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MP8619 8a, 25v, 600khz synchronous step-down converter MP8619 rev. 0.9 www.monolithicpower.com 1 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. the future of analog ic technology description the MP8619 is a high frequency synchronous rectified step-down switch mode converter with built in internal power mosfets. it offers a very compact solution to achieve 8a continuous output current over a wide input supply range with excellent load and line regulation. current mode operation provides fast transient response and eases loop stabilization. full protection features include ocp and thermal shut down. the MP8619 requires a minimum number of readily available standard external components and is available in a space saving 5mm x 6mm 30-pin qfn package. features ? wide 4.5v to 25v operating input range ? 8a output current ? proprietary switching loss reduction technique ? fixed 600khz switching frequency ? sync from 300khz to 2mhz external clock ? internal compensation ? ocp protection and thermal shutdown ? output adjustable from 0.8v to 15v ? available in 30-pin 5x6mm qfn30 package applications ? networking systems ? digital set top boxes ? distributed power systems ?mps? and ?the future of analog ic technology? are registered trademarks of monolithic power systems, inc. typical application bst in vcc sw en/sync gnd MP8619 27-29 23 16-19 26 5-8 9-15,20,21,30 22 25 vin vout l1 1.5uh fb bg pg c3 1uf c1 22uf c2 100uf c4 1uf r3 100k r1 31.6k on off 24 r2 10k out put current ( a) efficiency efficiency(%) v in = 12.6v, v out = 3.3v 50 55 60 65 70 75 80 85 90 95 100 0123456789
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 2 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. ordering information part number* package top marking free air temperature (t a ) MP8619eqj 5x6 qfn30 8619eqj ?20 c to +85 c * for tape & reel, add suffix ?z (eg. MP8619eqj?z); for rohs compliant packaging, add suffix ?lf (eg. MP8619eqj?lf?z) package reference 1 2 3 4 5 6 7 8 9 1011121314 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 nc nc nc nc bg bg bg bg gnd gnd gnd gnd gnd gnd gnd sw sw sw sw gnd gnd vcc bst fb pg en/sync in in in gnd sw absolute maximum ratings (1) supply voltage v in .......................................28v v sw ......................................?0.3v to v in + 0.3v v bs ..................................................... v sw + 6v all other pins................................ ?0.3v to +6v continuous power dissipation (t a = +25c) (2) ????????????..?????..3.79w junction temperature.............................. 150 c lead temperat ure ................................... 260 c storage temperature.............. ?65 c to +150 c recommended operating conditions (3) supply voltage v in .......................... 4.5v to 25v output voltage v out ........................ 0.8v to 15v operating junct. temp (t j )..... ?20 c to +125 c thermal resistance (4) ja jc 5x6 qfn30............................. 33 ....... 7.... 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 continuous power dissipation at any ambient temperature is calculated by p d (max) = (t j (max)-t a )/ ja . exceeding the maximum allowable powe r dissipation will cause excessive die temperature, and the regulator will go into thermal shutdown. internal thermal shutdown circuitry protects the device from permanen t damage. 3) the device is not guaranteed to function outside of its operating conditions. 4) measured on jesd51-7, 4-layer pcb.
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 3 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. electrical characteristics v in = 12v, t a = +25 c, unless otherwise noted. parameters symbol condition min typ max units supply current (shutdown) i in v en = 0v 0 1 a supply current (quiescent) i in v en = 2v, v fb = 1v 0.7 1 ma hs switch on resistance (5) hs rds-on 50 m ? ls switch on resistance (5) ls rds-on 8 m ? switch leakage sw lkg v en = 0v, v sw = 0v or 12v 10 200 na current limit (5) i limit 9.5 a oscillator frequency f sw v fb = 0.75v 450 600 730 khz maximum duty cycle d max v fb = 700mv 85 90 % sync frequency range f sync 0.3 2 mhz feedback voltage v fb 788 808 828 mv feedback current i fb v fb = 800mv 10 100 na en/sync input low voltage vil en 0.4 v en/sync input high voltage vih en 2 v v en = 2v 2 en input current i en v en = 0v 0.1 a en turn off delay en td-off 15 sec power good rising threshold pg vth-hi 0.71 v power good falling threshold pg vth-lo 0.53 v power good delay pg td 25 s power good sink current capability v pg sink 4ma 0.4 v power good leakage current i pg_leak v pg = 3.3v 1 100 na v in under voltage lockout threshold rising inuv vth 3.8 4.0 4.2 v v in under voltage lockout threshold hysteresis inuv hys 880 mv vcc regulator v cc 4.5 5.5 vcc load regulation icc=5ma 5 % thermal shutdown t sd 150 c note: 5) guaranteed by design.
