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| www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 1 / 17 02.mar.2012 rev.001 tsz22111 ? 1 4 ? 001 4.0v to 5.5v, 2.0a 1ch s ynchronous buck converter integrated fet bd9111nv general description rohms high efficiency step - down switching regulator bd9111nv is a power supply designed to produce a low voltage including 3.3 volts from 5 volts power suppl y line. offers high efficiency with our original pulse skip control techno logy and synchronous rectifier. employs a current mode control system to provide faster transient response to sudden change in load. features offers fast transient response with current mode pwm control system. offers highly efficiency for all load range with synchronous rectifier (nch/pch fet) and sllm tm (simple light load mode) incorporates soft - start function. incorporates thermal protection and ulvo functions. incorporates sho rt - current protection circuit with time delay function. incorporates shutdown function key specification s ? i nput voltage range: 4 .5v to 5 .5v ? o utput voltage range: 3.250 v to 3.3 50 v ? o utput current: 2.0 a ( max.) ? switching frequency: 1mhz (typ.) ? pch fet on resistance: 200m (typ.) ? nch fet on resistance: 150m (typ.) ? s tandby current: 2. 0a ( max. ) ? ope rating temperature range : - 25 to + 10 5 package son008 v5060 : 5.0 0 mm x 6.0 0 mm x 1.0 0 mm applications power supply for lsi including dsp, micro computer and asic typical application circuit fig.1 typical ap plication circuit product structure silicon monolithic integrated circuit this product is not designed protection against radioactive rays. datasheet
www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 2 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet pin configuration pin description pin no. pin name pin function 1 vout output voltage pin 2 v cc vcc power supply input pin 3 ith gmamp output pin/connected phase compensation capacitor 4 gnd ground 5 pgnd nch fet source pin 6 sw pch/nch fet drain output pin 7 pv cc pch fet source pin 8 en enable pin(active high) block diagram fig.2 pin configuration fig.3 block diagram (top view) output 5 v input pv cc pgnd sw gnd gm amp . 2 . 2 h v cc r s q osc uvlo tsd 22 f v cc v cc c lk slope en current comp 22 f 8 7 2 6 5 4 soft start current sense / protect + driver logic vref ith r ith c ith 3 scp vout 1 www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 3 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet absolute maximum ratings (ta=25 ) parameter symbol ratings unit v cc voltage v cc - 0.3 to +7 * 1 v pv cc voltage pv c c - 0.3 to +7 * 1 v en voltage v en - 0.3 to +7 v sw,ith voltage v sw ,v ith - 0.3 to +7 v power dissipation 1 pd1 900 * 2 mw power dissipation 2 pd2 3900 * 3 mw operating temperature range topr - 25 to +105 storage temperature range tstg - 55 to +150 maximum junction temperature tjmax +150 * 1 pd should not be exceeded. * 2 derating in done 7.2mw/ for temperatures above ta=25 , mounted on 70mm70mm1.6mm glass epoxy pcb (the density of copper:3%) * 3 derating in done 31.2mw/ for temperatures above ta=25 , mounted on jesd51 - 7. operating ratings (ta=25 ) parameter symbol ratings unit min. typ. max. v cc voltage v cc *4 4.5 5.0 5.5 v pv cc voltage p vcc *4 4.5 5.0 5.5 v en voltage v en 0 - vcc v sw average output current isw *4 - - 2.0 a *4 pd should not be exceeded. electrical characteristics (ta=25 , vcc=pvcc=3.3v, en=vcc.) parameter symbol limits unit conditions min. typ. max. standby current i stb - 0 10 a cc - 250 450 a enl - gnd 0.8 v standby mode en high voltage v enh 2.0 v cc - v active mode en input current i en - 1 10 a en =5v oscillation frequency f osc 0.8 1 1.2 mhz pch fet on resistance r onp - 200 320 m vcc =5v nch fet on resistance r onn - 150 270 m vcc =5v output voltage v out 3.250 3.3 00 3.350 v ith si nk current i thsi 10 20 - a out =3.6v ith s ource c urrent i thso 10 20 - a out =3.0v uvlo threshold voltage v uvlo1 3.6 3.8 4.0 v v cc =50v uvlo2 3.65 3.90 4.2 v v cc =05v ss 0.5 1 2 ms timer la tch time t latch 1 2 3 ms scp/tsd operated output short circuit threshold voltage v scp - 1.65 2.31 v out v out =3.30v www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 4 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet typical performance curves fig. 4 vcc - vout fig. 6 iout - vout fig. 7 ta - v out fig. 5 ven - vout www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 5 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet fig. 10 ta - r onn , r onp fig. 1 1 ta - v en fig. 8 efficiency fig. 9 ta - f osc www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 6 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet fig. 14 soft start waveform fig. 15 sw waveform io=10ma fig. 1 2 ta - i cc fig. 13 vcc - fosc www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 7 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet fig.18 transient response io =2a 1a (10s) fig. 16 sw waveform io=200mas fig. 17 transient r esponse io=1a 2a ( 