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| AL8807BQ document number: ds37011 rev. 1 - 2 1 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ automotive grade 30v 1.3a pwm dimmable buck led driver description the AL8807BQ is a step - down dc/dc converter designed to drive leds with a constant current. the device can drive up to 9 leds, de pending on the forward voltage of the leds, in series from a voltage source of 6v to 30 v. series connection of the leds provides identical led currents resulting in uniform brightness and eliminating the need for ballast resistors. the AL8807BQ switches at frequency up to 1mhz with controlled rise and fall times to reduce emi. this allows the use of small size external components, hence minimizing the pcb area needed. maximum output current of AL8807BQ is set via an external resistor connected between the v in and set input pins. dimming is achieved by applying a pwm signal at the ctrl input pin. an input voltage of 0.4v or lower at ctrl switches off the output mosfet simplifying pwm dimming . features ? ? ? ? ? ? ? ? ? ? available in green molding compound (no br, sb) ? totally lead - free & fully rohs compliant (notes 1 & 2) ? halogen and antimony free. green device (note 3) ? ? qualified to aec - q100 standards for high reliability ? ppap capable (note 4) pin assignments applications ? notes: 1. no purposely added lead. fully eu directive 2002/95/ec (rohs) & 2011/65/eu (rohs 2) compliant. 2. see http://www.diodes.com/quality/lead_free.html for more information about diodes incorporateds definitions of halogen - and antimony - free, "green" and lead - free. 3. halogen - and antimony - free "green products are defined as those which contain <900ppm bromi ne, <900ppm chlorine (<1500ppm total br + cl) and <1000ppm antimony compounds. 4. automotive products are aec - q100 qualified and are ppap capable. automotive, aec - q100 and standard products are electrically and thermally the same, except where specified. for more information, please refer to http://www.diodes.com/quality/product_compliance_definitions/. typical application circuit (top view) msop-8ep set gnd gnd ctrl v in n/c sw sw
AL8807BQ document number: ds37011 rev. 1 - 2 2 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ pin description s pin name pin number function set 1 set nominal output current pin. configure the output current of the device. gnd 2, 3 gnd pin s ctrl 4 dimming and on/off control input. ? leave floating for normal operation. (v ctrl = v ref = 2.5v giving nominal average output current i outnom = 0.1/r s ) ? drive to voltage below 0.4v to turn off output current ? a pwm signal ( ? 2.5v) allows the output current to be adjusted below the level set by the resistor connected to set input pin. sw 5, 6 switch pin. connect inductor/freewheeling diode here, minimizing track length at this pin to reduce emi. n/c 7 no connection v in 8 input supply pin. must be locally decoupled to gnd with > 2.2f x7r ceramic capacitor C see applications section for more information. ep ep exposed pad/tab connects to gnd and thermal mass for enhanced thermal impedance. should not be used as electrical ground conduction path. functional block diagram AL8807BQ document number: ds37011 rev. 1 - 2 3 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ absolute maximum ratings symbol parameter ratings unit esd hbm human body model esd protection 4 kv esd mm machine model esd protection 3 00 v esd cdm charged device model esd protection 1000 v v in continuous v in p in v oltage r elative to gnd - 0.3 to + 40 v v sw sw v oltage r elative to gnd - 0.3 to + 40 v v ctrl ctrl p in i nput v oltage - 0.3 to + 6 v i sw - rms dc or rms switch c urrent msop - 8ep 1.6 a i sw - pk peak switch c urrent (<10%) 2.5 a t j junction temperature +150 c t lead lead temperature soldering +300 c t st storage temperature range - 65 to +150 c caution: stresses greater than the 'absolute maximum ratings' specified above, may cause permanent damage to the device. these are str ess ratings only; functional operation of the device at these or any other conditions exceeding those indicated in this specification is not im plied. device reliability may be affected by exposure to absolute maximum rating conditions for extended periods of time . se miconductor devices are esd sensitive and may be damaged by exposure to esd events. suitable esd precautions should be taken when handling and transporting these devices. semiconductor devices are