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 4 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. pin functions pin # name description 1?4 nc no connect. 5?8 bg low side gate drive 9?15, 20,21, 30 gnd system ground. this pin is the reference ground of the regulated output voltage. for this reason care must be taken in pcb layout. connect exposed pad to gnd plane for optimal thermal performance. 16?19 exposed pad sw switch output. use wide pcb traces and multiple vias to make the connection. 22 vcc bias supply. decouple with 1f capacitor. 23 bst bootstrap. a capacitor connected between sw and bs pins is required to form a floating supply across the high-side switch driver. 24 fb feedback. an external resistor divider from the output to gnd, tapped to the fb pin, sets the output voltage. 25 pg power good output, the output of this pin is open drain. power good threshold is 90% low to high and 70% high to low of regulation value. there is a 20 s delay to pull pg if the output voltage is lower than 10% of regulation value. 26 en/sync en=1 to enable the MP8619. external clock can be applied to en pin for changing switching frequency. for automatic start-up, connect en pin to vin with 100k ? resistor. 27?29 in supply voltage. the MP8619 operates from a +4.5v to +25v input rail. c1 is needed to decouple the input rail. use wide pcb traces and multiple vias to make the connection.
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 5 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. typical performance characteristics v in = 12.6v, v out = 3.3v, l = 1.5h, t a = +25oc, unless otherwise noted. load regulation input voltage (v) vcc regulator line regulation 2.4 2.8 3.2 3.6 4 4.4 4.8 5.2 5.6 0 5 10 15 20 25 30 v cc (v) peak current vs. duty cycle 00.20.40.60.8 1 duty cycle (%) peak current (a) -0.3 -0.2 -0.1 0 0.1 0.2 0.3 0246810 out put current ( a) out put current ( a) normalized output voltage(%) v in = 12.6v case temperature vs. output current 0246810 case temperature rise(?c) 0 5 10 15 20 25 30 35 40 45 out put current ( a) efficiency efficiency(%) v in = 12.6v, v out = 3.3v 50 55 60 65 70 75 80 85 90 95 100 0123456789 0 2 4 6 8 10 12 0246810 output current (a) output voltage (v) thermal derating ic temp. rise <50 o c, tested on standard evb 6 8 10 12 14 16
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 6 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. typical performance characteristics (continued) v in = 12.6v, v out = 3.3v, l = 1.5h, t a = +25oc, unless otherwise noted. enable startup with 8a load enable shutdown with 8a load v out 2v/div v sw 10v/div bg 5v/div bg 5v/div i inductor 10a/div 2ms/div short entry load transient response i out =4a-8a, 1a/us input ripple voltage i out =8a output ripple voltage i out =8a short recovery v sw 10v/div v sw 10v/div v in 500mv/div v out 100mv/div i inductor 10a/div i out 5a/div v out 2v/div v sw 10v/div i inductor 10a/div v out 2v/div v sw 10v/div v en 5v/div i inductor 10a/div v out 2v/div v en 5v/div v sw 10v/div i inductor 10a/div v out 20mv/div v sw 10v/div i inductor 10a/div 2ms/div. 1ms/div. 40us/div.
