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| data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current * ul is a registered trademark of underwriters laboratories, inc. ? csa is a registered trademark of canadian standards association. ? vde is a trademark of verband deutscher elektrotechniker e.v. this product is intended for integration into end-user equipment . all of the required procedures of end-use equipment should be followed. document no: ds10-018 ver 1.0 pdf name: qbvw033a0b.pdf barracuda series? features ? compliant to rohs eu directive 2002/95/ec (-z versions) ? high and flat efficiency profile >95.5% at 12v dc , 30% load to 100% output ? wide input voltage range: 36-75v dc ? delivers up to 33a dc output current ? fully very tightly regulated output voltage ? low output ripple and noise ? industry standard, dosa compliant quarter brick: 58.4 mm x 36.8 mm x 11.7 mm (2.30 in x 1.45 in x 0.46 in) ? constant switching frequency ? positive remote on/off logic ? output over current/voltage protection ? over temperature protection ? wide operating temperature range (-40c to 85c) ? ul* 60950-1, 2nd ed. recognized, csa? c22.2 no. 60950-1-07 certified, and vde? (en60950-1, 2nd ed.) licensed ? ce mark to 2006/96/ec directive ? meets the voltage and current requirements for etsi 300-132-2 and complies with and licensed for basic insulation rating per en60950-1 ? 2250 vdc isolation tested in compliance with ieee 802.3 poe standards ? iso** 9001 and iso14001 certified manufacturing facilities applications ? distributed power architectures ? intermediate bus voltage applications ? servers and storage applications ? networking equipment including power over ethernet (poe) ? fan assemblies and other systems requiring a tightly regulated output voltage options ? negative remote on/off logic (1=option code, factory preferred) ? auto-restart after fault shutdown (4=option code, factory preferred) ? remote sense and output voltage trim (9=option code) ? base plate option (-h=option code) ? passive droop load sharing (-p=option code) description the qbvw033a0b series of dc-dc converters are a new generation of fully regulated dc/dc power modules designed to support 12vdc intermediate bus applications where multiple low voltages are subsequently generated using point of load (pol) converters, as well as other application requiring a tightly regulated output voltage. the qbvw033a0b series operate from an input voltage range of 36 to 75vdc and provide up to 33a output current at output voltages of 12v dc in an industry standard, dosa compliant quarter brick. the converter incorporates digital control, synchronous rectification technology, a fully regulated control topology, and innovative packaging techniques to achieve efficiency exceeding 96% at 12v output. this leads to lower power dissipations such that for many applications a heat sink is not required. standard features include on/off control, output overcurrent and over voltage protection, over temperature protection, input under and over voltage lockout. the output is fully isolated from the input, allowing versatile polarity configurations and grounding connections. built-in filtering for both input and output minimizes the need for external filtering. rohs compliant
data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 2 absolute maximum ratings stresses in excess of the absolute maximum ratings can cause permanent damage to the device. these are absolute stress ratings only, functional operation of the device is not implied at these or any other conditions in excess of those given in the operations sections of the data sheet. exposure to absolute maximum ratings for extended periods can adversely affect device reliability. parameter device symbol min max unit input voltage* continuous v in -0.3 75 v dc operating transient 100ms 100 v dc non- operating continuous v in 80 100 v dc operating ambient temperature all t a -40 85 c (see thermal considerations section) storage temperature all t stg -55 125 c i/o isolation voltage (100% factory hi-pot tested) all ? ? 