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| x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r january 2011 rev. 1.2.0 exar corporation www.exar.com 48720 kato road, fremont ca 94538, usa tel. +1 510 668-7000 ? fax. +1 510 668-7001 general description the xrp6668 is a dual channel synchronous current mode pwm step down (buck) converter capable of delivering up to 1 amp of current per channel and optimized for portable battery-operated applications. based on a current mode 1.5mhz constant frequency pwm control scheme, the xrp6668 reduces the overall component count and solution footprint as well as provides a low output voltage ripple and excellent line and load regulation. it also implements a pfm mode to improve light load efficiency as well as a 100% duty cycle ldo mode. output voltage is adjustable to as low as 0.6v with a better than 3% accuracy while a low quiescent current supports the most stringent battery operating conditions. built-in over temperature and under voltage lock-out protections insure safe operations under abnormal operating conditions. the xrp6668 is offered in a rohs compliant, ?green?/halogen free 8-pin exposed pad soic package. applications ? portable equipments ? battery operated equipments ? audio-video equipments ? networking & telecom equipments features ? dual channel step down converter ? guaranteed 1a/1a output current ? input voltage: 2.5v to 5.5v ? 1.5mhz pwm current mode control ? pfm mode operations at light load ? 100% duty cycle ldo mode operations ? adjustable output voltage range ? as low as 0.6v with 3% accuracy ? internal compensation network ? 30a quiescent current ? over temperature & uvlo protections ? rohs compliant ?green?/halogen free 8-pin exposed pad soic package typical application diagram fig. 1: xrp6668 application diagram
x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 2/11 rev. 1.2.0 absolute maximum ratings these are stress ratings only and functional operation of the device at these ratings or any other above those indicated in the operation sections of the specifications below is not implied. exposure to absolute maximum rating conditions for extended periods of time may affect reliability. input voltage v in ...................................... -0.3v to 6.0v en, v fb voltages .......................................... -0.3v to v in sw voltage .................................... -0.3v to (v in + 0.3v) storage temperatur e .............................. - 65c to 150c lead temperature (sol dering, 10 se c) ................... 260c esd rating (hbm - huma n body mode l) .................... 2kv esd rating (mm - machine model) ........................... 200v junction temperature (n otes 1, 3) ....................... 150c operating ratings input voltage range v in ............................... 2.5v to 5.5v junction temperature range ..................... -40c to 85c thermal resistance ...................................................... ja (8 pin hsoic ) ........................................... 42c/w jc (8 pin hsoic ) ........................................... 10c/w electrical specifications specifications with standard type are for an ambient temperature of t a = 25c only; limits applying over the full operating ambient temperature range are denoted by a ???. minimum an d maximum limits are guaranteed through test, design, or statistical correlation. typical values repres ent the most likely parametric norm at t a = 25c, and are provided for reference purposes only. unless otherwise indicated, v in = 3.6v, t a = 25c. parameter min. typ. max. units conditions input voltage range 2.5 5.5 v feedback current + 100 na regulated feedback voltage 0.588 0.600 0.612 v output voltage accuracy -3 +3 % i out =100ma, v in = 2.5v to 3.0v output voltage accuracy -3 +3 % ? i out =100ma, v in = 3.0v to 5.5v reference voltage line regulation 1 %/v ? v in = 3v to 5.5v output voltage line regulation 1 %/v ? v in = 3v to 5.5v peak inductor current 1.5 2.3 a v fb = 0.5v or v out = 90% pwm quiescent cu rrent (note 2) 376 a v fb = 0.5v or v out = 90%, dual channel pfm quiescent current 30 a v fb = 0.65v or v out = 108%, dual channel shutdown 0.1 1 a v run = 0v, v in = 4.2v, dual channel oscillator frequency 1.2 1.5 1.8 mhz ? v fb = 0.6v or v out = 100% short-circuit oscillator frequency 900 khz ? v fb = 0v or v out = 0v r ds(on) of pmos 0.24 ? i sw = 100ma r ds(on) of nmos 