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october 2014 docid022197 rev 4 1 / 24 this is information on a product in full production. www.st.com stbb1 - axx 1 a, high efficiency single inductor dual mode buck - boost dc - dc converter datasheet - production data features ? buck - boost dc - dc converter ? operating input voltage range from 2.0 v to 5.5 v ? 2% dc feedback voltage tolerance ? synchronous rectification ? shutdown function ? 1.5 mhz switching frequency ? power save mode at light load ? typical efficiency: > 94% ? 1 a output current capability ? shutdown current < 1 a ? available in dfn10 (3x3 mm) appl ications ? single cell li - ion and 3 cells alkaline, ni - mh powered devices ? sd/mmc memory card supply ? palmtop computers ? cell phones ? digital cameras description the stbb1 - axx is a fixed frequency, high efficiency, buck - boost dc - dc converter able to provide output voltages ranging from 1.2 v to 5.5 v and input voltages from 2.0 v to 5.5 v. the device can operate with input voltages higher than, equal to, or lower than the output voltage making the product suitable for single lithium - ion, multicell alkaline or nimh applications where the output v oltage is within the battery voltage range. the integrated low - r ds(on) n - channel and p - channel mosfet switches contribute to its high efficiency. the mode pin allows the selection between auto mode and forced pwm mode thus taking benefit either of lower power consumption or better dynamic performance. the device also includes soft - start control, thermal shutdown and current limit. the stbb1 - axx is packaged in dfn10 (3x3 mm). table 1: device summary order code package packing stbb1 - apur dfn10 (3x3 mm) tape and reel
contents stbb1 - axx 2 / 24 docid022197 rev 4 contents 1 block diagram ................................ ................................ .................. 5 2 absolute maximum ratings ................................ ............................. 6 3 pin configuration ................................ ................................ ............. 7 4 typical application ................................ ................................ .......... 8 5 electrical characteristics ................................ ................................ 9 6 detailed description ................................ ................................ ...... 11 6.1 general description ................................ ................................ ......... 11 6.2 dual mode operation ................................ ................................ ....... 11 6.3 external synchronization ................................ ................................ . 12 6.4 enable pin ................................ ................................ ....................... 12 6.5 protection features ................................ ................................ .......... 12 6.5.1 soft - start and short - circuit ................................ ................................ 12 6.5.2 undervoltage lockout ................................ ................................ ........ 12 6.5.3 overtemperature protection ................................ ............................. 12 7 typical performance characteristics ................................ ........... 13 8 application information ................................ ................................ 16 8.1 programming the output voltage ................................ ..................... 16 8.2 inductor selection ................................ ................................ ............ 16 8.3 input and output capacitor selection ................................ ................ 17 9 recommended pcb layout ................................ ........................... 18 10 package mechanical data ................................ ............................. 20 10.1 dfn10 (3x3 mm) mechanical data ................................ ................. 20 11 revision history ................................ ................................ ............ 23
stbb1 - axx list of tables docid022197 rev 4 3 / 24 list of tables table 1: device summary ................................ ................................ ................................ ........................... 1 table 2: absolute maximum ratings ................................ ................................ ................................ ........... 6 table 3: thermal data ................................ ................................ ................................ ................................ . 6 table 4: pin description ................................ ................................ ................................ .............................. 7 table 5: list of external components ................................ ................................ ................................ .......... 8 table 6: electrical characteristics ................................ ................................ ................................ ............... 9 table 7: dfn10 (3x3 mm) mechanical data ................................ ................................ ............................. 21 table 8: document revision history ................................ ................................ ................................ .......... 23