10s) www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 8 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet application information operation bd9111nv is a synchronous rectifying step - d own switching regulator that achieves faster transient response by employing current mode pwm control system. it utilizes switching operation in pwm (pulse width modulation) mode for heavier load, while it utilizes sllm (simple light load mode) operation for lighter load to improve efficiency. synchronous rectifier it does not require the power to be dissipated by a rectifier externally connected to a conventional dc/dc converter ic, and its p.n junction shoot - through protection circuit limits the shoot - through current during operation, by whic h the power dissipation of the set is reduced. current mode pwm control synthesizes a pwm control signal with a inductor current feedback loop added to the voltage feedback. ? pwm (pulse width modulation) control the oscillation frequency for pwm is 1 mhz . set signal form osc turns on a p - channel mos fet (while a n - channel mos fet is turned off), and an inductor current i l increases. the current comparator (current comp) receives two signals, a current feedback control signal (sense: voltage converted fr om i l ) and a voltage feedback control signal (fb), and issues a reset signal if both input signals are identical to each other, and turns off the p - channel mos fet (while a n - channel mos fet is turned on) for the rest of the fixed period. the pwm control repeat this operation. ? sllm (simple light load mode) control when the control mode is shifted from pwm for heavier load to the one for lighter load or vise versa, the switching pulse is designed to turn off with the device held operated in normal pwm c ontrol loop, which allows linear operation without voltage drop or deterioration in transient response during the mode switching from light load to heavy load or vise versa. although the pwm control loop continues to operate with a set signal from osc and a reset signal from current comp, it is so designed that the reset signal is held issued if shifted to the light load mode, with which the switching is tuned off and the switching pulses are thinned out under control. activating the switching intermittent ly reduces the switching dissipation and improves the efficiency. fig.19 diagram of current mode pwm control fig.20 pwm switching timing chart fig.21 sllm tm switching timing chart current comp set reset sw v out pvcc gnd gnd gnd i l (ave) v out (ave) sense fb current comp set reset sw v out pvcc gnd gnd gnd 0a v out (ave) sense fb i l not switching i l osc level shift driver logic r q s i l sw ith current comp gm amp. set reset fb load sense v out v out www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 9 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet description of o perations ? soft - start function en terminal shifted to high activates a soft - starter to gradually establish the output voltage with the current limited during startup, by which it is possible to prevent an overshoot of output voltage and an inrush current. ? shutdown function with en terminal shifted to low, the device turns to standby mode, and all the function blocks including reference voltage circuit, internal oscillator and drivers are turned to off. circuit current during standby is 0f (typ.). ? uvlo function detects whether the input voltage sufficient to secure the output voltage of this ic is supplied. and the hysteresis width of 100mv (typ.) is provided to prevent output chattering. fig.2 2 soft start, shutdown, uvlo timing chart ? short - current protection circuit with time delay function turns off the output to protect the ic from breakdown when the incorporated current limiter is activated continuously for the fixed time(t latch ) or more. the output thus held tuned off may be recovered b y restarting en or by re - unlocking uvlo. fig.23 short - current protection circuit with time delay timing chart t2=t latch output off latch en v out output short circuit threshold voltage i l standby mode operating mode operating mode en timer latch en standby mode i l limit t1 www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 11 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet switching regulator efficiency efficiency ? may be expressed by the equation shown below: efficiency may be improved by reducing the switching regulator power dissipation factors p d as follows: dissipation factors: 1) on resistance dissipation of inductor and fet pd(i 2 r) 2) gate charge/discharge dissipation pd(gate) 3) switching dissipation pd(sw) 4) esr dissipation of capacitor pd(esr) 5) operating current dissipation of ic pd(ic) 1)pd(i 2 r)=i out 2 (r coil +r on ) (r coil [ ] dc resistance of inductor, r on [] on resistance of fet, i out [a] output current.) 2)pd(gate)=cgsfv (cgs[f] gate capacitance of fet,f[hz] switching frequency,v[v] gate driving voltage of fet) 4)pd(esr)=i rms 2 esr (i rms [a] ripple current of capa citor,esr[] equivalent series resistance.) 