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 7 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. block diagram hs vcc driver vcc pgood pg comparator gnd bg fb en/sync in bs sw error amplifier current limit comparator logic control - + current sense amplifer ls driver boost regulator vcc regulator oscillator reference - + mn 3 c1 50pf 1meg rsen r1 400k + - + - + figure 2?function block diagram
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 8 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. operation the MP8619 is a high frequency synchronous rectified step-down switch mode converter with built in internal power mosfets. it offers a very compact solution to achieve 8a continuous output current over a wide input supply range with excellent load and line regulation. the MP8619 operates in a fixed frequency, peak current control mode to regulate the output voltage. a pwm cycle is initiated by the internal clock. the high-side power mosfet is turned on and remains on until its current reaches the value set by the comp voltage. when the power switch is off, it remains off until the next clock cycle starts. if, in 90% of one pwm period, the current in the power mosfet does not reach the comp set current value, the power mosfet will be forced to turn off. error amplifier the error amplifier compares the fb pin voltage with the internal 0.808v reference (ref) and outputs a current proportional to the difference between the two. this output current is then used to charge or discharge the internal compensation network to form the comp voltage, which is used to control the power mosfet current. the optimized internal compensation network minimizes the external component counts and simplifies the control loop design. internal regulator most of the internal circuitries are powered from the 5v internal regulator. this regulator takes the vin input and operates in the full vin range. when vin is greater than 5.0v, the output of the regulator is in full regulation. when vin is lower than 5.0v, the output decreases. since this internal regulator provides the bias current for the bottom gate driver that requires significant amount of current depending upon the external mosfet selection, a 1uf ceramic capacitor for decoupling purpose is required. enable/sync control the MP8619 has a dedicated enable/sync control pin (en/sync). by pulling it high or low, the ic can be enabled and disabled by en. tie en to vin for automatic start up. to disable the part, en must be pulled low for at least 5s. the MP8619 can be synchronized to external clock range from 300khz up to 2mhz through the en/sync pin. the internal clock rising edge is synchronized to the external clock rising edge. under-voltage lockout (uvlo) under-voltage lockout (uvlo) is implemented to protect the chip from operating at insufficient supply voltage. the MP8619 uvlo comparator monitors the output voltage of the internal regulator, vcc. the uvlo rising threshold is about 4.0v while its falling threshold is a consistent 3.2v. 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 overrides ref so the error amplifier uses ss as the reference. when ss is higher than ref, ref regains control. over-current-protection and hiccup the MP8619 has cycle-by-cycle over current limit when the inductor current peak value exceeds the set current limit threshold. meanwhile, output voltage starts to drop until fb is below the under- voltage (uv) threshold, typically 30% below the reference. once a uv is triggered, the MP8619 enters hiccup mode to periodically restart the part. this protection mode is especially useful when the output is dead-short to ground. the average short circuit current is greatly reduced to alleviate the thermal issue and to protect the regulator. the MP8619 exits the hiccup mode once the over current condition is removed. thermal shutdown thermal shutdown is implemented to prevent the chip from operating at exceedingly high temperatures. when the silicon die temperature is higher than 150 c, it shuts down the whole chip. when the temperature is lower than its lower threshold, typically 140 c, the chip is enabled again.
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 9 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. floating driver and bootstrap charging the floating power mosfet driver is powered by an external bootstrap capacitor. this floating driver has its own uvlo protection. this uvlo?s rising threshold is 2.2v with a hysteresis of 150mv. the bootstrap capacitor voltage is regulated internally by vin through d1, m3, c4, l1 and c2 (figure 2). if (vin-vsw) is more than 5v, u2 will regulate m3 to maintain a 5v bst voltage across c4. sw figure 2?internal bootstrap charging circuit startup and shutdown if both vin and en are higher than their appropriate thresholds, the chip starts. the reference block starts first, generating stable reference voltage and currents, and then the internal regulator is enabled. the regulator provides stable supply for the remaining circuitries. three events can shut down the chip: en low, vin low and thermal shutdown. in the shutdown procedure, the signaling path is first blocked to avoid any fault triggering. the comp voltage and the internal supply rail are then pulled down. the floating driver is not subject to this shutdown command . setting the output voltage the external resistor divider is used to set the output voltage (see the schematic on front page). the feedback resistor r1 also sets the feedback loop bandwidth with the internal compensation capacitor (see figure 1). choose r1 to be around 73.2k ? for optimal transient response. r2 is then given by: o u t r 1 r 2 v 1 0 . 