esd sensitive and may be damaged by exposure to esd events . suitable esd precautions should be taken when handling and transporting these devices. recommended operating conditions symbol parameter min max unit v in operating input voltage r elative to gnd 6.0 30 v v ctrlh voltage high for pwm d imming r elative to gnd 2.5 5.5 v v ctrll voltage low for pwm d imming r elative to gnd 0 0.4 v f sw maximum s witching f requency 1 mhz i sw continuous s witch c urrent 1.3 a t j junction temperature range - 40 +125 c electrical characteristics (v in = 12v, @ t a = +25c, unless otherwise specified.) symbol parameter conditions min typ max unit v insu internal regulator start up t hreshold v in rising 5.9 v v insh internal regulator hysteresis t hreshold v in falling 100 300 mv i q quiescent c urrent output not switching (note 5 ) 350 a i s input s upply current ctrl pin floating f = 250khz 1.8 5 ma v th set c urrent threshold voltage 95 100 105 mv v th - h set threshold h ysteresis 15 mv i set set pin input c urrent v set = v in - 0.1 16 22 a r ctrl ctrl pin input r esistance referred to internal reference 50 k ? v ref internal reference voltage ? 2.5 v r ds(on ) on resistance of sw mosfet i sw = 1a 0.25 0.4 ? t r sw r ise t ime v sense = 100 20mv f sw = 250khz v sw = 0.1v~12v~0.1v c l = 15pf 12 ns t f sw f all t ime 20 ns t otp over - temperature shutdown 155 ? c t otp - hyst over - temperature hysteresis 55 ? c i sw_leakage switch l eakage c urrent v in = 30 v 0.5 a ja thermal resistance junction - to - ambient (note 6 ) (note 7 ) 69 ? c/w jc thermal resistance junction - to - case (note 8 ) (note 7 ) 4.3 notes: 5 . AL8807BQ does not have a low power standby mode but current consumption is reduced when output switch is inhibited: v sense = 0v. parameter is tested with v ctrl 2.5v . 6 . refer to figure 3 9 for the device derating curve. 7 . test condition for msop - 8ep: device mounted on fr - 4 pcb (51mm x 51mm 2oz copper, minimum recommended pad layout on top layer and thermal vias to bottom layer with maximum area groun d plane. for better thermal performance, larger copper pad for heat - sink is needed . 8 . dominant conduction path is via exposed pad. AL8807BQ document number: ds37011 rev. 1 - 2 4 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ typical performance characteristics (@ t a = +25c, unless otherwise specified.) figure 1. supply current (notswitching vs. input voltage figure 2 i ctrl vs. v ctrl figure 3 v ctrl vs. input voltage (ctrl pin open circuit) figure 4 v ctrl vs. temperature figure 5 sw r ds(on) vs. input voltage figure 6 sw r ds(on) vs. temperature -40 -15 35 60 110 10 85 ambient temperature ( c) figure 9. sw r vs. temperature ? ds(on) v = open v = v = 12v ctrl set in 400 250 150 100 r ( m ) d s ( o n ) ? 350 300 200 -40 -15 10 35 60 85 110 ambient temperature (c) figure 6. v vs. temperature ctrl 2.52 2.51 2.50 2.49 2.48 v ( v ) c t r l v = open v = v = 12v ctrl set in AL8807BQ document number: ds37011 rev. 1 - 2 5 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ typical performance characteristics ( cont.) ( @ t a = +25c, unless otherwise specified.) figure 7 i led vs. pwm duty cycle figure 8. duty cycle vs. input voltage figure 9. efficiency vs. input voltage figure 10. on - time vs. input voltage figure. 1 1 sw output rise time figure. 1 2 sw output fall time AL8807BQ document number: ds37011 rev. 1 - 2 6 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ typical performance characteristics ( 670ma led current ) ( @ t a = +25c, unless otherwise specified.) figure 13. led current deviation vs. input voltage figure 14. switching frequency vs. input voltage figure 15. led current deviation vs. input voltage figure 16. switching frequency vs. input voltage figure 17. led current deviation vs. input voltage figure 18. switching frequency vs. input voltage AL8807BQ document number: ds37011 rev. 1 - 2 7 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ typical performance characteristics ( 1a led current) ( @ t a = +25c, unless otherwise specified.) figure 19. led current deviation vs. input voltage figure 20. switching frequency vs. input voltage figure 21. led current deviation vs. input voltage figure 22. switching frequency vs. input voltage figure 23. led current deviation vs. input voltage figure 24. switching frequency vs. input voltage AL8807BQ document number: ds37011 rev. 1 - 2 8 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ typical performance characteristics ( 1.3a led current) ( @ t a = +25c, unless otherwise specified.) figure 25. led current deviation vs. input voltage figure 26. switching frequency vs. input voltage figure 27. led current deviation vs. input voltage figure 28. switching frequency vs. input voltage figure 29. led current deviation vs. input voltage figure 30. switching frequency vs. input voltage AL8807BQ document number: ds37011 rev. 1 - 2 9 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ application information the AL8807BQ is a hysteretic (also known as equal ripple) led driver with integrated power switch. it is available in two packages that pr ovide a pcb area - power dissipation capability compromise. it is recommended that at higher led currents/smaller pcbs that the msop - 8ep version is used to maximize the allowable led current over a wider ambient temperature range. AL8807BQ operation in normal operation, when voltage is applied at +v in , the AL8807BQ internal switch is turned on. current starts to flow through sense resistor r 1 , inductor l1, and the leds. the current ramps up linearly, and the ramp rate is determined by the input voltage +vin and the i nductor l1. this rising current produces a volta ge ramp across r 1 . the internal circuit of the AL8807BQ senses the voltage across r 1 and applies a proportional voltage to the input of the internal comparator. when this voltage reaches an internally set upper threshold, the internal switch is turned of f. the inductor current continues to flow through r 1 , l1, the leds and the schottky diode d1, and back to the supply rail, but it decays, with the rate of decay determined by the forw ard voltage drop of the leds and the schottky diode. this decaying current produces a falling voltage at r 1 , which is sensed by the AL8807BQ . a voltage proportional to the sense voltage across r 1 is applied at the input of the internal comparator. when this voltage falls to the internally set lower threshold, the internal switch is turned on again. this switch - on - and - off cycle continues to provide the average led current set by the sense resistor r 1 . led current control the led current is controlled by the resistor r1 in figure 31. figure 31 typical application circuit figure 32 typical operating waveform (c2 not fitted) connected between v in and set the nominal average output current in the led(s) is defined as: for example for a desired led current of 660ma and a default voltage v ctrl =2.5v the resulting resistor is: 1 r v i thd led ? ? ? ? ? m 150 66 . 0 1 . 0 i v 1 r led thd v in = 12v t a =25oc 2 leds 20ns/div no c2 ch2: 2v/div ch4: 100ma/div ch4: led current ch2: sw pin AL8807BQ document number: ds37011 rev. 1 - 2 10 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ applications information (cont.) pwm dimming led current can be adjusted digitally, by applying a low frequency pulse width modulated (pwm) logic signal to the ctrl pin t o turn the device on and off. this will produce an average output current proportional to the duty cycle of the control signal. in particular, a pwm signal with a max resolution of 10bit can be applied to the ctrl pin to change the output current to a value below the nominal average value set by resistor r set . figure 33 pwm dimming waveforms (f pwm = 500hz, 25% duty cycle f sw(nom) = 530khz) while the pwm pin is high, the AL8807BQ switches as normal. when the pwm pin is brought low the output switch is turned off causing the sw pin to go high (one schottky voltage drop above v in ). it remains high (one schottky voltage drop a bove v in ) until the current through the inductor falls to zero. the time taken for the inductor current is dependent on the led current, inductor value and led chain voltage. as the duty cycle gets smaller or pwm dimming frequency increases then fewer nor mal hysteretic switching cycles occur which will affect the overall average led current. figure 34 pwm dimming waveforms (f pwm = 500hz, 2% duty cycle f sw(nom) = 530khz) to achieve high resolution the pwm frequency has to be much lower than the nominal switching frequency and the led current output filter capacitor across the leds must not be used. the figures above have an led current output filter present. AL8807BQ document number: ds37011 rev. 1 - 2 11 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ applications information (cont.) figures 35 and 36 show the pwm dimming performance of the AL8807BQ with a range of pwm frequencies with a nominal switching