5)pd(ic)=vini cc (i cc [a] circuit current.) consideration on permissible dissipation and heat generation as this ic functions with high efficiency without significant heat generation in most applications, no spe cial consideration is needed on permissible dissipation or heat generation. in case of extreme conditions, however, including lower input voltage, higher output voltage, heavier load, and/or higher temperature, the permissible dissipation and/or heat gene ration must be carefully considered. for dissipation, only conduction losses due to dc resistance of inductor and on resistance of fet are considered. because the conduction losses are considered to play the leading role among other dissipation mentioned above including gate charge/discharge dissipation and switching dissipation. if v cc =5v, v out =3.3v, r onp =0.2, r onn =0.16 i out =2a, for example, d=v out /v cc =3.3/5.0=0.66 r on =0.660.20+(1 - 0.66)0.16 =0.132+0.0544 =0.1864[ ] p=2 2 0.1864 0.7456w] as r onp is greater than r onn in this ic, the dissipation increases as the on duty becomes greater. with the consideration on the dissipation as above, thermal design must be carried out with sufficient margin allowed. = out i out viniin out pin 100[%]= p out p out +p d 2 c rss i out f i drive 3)pd(sw)= (c rss [f] drive [a] out 2 r on r on =dr onp +(1 - d)r onn d out /v cc ) r coil onp onn out 0 25 50 75 100 125 150 0 2.0 3.0 4.0 0.90w 3.9w 105 1.0 0.64w fig.27 thermal derating curve (son008v5060) power dissipation:pd [w] ambient temperature:ta [ ] for son008v5060 jedec 4 layer board 76.2114.31.6mm j - a=32.1 /w for son008v5060 rohm standard 1 layer board 70701.6mm j - a=138.9 /w ic only j - a=195.3 /w www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 12 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet selection of components externally connected 1. selection of inductor (l) * current exceeding the current rating of the inductor results in magnetic saturation of the inductor, which decreases efficien cy. the inductor must be selected allowing sufficient margin with which the peak current may not exceed its current rating. if v cc =5v, v out =3.3v, f=1mhz, i l =0.32a=0.6a, for example,(bd9111nv) * select the inductor of low resistance component (such as dcr and acr) to minimize dissipation in the inductor for better effi ciency. 2. selection of output capacitor (c o ) 3. s election of input capacitor (cin) a low esr 22f/10v ceramic capacitor is recommended to reduce esr dissipation of input capacitor for better efficiency. the inductance significantly depends on output ripple current. as seen in the equation (1), the ripple current decreases as the inductor and/or switching frequency increases. i l = (v cc - v out ) v out lv cc f [a] ??? appropriate ripple current at output should be 20% more or less of the maximum output current. i l =0.3i out max. [a] ??? cc - v out )v out i l v cc f [h] ??? (i l : output ripple current, and f: switching frequency) output capacitor should be selected with the consideration on the stability region and the equivalent series resistance required to smooth ripple voltage. output ripple voltage is determined by the equation (4) v out =i l esr [v] ??? (i l : output ripple current, esr: equivalent series resistance of output capacitor) *rating of the capacitor should be determined allowing sufficient margin against output voltage. less esr allows reduc tion in output ripple voltage. 22f to 100f ceramic capacitor is recommended. input capacitor to select must be a low esr capacitor of the capacitance sufficient to cope with high ripple current to prevent high transient voltag e. the ripple current i rms is given by the equation (5): fig.29 output capacitor (5.0 - 3.3)3.3 0.65.01m l= =1.87 2.2[h] i l v cc il l co v out fig.2 8 output ripple current i l v cc l co v out esr v cc l co v out cin i rms =i out v out (v cc - v out ) v cc [a] ??? out , i rms = i out 2 < worst case > i rms(max.) i rms =2 3.3(5.0 - 3.3) 5.0 =0.947[a rms ] cc =5.0 v, v out =3.3v, and i outmax.= 2a, (bd9111nv) www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 13 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet 4. determination of r ith , c ith that works as a phase compensator as the current mode control is designed to limit a inductor current, a pole (phase lag) appears in the low frequency area due to a cr filter consisting of a output capacitor and a load resistance, while a zero (phase lead) appears in the high frequency area due to the output capacitor and its esr. so, the phases are easily compensated by adding a zero to the power amplifier output with c and r as described below to cancel a pole at the power amplifier. stable feedback loop may be achieved by canceling the pole fp (min.) produced by the output capacitor and the load resistance with cr zero correction by the error amplifier. fig. 31 open loop gain characteristics fig.32 error amp phase compensation characteristics