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mp2249 1mhz, 6v, 3a, low-voltage synchronous step -down converter mp2249 rev.1.0 www.monolithicpower.com 1 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. the future of analog ic technology description the mp2249 is a 1mhz constant frequency, current mode, pwm step-down converter. the device integrates a main switch and a synchronous rectifier for high efficiency and eliminates the need for an external schottky diode. it is ideal for powering portable equipment that runs from a single cell lithium- ion (li+) battery. the mp2249 can supply 3a of load current from a 2.5v to 6v input voltage. it can run at 100% duty cycle for low dropout applications. the mp2249 provides internal soft-start control to reduce rush current and output discharge function to control discharging of the output capacitor. the mp2249 is available in small 3mmx3mm tqfn10 or soic8e package. features ? high efficiency: up to 90% ? power save mode at light load ? 1mhz constant switching frequency ? up to 4.5a peak current ? 2.5v to 6v input voltage range ? output adjustable from 0.6v to vin ? 100% duty cycle in dropout ? output discharge function ? internal soft-start control ? power good indicator ? short circuit protection ? thermal fault protection ? available in 3mmx3mm tqfn10 or soic8e package applications ? cellular and smart phones ? microprocessors and dsp core supplies ? pdas ? mp3 players ? digital still and video cameras ? portable instruments ?mps? and ?the future of analog ic technology? are registered trademarks of monolithic power systems, inc. typical application en gnd mp2249 pvin fb sw l1 2. 2 h r1 c2 r2 on off v in / 5v v out / 1.8v pg r3 pvin pg c1 10 10 c3 22 c4
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 2 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. rdering information part number package top marking free air temperature (t a ) MP2249DN soic8e mp2249 mp2249dqt * tqfn10 (3mm x 3mm) aavy -40c to +85c * for tape and reel, add suffix -z (e.g. mp2249dqt?z). for rohs compliant packaging, add suffix - lf (e.g. mp2249dqt?lf?z); package reference tqfn10 (3mm x 3mm) soic8e absolute maxi mum ratings (1) pvin to gnd ...............................-0.3v to +6.5v sw to gnd ............................-0.3v to v in +0.3v fb, en & pg to gnd...................-0.3v to +6.5v junction temperature .............................+150 c continuous power dissipation (t a = +25c) (2) soic8e...................................................... 2.5w tqfn10 (3mmx3mm) ................................ 2.5w lead temperature ..................................+260 c storage temperature .............. -65 c to +150 c recommended operating conditions (3) supply voltage v in .............................2.5v to 6v output voltage v out ...........................0.6v to 6v operating junct. temp. ........... -40 c to +125 c thermal resistance (4) ja jc soic8e .................................. 50 ...... 10... c/w tqfn10 (3mmx3mm)............. 50 ...... 12... c/w notes: 1) exceeding these ratings may damage the device. 2) the maximum allowable power dissipation is a function of the maximum junction temperature. t j (max) the junction-to- ambient thermal resistance ja and the ambient temperature t a . the maximum allowable power dissipation at any ambient temperature is calculated using: p d (max)=(t j (max)-t a )/ ja . exceeding the maximum allowable power dissipation will cause excessive die temperature, and the regulator will go into thermal shutdown. internal thermal shutdown circuitry protects the device from permanent damage. 3) the device is not guaranteed to function outside of its operating conditions. 4) measured on jesd51-7, 4-layer pcb.
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 3 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. electrical characteristics v in = v en = 3.6v, t a = +25 c, unless otherwise noted. parameter symbol condition min typ max units supply current i q v en = v in , v fb = 0.51v 480 600 a shutdown current v en = 0v, v in = 6v 0.01 1 a in under voltage lockout (uvlo) threshold rising edge 2.15 2.3 2.45 v in under voltage lockout hysteresis 210 mv soft-start time 1 ms discharge mosfet on resistance 100 ? t a = +25c 0.594 0.600 0.606 regulated fb voltage v fb -40c t a +85c 0.588 0.600 0.612 v fb input bias current v fb = 0.65v -50 0.5 +50 na pfet on resistance (5) i sw = 100ma 92 m ? nfet on resistance (5) i sw = -100ma 72 m ? sw leakage current v en = 0v,v in = 6v, v sw = 0v or 6v -1 +1 a pfet current limit (5) i limit duty cycle = 100%, current pulse width < 1ms 4.5 a oscillator frequency f sw 1 mhz minimum on time (5) t on 100 ns thermal shutdown trip threshold (5) 145 c en turn-on trip threshold -40c t a +85c 1.8 v en turn-off trip threshold -40c t a +85c 0.4 v en-pull down resistor 360 450 540 k ? latch off under voltage (uv) threshold 67% v fb pg upper trip threshold 90% v fb pg lower trip threshold 85% v fb pg output low voltage i sink =1ma 0.3 v notes: 5) 100% production test at +25c. typical and temperature s pecifications are guaranteed by design and characterization.