0.21 ? i sw = ?100ma under voltage lock out 1.8 v sw leakage + 1 a v run = 0v, v sw = 0v or 5v, v in = 5v enable threshold 1.2 v ? shutdown threshold 0.4 v ? run leakage current + 1 a ? note 1: t j is a function of the ambient temperature t a and power dissipation p d : (t j = t a + (p d * ja )) note 2: dynamic quiescent current is higher due to the gate charge being delivered at the switching frequency. note 3: this ic has built-in over-temperature pr otection to avoid damage from overload conditions. note 4: ja is measured in the natural convection at ta=25 on a high effective thermal conductivity test board (4 layers, 2s2p) of jedec 51-5 thermal measurement standard. note 5: jc represents the resistance to the heat flows the chip to package top case. x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 3/11 rev. 1.2.0 block diagram fig. 2: xrp6668 block diagram (one channel shown) pin assignment fig. 3: xrp6668 pin assignment x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 4/11 rev. 1.2.0 pin description name pin number description vin1 1 channel 1 power input pin. must be closely decoupled to gnd pin with a 4.7 f or greater ceramic capacitor. sw1 2 channel 1 switch pin. must be connected to inductor. this pin connects to the drains of the internal main and synchronous power mosfet switches. vin2 3 channel 2 power input pin. must be closely decoupled to gnd pin with a 4.7 f or greater ceramic capacitor. sw2 4 channel 2 switch pin. must be connected to inductor. this pin connects to the drains of the internal main and synchronous power mosfet switches. vfb2 5 channel 2 feedback pin. receives the feedback voltage from an external resistive divider across the output. en2 6 channel 2 enable pin. minimum 1.2v to enable the device. maximum 0.4v to shutdown the device. vfb1 7 channel 1 feedback pin. receives the feedback voltage from an external resistive divider across the output. en1 8 channel 1 enable pin. minimum 1.2v to enable the device. maximum 0.4v to shutdown the device. gnd exposed pad connect to gnd. ordering information part number temperature range marking package packing quantity note 1 note 2 XRP6668IDBTR-F -40c t a +85c xrp6668i yyww x 8-pin hsoic 3k/tape & reel rohs compliant halogen free xrp6668evb xrp6668 evaluation board ?yy? = year ? ?ww? = work week ? ?x? = lot number x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 5/11 rev. 1.2.0 typical performance characteristics all data taken at v in = 3.6v, t j = t a = 25c and apply to each individual channe l unless otherwise specified - schematic and bom from application informatio n section of this datasheet. fig. 4: efficiency vs output current (v out =3.3v) fig. 5: efficiency vs output current (v out =1.2v) fig. 6: oscillator frequency vs temperature fig. 7: oscillator frequency vs supply voltage fig. 8: r ds(on) vs temperature fig. 9: r ds(on) vs input voltage x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 6/11 rev. 1.2.0 fig. 10: en pin threshold vs temperature fig. 11: uvlo threshold vs temperature fig. 12: quiescent current vs temperature (pfm mode) fig. 13: quiescent current vs input voltage (pfm mode) fig. 14: current limit vs temperature (v out =1.2v) fig. 15: current limit vs input voltage (v out =1.2v) x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 7/11 rev. 1.2.0 fig. 16: power on from en pin (i out =1a) fig. 17: power on from en pin (i out =10ma) fig. 18: power on from v in (i out =1a) fig. 19: power off from en (i out =1a) fig. 20: load step response v out =1.2v, i out from 50ma to 500ma fig. 21: load step response v out =1.2v, i out from 50ma to 1a x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 8/11 rev. 1.2.0 theory of operation the typical application circuit of adjustable version is shown in figure 22. fig. 22: typical application all explanation below pertaining to one channel of the xrp6668 and can be extrapolated to apply to the second channel. i nductor s election inductor ripple current and saturation current rating are two factors to be considered when selecting the inductor value. a low dcr inductor is preferred. the inductor value l can be calculated from the following equation: x 1 x 1 ? c in and c out s election a low esr input capacitor can minimize the input voltage ripple. vo ltage rating of the capacitor should be at least 50% higher than the input voltage. th e rms current of the input capacitor is required