frequency of 530khz. figure 3 5 pwm dimming at 5 3 0 k hz nominal switching frequency looking at difference between duty cycle and percentage of full scale led current yields a linearity error : figure 3 6 pwm dimming non - linearity at 5 3 0 k hz nominal switching frequency the accuracy of the pwm dimming is affected by both the pwm frequency and also the switching frequency of the AL8807BQ . for best accuracy/resolution the switching frequency should be increased while the pwm frequency should be reduced. the ctrl pin is designed to be driven by both 3.3v and 5v logic levels directly from a logic output with either an open drain output or push pull output stage. AL8807BQ document number: ds37011 rev. 1 - 2 12 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ applications information (cont.) reducing output r ipple peak to peak ripple current in the led(s) can be reduced, if required, by shunting a capacitor c2 across the led(s) as shown already in the circuit schematic. a value of 1f will reduce the supply ripple current by a factor three (approx.). proportionally lower ripple can be achieved with higher capacitor values. note that the capacitor will not affect operating frequency or efficiency, but it will increase start - up delay, by reducing the rate of rise of led voltage. by adding this capacitor the current waveform through the led(s) changes from a triangular ramp to a more sinuso i dal version without altering the mean current value. capacitor selection the small size of ceramic capacitors makes them ideal for AL8807BQ applications. x5r and x7r types are recommended because they retain their capacitance over wider voltage and temper ature ranges than other types such as z5u. a 2.2f input capacitor is sufficient for most intended applications of AL8807BQ ; however a 4.7f input capacitor is suggested for input voltages approaching 30 v. diode selection for maximum efficiency and performance, the rectifier (d1) should be a fast low capacitance schottky diode with low reverse leakage at the maximum operating voltage and temperature. the schottky diode also provides better efficiency than silicon pn diodes, due to a combination of l ower forward voltage and reduced recovery time. it is important to select parts with a peak current rating above the peak coil current and a continuous current rating higher than the maximum output load current. in particular, it is recommended to have a diode voltage rating at least 15% higher than the operating voltage to ensure safe operation during the switching and a current rating at least 10% higher than the average diode current. the power rating is verified by calculating the power loss through the diode. schottky diodes, e.g. b240 or b140, with their low forward voltage drop and fast reverse recovery, are the ideal choice for AL8807BQ applications. inductor selection as the al8807b is a hysteretic converter the switching frequency is depende nt on inductor value and the potential difference between the led chain voltage and input voltage. higher values of inductance are recommended at higher supply voltages in order to minimize errors due to switching delays, which result in increased ripple a nd lower efficiency. higher values of inductance also result in a smaller change in output current over the supply voltage range (see graphs). based on this r ecommended inductor values for the AL8807BQ are in the range 33h to 100h. to allow higher pwm dimming frequencies larger switching frequencies (see pwm dimming section) are required which necessitates the use smaller inductor values (for example down to 4.7h) . figure 3 7 inductor value with input voltage and number of leds the inductor should be mounted as close to the device as possible with low resistance/stray inductance connections to the sw pin. AL8807BQ document number: ds37011 rev. 1 - 2 13 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ applications information (cont.) inductor selection (cont.) the chosen coil should have a saturation current higher than the peak output current and a continuous current rating above the required mean output current. suitable coils for use with the AL8807BQ are listed in the table below: part no. l (h) dcr (v) i sat (a) manufacturer mss1038 - 333 33 0.093 2.3 coilcraft www.coilcraft.com mss1038 - 683 68 0.213 1.5 npis64d330mtrf 33 0.124 1.1 nic www.niccomp.com the inductor value should be chosen to maintain operating duty cycle and switch 'on'/'off' times over the supply