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? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 1 of 13 qpi - 5 q uietpower ? 14 a active emi filter sip for 2 4 vdc bus description: the qpi - 5 active emi filter attenuates conducted common - mode (cm) and differential - mode (dm) noise over the cispr22 frequency range of 150 khz to 30 mhz. the product is designed for use on 2 4 vdc bus ( 10 C 40 vdc) systems , with 100 vdc surge capability . the qpi - 5 s 14 rating supports multiple dc - dc converter loads up to a n ambient temperature of 6 5c without de - rating . designed for the telecom and ite bus range, the qpi - 5 supports the picmg? 3.0 specification for filtering system boards to the en55022 class b limits. in comparison to passive solutions, the use of active filtering reduces the volume of the common - mode choke, providing a low profile, surface mount device. smaller size saves valuable board real estate and the reduced height enhances airflow in blade applications. the qpi - 5 is available as a lidded or an open - frame sip (system - in - package) with lga mounting. evaluation boards are available to allow for quick in - circuit testing of the qpi - 5lz within an existing system design. features: ? 6 0dbcmattenuationat250khz(50) ? 75 dbdmattenuationat250khz(50) ? 4 0 vdc (max input) ? 100 vdc surge 100 ms ? 7 0 7 vdc hipot hold off to shield plane ? 14 a rating ? 25 . 3 x 25 .3 x 5 .0 mm lidded sip (system - in - package) ? 24 . 9 x 24.9 x 4 .4 mm open - frame sip ? low profile lga package ? - 40 to +125c ambient temperature ( see figure 10 ) ? efficiency >99% ? connect in series for higher attenuation ? tv certified applications ? industrial bus supplies ? telecom base stations ? iba & distributed power ? cots systems typical application : figure 2 C typical qpi - 5 application schematic with a vicor brick converter. ( 1 ) note 1: cb1 capacitor , referenced in all schematics , is a 47uf electrolytic ; united ch e mi - con emve101ara470mke0s or equivalent. cy 1 to cy4, referenced in all schematics, are 4.7nf hi - voltage safety capacitors; vishay vy1472m63y5uq63v0 or equivalent . cin is the manufacturers recommended value for input capacitor. figure 1 - qpi - 5lz (~1 in 2 area ) cin
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 2 of 13 qpi - 5 q uietpower ? absolute maximum ratings C exceeding these parameters may result in permanent damage to the product. input voltage, bus+ to bus - , continuous - 4 0 to 4 0 vdc input voltage, bus+ to bus - , 100ms transient - 100 to 100 vdc bus+ / bus - to s hield pads, hi - pot - 7 0 7 to 7 0 7 vdc input to output current, c ontinuous @ 25 c t a 14 adc input to output current, 10 seconds @ 25 c t a 20 adc power dissipation, @ 65 c t a , 14 a (2) 2 . 3 w operating temperature - t a - 40 to 125 c thermal resistance (2) - r ? j - a , using pcb layout in figure 22 2 0 c/w thermal resistance (2) - r ? j - pcb 8 c/w storage temperature, jedec standard j - std - 033b - 55 to 125 c reflow temperature, 20 s exposure 245 c esd, human body model (hbm) - 2000 to 2000 v electrical characteristics C parameter limits apply over the operating temp. range, unless otherwise noted. parameter notes min typ max units bus+ to bus - input range measured at 14 a , 65 c ambient temperature (2 ) 1 0 4 0 vdc bus+ to qpi+ voltage drop measured at 14 a, 65c ambient temperature (2 ) 1 35 mvdc bus - to qpi - voltage drop measured at 14 a, 65c ambient temperature (2 ) 29 mvdc common mode attenuation vbus = 28 v, frequency = 250 khz, line impedance = 50 60 db differential mode attenuation vbus = 28 v, frequency = 250 khz, line impedance = 50 75 db input bias current at 4 0 v input current from bus+ to bus - 8 ma note 2 : see figure 10 for the current de - rating curve . pad descriptions pad number name description lga pattern ( top view) 12 , 13, 14 b us + positive bus potential 1, 1 5, 16 b us - negative bus potential 7 , 8, 9 qpi+ positive input to the converter 2 , 3, 4 qpi - negative input to the converter 5 , 6 sh ield shield connects to the system chassis or to a safety ground. 10 therm1 these pads are electrically isolated from the internal circuitry of the qpi - 5 . either c o nnecting therm 1 to qpi + and therm 2 to b us + , or to copper region(s) not connected to shield, is recommended to help with thermal management. 11 therm2 ordering information part number description qpi - 5lz (3 ) qpi - 5 lga package, rohs compliant qpi - 5lz - 01 qpi - 5 lga package, rohs compliant, open frame package note 3 : qpi - 5lz is a non - hermetically sealed package . please read the post solder cleaning section on page 1 2 . qpi - 5 evaluation boards part # description: qpi - 5 - eval 1 a qpi - 5lz mounted on a small evaluation board with screw terminal blocks to allow for easy connection into an existing system . qpi - 5 - cb1 a qpi - 5lz mounted on a carrier board designed for use with dosa compliant footprint dc - dc converters. s crew terminal blocks to allow for easy connection into an existing system. therm2 bus- qpi+ qpi- shield bus+ 1 2 3 4 5 6 15 16 12 11 10 9 7 8 13 14 therm1
