hybrid ic VLA542-01R hybrid ic for driving igbt modules 5.5 max 5.5max 5.5 max 3.0 max 44 max 8 max 0.25 � 0.2 26max 2.54 1 14 �? 0.1 0.5 +0.15 -0.1 4.5+/-1.5 description vla542 is a hybrid integrat ed circuit designed for driving n-channel igbt modules in any gate-amplifier application. this device operates as an isolat ion amplifier for these modules and provides the required elec trical isolation between the input and output with an opto-coupler. recommended igbt modules: v ces = 600v series up to 600a class v ces = 1200v series up to 400a class features ?electrical isolation between input and output with opto-coupler (viso = 2500vrms for 1minute) ?two supply driver topology ?built-in short circuit protection circuit(with a pin for fault out) ?cmos compatible input interface applications to drive igbt modules for inverter or ac servo systems application v cc gate shut- down circuit opto-coupler 2 14 1 5 13 4 8 6 interface v o v ee fault output 240 ohm 3,7,9,10 pin : non connection vi + vi - timer & reset circuit latch block diagram detect circuit outline drawing dimensions : mm detect control pin for t trip
hybrid ic VLA542-01R hybrid ic for driving igbt modules 2 maximum ratings (unless otherwise noted, ta=25c) symbol parameter conditions ratings unit v cc supply voltage dc 18 v v ee -15 v v i input signal voltage applied between; 13pin and 14pin 50% duty cycle, pulse width 1ms -1 ~ +7 v v o output voltage when the output voltage is ?h? v cc v i ohp output peak current pulse width 2us -5 a i olp 5 a viso isolation voltage sine wave voltage 60hz, for 1minute 2500 vrms t c case temperature - 95 c topr operating temperature no condensation allowable -20 ~ +70 c tstg storage temperature no condensation allowable -40 ~ +100 (*1) c i fo fault output current applied 8pin 20 ma v r1 input voltage at 1pin applied 1pin 50 v (*1) differs from h/c condition electrical c haracteristics (unless otherwise noted, ta=25c, v cc = 15v, v ee = -10v, rg = 3.3 ohm) symbol parameter conditions limits unit min typ max v cc supply voltage recommended range 14 15 17 v v ee -7 - -12 v v in pull-up voltage on primary side recommended range 4.75 5 5.25 v i ih ?h? input signal current recommended range 10 13 16 ma f switching frequency recommended range - - 20 khz r g gate resistance recommended range 2 - - ohm i ih ?h? input signal current v in = 5v - 13 - ma v oh ?h? output voltage - 13 14 - v v ol ?l? output voltage - -8 -9 - v t plh ?l-h? propagation time iih=13ma 0.2 0.4 1 s t r ?l-h? rise time iih=13ma - 0.4 1 s t phl ?h-l? propagation time iih=13ma 0.2 0.4 1 s t f ?h-l? fall time iih=13ma - 0.3 1 s t timer timer between start and cancel (under input signal ?off?) 1 - 2 ms i fo fault output current applied 8pin, r = 4.7k ohm - 5 - ma t tri p 1 controlled time detect short circ uit 1 pin1: 15v and more, pin2:open - 2.6 - s t trip2 controlled time detect short circuit 2 (*2) pin1: 15v and more, pin2-4:10pf (connective capacitance) - 3 - s v sc sc detect voltage collector voltage of igbt module 15 - - v (*2) length of wiring of capacitor controlled time detect s hort-circuit is within 5cm fr om pin2 and pin4 coming and going. definition of characteristics (1) switching operation (2) short circuit protection tplh tphl 90% 50% 10% tr tf input signal vi output vo input signal vi 0v 0v 0v output vo 8pin output t trip1,2 -5v 10v 10v t timer
hybrid ic VLA542-01R hybrid ic for driving igbt modules 3 �~ performance curves 0 1 2 3 4 5 6 7 8 0 20406080100 c o n t ro l led t i me d et ec t short circuit t trip (s) connective capacitance c trip (pf) (pin : 2-4) t trip -c trip characteristics typical vcc=15v vee=-10v ta=25 0 1 2 3 4 5 6 -20 0 20 40 60 80 controlled time detect short circuit t trip1 ,t trip2 (s) ambient temperature ta t trip1 ,t trip2 -ta characteristics typical v cc =15v v ee =-10v t trip2 c trip =10pf t trip1 c trip =0 0 0.2 0.4 0.6 0.8 1 3.5 4 4.5 5 5.5 6 propagation delay time "l-h" t plh (s) propagation delay time "h-l" t phl (s) input signal voltage v i (v) t plh ,t phl -v i characteristics typical vcc=15v vee=-10v rg=3.3 ta=25 loadcm400dy-24nf t plh t phl 0 1 2 3 4 5 0 20406080100 power dissipation p d (w) ambient temperature ta power dissipation -ambient temperature characteristics maximum rating rg=2.0 (including the power dissipation of rg 0 10 20 0 1020304050 consumption current (ma) supply voltage v (pin : 4-6) dissipation current -supply voltage (pin : 4-6) input signal"l"typical ta=25 0 0.2 0.4 0.6 0.8 1 -20 0 20 40 60 80 propagation delay time "l-h" t plh (s) propagation delay time "h-l" t phl (s) ambient temperature ta t plh ,t phl -ta characteristics typical vcc=15v vee=-10v rg=3.3 vin=5v loadcm400dy-24nf t plh t phl
hybrid ic VLA542-01R hybrid ic for driving igbt modules 4 v cc = 15v v ee = 10v ctrip = 0 ~ 47pf (rough guide , 50v,ceramic) d1: fast recovery diode (trr 0.2us) rp1h (sanken) etc. precaution (1) voltage compensate capacitors are expected to be located as close as possible from the hybrid ic. (1) d1 requires approximately the same voltage of power modules. (2) if reverse recovery time of d1 is long, pin1 is applied high voltage. in that case, counterplan for protection which insert a zener diode between pin 1 and 6 is necessary like above diagram. (3) in case pin 2 is operating, the ctrip is expected to be wired as close as possible fr om pin 2 and pin 4. (less than 5cm coming and going) application example of single power supply v cc = 24v dz2 : 8.2v , 1/2w r : 2.7k ~3.3kohm operation of protection circuit application circuit example operation flow on dete cting shortcircuit (1) in case the gate voltage is ?h? and the collector voltage is high, this hybrid ic will recognize the circuit as short circuit and immediately reduce the gate voltage. besides, put out an error signal (?l?) which inform that protection circuit is operating at the same time from pin8. (2) the protection circuit reset and resort to ordinary condition if input signal is ?off? when the premised 1~2msec passed. ( ?off? period needs 10us or more ) (3) when the output rises, t he controlled time detect short circuit (typ 2.6us) is set up so that on-time of igbt can be secured properly. it is possible to adjust that ti me by connecting the capacitor (ctrip) between pin2 and 4. vla542 14 13 1 2 5 4 6 vcc vee rg d1 4.7k vin (5v) ctrip 100uf 100uf dz1 hc04 etc. 30v 8 input signal is off clear alarm enable output yes no start detection of short circuit gate shutdown timer start output alarm end of timer 1 ~ 2ms yes no (*) output voltage with protecti on circuit operating is about -lveel+2v vla542 14 13 1 2 5 4 6 vcc rg d1 4.7k vin (5v) ctrip 100uf 100uf dz1 30v 8 dz2 r
hybrid ic VLA542-01R hybrid ic for driving igbt modules 5 for safety using great detail and careful attention are given to the production ac tivity of hics, such as the development, the quality of produc tion, and in it?s reliability. however the reliabi lity of hics depends not only on their own fact ors but also in their condition of usag e. when handling hics, please note the following cautions. cautions packing carrying storage extended storage maximum ratings polarity the materials used in packing hics can only withstand normal external conditions. when exposed to outside shocks, rain and certain env ironmental contaminators, the packing materials will deteriorates. please take care in handling. 1) don?t stack boxes too high. av oid placing heavy materials on boxes. 2) boxes must be positioned correctly during transportation to avoid breakage. 3) don't throw or drop boxes. 4) keep boxes dry. avoid rain or snow. 5) minimal vibration and shock dur ing transportation is desirable. when storing hics, please observe the following notic es or possible deteriorati on of their electrical characteristics, risk of solder ability, and external damage may occur. 1) devices must be stored where fluctuation of te mperature and humidity is minimal, and must not be exposed to direct sunlight. store at the normal temperature of 5 to 30 degrees celsius with humidity at 40 to 60%. 2) avoid locations where corrosive gasses are generated or where much dust accumulates. 3) storage cases must be static proof. 4) avoid putting weight on boxes. when extended storage is necessary, hics must be kept non-processed. when using hics which have been stored for more than one year or under severe conditions, be sure to check that the exterior is free from flaw and other damages. to prevent any electrical damages , use hics within the maximum ratings. the temperature, current, voltage, etc. must not exceed these conditions. to protect hics from destruction and deterioration due to wrong insertion, make sure of polarity in inserting leads into the board holes, conforming to the external view for the terminal arrangement.
hybrid ic VLA542-01R hybrid ic for driving igbt modules 6 oct. 2011 keep safety first in your circuit designs! isahaya electronics corporation puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with t hem. trouble with semiconductors ma y lead to personal injury, fir e or property damage. remember to give due consideration to safety when making your circuit designs , with appropriate measures such as (1) placement of substitutive, auxiliary, (2) use of non-farmable material or (3) pr evention against any malfunction or mishap. notes regarding these materials these materials are intended as a reference to our customers in the selection of the isahaya products best suited to the customer?s application; they don't conv ey any license under any intellectual property rights, or any other rights, belonging isahaya or third party. isahaya electronics corporation assumes no responsibility for any damage, or infringement of any third party's rights, originating in the use of any product data, diagrams, charts or circuit application examples contained in these materials. all information contained in these materi als, including product data, diagrams and c harts, represent information on products at the time of publication of these materials, and are subj ect to change by isahaya electroni cs corporation without notice due to product improvements or other reasons. it is therefor e recommended that customers contact isahaya electronics corporation or an authorized isahaya products distributor for the latest product information before purchasing product listed herein. isahaya electronics corporation products are not designed or m anufactured for use in a device or system that is used under circumstances in which human life is potentially at stak e. please contact isahaya electronics corporation or an authorized isahaya products distributor when considering the use of a product contained herein for any specific purposes, such as apparatus or systems for transportation, vehicular, medical, aerospace, nuclear, or undersea repeater use. the prior written approval of isahaya electr onics corporation is necessary to reprint or reproduce in whole or in part these materials. if these products or technologies are subj ect to the japanese export control restri ctions, they must be exported under a license from the japanese government and cannot be imported into a country other than the approved destination. any diversion or re-export contrary to the export control laws and regulations of japan and/or the country of destination is prohibited. please contact isahaya electronics corporat ion or authorized isahaya products dist ributor for further details on these materials or the products contained therein.
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