voltage and load current range. the following equations can be used as a guide, with reference to figure 3 8 C typical switching waveforms. switch on time switch off time where: l is the coil inductance (h) r l is the coil resistance ( ) r s is the current sense resistance ( ) i avg is the required led current (a) i is the coil peak - peak ripple current (a) {internally set to 0.3 x iavg} v in is the supply voltage (v) figure 3 8 typical switching waveform v led is the total led forward voltage (v) r sw is the switch resistance ( ) {=0.5 nominal} v d is the diode forward voltage at the required load current (v) thermal protection the AL8807BQ includes over - temperature protection (otp) circuitry that will turn off the device if its junction temperature gets too high. this is to protect the device from excessive heat damage. the otp circuitry includes thermal hysteresis that will cause the devic e to restart normal operation once its junction temperature has cooled down by approximately 55c. thermal c onsiderations for continuous conduction mode of operation, the absolute maximum junction temperature must not be exceeded. the maximum powe r dissi pation depends on several factors: the thermal resistance of the ic package ? ja , pcb layout, airflow surrounding the ic, and difference between junction and ambient temperature. the maximum power dissipation can be calculated using the following formula: p d(max) = (t j(max) ? t a ) / ? ja where t j(max) is the maximum operating junction temperature ? maximum recommended = 125c t a is the ambient temperature, and ? ja is the junction to ambient thermal resistance. ? ja , is layout dependent and package dependent; the AL8807BQ s ? ja on a n fr4 51x51mm pcb with 2oz copper standing in still air is approximately 69 c/w. so the maximum power dissipation at t a = + 25c is : p d(max) = (125c ? 25c) / ( 69 c/w) = 1 .4 1 w for the above dimensioned pcb ? ? r r x i v v i l t l s avg d led off ? ? ? ? ? ? ? r r r x i v v i l t sw l s avg led in on ? ? ? ? ? ? v in = 12v t a =25oc 2 leds 20ns/div sw pin: 2v/div on off AL8807BQ document number: ds37011 rev. 1 - 2 14 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ applications information (cont.) figure 3 9 , shows the power derating of the AL8807BQ on an fr4 51x51mm pcb with 2oz copper standing in still air. changing the pcb dimensions, material, amount of metal associated with the thermal and other pcb components will change the AL8807BQ s junction - ambient thermal impedance. figure 3 9 derating curve for different pcb soft - start the AL8807BQ does not have in - built soft - start action; this can be seen in figure 40 . figure 40 led current start - up (v in = 12v, i led = 667ma, 2 leds) at power C up v in rises exponentially, due to the bulk capacitor, the internal reference will reach 2.5v before v in reaches the under - voltage lock - out turn - on threshold at around 5.6v. this causes the ctrl pin voltage to rise and reaches 2.5v C 100% led current - before the AL8807BQ fully turns on. when the AL8807BQ turns on, its output switch turns on causing the ind uctor current to increase until it reaches the upper threshold of the sense current level and the switching process begins. as the ctrl pin only has pwm functionality, placing a capacitor on the ctrl pin will have no effect on the ramp - up of the led curre nt; the capacitor will just delay the ramp - up of the led current and delay/extend the ramp - down of the led current . if some form of extra soft - start is required then the al880 6q or al880 7 q should be considered. msop-8ep 0 200 400 600 800 1000 1200 1400 1600 -40 -25 -10 5 20 35 50 65 80 95 110 125 ambient temperature (c) power dissipation (mw) AL8807BQ document number: ds37011 rev. 1 - 2 15 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ applications information (cont.) emi and layout considerations the AL8807BQ is a switching regulator with fast edges and measures small differential voltages; as a result of this care has to be taken w ith decoupling and layout of the pcb. to help with these effects the AL8807BQ has been developed to minimise radiated emissions by controlling the switching speeds of the internal power mosfet. the rise and fall times are controlled to get the right compromise between po wer dissipation due to switching losses and radiated emi. th e turn - on edge (falling edge) dominates the radiated emi which is due to an interaction between the schottky diode (d1), switching