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 4 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. pin functions pin # tqfn10 soic8e name description 6, 7, 8 5, 6 sw power switch output. inductor connection to drains of the internal pfet and nfet switches. 9 7 pg power-good indicator. pg is pulled lo w when output is outside the window of regulation or the device enters shutdown. 10 8 en regulator enable control input. drive en above 1.8v to turn on the mp2249. drive en below 0.4v to turn it off. en is pulled to gnd with a 450k ? internal resistor. 1 1 fb feedback input. connect fb to the cent er point of the external resistor divider. the feedback threshold voltage is 0.6v. 2, 3 exposed pad 2, 3 exposed pad gnd ground. connect exposed pad to ground plane for optimal thermal performance. 4, 5 4 pvin power stage supply input. bypass to gnd with a 2.2f or bigger ceramic capacitor.
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 5 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. typical performanc e characteristics v in = 5v, en = 5v, v o = 1.8v, l1 = 2.2h, and t a = +25 c, unless otherwise noted. i o =0a steady state operation steady state operation sw 2v/div v o /ac 50mv/div i l 500ma/div sw 2v/div v o /ac 50mv/div i l 5a/div i o =3a pg 5v/div v o 1v/div en 5v/div pg 5v/div v o 1v/div en 5v/div pg 5v/div v o 1v/div en 5v/div start-up through en i o =0a shut-down through en i o =0a start-up through en i o =3a efficiency vs. output current output current (a) 00.5 11.5 22.5 3 0 20 40 60 80 100 v in =3.3v v in =2.5v
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 6 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. typical performanc e characteristics (continued) v in = 5v, en = 5v, v o = 1.8v, l1 = 2.2h, and t a = +25 c, unless otherwise noted. sw 2v/div v o 1v/div i l 5a/div short cuit protection i o =0a to short load transient i o =1.5a to 3a short cuit protection i o =3a to short sw 2v/div v o 1v/div i l 5a/div sw 5v/div v o /ac 50mv/div i l 2a/div shut-down through en i o =3a pg 5v/div v o 1v/div en 5v/div 20ms/div
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 7 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. function block diagram pvin en fb sw gnd 0.6v 1pf 34pf 600k bias & voltage reference 0.6v 1mhz oscillator islope osc control logic main switch pch r low side gate drive synchronous rectifier nch output discharge internal ss pg 0.54v pwm pvin comp 0.4v 0.4v figure 1?function block diagram operation the mp2249 is a constant frequency current mode pwm step-down converter. the mp2249 is optimized for low voltage, li-ion battery powered applications where high efficiency and small size are critical. the mp2249 uses an external resistor divider to set the output voltage from 0.6v to 6v. the device integrates both a main switch and synchronous rectifier, which provides high efficiency and eliminates an external schottky diode. the mp2249 can achieve 100% duty cycle. the duty cycle d of a step-down converter is defined as: % 100 v v % 100 f t d in out osc on = where t on is the main switch on time, f osc is the oscillator frequency (1mhz), v out is the output voltage and vin is the input voltage current mode pwm control slope compensated current mode pwm control provides stable switching and cycle-by-cycle current limit for superior load and line response and protection of the internal main switch and synchronous rectifier. the mp2249 switches at a constant frequency (1mhz) and regulates the output voltage. during each cycle the pwm comparator modulates the power transferred to the load by changing the inductor peak current based on the feedback error voltage. during normal operation, the main switch is turned on for a certain time to ramp the inductor current at each rising edge of the internal oscillator, and switched off when the peak inductor current is above the error voltage. when the main switch is off, the synchronous rectifier will be turned on immediately.