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 3 of 13 qpi - 5 q uietpower ? applications information emi sources many of the components in todays power conversion modules are sources of high - frequency emi noise generation. diodes, high - frequency switching devices, transformers and inductors, and circuit lay outs passing high dv/dt or di/dt signals are all potential sources of emi. emi is propagated either by radiated or conductive means. radiated emi can be sourced from these components as well as by circuit loops that act like antennas and broadcast the no ise signals to neighboring circuit paths. this also means that these loops can act as receivers of a broadcasted signal. this radiated emi noise can be reduced by proper circuit layout and by shielding potential sources of emi transmission. there are two basic forms of conducted emi that typically need to be filtered; namely common - mode (cm) and differential - mode (dm) emi. differential - mode resides in the normal power loop of a power source and its load; where the signal travels from the source to the loa d and then returns to the source. common - mode is a signal that travels through both leads of the source and is returned to earth via parasitic pathways, either capacitively or inductively coupled. figure 8 to figure 9 are t he resulting emi plots , after filtering by the qpi - 5 , of the total n oise, both common and differential mode, of a vicor brick converter. these converters are mounted on a qpi - 5 evaluation board and tested under various loads . the red and blue traces represent the positive and negative branches of total noise, as measured u sing an industry standard lisn setup, as is shown in figures 6 and 7 . differential - mode emi is typically larger in magnitude than common - mode, since common - mode is produced by the physical imbalances in the differential loop path. reducing differential e mi will cause a reduction in common - mode emi. passive emi filtering the basic premise of filtering emi is to insert a high - impedance, at the emis base frequency, in both the differential and common - mode paths as it return s to the powe r source . passive filters use common - mode chokes and y capacitors to filter out common - mode emi. these chokes are designed to present a high - impedance at the emi frequency in series with the return path, and a low impedance path to the earth signalviatheycaps.thi s network will force the emi signals to re - circulate within a confined area and not to propagate to the outside world. often two common - mode networks are required to filter emi within the frequency span required to pass the en55022 class b limits. the other component of the passive filter is the differential lc network. again, the inductor is chosen such that it will present a high - impedance in the differential emi loop at the emis base frequency. the differential capacitor will then shunt the emi ba ck to its source. the qpi - 5 was specifically designed to work with conventional switching frequency converters like vicors brick pro ducts; micro , mini and m axi modules; as well as converters from various vendors . active emi filtering picors qpi - 5 active emi filter uses the same basic principles for filtering as the passive approach , but its active common - mode filter can perform as well as a passive filter , when filtering lower frequencies, in much less board area. figure 3 C simplified active emi filter circuit. typically, the lower the frequency the greater the needed inductance would be to properly filter the emi signal. this means either a larger core or a greater number of turns on a smaller core. a larger core re quires more board space, where a smaller core with more turns has a greater amount of unwanted parasitics that can affect the filters ability to attenuate emi signals. figure 3 is a simplified schematic of the qpi - 5 s active and passive circuitry used for emi filtering. the qpi - 5 s a ctive filter uses a small high - frequency common - mode transformer to filter the hig her frequencies and adds a sensing element to it so that the lower frequency common mode signal can be sensed and a correct ion signal can be generated and inserted into the shield connection . by this means, the qpi - 5 is capable of providing emi filtering of converters in far less space t han standard passive filters and can provide filtering over the entire en55022 class b range.