mosfet and pcb tracks. after the schottky diode reverse recovery time of around 5ns has occur red; the falling edge of the sw pin sees a resonant loop between the schottky diode capacitance and the track inductance, l track , see f igure 41 . the tracks from the sw pin to the anode of the schottky diode, d1, and then from d1s cathode to the decoupling capacitors c1 should be as sh ort as possible. there is an inductance internally in the AL8807BQ this can be assumed to be around 1nh. for pcb tracks a figure of 0.5nh per mm can be used to estimate the primary resonant frequency. if the track is capable of handling 1a increasing the thickness will have a minor effect on the inductance and length will dominate the size of the inductance. the resonant frequency of any oscillation is d etermined by the combined inductance in the track and the effective capacitance of the schottky diode . figure 41 pcb loop resonance recommendations for minimising radiated emi and other transients and thermal considerations are: 1. the decoupling capacitor (c1) has to be placed as close as possible to the v in pin and d1 cathode 2. the freewheeling diodes (d1) anode, the sw pin and the inductor have to be placed as close as possible to each other to avoi d ringing. 3. the ground return path from c1 must be a low impedance path with the ground plane as large as possible 4. the led current sense resistor (r1) has to be placed as close as possible to the v in and set pins. 5. the majority of the conducted heat from the AL8807BQ is through the exposed pad underneath the msop - ep package . a maximum earth plane with thermal vias into a second earth plane will minimise self - heating 6. to reduce emissions via long leads on the supply input and leds low rf impedance capacitors (c2 and c5) should be used at the point the wires are joined to the pcb AL8807BQ document number: ds37011 rev. 1 - 2 16 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ applications information (cont.) fault condition operation open c ircuit leds the AL8807BQ has by default open led protection. if the leds should become open circuit the AL8807BQ will stop oscillating; the set pin will rise to v in and the sw pin will then fall to gnd. no excessive voltages will be seen by the AL8807BQ . led chain shorted together if the led chain should become shorted together (the anode of the top led becomes shorted to the cathode of the bottom led) t he AL8807BQ will continue to switch and the current through the AL8807BQ s internal switch will still be at the expected current - so no excessive heat will be generated within the AL8807BQ . however, the duty cycle at which it operates will change dramatically and the switching frequency will most likely decrease. see figure 4 3 for an example of this behavior at 24v input voltage driving 3 leds. the on - time of the internal power mosfet switch is significantly reduced because almost all of the input voltage is now dev eloped across the inductor. the off - time is significantly increased because the reverse voltage across the inductor is now just the schottky diode voltage (see f igure 43 ) causing a much slower decay in inductor current. figure 4 3 switching characteristics (normal operation to led chain shorted out) high temperature operation and protection the AL8807BQ is a high efficiency switching led driver capable of operating junction temperatures up to +125c . this allows it operate with ambient temperature in excess of 100c given the correct thermal impedance to free air. if a fault should occur that leads to increased ambient temperatures and hence junction temperature then the over - temperature protection (ot p) of the AL8807BQ will cut - in , turning the output of the AL8807BQ off. this will allow the junction temperature of the AL8807BQ to cool down and potentially giving an opportunity for the fault to clear itself. the otp shutdown junction temperature of the AL8807BQ is approximately +155c with a hysteresis of +55c. this means that the AL8807BQ will never switch - off with a junction temperature below +125c allowing the designer to design the system thermally to fully utilize the wide operating junction temp erature of the AL8807BQ . AL8807BQ document number: ds37011 rev. 1 - 2 17 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ ordering information part number package code packaging (note 9) packing: 13 tape and reel qualification grade (note 1 0 ) quantity tape width part number suffix al8807b q mp - 13 mp