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 8 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. power save mode operation the mp2249 enters asynchronous mode as soon as current of ls mos goes below zero. when the load is light enough and comp voltage is lower than the set value, the part goes into power skipping mode. this mode improves efficiency at light load condition. dropout operation the mp2249 allows the main switch to remain on for more than one switching cycle and increases the duty cycle while the input voltage is dropping close to the output voltage. when the duty cycle reaches 100%, the main switch is held on continuously to deliver current to the output up to the switch?s current limit. the output voltage then is the input voltage minus the voltage drop across the main switch and the inductor. over-current-protection and latchoff the mp2249 provides cycle-by-cycle over current limit when inductor current peak value exceeds the current limit threshold. meanwhile, output voltage starts to drop until fb is below the under-voltage (uv) threshold, typically 33% below the reference. once the uv is triggered, the mp2249 enters latched off mode. this protection mode is especially useful when the output is dead-short to ground. the mp2249 exits the latch off mode once the en or input power is recycled. this operation mode will be masked off for the soft start stage. maximum load current the mp2249 can operate down to 2.5v input voltage. however, the maximum load current decreases at lower input due to large ir drop across the main switch and synchronous rectifier. the slope compensation signal reduces the peak inductor current as a function of the duty cycle to prevent sub-harmonic oscill ations at duty cycles greater than 50%. conversely the current limit increases as the duty cycle decreases. internal soft-start the soft-start is implemented to prevent the converter output voltage from overshooting during startup. when the chip starts, the internal circuitry generates a soft-start voltage (ss) ramping up from 0v to 1.2v. when it is lower than the internal reference (ref), ss over rides ref so the error amplifier uses ss as the reference. when ss is higher than ref, ref regains control. output discharge function when the device is disabled, the part goes into output discharge mode automatically and its internal discharge mosfet provides a resistive discharge path for the output capacitor. this function is only suitable for discharge output capacitor for the limited time. if the part is used in a pre-bias application, the external power supply providing the pre-bias should supply larger current than the discharge mosfet sinks. pg indicator mp2249 provides an open-drain pg output that goes high after output level reaches regulation after startup. pg is pulled low immediately if the output goes out of regulation level or when device enters shutdown.
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 9 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. application information output voltage setting the external resistor divider sets the output voltage (see page 1, schematic diagram). the feedback resistor r1 also set the feedback loop bandwidth with the internal compensation. the feedback loop bandwidth (f c ) is no higher than 1/10 th of switching frequency of mp2249. in the case of output ceramic capacitor as c o , it is usually set in the range of 50khz and 100khz for optimal transient performance and good phase margin. if an electrolytic capacitor is used, the loop bandwidth is no higher than 1/4 of the esr zero frequency (f esr ). f esr is given by: esr esr o 1 f 2r c = for example, choose f c =80khz with a ceramic capacitor, c o =47f, r1 is estimated to be 150k ? . r2 is then given by: out r1 r2 v 1 0.6v = ? table 1?resistor selection vs. output voltage setting v out r1 r2 l c out (ceramic) 1.2v 150k ? 150k ? 1.5h-2.2h 22f x 2 1.5v 150k ? 100k ? 1.5h-2.2h 22f x 2 1.8v 150k ? 75k ? 1.5h-2.2h 22f x 2 2.5v 150k ? 47.5k ? 1.5h-2.2h 22f x 2 3.3v 150k ? 33.2k ? 1.5h-2.2h 22f x 2 inductor selection a 1.5 h to 2.2 h inductor with dc current rating at least 25% higher than the maximum load current is recommended for most applications. for best efficiency, the inductor dc resistance shall be <20m ? . see table 2 for recommended inductors and vendors. for most designs, the inductance value can be derived from the following equation: out in out in l osc vx(v-v) l= vx ? ixf where ? i l is inductor ripple current. choose inductor ripple current approximately 30% of the maximum load current 3a. the maximum inductor peak current is: l l(max) load ? i i=i+ 2 table 2?suggested surface mount inductors vendor part number l ( h) dcr (m ? ) sc (a) l x w x h (mm 3 ) wurth 744777002 2.2 13 6 7.37.34.5 744310200 2 14.2 6.5 76.93 tdk rlf7030t- 1r5n6r1-t 1.5 8 6.5 7.86.83.2 input capacitor selection the input capacitor reduces the surge current drawn from the input and the switching noise from the device. the input capacitor impedance at the switching frequency shall be less than input source impedance to prevent high frequency switching current passing to the input source. ceramic capacitors with x5r or x7r dielectrics are highly recommended because of their low esr and small temperature coefficients. for most applications, a 47 f capacitor is sufficient. output capacitor selection the output capacitor keeps output voltage ripple small and ensures a stable regulation loop. the output capacitor impedance shall be low at the switching frequency. ceramic capacitors with x5r or x7r dielectrics are recommended. if an electrolytic capacitor is used, pay attention to output ripple voltage, extra heating, and the selection of feedback resistor r1 (refer to ?output voltage setting? section) due to the large esr of electrolytic capacitor. the output ripple ? v out is approximately: out in out out in osc osc o vx(v-v) 1 v x(esr + ) vxf xl 8xf xc ?