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 4 of 13 qpi - 5 q uietpower ? emi management the more effectively emi is managed at the source, namely the power converter, the less emi attenuation the filter will have to do. the addition o f y capacitors to the inputand output power nodes of the converter will help to limit the amount of emi that will propagate to the input source. figure 4 C a n unfiltered converters response to open - frame (light blue) and base - plate (purple) emi configurations . there are two basic topologies for the connection of the re - circulating y cap acitors , referred to as open - frame and base - plate . figure 4 illustrates how a converter can favor one topology versus another. t he emi generated by the base - plate configuration is much greater than that generatedbytheopen - frame.selectingt he right topology will greatly reduce the amount of emi signal that needs to be filtered. figure 2 sho w s the base - plate topology of re - circulating y caps. here, cy 1 to cy 4 are connected to each power node of the dc - dc converter , and then are commoned together on a copper shield plane created under the converter. the addition of the copper shield plane helps in the containment of the radiated emi, co nverting it back to conducted emi and shunting it back to its source. the ry resistor, connected between the shield plane and the qpisshieldpin,providesanimpedancethatmakestheqpis common mode noise cancelation signal more effective at removing the common mode noise that would normally return to the shield/earth connection. it is important when layingouttheqpithattheryresistorconnectstotheqpis shield pin before making the connection to earth ground. in figure 5 , the open - frametopologyisshownwherethey capacitors (cy1 and cy2) re - circulate the emi signals between the positive input and output, and the negative input and output nodes of the power conversion stage. figure 5 - typical 'open - frame" application.
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 5 of 13 qpi - 5 q uietpower ? attenuation test setups : figure 6 - open - frame emi test setup using the qpi - 5 - cb1 carrier board with 24 v converter . figure 7 - base - plate emi test setup using the qpi - 5 - cb1 carrier board with 24 v converter . in figures 6 and 7, c1 is the required 47uf capacitor (united chemi - con emve101ara470mke0s or equivalent), c2 is a converter input cap (value dependant on converter), and cy caps are 4.7nf ceramic (murata grm31 br73a472kw01l or equivalent). attenuation plots: total emi noise in b ase - plate configuration, tested as shown in figure 7 . figure 8 C v 2 4b2 4 c2 0 0b g using b ase - plate y capacitors with a 1 71 w load. figure 9 C v 2 4b 12 c 20 0bn using b ase - plate y capacitors with a 1 36 w load.
