voltage selection the ilc6382-adj allows the output voltage to be set using a potential divider. the formula for setting the adjustable output voltage is; v out = v fb x (1+r1/r2) where v fb is the threshold set which is 1.25v nominal. negative voltage output it is possible to generate a negative output voltage as a sec- ondary supply using the ilc6382. this negative voltage may be useful in some applications where a negative bias voltage at low current is required. v out 8 r2 3 lbi/sd v in r1 ilc6382 + - 1.25v internal reference gnd 7 on/off r5 r6 lbi/sd 3 ilc6382 2 v in 7 gnd 10 f on off v in 1 to 3-cell r5 r6 15 h ext sync (connect to gnd if unused) l 10f c out r1 r2 ilc6382-adj msop-8 l x v in lbi/sd sync gnd lbo v fb v out v out v out = 1.25 (1+r1/r2) 1 2 3 4 8 7 6 5 c in + 1 2 l l x v in v in ilc6382 0.01f 0.01f -v 1a schottky diodes figure 7: v lbi < 1.25v figure 8: shut down control figure 9: adjustable voltage configuration figure 10: negative output votlage 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 9 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 inductors the ilc6382 is designed to work with a 15h inductor in most applications. there are several vendors who supply standard surface mount inductors to this value. suggested suppliers are shown in table 1. higher values of inductance will improve efficiency, but will reduce peak inductor current and consequently ripple and noise, but will also limit output current. capacitors input capacitor the input capacitor is necessary to minimize the peak cur- rent drawn from the battery. typically a 10f tantalum capacitor is recommended. low equivalent series resist- ance ( esr ) capacitors will help to minimize battery voltage ripple. output capacitor low esr capacitors should be used at the output of the ilc6382 to minimize output ripple. the high switching speeds and fast changes in the output capacitor current, mean that the equivalent series impedance of the capacitor can contribute greatly to the output ripple. in order to mini- mize these effects choose an output capacitor with less than 10nh of equivalent series inductance (esl) and less than 100m ? of equivalent series resistance (esr). typically these characteristics are met with ceramic capac- itors, but may also be met with certain types of tantalum capacitors. suitable vendors are shown in table 2. layout and grounding considerations high frequency switching and large peak currents means pcb design for dc-dc converters requires careful consid- eration. a general rule is to place the dc-dc converter cir- cuitry well away from any sensitive rf or analog compo- nents. the layout of the dc-dc converters and its exter- nal components are also based on some simple rules to minimise emi and output voltage ripple. layout 1 . place all power components, ilc6382, inductor, input capacitor and output capacitor as close together as possible. 2. keep the output capacitor as close to the ilc6382 as possible with very short traces to the vout and gnd pins. typically it should be within 0.25 inches or 6mm. 3. keep the traces for the power components wide, typi- cally >50mil or 1.25mm. 4 . place the external networks for lbi and vfb close to the ilc6382, but away from the power components as far as possible. grounding 1 . use a star grounding system with separate traces for the power ground and the low power signals such as lbi/sd and vfb. the star should radiate from where the power supply enters the pcb. 2 . on multilayer boards use component side copper for grounding around the ilc6382 and connect back to a quiet ground plane using vias. vendor part no contact coilcraft do3308p-153 d03316p-153 d01608c-153 (847) 639 6400 murata lqh4n150k lqh3c150k (814) 237 1431 sumida cdr74b-150mc cd43-150 cd54-150 (847) 956 0666 tdk nlc453232t-150k (847) 390 4373 description vendor contact t495 series tantalum kemet (864) 963 6300 595d series tantalum sprague (603) 224 1961 taj, tps series tantalum avx (803) 946 0690 tdk (847) 390 4373 x7r ceramic avx (803) 946 0690 10 f v in 15 h c out 10f r1 r2 ilc6382 l x v in lbi/sd sync gnd lbo v fb v out v out 1 2 3 4 8 7 6 5 c in + r3 load r4 on/off local "quiet" ground power ground l1 recommended application circuit schematic for ilc6382cir-adj external component selection 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 10 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 label part number manufacturer description u1 ilc6382cir - adj impala linear step - up dc - dc converter c in , c out 2221y106m250nt novacap 10 f, ceramic capacitor l1 do1608c - 153 coilcraft 15 h, 0.15 ? inductor r1 and r2 - dale, panasonic user determined value s r3 - dale, panasonic 10k ? , 1/10w, smt r4 - dale, panasonic 1meg ? , 1/10w, smt impala linear corp. ilc 6382-adj eval board impala linear corp. ilc 6382-adj eval board j1 gnd v in v out lbo sync gnd gnd v in v out lbo sync gnd l1 l1 c1 c2 u1 u1 s1 s1 r4 r4 r3 r3 on on off off r1 r2 r1 r2 pgnd pgnd j1 evaluation board parts list for printed circuit board shown above 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 11 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 90 85 80 75 10 20 30 40 50 60 70 80 90100 i out (ma) eff i ci e nc y ( %) v out =3.3v v in =1.2v v in =2.4v v in =0.9v 3.26 3.34 3.32 3.24 0.9 1.4 1.9 2.4 2.9 v in (v) v out (v) 3.30 3.28 3.26 i out =70ma v out =3.3v (nominal) efficiency line regulation 3.35 0 