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| avago technologies - 1 - description avago technologies asmb-6wd0/6wz0 is a tricolor led in thin dfn6 packaging. it is designed with 6 separate leads enabling higher flexibility in ci rcuitry design for the control of individual color. this led offers high reliability, high intensity light output and a wide viewing angle making it ideally suited for amusement and pachinko machine application. for easy pick & place, the leds are shipped in tape and reel form. each reel is shipped from a single intensity and color bin to provide better intensity and color uniformity. these tricolor leds are compatible with reflow soldering process. features ? diffused encapsulation for uniform light up appearance ? high brightness using alingap and ingan die technology ? wide viewing angle ? compatible with reflow soldering process ? binned in white color for superior color uniformity ? with or without esd protection applications ? amusement lighting ? decorative lighting ? audio system illumination ? gaming machine caution these leds are esd sensitive. please observe appropriate precautions during handling and processing. refer to avago application note an-1142 for additional details. caution it is advised that leds are kept in the mbb when not in use, as prolonged exposure to environment might cause the silver plated leads to tarnish, which might cause difficulties in soldering. asmb-6wd0/asmb-6wz0 rgbw thin dfn6 led data sheet
avago technologies - 2 - asmb-6wd0/asmb-6wz0 data sheet package dimensions package dimensions with esd protection without esd protection notes: 1. all dimensions are in millimeter (mm). 2. unless otherwise specified, tolerance is 0.2mm. 3. encapsulation = silicone 4. terminal finish = silver plating lead configuration 1 cathode(green) 2cathode(red) 3cathode (blue) 4anode (blue) 5anode (red) 6 anode (green) avago technologies - 3 - asmb-6wd0/asmb-6wz0 data sheet device selection guide device selection guide absolute maximum ratings (t j = 25 c) notes: 1. duty factor = 10%, frequency = 1 khz. part number esd protection asmb-6wd0-0a101 without esd protection ASMB-6WZ0-0A101 with esd protection parameter red green & blue unit dc forward current 50 30 ma peak forward current [1] 100 100 ma power dissipation 130 111 mw reverse voltage not recommended for reverse bias junction temperature 100 c operating temperature range C40 to +85 c storage temperature range C40 to +100 c avago technologies - 4 - asmb-6wd0/asmb-6wz0 data sheet optical characteristics (tj = 25 c) optical characteristics (t j = 25 c) individual color light up rgb mix white notes: 1. the luminous intensity iv is measured at the mechanical axis of led package and it is tested with single current pulse. the a ctual peak of the spatial radiation pattern may not be aligned with the axis. 2. the dominant wavelength is derived from the cie chromaticity diagram and represents the perceived color of the device. electrical characteristics (t j = 25 c) notes: 1. tolerance 0.1 v. 2. indicates product final test condition. long terms reverse bias is not recommended. 3. for part number with esd protection. color luminous intensity, iv (mcd) [1] dominant wavelength, d (nm) [2] test current, i f (ma) min. typ. max. min. typ. max. red 500 750 1150 618 624 628 20 green 1000 1800 2400 520 524 530 blue 220 340 500 462 466 472 color luminous intensity, iv (mcd) [1] chromaticity coordinate test current, i f (ma) min typ max typ red 1600 1900 2600 0.30, 0.30 14 green 11 blue 9 color forward voltage, v f (v) @ i f =20ma [1] reverse voltage, v r @ 10 a [2] reverse voltage, v r @ 10 a [2, 3] thermal resistance, r j-s (c/w) 1 chip on 3 chips on min typ max min min typ typ red 1.8 2.1 2.6 4 4 240 240 green 2.7 3.0 3.7 4 na 320 320 blue 2.7 3.0 