2250 v dc * input over voltage protection will shutdown the output voltage when the input voltage exceeds threshold level. electrical specifications unless otherwise indicated, specifications apply over all operating input voltage, resistive load, and temperature conditions. parameter device symbol min typ max unit operating input voltage v in 36 48 75 v dc maximum input current i in,max - - 12 a dc (v in =0v to 75v, i o =i o, max ) input no load current all i in,no load 80 ma (v in = v in, nom , i o = 0, module enabled) input stand-by current all i in,stand-by 22 ma (v in = v in, nom , module disabled) external input capacitance all 100 - - f inrush transient all i 2 t - - 1 a 2 s input reflected ripple current, peak-to-peak (5hz to 20mhz, 12 h source impedance; v in = 48v, i o = i omax ; see figure 11) all - 40 - ma p-p input ripple rejection (120hz) all - 25 - db caution: this power module is not internally fused. an input line fuse must always be used. this power module can be used in a wide variety of applications, ranging from simple standalone operation to an integrated part of sophisticated power architecture. to preserve maximum flexibility, internal fusing is not included, however, to achieve maximum safety and system protection, always use an input line fuse. the safety agencies require a fast-acting fuse with a maximum rating of 30 a in the ungrounded input lead of the power supply (see safety considerations section). based on the information provided in this data sheet on inrush energy and maximum dc input current, the same type of fuse with a lower rating can be used. refer to the fuse manufacturer?s data sheet for further information. data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 3 electrical specifications (continued) parameter device symbol min typ max unit output voltage set-point (v in =v in,nom , i o =16.5a, t a =25c) all v o, set 11.97 12.00 12.03 v dc output voltage (over all operating input voltage (40v to 75v), resistive load, and temperature conditions until end of life) all w/o -p v o 11.76 ? 12.24 v dc -p option v o 11.63 ? 12.37 v dc output regulation [v in, min = 40v] line (v in = v in, min to v in, max ) all ? 0.2 ? % v o, set load (i o =i o, min to i o, max ) all w/o -p ? 0.2 ? % v o, set load (i o =i o, min to i o, max ), intentional droop -p option 0.50 v dc temperature (t a = -40oc to +85oc) all ? 2 ? % v o, set output ripple and noise on nominal output (v in =v in, nom and i o =i o, min to i o, max ) rms (5hz to 20mhz bandwidth) all ? 70 ? mv rms peak-to-peak (5hz to 20mhz bandwidth) all ? 200 ? mv pk-pk external output capacitance for c o >5000uf, i o must be < 50% i o, max during t rise . all c o, max 0 ? 10,000 f output current all i o 0 33 a dc output current limit inception all i o,lim ? 40 ? a dc efficiency v in =v in , nom , t a =25c i o =100% i o, max, v o = v o,set all 95.5 i o =40% i o, max to 75% i o, max , v o = v o,set all 96.0 % switching frequency f sw 150 khz dynamic load response di o /d t =1a/10 ? s; v in =v in , nom ; t a =25c; (tested with a 1.0 f ceramic, a 10 f tantalum, and 470 f capacitor and across the load.) load change from i o = 50% to 75% of i o,max : peak deviation settling time (v o <10% peak deviation) all v pk t s ? __ 500 700 ? __ mv pk ? s load change from i o = 75% to 50% of i o,max : peak deviation settling time (v o <10% peak deviation) all v pk t s __ __ 500 700 __ mv pk ? s isolation specifications parameter symbol min typ max unit isolation capacitance c iso ? 1000 ? pf isolation resistance r iso 10 ? ? m ? general specifications parameter symbol device typ unit calculated reliability based upon telcordia sr-332 issue 2: method i, case 3, (i o =80%i o, max , t a =40c, airflow = 200 lfm), 90% confidence mtbf all 3,108,685 hours fit all 321.7 10 9 /hours weight ? open frame 47.4 (1.67) g (oz.) weight ? with base plate option 66.4 (2.34) g (oz.) data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 4 feature specifications unless otherwise indicated, specifications apply over all operating input voltage, resistive load, and temperature conditions. see feature descriptions for additional information. parameter device symbol min typ max unit remote on/off signal interface (v in =v in, min to v in, max , signal referenced to v in- terminal) negative logic: device code suffix ?1? logic low = module on, logic high = module off positive logic: no device code suffix required logic low = module off, logic high = module on logic low specification on/off thresholds: remote on/off current ? logic low (vin =100v) all i on/off 280 ? 310 a logic low voltage all v on/off -0.3 ? 0.8 v dc logic high voltage ? (typ = open collector) all v on/off 2.0 ? 14.5 v dc logic high maximum allowable leakage current (v on/off = 2.0v) all i on/off ? ? 10 a maximum voltage allowed on on/off pin all v on/off ? ? 14.5 v dc turn-on delay and rise times (i o =i o, max ) t delay =time until v o = 10% of v o,set from either application of vin with remote on/off set to on (enable with vin); or operation of remote on/off from off to on with vin already applied for at least 150 milli- seconds (enable with on/off). * increased t delay due to startup for parallel modules. all w/o ?p? option t delay , enable with vin ? ? 