fp= 2r o c o 1 fz (esr) = 2e sr c o 1 pole at powe r amplifier when the output current decreases, the load resistance ro increases and the pole frequency lowers. fp (min.) = 2r omax. c o 1 [hz]with lighter load (max.) = 2r omin. c o 1 [hz] with heavier load (amp.) = 2r ith c ith 1 gnd,pgnd sw v cc ,pv cc en v out ith v cc v out cin r ith c ith l esr c o r o v out fig.3 3 typical application fz (amp.) = fp (min.) 2r ith c ith 1 = 2r omax. c o 1 gain [db] phase [deg] a 0 0 - 90 a 0 0 - 90 fz(amp.) fp(min.) fp(max.) fz(esr) i out min. i out max. gain [db] phase [deg] increasing capacitance of the output capacitor lowers the pole frequency while the zero frequency does not change. (this is because when the capacitance is doubled, the capacitor esr reduces to half.) www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 14 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet bd9111nv cautions on pc board layout fig.34 layout diagram for the sections dr awn with heavy line, use thick conductor pattern as short as possible. lay out the input ceramic capacitor c in closer to the pins pv cc and pgnd, and the output capacitor co closer to the pin pgnd. lay out c ith and r ith between the pins ith and gnd as ne ar as possible with least necessary wiring. son008v5060 (bd9111nv) has thermal fin on the reverse of the package. the package thermal performance may be enhanced by bonding the fin to gnd plane which take a large area of pcb. recommended components lis ts on above application symbol part value manufacturer series l coil 2.2uh tdk ltf5022 - 2r2n3r2 c in ceramic capacitor 22uf kyocera cm32x5r226m10a c o ceramic capacitor 22uf kyocera cm316b226m06a c ith ceramic capacitor 680pf murata grm18 series r ith resi stance 12 k rohm mc r 03 series * the parts list presented above is an example of recommended parts. although the parts are sound, actual circuit characteristi cs should be checked on your application carefully before use. be sure to allow sufficient margins to acco mmodate variations between external devices and this ic when employing the depicted circuit with other circuit constants modified. both static and transient characteristics should be considered in est ablishing these margins. when switching noise is substan tial and may impact the system, a low pass filter should be inserted between the vcc and pvcc pins, and a schottky barrier di ode established between the sw and pgnd pins. vout v cc ith gnd en pv cc sw pgnd v cc r ith gnd c o c in v out en l c ith 1 2 3 4 8 7 6 5 www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 15 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet i/o equivalence circuit fig.3 5 i/o equivalence circuit en sw ? sw pin pv cc pv cc pv cc ith ? ith pin v cc v cc v out 10k ? vout pin www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 16 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet resistor transistor (npn) n n n p + p + p p substrate gnd parasitic elem ent pin a n n p + p + p p substrate gnd parasitic element pin b c b e n gnd pin a parasitic element pin b other adjacent elements e b c gnd parasitic element operational notes 1. absolute maximum ratings while utmost care is taken to quality control of this product, any application that may exceed some of the absolute maximum ratings including the voltage applied and the operating temperature range may result in breakage. if broken, short - mode or open - mode may not be identified. so if it is expected to encounter with special mode that may exceed the absolute maximum ratings, it is requested to take necessary safety measures physically including insertion of fuses. 2. electrical potential at gnd gnd must be designed t o have the lowest electrical potential in any operating conditions. 3. short - circuiting between terminals, and mismounting when mounting to pc board, care must be taken to avoid mistake in its orientation and alignment. failure to do so may res ult in ic b reakdown. short - circuiting due to foreign matters entered between output terminals, or between output and power supply or gnd may also cause breakdown. 4. operation in strong electromagnetic field be noted that using the ic in the strong electromagnetic r adiation can cause operation failures. 5. thermal shutdown protection circuit thermal shutdown protection circuit is the circuit designed to isolate the ic from thermal runaway, and not intended t o protect and guarantee the ic. so, the ic the thermal shut down protection circuit of which is once activated should not be used thereafter for any operation originally intended. 6. inspection with the ic set to a pc board if a capacitor must be connected to the pin of lower impedance during inspection with the i c set to a pc board, the capacitor must be discharged after each process to avoid stress to the ic. for electrostatic protection, provide proper grounding to assembling processes with special care taken in handling and storage. when connecting to jigs in the inspection process, be sure to turn off the power supply before it is connected and removed. 