list of figures stbb1 - axx 4 / 24 docid022197 rev 4 list of figures figure 1: stbb1 - axx block diagram ................................ ................................ ................................ ......... 5 figure 2: pin connection (top view) ................................ ................................ ................................ ............ 7 figure 3: application circuit (adjustable output version) ................................ ................................ ............. 8 figure 4: efficiency vs. iout in auto mode ................................ ................................ .............................. 13 figure 5: efficiency vs. iout in pwm mode ................................ ................................ ............................ 13 figure 6: efficiency vs. vin, iout = 500 ma ................................ ................................ ........................... 13 figure 7: ps to pwm transition ................................ ................................ ................................ ................ 13 figure 8: max. iout vs. vin ................................ ................................ ................................ ..................... 14 figure 9: boost region op eration ................................ ................................ ................................ .............. 14 figure 10: boost region operation io=200 ma ................................ ................................ ......................... 14 figure 11: buck - boost region operation ................................ ................................ ................................ .... 14 figure 12: buck - boost region operation @ io=500 ma ................................ ................................ ........... 14 fig ure 13: buck - boost region operation @ io=50 ma ................................ ................................ ............. 14 figure 14: buck region operation (skipping mode) ................................ ................................ ................... 15 figure 15: buck region operation (pwm mode) ................................ ................................ ....................... 15 figure 16: component placement ................................ ................................ ................................ ............ 18 figure 17: top layer routing ................................ ................................ ................................ ...................... 18 figure 18: bottom layer r outing ................................ ................................ ................................ ................ 19 figure 19: dfn10 (3x3 mm) drawings ................................ ................................ ................................ ..... 20 figure 20: dfn10 (3x3 mm) recommended footprint ................................ ................................ .............. 22
stbb1 - axx block diagram docid022197 rev 4 5 / 24 1 block diagram figure 1 : stbb1 - axx block diagram c o n t r o l g a t e c u rr e n t s e n s o r v r e f os c i l l a t o r c o n t r o l t e m p erature s w 1 s w 2 v o u t f b p g n d m o d u l a t o r g n d m o d e / s y n c v i n a e n v i n device control gipg3107141209lm
absolute maximum ratings stbb1 - axx 6 / 24 docid022197 rev 4 2 absolute maximum ratings table 2: absolute maximum ratings symbol parameter value unit vina, vin input voltage - 0.3 to 7 v vout output voltage - 0.3 to 7 v sw1, sw dc voltage - 0.3 to 7 v fb dc voltage - 0.3 to 1.5 v mod/sync, en dc voltage - 0.3 to 7 v t j maximum junction temperature 150 c t stg storage temperature range - 65 to +150 c t jop operating junction temperature range - 40 to +85 c esd human body model 2 kv absolute maximum ratings are those values beyond which damage to the device may occur. functional operation under these conditions is not implied. table 3: thermal data symbol parameter value unit r thjc thermal resistance junction - case 2.96 c/w r thja thermal resistance junction - ambient 30.9 c/w
stbb1 - axx pin configuration docid022197 rev 4 7 / 24 3 pin configuration figure 2 : pin connection (top view) table 4: pin description pin symbol name and fun ction 1 vout output voltage 2 sw2 switch pin. internal switches are connected to this pin. connect inductor between sw1 to sw2 3 pgnd power ground 4 sw1 switch pin. internal switches are connected to this pin. connect inductor between sw1 and sw2 5 vin power input voltage. connect a ceramic bypass capacitor (10 f minimum) between this pin and pgnd 6 en enable pin. connect this pin to gnd or a voltage lower than 0.4 v to shut down the ic. a voltage higher than 1.2 v is required to enable the ic 7 mode (sync) operation mode selection. if mode pin is low, the stbb1 - axx automatically switches between pulse skipping and fixed frequency pwm according to the load level. if mode pin is pulled high, the stbb1 - axx works in pwm mode. when a square waveform i s applied, this pin provides the clock signal for oscillator synchronization 8 vina supply voltage for control stage 9 gnd signal ground 10 fb feedback voltage exposed pad power ground
typical application stbb1 - axx 8 / 24 docid022197 rev 4 4 typical application figure 3 : application circuit (adjustable output version) table 5: list of external components component manufacturer part number value size cin murata grm21br71a106ke51 l 10 f 0805 cout murata grm21br60j226me39 l 22 f 0805 l tdk vlcf4020t - 2r2n1r7 2.2 h 4x4x2 coilcraft xfl4020 - 222me 4x4x2 r1 (1) 560 k? (v o = 3.3 v) see below note 0402 r2 (1) 100 k? 0402 notes: (1) r1 and r2 are calculated according to the following formula: r1 = r2 x (vout/vfb - 1). suggested value for r2 is 100 k. in order to reduce the quiescent current a maximum value of 500 k is pos sible. the above listed components refer to a typical application. the stbb1 - axx operation is not limited to the choice of these components.