150 ms all w/o ?p? option t delay, enable with on/off ? ? 10 ms all w/ ?p? option t delay , enable with vin ? ? 180* ms all w/ ?p? option t delay, enable with on/off ? ? 40* ms t rise =time for v o to rise from 10% to 90% of v o,set , for c o >5000uf, i o must be < 50% i o, max during t rise . * increased t rise when pre-bias vo exists at startup for parallel modules. all w/o ?p? option t rise ? ? 15 ms all w/ ?p? option t rise ? ? 300* ms remote sense range all w/ ?9? option v sense ? ? 0.5 v dc output voltage adjustment range all w/ ?9? option v o, set 8.1 13.2 v dc output overvoltage protection all w/o ?9? option v o,limit 14.5 17.0 v dc all w/ ?9? option v o,limit v o,set +2.5v v o,set +5.0v v dc overtemperature protection all t ref ? 140 ? c (see feature descriptions) input undervoltage lockout turn-on threshold (default) 33 35 36 v dc turn-off threshold (default) 31 33 34 v dc input overvoltage lockout turn-off threshold (default) ? 86 ? v dc turn-on threshold (default) 76 79 ? v dc data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 5 characteristic curves, 12v dc output the following figures provide typical characteristics for the qbvw033a0b (12v, 33a) at 25oc. the figures are identical for either positive or negative remote on/off logic. input current, i i (a) effciency, (%) input voltage, v o (v) output current, i o (a) figure 1. typical input characteristic. figure 2. typical converter efficiency vs. output current. output voltage, v o (v) (50mv/div) output current output voltage i o (a) (10a/div ) v o (v) (200mv/div) time, t (2 ? s/div) time, t (500 s/div) figure 3. typical output ripple and noise, i o = i o,max . figure 4. typical transient response to 0.1a/s step change in load from 50% to 75% to 50% of full load, co=470f and 48 vdc input. output voltage input voltage v o (v) (5v/div) v in (v) (20v/div) output voltage on /off voltage v o (v) (5v/div) v on/off (v)(2v/div) time, t (20 ms/div) time, t (5 ms/div) figure 5. typical start-up using vin with remote on/off enabled, negative logic version shown. figure 6. typical start-up using remote on/off with vin applied, negative logic version shown. data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 6 characteristic curves, 12v dc output (continued) . output voltage, v o (v) output voltage, v o (v) input voltage, v in (v) output current, i o (a) figure 7. typical output voltage regulation vs. input voltage. figure 8. typical output voltage regulation vs. output current. output voltage, v o (v) output voltage, v o (v) input voltage, v in (v) output current, i o (a) figure 9. typical output voltage regulation vs. input voltage for the ?p version. figure 10. typical output v oltage regulation vs. output current for the ?p version. data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 7 test configurations note: measure input reflected-ripple current with a simulated source inductance (ltest) of 12 h. capacitor cs offsets possible battery impedance. measure current as shown above. figure 11. input reflected ripple current test setup. note: use a 1.0 f ceramic capacitor and a 10 f aluminum or tantalum capacitor. scope measurement should be made using a bnc socket. position the load between 51 mm and 76 mm (2 in. and 3 in.) from the module. figure 12. output ripple and noise test setup. note: all measurements are taken at the module terminals. when socketing, place kelvin connections at module terminals to avoid measurement errors due to socket contact resistance. figure 13. output voltage a nd efficiency test setup. design considerations input source impedance the power module should be connected to a low ac-impedance source. highly inductive source impedance can affect the stability of the power module. for the test configuration in figure 11, a 100 f electrolytic capacitor, c in , (esr<0.7 ? at 100khz), mounted close to the power module helps ensure the stability of the unit. safety considerations for safety-agency approval of the system in which the power module is used, the power module must be installed in compliance with the spacing and separation requirements of the end-use safety agency standard, i.e., ul60950-1 2 nd ed., csa c22.2 no. 60950-1 2 nd ed., and vde0805-1 en60950-1 2 nd ed. if the input source is non-selv (elv or a hazardous voltage greater than 60 vdc and less than or equal to 75vdc), for the module?s output to be considered as meeting the requirements for safety extra-low voltage (selv), all of the following must be true: ? the input source is to be provided with reinforced insulation from any other hazardous voltages, including the