7. input to ic terminals this is a monolithic ic with p + isolation between p - substrate and each element as illustrated below. this p - layer and the n - layer of each element form a p - n junction, and various parasitic element are formed. if a resistor is joined to a transi stor terminal as shown in fig 36 . p - n junction works as a parasitic diode if the following relationship is satisfied; gnd>terminal a (at resi stor side), or gnd>terminal b (at transistor side); and if gnd>terminal b (at npn transistor side), a parasitic npn transistor is activated by n - layer of other element adjacent to the above - mentioned parasitic diode. the structure of the ic inevitably forms parasitic elements, the activation of which may cause interference among circuits, and/or malfunctions contributing to breakdown. it is therefore requested to take care not to use the device in such manner that the voltage lower than gnd (at p - subst rate) may be applied to the input terminal, which may result in activation of parasitic elements. fig. 36 simplified structure of monorisic ic 8. ground wiring pattern if small - signal gnd and large - current gnd are provided, it will be recommende d to separate the large - current gnd pattern from the small - signal gnd pattern and establish a single ground at the reference point of the set pcb so that resistance to the wiring pattern and voltage fluctuations due to a large current will cause no fluctua tions in voltages of the small - signal gnd. pay attention not to cause fluctuations in the gnd wiring pattern of external parts as well. 9. selection of inductor it is recommended to use an inductor with a series resistance element (dcr) 0.1 or less. note that use of a high dcr inductor will cause an inductor loss, resulting in decreased output voltage. should this condition continue for a specified period (soft start time + timer latch time), output short circuit protection will be activated and output wi ll be latched off. when using an inductor over 0.1, be careful to ensure adequate margins for variation between external devices and this ic, including transient as well as static characteristics. furthermore, in any case, it is recommended to start up th e output with en after supply voltage is within operation range. status of this document the japanese version of this document is formal specification. a customer may use this translation version only for a referen ce to help reading the formal version. if there are any differences in translation version of this document formal version takes priority. www.rohm.com tsz 0 2201 - 0j3j0aj00100 - 1 - 2 ? rohm co., ltd. all rights reserved. 17 / 17 02.mar.2012 rev.001 tsz22111 ? 15 ? 001 bd9111nv data s heet ordering information b d 9 1 1 1 n v - e2 package nv : son008v5060 packaging and forming specification e2: embossed tape and reel (son00 8v5060) physical dimension tape and reel information marking diagram son008v5060 (top view) b d 9 1 1 1 part number marking lot number 1pin ma rk datasheet d a t a s h e e t notice - rev.001 notice precaution for circuit design 1) the products are designed and produced for applicatio n in ordinary electronic equipment (av equipment, oa equipment, telecommunication equipment, home appliances, amusement equipment, etc.). if the products are to be used in devices requiring extremel y high reliability (medical equipment, transport equipment, aircraft/spacecraft, nuclear power controllers, fuel contro llers, car equipment including car accessories, safety devices, etc.) and whose malfunction or operational error may endanger human life and sufficient fail-safe measures, please consult with the rohm sales staff in advance. if product malfunctions may re sult in serious damage, including that to human life, sufficient fail-safe measures must be taken, including the following: [a] installation of protection circuits or other protective devices to improve system safety [b] installation of redundant circuits in the case of single-circuit failure 2) the products are designed for use in a standard environment and not in any spec ial environments. a pplication of the products in a special environment can deteriorate product per formance. accordingly, verification and confirmation of product performance, prior to use, is recomm ended if used under the following conditions: [a] use in various types of liquid, includin g water, oils, chemicals, and organic solvents [b] use outdoors where the products are exposed to direct sunlight, or in dusty places [c] use in places where the products are exposed to sea winds or corrosive gases, including cl 2 , h 2 s, nh 3 , so 2 , and no 2 [d] use in places where the products are exposed to static electricity or electromagnetic waves [e] use in proximity to heat-producing componen ts, plastic cords, or other flammable items [f] use involving sealing or coating the prod ucts with resin or other coating materials [g] use involving unclean solder or use of water or water-soluble cleaning agents for cleaning after soldering [h] use of the products in places subject to dew condensation 3) the products are not radiation resistant. 