stbb1 - axx electrical characteristics docid022197 rev 4 9 / 24 5 electrical characteristics v in = v ina = v en = 3.6 v, c in = 10 f, c out = 10 f, l = 2.2 h, t j = - 40 to 85 c (unless otherwise specified; typical values are referred to t a = 25 c). ta ble 6: electrical characteristics symbol parameter test conditions min. typ. max. unit v in input voltage range 2.0 5.5 v v uvlo undervoltage lockout threshold vina rising 1.70 1.80 v vina falling 1.50 1.60 v fb feedback voltage 485 500 515 mv t j = 25 c 490 500 510 mv v out output voltage range 1.2 5.5 v z fb fb input impedance 10 m? i q no switching quiescent current (vin+vina) (see figure 3: "application circuit (adjustable output version)" , ) fb = 0.7 v, v mode = 0 v 160 250 a fb = 0.7 v, v mode = v in 600 750 i q operating quiescent current (vin+vina) i out = 0 a, v out = 3.3 v, v mode = 0 v 200 a i out = 0 a, v out = 3.3 v, v mode = v in 3.4 5.0 ma i qshdn shutdown quiescent current v en = 0 v, v in = 3.6 v 0.1 1 a freq oscillator frequency t a = 25 c 1300 1500 1750 khz frequency range for synchronization 1300 2000 v en enable input logic low v in = 2.2 v to 5.5 v 0.4 v enable input logic high v in = 2.2 v to 5.5 v 1.2 i en enable pin current v en = 5.5 v 0.01 1 a v mode/sync mode/sync input logic low v in = 2.2 v to 5.5 v 0.4 v mode/sync input logic high v in = 2.2 v to 5.5 v 1.2 i mode/sync mode/sync pin current v mode/sync = 5.5 v 0.01 1 a %v out line regulation 2.2 v < v in < 5.5 v; i out = 1 ma 0.5 % %v out load regulation 10 ma < i out < 1000 ma 1 % i swl switch current limitation v in = 3.3 v 1.6 2.3 2.6 a
electrical characteristics stbb1 - axx 10 / 24 docid022197 rev 4 symbol parameter test conditions min. typ. max. unit i lkn nmos leakage current v in = 5.5 v 0.01 1 a i lkp pmos leakage current 0.01 1 a r ds(on) - n nmos switch on resistance 0.13 0.35 ? r ds(on) - p pmos switch on resistance 0.13 0.35 ? n efficiency, v in = 3.6 v, v out = 3.3 v i out = 10 ma; v mode = 0 89 % i out = 10 ma; v mode = v in 67 i out = 100 ma; v mode = v in 94 t shdn thermal shutdown 140 c t hys thermal shutdown hysteresis 20 c
stbb1 - axx d etailed description docid022197 rev 4 11 / 24 6 detailed description 6.1 general description the stbb1 - axx is a high efficiency dual mode buck - boost switch mode converter. thanks to the 4 internal switches, 2 p - channel and 2 n - channel, and its unique control mechanisms the device can deliver a well - regulated output voltage using a variable input voltage which can be higher than, equal to or lower than the desired output voltage. this solves most of the power supply problems that circuit designers face when dealing with battery - powered equipment. the controller uses an average current mode technique to obtain good stability in all possible conditions of input voltage, output voltage and output current. in addition, the peak inductor current is monitored to avoid saturation of the coil. the stbb1 - axx can work in two different modes: pwm mode or power save mode. the former operates with a fixed oscillator frequency in all line/load conditions. this is the best condition to obtain the maximum dynamic performance. the latter operates in burst mode allowing a drastic reduction of power consumption. top - class line and load transients are achieved thanks to feed - forward technique and due to the innovative control method specifically designed to optimize the performance in the buck - boost region where input voltage is very close to the output voltage. the stbb1 - axx is self - protected from short - circuit and overtempe rature. undervoltage lockout and soft - start guarantee proper operation during the startup. input voltage and ground connections are split into power and signal pins. this allows reduction of internal disturbances when the 4 internal switches are being work ed. the switch bridge is connected between vin and pgnd pins while all logic blocks are connected between vina and gnd. 6.2 dual mode operation the stbb1 - axx works in pw m or in power save (ps) mode according to the different operating conditions. if mode pin is pulled high, the device works in pwm mode only even at light or no load. in this condition the stbb1 - axx provides the best dynamic performance. if the mode pin is logic low, the stbb1 - axx operation changes according to the average input current handled by the device. at low average current the stbb1 - axx enters ps mode allowing very low power consumption and thus obtaining very good efficiency at light load. when the average current increases, the device automatically switches to pwm mode to deliver the power needed by the load. in ps mode the stbb1 - axx implements a burst mode operation. if the output voltage increases above its nominal value the device stops switching. as soon as v out falls below the nominal value the device starts switching again with a programmed average current higher than the one needed by the load. not found in not found shows ps mode operation areas vs. output current in typical applicat ion conditions.