ac mains. ? one v in pin and one v out pin are to be grounded, or both the input and output pins are to be kept floating. ? the input pins of the module are not operator accessible. ? another selv reliability test is conducted on the whole system (combination of supply source and subject module), as required by the safety agencies, to verify that under a single fault, hazardous voltages do not appear at the module?s output. note: do not ground either of the input pins of the module without grounding one of the output pins. this may allow a non-selv voltage to appear between the output pins and ground. the power module has safety extra-low voltage (selv) outputs when all inputs are selv. the input to these units is to be provided with a maximum 30 a fast-acting (or time-delay) fuse in the ungrounded input lead. the optional heat-plate is considered secondary from a spacing perspective between input and output. load contact and supply i i contact v i (+) v i (?) v o1 distribution losses resistance i o v o2 data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 8 feature descriptions overcurrent protection to provide protection in a fault output overload condition, the module is equipped with internal current-limiting circuitry and can endure current limiting continuously. if the overcurrent condition causes the output voltage to fall greater than 4.0v from v o,set , the module will shut down and remain latched off. the overcurrent latch is reset by either cycling the input power or by toggling the on/off pin for one second. if the output overload condition still exists when the module restarts, it will shut down again. this operation will continue indefinitely until the overcurrent condition is corrected. a factory configured auto-restart option (with overcurrent and overvoltage auto-restart managed as a group) is also available. an auto-restart feature continually attempts to restore the operation until fault condition is cleared. remote on/off the module contains a standard on/off control circuit reference to the v in (-) terminal. two factory configured remote on/off logic options are available. positive logic remote on/off turns the module on during a logic-high voltage on the on/off pin, and off during a logic low. negative logic remote on/off turns the module off during a logic high, and on during a logic low. negative logic, device code suffix "1," is the factory-preferred configuration. the on/off circuit is powered from an internal bias supply, derived from the input voltage terminals. to turn the power module on and off, the user must supply a switch to control the voltage between the on/off terminal and the v in (-) terminal (v on/off ). the switch can be an open collector or equivalent (see figure 14). a logic low is v on/off = -0.3v to 0.8v. the typical i on/off during a logic low (vin=48v, on/off terminal=0.3v) is 147a. the switch should maintain a logic-low voltage while sinking 310a. during a logic high, the maximum v on/off generated by the power module is 8.2v. the maximum allowable leakage current of the switch at v on/off = 2.0v is 10a. if using an external voltage source, the maximum voltage v on/off on the pin is 14.5v with respect to the v in (-) terminal. if not using the remote on/off feature, perform one of the following to turn the unit on: for negative logic, short on/off pin to v in (-). for positive logic: leave on/off pin open. figure 14. remote on/off implementation. output overvoltage protection the module contains circuitry to detect and respond to output overvoltage conditions. if the overvoltage condition causes the output voltage to rise above the limit in the specifications table, the module will shut down and remain latched off. the overvoltage latch is reset by either cycling the input power, or by toggling the on/off pin for one second. if the output overvoltage condition still exists when the module restarts, it will shut down again. this operation will continue indefinitely until the overvoltage condition is corrected. a factory configured auto-restart option (with overcurrent and overvoltage auto-restart managed as a group) is also available. an auto-restart feature continually attempts to restore the operation until fault condition is cleared. overtemperature protection these modules feature an overtemperature protection circuit to safeguard against thermal damage. the circuit shuts down the module when the maximum device reference temperature is exceeded. the module will automatically restart once the reference temperature cools by ~25c. input under/over voltage lockout at input voltages above or below the input under/over