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 6 of 13 qpi - 5 q uietpower ? current de - rating: mounted to qpi - 5 - eval 1 evaluation board. figure 10 - current de - rating and power dissipation over ambient temperature range. the de - rating curve in figure 10 is based on the maximum allowable internal component temperature and the 14a maximum rating of the qpi - 5 . the power dissipation curve is based on the current squared multiplied by the internal resistance between the inputs and outputs of the filter. the internal resistance value is temperature compensated for the power dissipation curve . the left axis is in amps for the solid trace, the right axis is in watts for the dashed trace. 0.0 0.5 1.0 1.5 2.0 2.5 0 2 4 6 8 10 12 14 16 18 20 - 40 - 15 10 35 60 85 110 maximum power dissipation (watts) maximum current (amps) ambient temperature ( c) qpi - 5 current qpi - 5 power dissipation
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 7 of 13 qpi - 5 q uietpower ? qpi application circuits: filtering dual converters figure 11 C the qpi - 5 filtering dual supplies, using a single ry resistor . (4) the shield plane under the two converters in figure 11 should be one contiguous plan e under both. the circuit in figure 11 is capable of filtering more converters than shown, up to the maximum current limit of the qpi - 5 . in figure 12 , a separate shield plane is required for each converter along with a separate ry resistor . the qpi - 5 is not designed to be used in parallel with another qpi - 5 to achieve a higher current rating, but it can be used multiple times within a system d esign. filtering parallel converters figure 12 C dual qpi - 5 s filtering paralleled converters feeding a common load . (4) note 4: in figures 1 1 and 1 2 ; cin1 and cin2, cy1 through cy8, should be the value and voltage rating recommended by the converters manufacturer. cin1 cin2 cin1 cin2
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 8 of 13 qpi - 5 q uietpower ? output to chassis connection using the qpi - 5 figure 13 C connecting the converters output ground to chassis through an inductor . (5 ) figure 14 - total noise v24b12c200bn with a 136w load , connected as shown in figure 13 the direct connection of the converters output to the earth/chassis will degrade the emi attenuation performance of the qpi - 5 . picor recommends that the connection t o the earth be made through a series inductor, rated t o the maximum output current of the converter , as shown in figure 13 . the emi plot shown in figure 14 is of the same converter as in figure 8 , but uses an inductor in place of ry and has the convertersoutputgroundconnectedtotheshieldplane. the connection of the shield plane directly to the chassis/earth will also degrade emi attenuation by the qpi - 5 and is therefore not recommended. note 5 : in figure 1 3 ; cin, cy1 through cy 3 , should be the value and voltage rating recommended by the converters manufacturer. cin
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 9 of 13 qpi - 5 q uietpower ? qpi insertion loss measurements figure 15 - a ttenuation curves into a 50 l ine impedance, bias from a 2 8 v bus . qpi insertion loss equation: qpi insertion loss test circuits figure 16 C test set - up to measure differential mode emi currents in figure 15 . figure 17 - test set - up to measure common mode emi currents in figure 15 . 0 10 20 30 40 50 60 70 80 90 0.01 0.1 1 10 attenuation [db] frequency [mhz] qpi - 5 common qpi - 5 differential
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 10 of 13 qpi - 5 q uietpower ? mechanicals figure 18 - lidded package dimensions , tolerance of 0.004 figure 19 - open - frame package dimensions , tolerance of 0.004 . pick and place from label center. 0.996" [25.30 mm] 0.996" [25.30 mm] 0.196" [4.98 mm] ? ? ? QPI-5LZ ? ? u.s. and foreign patents/patents pending lot # date code 0.979" [24.867 mm] 0.260" [6.604 mm] 0.275" [6.985 mm] 0.174 [4.420 mm] ? 5lz-01 ? 0.006" [0.15mm] max. ?
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 11 of 13 qpi - 5 q uietpower ? p ad and stencil definitions: figure 20 - bottom view of open - frame (of) and lidded (lid) p roduct s. (all dimensions are in inches.) figure 21 - recommended receptor and stencil patterns. (all dimensions are in inches.) stencil definition is based on a 6mil stencil thickness , 80% of lga pad area coverage . lga package dimensions are for both the open - frame and lidded versions of the qpi - 5 . 13 places 45.000 0.1250" 0.000" 0.041" 0.082" 0.000" 0.041" 0.082" 0.000" 0.041" 0.082" 0.145" r0.041 2 places 0.000" 0.043" 0.085" 0.149" 0.000" 0.043" 0.086" 0.000" 0.043" 0.086" r0.043 0.129" 0.112" 0.000" 0.037" 0.073" 0.000" 0.037" 0.073" 0.000" 0.037" 0.073" 0.129" r0.037 lga pad detail: receiving pad detail: stencil detail: 1 place 0.979" (o f) 0.996" (lid ) 0.000 0.100 0.300 0.441 0.100 0.000 0.300 0.441 0.000 0.000 0.000 0.000 0.000 0.100 0.300 0.441 0.100 0.300 0.441 0.000 0.100 0.300 0.441 0.100 0.300 0.441 0.000 0.100 0.300 0.441 0.100 0.300 0.441 0.979" (o f) 0.996" (lid ) qpi-5 pcb receptor pattern (top view) qpi-5 lga pattern (bottom view)