to be larger than the i rms calculated by: - the esr value is an important parameter to consider when selecting an output capacitor c out . the output ripple v out is determined by: ? ?i l esr 1 8 f the output capacitor?s value can be optimized for very low output voltage ripple and small circuit size. voltage rating of the capacitor should be at least 50% higher than the output voltage. higher values, lower cost ceramic capacitors are now available in smaller sizes. these ceramic capacitors have high ripple currents, high voltage ratings and low esr that make them ideal for switching regulator applications. it is recommended to use x5r or x7r ceramic capacitors as they have the best temperature and voltage characteristics. o utput v oltage s election the output voltage is adjustable via the external resistor network r1 and r2 in the first channel and r3 and r4 in the second channel as per the following formula: 1 r2 r1 where, v ref is the reference voltage at 0.6v. the feedback resistors must be chosen such that power dissipation of the resistor network is minimal. r1 (r3 for channel 2) can be fixed at 100k ? and r2 (r4 for channel 2) is selected based on the above equation. t hermal c onsiderations although thermal shutdown is built-in in xrp6668 to protect the device from thermal damage, the total power dissipation that xrp6668 can sustain is based on the package thermal capability. the formula to ensure safe operation is shown in note 1. to avoid xrp6668 from exceeding the maximum junction temperature, thermal analysis is required. g uidelines f or pcb l ayout to ensure proper operation of the xrp6668, please note the following pcb layout guidelines: 1. the gnd, swx and vinx traces should be kept short, direct and wide. 2. vfbx pin must be connected directly to the feedback resistors. resistive divider r1/r2 and r3/r4 must be connected in parallel to the output capacitor c outx . 3. the input capacitor c inx must be as close as possible to pin vinx. 4. keep swx node away from the sensitive vfb node since swx signal experiences high frequency voltage swings. x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 9/11 rev. 1.2.0 applications typical schematic fig. 23: xrp6668 5v to 3.3v and 1.8v conversions x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 10/11 rev. 1.2.0 package specification e xposed p ad 8-p in soic x x r r p p 6 6 6 6 6 6 8 8 1 1 a a / / 1 1 a a d d u u a a l l c c h h a a n n n n e e l l 1 1 . . 5 5 m m h h z z s s y y n n c c . . s s t t e e p p d d o o w w n n c c o o n n v v e e r r t t e e r r ? 2011 exar corporation 11/11 rev. 1.2.0 revision history revision date description 1.0.0 09/16/2010 initial release of datasheet 1.1.0 11/15/2010 corrected ? equation: changed to . updated ?output voltage selection? section. 1.2.0 01/14/2011 added specific test conditions and data in electrical specification table for output voltage accuracy for operations below 3v. for further assistance email: customersupport@exar.com exar technical documentation: http://www.exar.com/techdoc/default.aspx? e xar c orporation h eadquarters and s ales o ffices 48720 kato road fremont, ca 94538 ? usa tel.: +1 (510) 668-7000 fax: +1 (510) 668-7030 www.exar.com notice exar corporation reserves the right to make changes to the products contained in this publication in order to improve design, performance or reliability. exar corporation assumes no responsibility for the use of any circuits described herein, conveys no license under any patent or other right, and make s no representation that the circuits are free of patent infringement. charts and schedules contained here in are only for illustr ation purposes and may vary depending upon a user?s specific application. while the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies. exar corporation does not recommend the us e of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause fa ilure of the life support system or to significantly affect it s safety or effectiveness. products are not authorized for use in such applications unless exar corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized; (b) the user assumes all such risks; (c) potential liability of exar corporation is adequately protected under the circumstances. reproduction, in part or whole, without the prior written consent of exar corporation is prohibited. |
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