detailed description stbb1 - axx 12 / 24 docid022197 rev 4 6.3 external synchronization the stbb1 - axx implements the external synchronization pin. if an external clock signal is applied to the mode (syn) pin with a frequency between 1.35 mhz and 2.0 mhz and with proper low/high levels, the device automatically goes to pwm mode and the external clock is used as switching oscillator. 6.4 enable pin the device operates when en pin is set high. if en pin is set low the device stops switching, all the internal blocks are turned off. in this condition, the current drawn from vin/vina is below 1 a in the whole temperature range. in additio n, the internal switches are in off - state so the load is electrically disconnected from the input, by avoiding unwanted current leakage from the input to the load. 6.5 protection features the stbb1 - axx implements different types of protection features. 6.5.1 soft - start and short - circuit after en pin is pulled high, or after a s uitable voltage is applied to vin, vina and en, the device initiates the start - up phase. the average current limit is set to 400 ma at the beginning and gradually rises while the output voltage increase is being tracked. as soon the output voltage reaches 1.0 v the average current limit is set to its nominal value. this method allows a current limit proportional to the output voltage. if there is a short in the v out pin, the output current doesnt exceed 400 ma. this process is not handled by a timer so the device is also able to start even with large capacitive loads. 6.5.2 undervoltage lockout the undervoltage lockout function prevents improper operation of the stbb1 - axx when the input voltage is not high enough. when the input voltage is below vuvlo threshold the device is in shutdown mode. the hysteresis of 100 mv prevents unstable operation when the input voltage is close to uvlo threshold. 6.5.3 overtemperature pro tection an internal temperature sensor continuously monitors the ic junction temperature. if the ic temperature exceeds 140 c typically the device stops op erating. as soon as the temperature falls below 120 c typically normal operation is restored.
stbb1 - axx typical performance characteristics docid022197 rev 4 13 / 24 7 typical performance characteristics l = 2.2 h, v o = 3.3 v, all measurements are fulfilled with circuit shown in figure 3: "application circuit (adjustable output version)" and external components listed in table 5. figure 4 : efficiency vs. iout in auto mode figure 5 : efficiency vs. iout in pwm mode figure 6 : efficiency vs. vin, iout = 500 ma figure 7 : ps to pwm transition
typical performance characteristics stbb1 - axx 14 / 24 docid022197 rev 4 figure 8 : max. iout vs. vin figure 9 : boost region operation figure 10 : boost region operation io=200 ma figure 11 : buck - boost region operation figure 12 : buck - boo st region operation @ io=500 ma figure 13 : buck - boost region operation @ io=50 ma
stbb1 - axx typical performance characteristics docid022197 rev 4 15 / 24 figure 14 : buck region operation (skipping mode) figure 15 : buck region operation (pwm mode)
application information stbb1 - axx 16 / 24 docid022197 rev 4 8 application information 8.1 programming the output voltage the stbb1 - axx is available in two versions: fixed output voltage (stbb1 - apurxx) and adjustable output voltage (stbb1 - apur). the former integrates the resistor divider needed to set the correct output voltage. this allows 2 external components to be sav ed. the fb pin must be connected directly to vout. regarding to the adjustable version, the resistor divider must be connected between vout and gnd and the middle point of the divider has to be connected to fb as shown in figure 3: "application circuit (adjustable output version)" equation 1 a suggested value for r2 is 100 k?. to reduce the power consumption a maximum value of 500 k? can be used. 8.2 inductor selection the inductor is the key passive component for switching converters. with a buck - boost device, the inductor selection must take into consideration the boundary conditi ons in which the converter works, as buck at the maximum input voltage and as a boost at the minimum input voltage. two critical inductance values are then obtained according to the following formulas: equation 2 equation 3 where: fs: minimum switching frequency di l = the peak - to - peak inductor ripple current. as a rule of thumb, the peak - to - peak ripple can be set at 10% - 20% of the output current. the minimum inductor value for the application is the highest between the above equations. furthermore, th e maximum current the inductor can handle must be calculated in order to avoid saturation. equation 4 l mi n C b u c k vi n m a x f s i l v o u t v i n C v o u t = - - - - - -- - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - -- - m a - - - - x - - - - - - - - - - -- - - - - - - - - - - - - - - - - l mi n C b o o s t v o u t f s i l vi n v o u t C v i n = - - - - - - -- - - - - - - - mi n - - - - - - - - -- - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - -- - - - - - - - m i - - - - - - n - - - r 1 = r 2 v f b C 1 - - v - - -- - - - ou t - - - - - ) (