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 12 of 13 qpi - 5 q uietpower ? qpi - 5 pcb layout recommendations: figure 22 - 3d view of paralleling planes underneath the qpi - 5 . p cb layout when laying out the qpi - 5 e mi filter it is important for the designer to be aware of the radiated emi field that all converters emit and to place the qpi - 5 outside of this field area. it is also recommended that the bus lines feeding into the qpi filter a re not routed such that they lie between the qpi and the converter, or that their copper planes over - lap on inner layers. this can cause emi noise to be coupled from input to output via the parasitic capacitance between the planes. in figure 22 , the qpi - 5 is located ~1.5 inches from the converters input pins, and the bus voltage pins are located on the side farthest away from the converter, to keep the radiated emi from by - passing the filter and coupling directly to the bus feeds. post solder cleaning picors lz version qp sips are not hermetically sealed and must not be exposed to liquid, including but not limited to cleaning solvents, aqueous washing solutions or pressurized sprays. when soldering, it is recommended that no - clean flux solder be used, as this will ensure that potentially corrosive mobile ions will not remain on, around, or under the module following the soldering process. for applications where th e end product must be cleaned in a liquid solvent, picor recommends using the qpi - 5lz - 01, open - frame version of the emi filter. qpi - 5 mechanical data datum units qpi - 5lz qpi - 5lz - 01 notes fits f ailure/billion hrs. 208 208 fits based on the bellcore standard tr - 332 mtbf million hrs. 4.81 4.81 mtbfs based on the bellcore standard tr - 332 weight grams 5.4 3.1 msl 3 3 peak reflow temperature c /20 seconds 245 245 ipc/jedec j - std - 020d
? ? ?? ? picor corp oration picorpower.com qpi - 5 rev 2 . 8 , page 13 of 13 qpi - 5 q uietpower ? warranty vicor products are guaranteed for two years from date of shipment against defects in material or workmanship when in normal use and service. this warranty does not extend to products subjected to misuse, accident, or improper application or maintenance. vi cor shall not be liable for collateral or consequential damage. this warranty is extended to the original purchaser only. except for the foregoing express warranty, vicor makes no warranty, express or limited, including, but not limited to, the warranty of merchantability or fitness for a particular purpose. vicor will repair or replace defective products in accordance with its own best judgment. for service under this warranty, the buyer must contact vicor to obtain a return material authorization (rma ) number and shipping instructions. products returned without prior authorization will be returned to the buyer. the buyer will pay all charges incurred in returning the product to the factory. vicor will pay all reshipment charges if the product was defec tive within the terms of this warranty. information published by vicor has been carefully checked and is believed to be accurate; however, no responsibility is assumed for inaccuracies. vicor reserves the right to make changes to any products without fur ther notice to improve reliability, function, or design. vicor does not assume any liability arising out of the application or use of any product or circuit; neither does it convey any license under its patent rights nor the rights of others. vicor general policy does not recommend the use of its components in life support applications wherein a failure or malfunction may directly threaten life or injury. per vicor terms and conditions of sale, the user of vicor components in life support applications assum es all risks of such use and indemnifies vicor against all damages. vicorscomprehensivelineofpowersolutionsincludeshighdensityc - dc and dc - dc modules and accessory components, fully configurable ac - dc and dc - dc power supplies, and complete cust om power systems. information furnished by vicor is believed to be accurate and reliable. however, no responsibility is assumed by vicor for its use. vicor components are not designed to be used in applications, such as life support systems, wherein a fa ilure or malfunctioncouldresultininjuryordeath.llsalesaresubjecttovicorstermsandconditionsofsale,whichare available upon request. specifications are subject to change without notice. vicor corporation 25 fron tage road andover, ma 01810 usa picor corporation 51 industrial drive north smithfield, ri 02896 usa customer service: custserv@vicorpower.com technical support: apps@vicorpower.com tel: 800 - 735 - 6200 fax: 978 - 475 - 6715

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