voltage lockout limits, module operation is disabled. the module will begin to operate when the input voltage level changes to within the under and overvoltage lockout limits. load sharing for higher power requirements, the qbvw033a0 power module offers an optional feature for parallel operation (-p option code). this feature provides a precise forced output voltage load regulation droop characteristic. the output set point and droop slope are factory calibrated to insure optimum matching of multiple modules? load regulation characteristics. to implement load sharing, the following requirements should be followed: ? the v out (+) and v out (-) pins of all parallel modules must be connected together. balance the trace resistance for each module?s path to the output power planes, to insure best load sharing and operating temperature balance. ? v in must remain between 40v dc and 75v dc for droop sharing to be functional. ? it is permissible to use a common remote on/off signal to start all modules in parallel. ? these modules contain means to block reverse current flow upon start-up, when output voltage is present from other parallel modules, thus eliminating the requirement for external output oring devices. modules with the ?p option may automatically increase the turn on delay, t delay , as specified in the feature specifications table, if output voltage is present on the output bus at startup. ? when parallel modules startup into a pre-biased output, e.g. partially discharged output capacitance, the t rise is automatically increased, as specified in the feature specifications table, to insure graceful startup. ? insure that the total load is <50% i o,max (for a single module) until all parallel modules have started (load full start > module t delay time max + t rise time). ? if fault tolerance is desired in parallel applications, output oring devices should be used to prevent a single module failure from collapsing the load bus. data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 9 feature descriptions (continued) remote sense (?9? option code) remote sense minimizes the effects of distribution losses by regulating the voltage at the remote-sense connections (see figure 15). the sense(-) pin should be always connected to v o (?).the voltage between the remote-sense pins and the output terminals must not exceed the output voltage sense range given in the feature specifications table: [v o (+) ? v o (?)] ? [sense(+) ] ? 0.5 v although the output voltage can be increased by both the remote sense and by the trim, the maximum increase for the output voltage is not the sum of both. the maximum increase is the larger of either the remote sense or the trim. the amount of power delivered by the module is defined as the voltage at the output terminals multiplied by the output current. when using remote sense and trim, the output voltage of the module can be increased, which at the same output current would increase the power output of the module. care should be taken to ensure that the maximum output power of the module remains at or below the maximum rated power (maximum rated power = v o,set x i o,max ). figure 15. circuit configuration for remote sense. trim, output voltage adjust (?9? option code) trimming allows the output voltage set point to be increased or decreased; this is accomplished by connecting an external resistor between the trim pin and either the v o (+) pin or the v o (-) pin. v o (+) trim v o (-) r trim-down load qbvw033a0 r trim-up figure 16. circuit configuration to trim output voltage. connecting an external resistor (r trim-down ) between the trim pin and the vo(-) (or sense(-)) pin decreases the output voltage set point. to maintain set point accuracy, the trim resistor tolerance should be 1.0%. the following equation determines the required external resistor value to obtain a percentage output voltage change of % ?? ? ? ? ? ? ? ? ? ? ? 22 . 10 % 511 down trim r where 100 % , , ? ? ? ? ? ? ? ? ? ? ? ? set o desired set o v v v for example, to trim-down the output voltage of the 12v nominal module by 20% to 9.6v, rtrim-down is calculated as follows: 20 % ? ? ?? ? ? ? ? ? ? ? ? ? 22 . 10 20 511 down trim r ? ? ? k r down trim 3 . 15 connecting an external resistor (r trim-up ) between the trim pin and the v o (+) (or sense (+)) pin increases the output voltage set point. the following equations determine the required external resistor value to obtain a percentage output voltage change of %: ?? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 22 . 10 % 511 % 225 . 1 %) 100 ( 11 . 