stbb1 - axx application information docid022197 rev 4 17 / 24 equation 5 where h is the estimated efficiency of the stbb1 - axx. the maximum of the two values above must be considered when the inductor is selecte d. 8.3 input and output capacitor selection ceramic capacitors should be with low esr in order to filter any disturbance present in the input line and t o obtain stable operation. minimum values of 10 f for both capacitors are needed to achieve good behavior of the device. the input capacitor has to be placed as closer as possible to the device. i i pea k C b uck ou t / 2 f s l = v i n C (v i n + - - - - - - - - - - - - - - -- - max - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - -- - m ax - - - - v o u t v o u t) v o u t i i pea k C b o o s t v i n m i n - - - - - - - - -- - - - - - - - - - - - - - - - -- - - - - - ou t - - - - 2 v o u t f s l = v i n v o u t C v i n + - - - - - - - - - - - - - - -- - mi n - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - -- - m i - - - - n - - -
recommended pcb l ayout stbb1 - axx 18 / 24 docid022197 rev 4 9 recommended pcb layout figure 16 : component placement figure 17 : top layer routing
stbb1 - axx recommended pcb layout docid022197 rev 4 19 / 24 figure 18 : bottom layer routing
package mechanical data stbb1 - axx 20 / 24 docid022197 rev 4 10 package mechanical data in order to meet environmental requirements, st offers these devices in different grades of ecopack ? packages, depending on their level of environmental complianc e. ecopack ? specifications, grade definitions and product status are available at: www.st.com. ecopack ? is an st trademark. 10.1 dfn10 (3x3 mm) mechanical data figure 19 : dfn10 (3x3 mm) drawings
stbb1 - axx package mechanical data docid022197 rev 4 21 / 24 table 7: dfn10 (3x3 mm) mechanical data dim. mm typ. min. max. a 0.90 0.80 1.00 a1 (1) 0.02 00.5 a2 0.70 a3 (1) 0.20 b 0.23 0.18 0.30 d 3.00 2.85 3.15 d2 2.38 2.23 2.50 e 3.00 2.85 3.15 e2 1.64 1.49 1.75 e3 0.230 0.365 e4 e 0.50 l 0.40 0.30 0.50 ddd 0.08 notes: (1) the size is related to all leads, including exposed pad terminals.
package mechanical data stbb1 - axx 22 / 24 docid022197 rev 4 figure 20 : dfn10 (3x3 mm) recommended footprint
stbb1 - axx revision history docid022197 rev 4 23 / 24 11 revision history table 8: document revision history date revision changes 07 - sep - 2011 1 initial release. 04 - oct - 2011 2 added condition t a = 25 c for the oscillator frequency parameter in table 6. 04 - aug - 2014 3 changed mechanical data. 29 - oct - 2014 4 updated mechanical data. inserted the device summary table. deleted the "application circuit (fixed output version)" figure.
stbb1 - axx 24 / 24 docid022197 rev 4 important notice C please read carefully stmicroelectronics nv and its subsidiaries (st) reserve the right to make changes, corrections, enhancements, modifications , and improvements to st products and/or to this document at any time without notice. purchasers should obtain the latest relevant information on st products before placing orders. st products are sold pursuant to sts terms and conditions of sale in place at the time of or der acknowledgement. purchasers are solely responsible for the choice, selection, and use of st products and s t assumes no liability for application assistance or the design of purchasers products. no license, express or implied, to any intellectual property right is granted by st herein. resale of st products with provisions different from the information se t forth herein shall void any warranty granted by st for such product. st and the st logo are trademarks of st. all other product or service names are the property of their respective owners. information in this document supersedes and replaces information previously supplied in any prior versions of this document. ? 2014 stmicroelectronics C all rights reserved

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