8 0 8 v = ? table 1?resistor selection for common output voltages v out (v) r1 (k ? ) r2 (k ? ) 1.8 73.2 (1%) 59 (1%) 2.5 73.2 (1%) 34.8(1%) 3.3 73.2 (1%) 23.7(1%) 5 73.2 (1%) 14 (1%) selecting the inductor a 1h to 10h inductor with a dc current rating of at least 25% percent higher than the maximum load current is recommended for most applications. for highest efficiency, the inductor dc resistance should be less than 15m ? . for most designs, the inductance value can be derived from the following equation. osc l in out in out f i v ) v v ( v l ? = where i l is the inductor ripple current. choose inductor current to be approximately 30% if the maximum load current, 8a. the maximum inductor peak current is: 2 i i i l load ) max ( l + = under light load conditions below 100ma, larger inductance is recommended for improved efficiency. selecting the input capacitor the input current to the step-down converter is discontinuous, therefore a capacitor is required to supply the ac current to the step-down converter while maintaining the dc input voltage. use low esr capacitors for the best performance. ceramic capacitors with x5r or x7r dielectrics are highly recommended because of their low esr and small temperature coefficients. for most applications, a 22f capacitor is sufficient. since the input capacitor (c1) absorbs the input switching current it requires an adequate ripple current rating. the rms current in the input capacitor can be estimated by: ? ? ? ? ? ? ? ? ? = in out in out load 1 c v v 1 v v i i
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 10 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. the worse case condition occurs at vin =2vout, where: 2 i i load 1 c = for simplification, choose the input capacitor whose rms current rating greater than half of the maximum load current. the input capacitor can be electrolytic, tantalum or ceramic. when using electrolytic or tantalum capacitors, a small, high quality ceramic capacitor, i.e. 0.1 f, should be placed as close to the ic as possible. when using ceramic capacitors, make sure that they have enough capacitance to provide sufficient charge to prevent excessive voltage ripple at input. the input voltage ripple caused by capacitance can be estimated by: ? ? ? ? ? ? ? ? ? = in out in out s load in v v 1 v v 1 c f i v selecting the output capacitor the output capacitor (c2) is required to maintain the dc output voltage. ceramic, tantalum, or low esr electrolytic capacitors are recommended. low esr capacitors are preferred to keep the output voltage ripple low. the output voltage ripple can be estimated by: ? ? ? ? ? ? ? ? + ? ? ? ? ? ? ? ? ? = 2 c f 8 1 r v v 1 l f v v s esr in out s out out where l is the inductor value and resr is the equivalent series resistance (esr) value of the output capacitor. in the case of ceramic capacitors, the impedance at the switching frequency is dominated by the capacitance. the output voltage ripple is mainly caused by the capacitance. for simplification, the output voltage ripple can be estimated by: ? ? ? ? ? ? ? ? ? = in out 2 s out out v v 1 2 c l f 8 v v in the case of tantalum or electrolytic capacitors, the esr dominates the impedance at the switching frequency. for simplification, the output ripple can be approximated to: esr in out s out out r v v 1 l f v v ? ? ? ? ? ? ? ? ? = the characteristics of the output capacitor also affect the stability of the regulation system. the MP8619 can be optimized for a wide range of capacitance and esr values. external bootstrap diode an external bootstrap diode may enhance the efficiency of the regulator, the applicable conditions of external bst diode are: z v out is 5v or 3.3v; and z duty cycle is high: d= in out v v >65% in these cases, an external bst diode is recommended from the output of the voltage regulator to bst pin, as shown in fig.3 MP8619 sw bst c l bst c 5v or 3.3v out external bst diode in4148 + figure 3?add optional external bootstrap diode to enhance efficiency the recommended external bst diode is in4148, and the bst cap is 0.1~1f.
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets MP8619 rev. 0.9 www.monolithicpower.com 11 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. pcb layout pcb layout is very important to achieve stable operation. please follow these guidelines and take figure 4 for references. the high current paths (gnd, in and sw) should be placed very close to the device with short, direct and wide traces. the input capacitor needs to be as close as possible to the in and gnd pins. the external feedback resistors should be placed next to the fb pin. keep the switching node sw short and away from the feedback network. top layer inner 1 inner 2 bottom layer figure ?4 pcb layout
MP8619 ? 8a, 25v, synchronous step-down converter with internal mosfets notice: the information in this document is subject to change without notice. users should warrant 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. MP8619 rev. 0.9 www.monolithicpower.com 12 12/10/2013 mps proprietary information. unauthorized photocopy and duplication prohibited. ? 2013 mps. all rights reserved. package information 5mm x 6mm qfn30

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