5 , set o up trim v r where 100 % , , ? ? ? ? ? ? ? ? ? ? ? ? set o set o desired v v v for example, to trim-up the output voltage of the 12v module by 5% to 12.6v, r trim-up is calculated is as follows: 5 % ? ? ?? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 22 . 10 5 511 5 225 . 1 ) 5 100 ( 0 . 12 11 . 5 up trim r ?? ? ? 8 . 938 up trim r the voltage between the vo(+) and vo(?) terminals must not exceed the minimum output overvoltage protection value shown in the feature specifications table. this limit includes any increase in voltage due to remote-sense compensation and output voltage set-point adjustment trim. although the output voltage can be increased by both the remote sense and by the trim, the maximum increase for the output voltage is not the sum of both. the maximum increase is the larger of either the remote sense or the trim. the amount of power delivered by the module is defined as the voltage at the output terminals multiplied by the output current. when using remote sense and trim, the output voltage of the module can be increased, which at the same output current would increase the power output of the module. care should be taken to ensure that the maximum output power of the module remains at or below the maximum rated power (maximum rated power = v o,set x i o,max ). data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 10 feature descriptions (continued) thermal considerations the power modules operate in a variety of thermal environments and sufficient cooling should be provided to help ensure reliable operation. thermal considerations include ambient temperature, airflow, module power dissipation, and the need for increased reliability. a reduction in the operating temperature of the module will result in an increase in reliability. the thermal data presented here is based on physical measurements taken in a wind tunnel. heat-dissipating components are mounted on the top side of the module. heat is removed by conduction, convection and radiation to the surrounding environment. proper cooling can be verified by measuring the thermal reference temperature (th 1 or th 2 ). peak temperature occurs at the position indicated in figure 17 and 18. for reliable operation this temperature should not exceed th 1 =125c or th 2 =105c. for extremely high reliability you can limit this temperature to a lower value. . figure 17. location of the thermal reference temperature th 1 for open frame module. figure 18. location of the thermal reference temperature th 2 for base plate module. the output power of the module should not exceed the rated power for the module as listed in the ordering information table. please refer to the application note ?thermal characterization process for open-frame board- mounted power modules? for a detailed discussion of thermal aspects including maximum device temperatures. heat transfer via convection increased airflow over the module enhances the heat transfer via convection. the thermal derating of figure 19- 23 shows the maximum output current that can be delivered by each module in the indicated orientation without exceeding the maximum th x temperature versus local ambient temperature (t a ) for several air flow conditions. the use of figure 19 is shown in the following example: example what is the minimum airflow necessary for a qbvw033a0b operating at v i = 48 v, an output current of 20a, and a maximum ambient temperature of 60 c in transverse orientation. solution: given: v in = 48v, i o = 20a, t a = 60 c determine required airflow velocity (use figure 19): velocity = 0.5m/s (100 lfm) or greater. output current, i o (a) local ambient temperature, t a ( ? c) figure 19. output current derating for the open frame qbvw033a0b in the transverse orientation; airflow direction from vin(+) to vin(-); vin = 48v. output current, i o (a) local ambient temperature, t a ( ? c) figure 20. output current derating for the base plate qbvw033a0b-h in the transverse orientation; airflow direction from vin(+) to vin(-); vin = 48v. data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 11 output current, i o (a) local ambient temperature, t a ( ? c) figure 23. output current derating for the base plate qbvw033a0b-h with 1.0? heatsink in the transverse orientation; airflow direction from vin(+) to vin(-); vin = 48v. layout considerations the qbvw033 power module series are low profile in order to be used in fine pitch system card architectures. as such, component clearance between the bottom of the power module and the mounting board is limited. avoid placing copper areas on the outer layer directly underneath the power module. also avoid placing via interconnects underneath the power module. for additional