msop - 8ep 2500 12mm - 13 automotive grade note: 9. pad layout as shown on diodes inc. suggested pad layout document ap02001, which can be found on our website at http://www.diodes.com/datasheets/ap02001.pdf 1 0 . AL8807BQ ha ve been qualified to aec - q100 grade 1 and is classified as automotive grade which support s ppap documentation. see al8807b datasheet for commercial qualified versions. marking information (1) msop - 8ep part number package AL8807BQ mp - 13 msop - 8ep package outline dimensions (all d imensions in mm . ) please see ap02002 at http://www.diodes.com/datasheets/ap02002.pdf for latest version. msop - 8ep dim min max typ a - 1.10 - a1 0.05 0.15 0.10 a2 0.75 0.95 0.86 a3 0.29 0.49 0.39 b 0.22 0.38 0.30 c 0.08 0.23 0.15 d 2.90 3.10 3.00 d1 1.60 2.00 1.80 e 4.70 5.10 4.90 e1 2.90 3.10 3.00 e2 1.30 1.70 1.50 e3 2.85 3.05 2.95 e - - 0.65 l 0.40 0.80 0.60 a 0 8 4 x - - 0.750 y - - 0.750 all dimensions in mm 1 d a a 1 a 2 e e y x seating plane gauge plane l d 8xb see detail c detail c c a e1 e3 a 3 e 2 4 x 1 0 4 x 1 0 0 . 2 5 d1 AL8807BQ document number: ds37011 rev. 1 - 2 18 of 18 www.diodes.com october 2014 ? diodes incorporated new product AL8807BQ suggested pad layout please see ap02001 at http://www.diodes.com/datasheets/ap02001.pdf for the latest version. important notice diodes incorporated makes no warranty of any kind, express or implied, with regards to this document, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose (and their equivalents under the laws of any jurisdiction). diodes incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to this document and any product described herein. diodes incorporated does not assume any lia bility arising out of the application or use of this document or any product described herein; neither does diodes incorporated convey any license unde r its patent or trademark rights, nor the rights of others. any customer or user of this document or pro ducts described herein in such applications shall assume all risks of such use and will agree to hold diodes incorporated and all the companies whose products are represented on diod es incorporated website, harmless against all damages. diodes incorpora ted does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales chann el. should customers purchase or use diodes incorporated products for any unintended or unauthorized application, customers shall i ndemnify and hold diodes incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising ou t of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized ap plication. products described herein may be covered by one or more united states, international or foreign patents pending. product nam es and markings noted herein may also be covered by one or more united states, international or foreign trademarks. th is document is written in english but may be translated into multiple languages for reference. only the english version of t his document is the final and determinative format released by diodes incorporated. life support diodes incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the chief executive officer of diodes incorporated. as used herein: a. life support devices or systems are devices or systems which: 1. are intended to implant into the body, or 2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided i n the labeling can be reasonably expected to result in significant injury to the user. b. a critical component is any component in a life support device or system whose failure to perform can be reasonably expe cted to cause the failure of the life support device or to affect its safety or effectiven ess. customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support d evices or systems, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety - related re quirements concerning their products and any use of diodes incorporated products in such safety - critical, life support devices or systems, notwithstanding any devices - or systems - related information or support that may be provided by diodes incorporated. further, customers must fully indemnify diodes incorporated and its representatives against any damages arising out of the use of diodes incorporated products in such safety - critical, life support devices or systems. copyright ? 201 4 , diodes incorporated www.diodes.com dimensions value (in mm) c 0.650 g 0.450 x 0.450 x1 2.000 y 1.350 y1 1.700 y2 5.300 g x c y y 2 y 1 x1 |
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