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 10 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. typical application circuit pvin vin r4 75k l1 2.2 uh r3 150k c6 22 uf c7 22 uf c8 0.1 uf gnd en fb sw pg c5 0. 1uf c4 1uf r1 100k r2 100k c2 10 uf c3 0.1uf gnd vin c1 10 uf 4,5 10 9 1 pg 2,3 vout gnd mp2249dqt 6,7,8 figure 2?typical application circuit of mp2249dqt pvin r4 75k l1 2. 2uh r3 150k c6 22 uf c7 22 uf c8 0.1 uf gnd en fb sw pg c5 0.1uf r1 100k r2 100k c2 10 uf c3 0.1uf gnd vin c1 10 uf 4 8 7 5,6 1 pg 2,3 vout gnd MP2249DN figure 3?typical application circuit of MP2249DN
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter mp2249 rev.1.0 www.monolithicpower.com 11 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. package information tqfn10 (3mm x 3mm) side view top view 1 10 6 5 bottom view 2.90 3.10 1.45 1.75 2.90 3.10 2.25 2.55 0.50 bsc 0.18 0.30 0.70 0.80 0.00 0.05 0.20 ref pin 1 id marking 1.70 0.50 0.25 recommended land pattern 2.90 note: 1) all dimensions are in millimeters. 2) exposed paddle size does not include mold flash. 3) lead coplanarity shall be 0.10 millimeter max. 4) drawing conforms to jedec mo-229, variation veed-5. 5) drawing is not to scale. pin 1 id see detail a 2.50 0.70 pin 1 id option b r0.20 typ. pin 1 id option a r0.20 typ. detail a 0.30 0.50 pin 1 id index area
mp2249 ? 6v, 3a, 1mhz, synchro nous step-down converter notice: the information in this document is subject to change wi thout notice. users should warra nt and guarantee that third party intellectual property rights are not infringed upon w hen integrating mps products into any application. mps will not assume any legal responsibility for any said applications. mp2249 rev.1.0 www.monolithicpower.com 12 11/2/2010 mps proprietary information. unaut horized photocopy and duplication prohibited. ? 2010 mps. all rights reserved. soic8e (exposed pad) see detail "a" 0. 0075(0. 19) 0. 0098(0. 25) 0. 050(1. 27) bsc 0. 013(0. 33) 0. 020(0. 51) seating plane 0. 000(0. 00) 0. 005(0. 125) 0.051(1.30) 0.067(1.70) top view front view side view bottom view note: 1) control dimension is in inches . dimension in bracket is in millimeters . 2) package length does not include mold flash , protrusions or gate burrs . 3) package width does not include interlead flash or protrusions . 4) lead coplanarity ( bottom of leads after forming ) shall be 0. 004" inches max . 5) drawing conforms to jedec ms - 012, variation ba . 6) drawing is not to scale . 0. 089(2.26) 0. 101(2.56) 0.124(3.15) 0.136(3.45) recommended land pattern 0. 213(5. 40) 0. 063(1.60) 0. 050(1. 27) 0. 024(0.61) 0. 1 0 3( 2 . 6 2) 0. 138(3.51) 0. 150(3.80) 0. 157(4.00) pin 1 id 0. 189(4. 80) 0. 197(5. 00) 0. 228(5. 80) 0. 244(6. 20) 14 85 0. 016(0.41) 0. 050(1.27) 0 o -8 o detail "a" 0. 010(0.25 ) 0. 020(0.50) x 45 o 0. 010(0.25 ) bsc gauge plane

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