20406080100 i out (ma) v out (v) v in =2.4v 3.33 3.31 3.29 3.27 3.25 v in =0.9v v in =1.2v load regulation v out =3.3v (nominal) 3.40 -40 -30 -20 -10 0 90 temperature (c) 3.35 3.30 3.25 3.20 3.10 v out vs temperature 3.15 20 10 30 40 50 60 70 80 i out =75ma v in =1.5v v in =1.2v v in =0.9v 1s/div ? l x pin 2v/div 0v load switching waveforms (pwm mode) 0v 0ma v out 10mv/div inductor current ac c o u pl e d 200ma/div v out =3.3v i out =75ma 10s/div? l x pin 2v /di v 0v load switching waveforms (pfm mode) 0ma 0v v ou t 10mv/div inductor current ac c o up l ed 200ma/div v out =3.3v i out =12ma v in =1.2v v out (v) v in =1.2v unless otherwise specified: t a = 25c, c in = 10f, c out = 10f, l = 10h v in = 0.9v i out = 12ma typical performance characteristics ilc6382cir-33 (v out = 3.3 v) 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 12 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 typical performance characteristics ilc6382cir-33 (v out = 3.3v) unless otherwise specified: t a = 25c, c in = 10f, c out = 10f, l = 15h. v out = 3.3v v in = 1.2v i out = 75ma v out = 3.3v v in = 1.2v i out = 10ma v in = 1.2v i out = 40ma v out = 3.3v i out = 0ma 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 13 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 typical performance characteristics ilc6382cir-33 (v out = 3.3v) unless otherwise specified: t a = 25c, c in = 10f, c out = 10f, l = 15h. 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 14 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 typical performance characteristics ilc6382cir-33 (v out = 3.3v) unless otherwise specified: t a = 25c, c in = 10f, c out = 10f, l = 15h. v out = 3.3v v in = 1.2v i out = 50ma external freq. = 175khz v out = 3.3v v in = 1.2v i out = 66ma v out = 3.3v v in = 1.2v c in = 10f c out = 2 x 220f 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 15 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 typical performance characteristics ilc6382cir-33 (v out = 3.3v) unless otherwise specified: t a = 25c, c in = 10f, c out = 10f, l = 15h. v in = 3.0v v in = 2.4v 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 16 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 typical performance characteristics ilc6382cir-33 (v out = 3.3v) unless otherwise specified: t a = 25c, c in = 10f, c out = 10f, l = 15h. v out = 5.0v v in = 1.2v 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 17 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 typical performance characteristics ilc6382cir-33 (v out = 3.3v) unless otherwise specified: t a = 25c, c in = 10f, c out = 10f, l = 15h. v out = 5.0v v in = 2.4v v out = 5.0v v in = 2.4v i out = 75ma v out = 5.0v v in = 1.2v i out = 67ma c out = 10f fundamental: 352khz/2.5mv rms first harmonic: 704khz/1.5mv rms 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 18 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 spectral noise plot 1.75 1.40 1.05 0.70 100 0.35 0 v out (mvr ms) v out =5.0v v in =1.2v i out =67ma c out =2x 10f fundamental: 352khz/1.3mvrms first harmonic: 704khz/0.49mvrms freq (hz) ? 1k 10k 100k 1m start-up input voltage vs. output current i out (ma) input voltage (v) 1.1 1 0.8 0.7 0.6 0.5 0.9 1.4 1.3 1.2 20 100 60 120 0 1.5 v out = 5v 40 80 typical performance characteristics ilc6382cir-33 (v out = 3.3v) unless otherwise specified: t a = 25c, c in = 10f, c out = 10f, l = 15h. 1-cell to 3-cell boost with true load disconnect, 3.3v, 5v, or adjustable output impala linear corporation 19 (408) 574-3939 www.impalalinear.com oct 1999 ilc6382 1.5 0.118 0.004 0.118 0.004 .020 typ. 0.013 typ. 0.0256 bsc 0.000-0.005 rad. typ. 0.040 0.004 seating plane 3 typ. 12 typ 0.116 12 typ 0.118 0.006 rad. typ. 0.037 0.0215 package dimensions msop-8 all dimensions in inches devices sold by impala linear corporation are covered by the warranty and patent indemnification provisions appearing in its terms of sale only. impala linear corporation makes no warranty, express, statutory, implied, or by description regarding the information set forth herein or regarding the freedom of the described devices from patent infringement. impala linear corporation makes no warranty of merchantability or fitness for any purpose. impala linear corporation reserves the right to discontinue production and change specifications and prices at any time and without notice. this product is intended for use in normal commercial applications. applications requiring an extended temperature range, unusual environmental requirements, or high reliability applications, such as military and aerospace, are specif- ically not recommended without additional processing by impala linear corporation. impala linear corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in an impala linear corporation product. no other circuits, patents, licenses are implied. life support policy impala linear corporation?s products are not authorized for use as critical components in life support devices or systems. 1. life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use pro- vided in the labelling, can be reasonably expected to result in a significant injury to the user. 2. a critical component is any component of a life support device or system whose failure to perform can be reason- bly expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. |
Price & Availability of ILC6382CIP-ADJ
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |