? 2004 california micro devices corp. all rights reserved. 01/27/04 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 1 cmpwr150 500ma / 3.3v smartor tm power regulator features ? automatic detection of v cc input supply drive output logic to control external switch glitch-free output during supply transitions 500ma output maximum load current built-in hysteresis during supply selection controller operates from either v cc or v out 8-pin power soic thermal package lead-free version available applications pci adapter cards network interface cards (nics) dual power systems systems with standby capabilities usb powered devices such as printers, scanners, mp3 players and zip drives see application note ap-211 product description the cmpwr150 is a low dropout regulator that deliv- ers up to 500ma of load current at a fixed 3.3v output. an internal threshold level (typically 4.1v) is used to prevent the regulator from being operated below drop- out voltage. the device continuously monitors the input supply and will automatically disable the regulator when v cc falls below the threshold level. when the regulator is disabled, the control signal ?drive? (active low) is enabled, which allows an external pmos switch to power the load from an auxiliary 3.3v supply. when v cc is restored to a level above the select threshold, the control signal for the external pmos switch is disabled and the regulator is once again enabled. all the necessary control circuitry needed to provide a smooth and automatic transition between the supplies has been incorporated. this allows v cc to be dynami- cally switched without loss of output voltage. the cmpwr150 is housed in an 8-pin soic thermally enhanced package which is ideal for space critical applications. the cmpwr150 is available with optional lead-free finishing. simplified electrical schematic typical application circuit + v cc gnd v out - deselect 4.1v + - drive 3.3v/500ma v ref 3.3v controller en regamp v cc v out gnd v cc 1 f 10 f + - v out + + c out c in 3.3v/500ma 5v cmpwr150 drive v aux + - 3.3v fdn338p (si2310ds)
? 2004 california micro devices corp. all rights reserved. 2 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 01/27/04 cmpwr150 pin descriptions pin(s) name description 1 n.c. this is a no-connect pin. 2v cc v cc is the power source for the internal regulator and is monitored continuously by an internal controller circuit. whenever v cc exceeds v ccsel (4.35v typically), the internal regulator (500ma max) will be enabled and deliver a fixed 3.3v at v out . when v cc falls below v ccdes (4.10v typically) the regulator will be disabled. internal loading on this pin is typically 1.0ma when the regulator is enabled, which decreases to 0.15ma whenever the regulator is disabled. if v cc falls below the voltage on the v out pin the v cc loading will further decrease to only a few microamperes. during a v cc power up sequence, there will be an effective step increase in v cc line current when the regulator is enabled. the amplitude of this step increase will depend on the dc load current and any necessary current required for charging/ discharging the load capacitance. this line current transient will cause a voltage disturbance at the v cc pin. the magnitude of the disturbance will be directly proportional to the effective power supply source impedance being delivered to the v cc input. to prevent chatter during select and deselect transitions, a built-in hysteresis voltage of 250mv has been incorporated. it is recommended that the power supply connected to the v cc input have a source resistance of less than 0.25 ? to minimize the event of chatter during the enabling/disabling of the regulator. an input filter capacitor in close proximity to the v cc pin will reduce the effective source impedance and help minimize any disturbances. if the v cc pin is within a few inches of the main input filter, a capacitor may not be necessary. otherwise an input filter capacitor in the range of 1f to 10f will ensure adequate filtering. 5-8 gnd gnd is the negative reference for all voltages. the current that flows in the ground connection is very low (typically 1.0ma) and has minimal variation over all load conditions. 3v out v out is the regulator output voltage connection used to power the load. an output capacitor of ten microfarads is used to provide the necessary phase compensation, thereby preventing oscillation. the capacitor also helps to minimize the peak output disturbance during power supply changeover. when v cc falls below v out , then v out will be used to provide the necessary quiescent current for the internal reference circuits. this ensures excellent start-up characteristics for the regulator. 4 drive drive is an active low logic output intended to be used as the control signal for driving an external pfet whenever the regulator is disabled. this will allow the voltage at v out to be powered from an aux- iliary supply voltage (3.3v). the drive pin is pulled high to v cc whenever the regulator is enabled. this ensures that the auxiliary remains isolated during normal regulator operation. package / pinout diagram note: this drawing is not to scale. 8-pin soic 1 2 3 4 8 7 6 5 n.c. v cc v out drive gnd gnd gnd gnd top view cmpwr150sa
? 2004 california micro devices corp. all rights reserved. 01/27/04 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 3 cmpwr150 ordering information note 1: parts are shipped in tape & reel form unless otherwise specified. note 2: the cmpwr150to is an obsolete part. please contact marketing for suitable replacement/alternative product. specifications note 1: the soic package used is thermally enhanced through the use of a fused integral leadframe. the power rating is based on a printed circuit board heat spreading capability equivalent to 2 square inches of copper connected to the gnd pins. typical multi-layer boards using power plane construction will provide this heat spreading ability without the need for additional ded- icated copper area. (please consult factory for thermal evaluation assistance.) part numbering information (see note 2) regulator pins package standard finish lead-free finish ordering part number 1 part marking ordering part number 1 part marking cmpwr150 8 power soic cmpwr150sa cmpwr150sa CMPWR150SF CMPWR150SF absolute maximum ratings parameter rating units esd protection (hbm) + 2000 v pin voltages v cc drive [gnd - 0.5] to [+6.0] [gnd - 0.5] to [v cc + 0.5] v v storage temperature range -40 to +150 c operating temperature range ambient junction 0 to +70 0 to +125 c c power dissipation soic (see note 1) 1.0 w standard operating conditions parameter rating units v cc input voltage 4.5 to 5.5 v ambient operating temperature range 0 to +70 c load current 0 to 500 ma c ext 10 + 10% f
? 2004 california micro devices corp. all rights reserved. 4 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 01/27/04 cmpwr150 specifications (cont?d) note 1: operating characteristics are over standard operating conditions unless otherwise specified. note 2: the hysteresis defines the maximum level of acceptable disturbance on v cc during switching. it is recommended that the v cc source impedance be kept below 0.25 ? to ensure the switching disturbance remains below the hysteresis during select/ deselect transitions. an input capacitor may be required to help minimize the switching transient. note 3: ground pin current consists of controller current (0.15ma) and regulator current if enabled. the controller always draws 0.15ma from either v cc or v out , whichever is greater. all regulator current is supplied exclusively from v cc . at high load currents a small increase occurs due to current limit protection circuitry. electrical operating characteristics (see note 1) symbol parameter conditions min typ max units v out regulator output voltage 0ma < i load < 500ma 3.135 3.300 3.465 v i out regulator output current 500 800 ma v ccsel select voltage regulator enabled 4.35 4.45 v v ccdes deselect voltage regulator disabled 3.90 4.10 v v cchyst hysteresis voltage hysteresis, see note 2 0.25 v i sc short-circuit output current v cc =5v, v out =0v 1200 ma i rcc v cc pin reverse leakage v out =3.3v; v cc = 0.0v x 550 a v r load load regulation v cc =5v, i load =50ma to 500ma 75 mv v r line line regulation v cc =4.5 to 5.5v, i load =5ma 2 mv i cc quiescent supply current v cc > v ccsel , i load =0ma v ccdes > v cc > v out v out > v cc 1.0 0.15 0.01 3.0 0.25 0.02 ma ma ma i gnd ground pin current regulator disabled, note 3 v cc =5v, i load =5ma, note 3 v cc =5v, i load =500ma, note 3 0.15 1.0 1.2 0.30 2.5 3.0 ma ma ma r oh r ol drive pull-up resistance drive pull-down resistance r pullup to v cc , v cc > v ccsel r pulldown to gnd, v ccdes > v cc 100 200 400 400 ? ? t dh t dl drive high delay drive low delay c drive =1nf, v cc t rise < 100ns c drive =1nf, v cc t fall < 100ns x 1.0 0.2 s s
? 2004 california micro devices corp. all rights reserved. 01/27/04 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 5 cmpwr150 typical dc characteristics unless stated otherwise, all dc characteristics were measured at room temperature with a nominal v cc supply voltage of 5.0 volts and an output capacitance of 10 f. the external pmos switch was present and resistive load conditions were used. the test data shown here was obtained from engineer- ing samples. the device was modified to allow the reg- ulator to function below the dropout threshold for the purpose of obtaining test data. during normal opera- tion, production parts will shutdown the regulator below a 4.1v supply. dropout characteristics of the regulator are shown in figure 1 . at maximum rated load conditions (500ma), a 100mv drop in regulation occurs when the line volt- age collapses below 4.1v. for light load conditions (50ma), regulation is maintained for line voltages as low as 3.5v. in normal operation, the regulator is deselected at 4.1v, which ensures a regulation output droop of less than 100mv is maintained. figure 1. dropout characteristics load regulation performance is shown from zero to maximum rated load in figure 2 . a change in load from 10% to 100% of rated, results in an output voltage change of less than 75mv. this translates into an effective output impedance of approximately 0.15 ohms. figure 2. load regulation ground current is shown across the entire range of load conditions in figure 3 . the ground current has minimal variation across the range of load conditions and shows only a slight increase at maximum load. this slight increase at rated load is due to the current limit protection circuitry becoming active. figure 3. ground current
? 2004 california micro devices corp. all rights reserved. 6 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 01/27/04 cmpwr150 typical dc characteristics (cont?d) v cc supply current of the device is shown across the entire v cc range for both v aux present (3.3v) and absent (0v) in figure 4 . in the absence of v aux , the supply current remains fixed at approximately 0.15ma until v cc reaches the select voltage threshold of 4.35v. at this point the reg- ulator is enabled and a supply current of 1.0ma is con- ducted. when v aux is present, the v cc supply current is less than 10ma until v cc exceeds v aux , at which point v cc then powers the controller (0.15ma). when v cc reaches v select , the regulator is enabled. figure 4. v cc supply current (no load)
? 2004 california micro devices corp. all rights reserved. 01/27/04 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 7 cmpwr150 typical transient characteristics the transient characterization test set-up shown below includes the effective source impedance of the v cc supply (r s ). this was measured to be approximately 0.2 ? . it is recommended that this effective source impedance be no greater than 0.25 ? to ensure precise switching is maintained during v cc selection and dese- lection. both the rise and fall times during v cc power-up/down sequencing were controlled at a 20 millisecond dura- tion. this is considered to represent worst case condi- tions for most application circuits. a maximum rated load current of 500ma was used dur- ing characterization, unless specified otherwise. during a selection or deselection transition, the dc load current is switching from v aux to v cc and vice versa. in addition to the normal load current, there may also be an in-rush current for charging/discharging the load capacitor. the total current pulse being applied to either v aux or v cc is equal to the sum of the dc load and the corresponding in-rush current. transient cur- rents in excess of 1.0 amps can readily occur for brief intervals when either supply commences to power the load. the oscilloscope traces of v cc power-up/down show the full bandwidth response at the v cc and v out pins under full load (500ma) conditions. see application note ap-211 for more information. v cc power-up cold start. figure 5 shows the output response during an initial v cc power-up with v aux not present. when v cc reaches the select threshold, the regulator turns on. the uncharged output capacitor causes maximum in-rush current to flow, resulting in a large voltage disturbance at the v cc pin of about 230mv. the built-in hysteresis of 250mv ensures the regulator remains enabled throughout the transient. prior to v cc reaching an acceptable logic supply level (2v), a disturbance on the drive pin can be observed. figure 5. v cc power-up cold start figure 6. transient characteristics test set-up powerupcold.bmp
? 2004 california micro devices corp. all rights reserved. 8 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 01/27/04 cmpwr150 typical transient characteristics (cont?d) v cc power-up (v aux = 3.3v). figure 7 shows the out- put response as v cc approaches the select threshold during a power-up when v aux is present (3.3v). the output capacitor is already fully charged. when v cc reaches the select threshold, the in-rush current is min- imal and the v cc disturbance is only 130mv. the built- in hysteresis of 250mv ensures the regulator remains enabled throughout the transient. v out offset = 3.3v, v cc offset = 4.3v figure 7. v cc power-up (v aux = 3.3v) v cc power-up (v aux =3.0v). figure 8 shows the out- put response as v cc approaches the select threshold during power-up. the auxiliary voltage, v aux is set to a low level of 3.0v. when v cc reaches the select thresh- old, a modest level of in-rush current is required to fur- ther charge the output capacitor resulting in v cc disturbance of 200mv. the built-in hysteresis of 250mv ensures the regulator remains enabled throughout the transient. v out offset = 3.3v, v cc offset = 4.3v figure 8. v cc power-up (v aux = 3.0v) v cc power-down (v aux = 3.3v). figure 9 shows the output response as v cc approaches the deselect threshold during a power-down transition. v aux of 3.3v remains present. when v cc reaches the deselect threshold (4.1v), the regulator turns off. this causes a step change reduction in v cc current resulting in a small voltage increase at the v cc input. this distur- bance is approximately 100mv and the built-in hystere- sis of 250mv ensures the regulator remains disabled throughout the transient. the output voltage experi- ences a disturbance of approximately 100mv during the transition. v out offset = 3.3v, v cc offset = 4.3v figure 9. v cc power-down (v aux = 3.3v) powerupvaux33v.bmp powerupvaux30v.bmp powerdwnvaux33v.bmp