4) verification and confirmation of performance characte ristics of products, after on- board mounting, is advised. 5) in particular, if a transient load (a large amount of load applied in a short per iod of time, such as pulse) is applied, confirmation of performance characteristics after on-boar d mounting is strongly recomm ended. avoid applying power exceeding normal rated power; exceeding the power rating under steady-state loading c ondition may negatively affect product performance and reliability. 6) de-rate power dissipation (pd) depending on ambient temperature (ta). when used in sealed area, confirm the actual ambient temperature. 7) confirm that operation temper ature is within the specified range described in product specification. 8) failure induced under deviant condition from what def ined in the product specific ation cannot be guaranteed. precaution for mounting / circuit board design 1) when a highly active halogenous (chlori ne, bromine, etc.) flux is used, the remainder of fl ux may negatively affect product performance and reliability. 2) in principle, the reflow soldering method must be used; if flow soldering method is preferred, please consult with the company in advance. regarding precaution for mounting / circu it board design, please specially refe r to rohm mounting specification precautions regarding application examples and external circuits 1) if change is made to the constant of an external circuit, allow a sufficient margin due to variations of the characteristics of the products and external components, including transient characteristics, as well as static characteristics. 2) the application examples, their const ants, and other types of information cont ained herein are applicable only when the products are used in accordance with standard methods . therefore, if mass production is intended, sufficient consideration to external conditions must be made. datasheet d a t a s h e e t notice - rev.001 precaution for electrostatic this product is electrostatic sensitive product, which may be damaged due to electrostatic discharge. please take proper caution during manufacturing and st oring so that voltage exceeding product ma ximum rating won't be applied to products. please take special care under dry condition (e.g. grounding of human body / equipment / so lder iron, isolation from charged objects, setting of ionizer, friction prevention and temperature / humidity control). precaution for storage / transportation 1) product performance and soldered connections may deteriorate if the products are stored in the following places: [a] where the products are exposed to sea winds or corrosive gases, including cl2, h2s, nh3, so2, and no2 [b] where the temperature or humidity exceeds those recommended by the company [c] storage in direct sunshine or condensation [d] storage in high electrostatic 2) even under rohm recommended storage c ondition, solderability of products out of recommended storage time period may be degraded. it is strongly recommended to confirm sol derability before using products of which storage time is exceeding recommended storage time period . 3) store / transport cartons in the correct direction, whic h is indicated on a carton as a symbol. otherwise bent leads may occur due to excessive stress applied when dropping of a carton. 4) use products within the specified time after opening a dry bag. precaution for product label qr code printed on rohm product label is only for internal us e, and please do not use at cust omer site. it might contain a internal part number that is inconsistent with an product part number. precaution for disposition when disposing products please dispose them properly with a industry waste company. precaution for foreign exchange and foreign trade act since concerned goods might be fallen under controlled goods prescribed by foreign exchange and foreign trade act, please consult with rohm in case of export. prohibitions regarding industrial property 1) information and data on products, including application exam ples, contained in these specifications are simply for reference; the company does not guarantee any industrial pr operty rights, intellectual property rights, or any other rights of a third party regarding this information or data. ac cordingly, the company does not bear any responsibility for: [a] infringement of the intellectual property rights of a third party [b] any problems incurred by the us e of the products listed herein. 2) the company prohibits the purchaser of its products to exercise or use the in tellectual property rights, industrial property rights, or any other rights that either belong to or are controlled by the company, other than the right to use, sell, or dispose of the products. |
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