layout guide-lines, refer to fltr100v10 data sheet. through-hole lead-free soldering information the rohs-compliant, z version, through-hole products use the sac (sn/ag/cu) pb-free solder and rohs-compliant components. the module is designed to be processed through single or dual wave soldering machines. the pins have a rohs- compliant, pure tin finish that is compatible with both pb and pb-free wave soldering processes. a maximum preheat rate of 3 ? c/s is suggested. the wave preheat process should be such that the temperature of the power module board is kept below 210 ? c. for pb solder, the recommended pot temperature is 260 ? c, while the pb-free solder pot is 270 ? c max. reflow lead-free soldering information the rohs-compliant through-hole products can be processed with the following paste-through-hole pb or pb-free reflow process. max. sustain temperature : 245 ? c (j-std-020c table 4-2: packaging thickness>=2.5 mm / volume > 2000 mm 3 ), peak temperature over 245 ? c is not suggested due to the potential reliability risk of components under continuous high-temperature. min. sustain duration above 217 ? c : 90 seconds min. sustain duration above 180 ? c : 150 seconds max. heat up rate: 3 ? c/sec max. cool down rate: 4 ? c/sec in compliance with jedec j-std-020c spec for 2 times reflow requirement. pb-free reflow profile bmp module will comply with j-std-020 rev. c (moisture/reflow sensitivity classification for nonhermetic solid state surface mount devices) for both pb-free solder profiles and msl classification procedures. bmp will comply with jedec j-std- 020c specification for 3 times reflow requirement. the suggested pb-free solder paste is sn/ag/cu (sac). the recommended linear reflow profile using sn/ag/cu solder is shown in figure 24. output current, i o (a) local ambient temperature, t a ( ? c) figure 21. output current derating for the base plate qbvw033a0b-h with 0.25? heatsink in the transverse orientation; airflow direction from vin(+) to vin(-); vin = 48v. output current, i o (a) local ambient temperature, t a ( ? c) figure 22. output current derating for the base plate qbvw033a0b-h with 0.5? heatsink in the transverse orientation; airflow direction from vin(+) to vin(-); vin = 48v. data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 12 reflow lead-free soldering information (continued) figure 24. recommended linear reflow profile using sn/ag/cu solder. msl rating the qbvw033a0b modules have a msl rating of 2a. storage and handling the recommended storage environment and handling procedures for moisture-sensitive surface mount packages is detailed in j-std-033 rev. a (handling, packing, shipping and use of moisture/reflow sensitive surface mount devices). moisture barrier bags (mbb) with desiccant are required for msl ratings of 2 or greater. these sealed packages should not be broken until time of use. once the original package is broken, the floor life of the product at conditions of ? 30c and 60% relative humidity varies according to the msl rating (see j-std-033a). the shelf life for dry packed smt packages will be a minimum of 12 months from the bag seal date, when stored at the following conditions: < 40 c, < 90% relative humidity. post solder cleaning and drying considerations post solder cleaning is usually the final circuit-board assembly process prior to electrical board testing. the result of inadequate cleaning and drying can affect both the reliability of a power module and the testability of the finished circuit-board assembly. for guidance on appropriate soldering, cleaning and drying procedures, refer to lineage power board mounted power modules: soldering and cleaning application note (ap01-056eps). if additional information is needed, please consult with your lineage power representative for more details emc considerations the circuit and plots in figure 25 shows a suggested configuration to meet the conducted emission limits of en55022 class a. for further information on designing for emc compliance, please refer to the fltr100v10 data sheet. figure 25. emc considerations data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 13 mechanical outline for qbvw033a0b through-hole module dimensions are in millimeters and [inches]. tolerances: x.x mm ? 0.5 mm [x.xx in. ? 0.02 in.] (unless otherwise indicated) x.xx mm ? 0.25 mm [x.xxx in ? 0.010 in.] top view* side view bottom view pin ? number ? pin ? name ? 1 * ? vin(+) ? 2 * ? on/off ? 3 * ? vin( \ ) ? 4 * ? vout( \ ) ? 5? ? sense( \ ) ? 6? ? trim ? 7? ? sense(+) ? 