? 2004 california micro devices corp. all rights reserved. 01/27/04 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 9 cmpwr150 typical transient characteristics (cont?d) load step response. figure 10 shows the output response of the regulator during a step load change from 5ma to 500ma (represented on ch1). an initial transient overshoot of 50mv occurs and the output set- tles to its final voltage within a few microseconds. the dc voltage disturbance on the output is approximately 75mv, which demonstrates the regulator output imped- ance of 0.15 ? . v out offset = 3.3v figure 10. load step response line step response. figure 11 shows the output response of the regulator to a v cc line voltage tran- sient between 4.5v and 5.5v (1vpp as shown on ch1). the load condition during this test is 5ma. the output response produces less than 10mv of disturbance on both edges indicating a line rejection of better than 40db at high frequencies. v out offset = 3.3v figure 11. line step response loadstep.bmp linestep.bmp
? 2004 california micro devices corp. all rights reserved. 10 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 01/27/04 cmpwr150 typical thermal characteristics thermal dissipation of junction heat consists primarily of two paths in series. the first path is the junction to the case ( jc ) thermal resistance, which is defined by the package style, and the second path is the case to ambient ( ca ) thermal resistance, which is dependent on board layout. for a given package style and board layout, the operat- ing junction temperature is a function of junction power dissipation p junc and the ambient temperature, result- ing in the following thermal equation: t junc = t amb + p junc ( jc ) + p junc ( ca ) measurements showing performance up to maximum junction temperature of 125c were performed under light load conditions (5ma). this allows the ambient temperature to be representative of the internal junc- tion temperature. figure 12. output voltage vs. temperature output voltage vs. temperature. figure 12 shows the regulator v out performance up to the maximum rated junction temperature. the overall 100c variation in junction temperature causes an output voltage change of about 30mv, reflecting a voltage tempera- ture coefficient of 90ppm/c. output voltage (500ma) vs. temperature. figure 13 shows the regulator steady state performance when fully loaded (500ma) in an ambient temperature up to the rated maximum of 70c. the output variation at maximum load is approximately 25mv across the nor- mal temperature range. figure 13. output voltage (500ma) vs. temperature thresholds vs. temperature. figure 14 shows the regulator select/deselect threshold variation up to the maximum rated junction temperature. the overall 100c change in junction temperature causes a 30mv variation in the select threshold voltage (regulator enable). the deselect threshold level varies about 50mv over the 100c change in junction temperature. this results in the built-in hysteresis having minimal variation over the entire operating junction temperature range. figure 14. threshold vs. temperature out volt v t.eps 2 5 50 7 5 1 00 12 5 out v r v t.eps thres v t.eps
? 2004 california micro devices corp. all rights reserved. 01/27/04 430 n. mccarthy blvd., milpitas, ca 95035-5112 � tel: 408.263.3214 � fax: 408.263.7846 � www.calmicro.com 11 cmpwr150 mechanical details (cont?d) soic-8 mechanical specifications dimensions for cmpwr150 devices packaged in 8-pin soic packages are presented below. for complete information on the soic-8 package, see the california micro devices soic package informa- tion document. * this is an approximate number which may vary. package dimensions for soic-8 package dimensions package soic pins 8 dimensions millimeters inches min max min max a 1.35 1.75 0.053 0.069 a 1 0.10 0.25 0.004 0.010 b 0.33 0.51 0.013 0.020 c 0.19 0.25 0.007 0.010 d 4.80 5.00 0.189 0.197 e 3.80 4.19 0.150 0.165 e 1.27 bsc 0.050 bsc h 5.80 6.20 0.228 0.244 l 0.40 1.27 0.016 0.050 # per tube 100 pieces* # per tape and reel 2500 pieces controlling dimension: inches mechanical package diagrams e d h top view l end view c e b a a 1 seating plane side view 1234 8765 pin 1 marking
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