8 * ? vout(+) ? ? - optional pins see table 2 *top side label includes lineage power name, product designation, and data code. ** standard pin tail length. optional pin tail lengths shown in table 2, device options. data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 14 mechanical outline for qbvw033a0b-h (base plate) through-hole module dimensions are in millimeters and [inches]. tolerances: x.x mm ? 0.5 mm [x.xx in. ? 0.02 in.] (unless otherwise indicated) x.xx mm ? 0.25 mm [x.xxx in ? 0.010 in.] top view side view* bottom view*** pin ? number ? pin ? name ? 1 * ? vin(+) ? 2 * ? on/off ? 3 * ? vin( \ ) ? 4 * ? vout( \ ) ? 5? ? sense( \ ) ? 6? ? trim ? 7? ? sense(+) ? 8 * ? vout(+) ? ? - optional pins see table 2 *side label includes product designation, and data code. ** standard pin tail length. optional pin tail lengths shown in table 2, device options. ***bottom label includes lineage power name, product designation, and data code data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 15 recommended pad layouts dimensions are in millimeters and (inches). tolerances: x.x mm ? 0.5 mm ( x.xx in. ? 0.02 in.) [unless otherwise indicated] x.xx mm ? 0.25 mm ( x.xxx in ? 0.010 in.) through-hole modules pin ? number ? pin ? name ? 1 * ? vin(+) ? 2 * ? on/off ? 3 * ? vin( \ ) ? 4 * ? vout( \ ) ? 5? ? sense( \ ) ? 6? ? trim ? 7? ? sense(+) ? 8 * ? vout(+) ? ? - optional pins see table 2 data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 16 packaging details all versions of the qbvw033a0bare supplied as standard in the plastic trays shown in figure 26. tray specification material pet (1mm) max surface resistivity 10 9 -10 11 ? /pet color clear capacity 12 power modules min order quantity 24 pcs (1 box of 2 full trays + 1 empty top tray) each tray contains a total of 12 power modules. the trays are self-stacking and each shipping box for the qbvw033a0b module contains 2 full trays plus one empty hold-down tray giving a total number of 24 power modules. open frame module tray base plate module tray figure 26. qbvw033 packaging tray data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current lineage power 17 ordering information please contact your lineage power sales representative for pricing, availability and optional features. table 1. device codes product codes input voltage output voltage output current efficiency connector type comcodes qbvw033a0b41z 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109165247 qbvw033a0b541z 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109165263 qbvw033a0b641z 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109165692 qbvw033a0b841z 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109169347 qbvw033a0b1-hz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109168126 qbvw033a0b41-hz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109165255 qbvw033a0b61-hz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109167813 qbvw033a0b641-hz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109165701 qbvw033a0b941-hz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109170627 qbvw033a0b41-pz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109169314 qbvw033a0b541-pz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109167086 qbvw033a0b841-pz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109169355 QBVW033A0B1-PHZ 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109167094 qbvw033a0b41-phz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109167103 qbvw033a0b61-phz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109167111 qbvw033a0b641-phz 48v (36 ? 75vdc) 12v 33a 95.5% through hole cc109167540 table 2. device options data sheet september 23, 2011 qbvw033a0b series power modules; dc-dc converters 36-75v dc input; 12v dc output; 33a output current document no: ds10-018 ver 1.0 pdf name: qbvw033a0b.pdf world wide headquarters lineage power corporation 601 shiloh road, plano, tx 75074, usa +1-888-lineage(546-3243) (outside u.s.a.: +1-972-244-watt(9288) ) www.lineagepower.com e-mail: techsupport1@lineagepower.com asia-pacific headquarters tel: +86.021.54279977*808 europe, middle-east and africa headquarters tel: +49.89.878067-280 india headquarters tel: +91.80.28411633 lineage power reserves the right to make changes to the product(s) or information contained herein without notice. no liability is assumed as a result of their use or a pplication. no rights under any patent accompany the sale of any such product(s) or information. lineage power dc-dc products are protected under various patents. information on these patents is available at www.lineagepower.com/patents . ? 2010 lineage power corporation, (plano, texas) all international rights reserved. |
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