3.7 4 na 320 320 avago technologies - 5 - asmb-6wd0/asmb-6wz0 data sheet bin information bin information intensity bins (cat) tolerance: 12% chromaticity diagram white color bins (bin) tolerance: 0.01 bin id luminous intensity (mcd) min max a 1600 2600 0.21 0.23 0.25 0.27 0.29 0.31 0.33 0.35 0.37 0.21 0.23 0.25 0.27 0.29 0.31 0.33 0.35 0.37 x coordinate y coordinate 2 3 7 6 5 4 1 8 bin id chromaticity coordinate cx cy 1 0.270 0.340 0.265 0.320 0.305 0.320 0.310 0.340 2 0.265 0.320 0.260 0.300 0.300 0.300 0.305 0.320 3 0.260 0.300 0.255 0.280 0.295 0.280 0.300 0.300 4 0.255 0.280 0.250 0.260 0.290 0.260 0.295 0.280 5 0.310 0.340 0.305 0.320 0.345 0.320 0.350 0.340 6 0.305 0.320 0.300 0.300 0.340 0.300 0.345 0.320 7 0.300 0.300 0.295 0.280 0.335 0.280 0.340 0.300 8 0.295 0.280 0.290 0.260 0.330 0.260 0.335 0.280 avago technologies - 6 - asmb-6wd0/asmb-6wz0 data sheet performance performance figure 1 relative intensity vs wavelength fi gure 2 forward current vs forward voltage 0.0 0.2 0.4 0.6 0.8 1.0 380 430 480 530 580 630 680 730 relative intensity wavelength - nm red blue green 0 10 20 30 40 50 01234 forward current - ma forward voltage - v red green/blue figure 3 relative intensity vs forward current figure 4 dominant wavelength shift vs forward current 0.0 0.5 1.0 1.5 2.0 2.5 3.0 0 1020304050 relative luminous intensity forward current - ma red green blue -4 -2 0 2 4 6 8 10 12 0 1020304050 dominant wavelength shift - nm forward current - ma red green blue figure 5 relative intensity vs junction temperatur e figure 6 forward voltage vs junction temperature 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 -40 -20 0 20 40 60 80 100 relative intensity t j - junction temperature - c red green blue -0.2 -0.1 0.0 0.1 0.2 0.3 0.4 -40 -20 0 20 40 60 80 100 forward voltage shift - v t j - junction temperature - c blue red green avago technologies - 7 - asmb-6wd0/asmb-6wz0 data sheet performance figure 7 maximum forward current vs temperature for red (1chip on) figure 8 maximum forward current vs temperature for red (3chips on) 0 10 20 30 40 50 60 0 20406080100 maximum forward current - ma temperature (c) t s t a 0 10 20 30 40 50 60 020406080100 maximum forward current - ma temperature (c) t a t s figure 9 maximum forward current vs temperature for green & blue (1chip on) figure 10 maximum forward current vs temperature for green & blue (3chips on) 0 10 20 30 40 0 20406080100 maximum forward current - ma temperature (c) t s t a 0 10 20 30 40 0 20406080100 maximum forward current - ma temperature (c) t a t s note: maximum forward current graphs based on ambient temperature, t a are with reference to thermal resistance r j-a below. condition thermal resistance from led junction to ambient, r j-a (c/w) red green / blue 1 chip on 410 490 3 chips on 580 660 avago technologies - 8 - asmb-6wd0/asmb-6wz0 data sheet performance figure 11 radiation pattern along x-axis of the package f igure 12 radiation pattern along y-axis of the package 0.0 0.2 0.4 0.6 0.8 1.0 -90 -60 -30 0 30 60 90 normalized intensity angular displacement - degree - green red blue 0.0 0.2 0.4 0.6 0.8 1.0 -90 -60 -30 0 30 60 90 normalized intensity angular displacement - degree red blue green figure 13 illustration of package axis for radiation pattern figure 14 carrier tape note: all dimension in mm, tolerance is 0.20 unless otherwise specific avago technologies - 9 - asmb-6wd0/asmb-6wz0 data sheet reel dimensions and orientation reel dimensions and orientation figure 15 reel dimensions figure 16 reeling orientation 10.50 1.0 (0.413 0.039) 59.60 1.00 (2.346 0.039) 20.20 min. ( 0.795 min.) 6 ps 178.40 1.00 (7.024 0.039) 3.0 0.5 (0.118 0.020) 4.0 0.5 (0.157 0.020) 5.0 0.5 (0.197 0.020) 13.1 0.5 (0.516 0.020) 8.0 1.0 (0.315 0.039) ? ? package marking user feed direction printed label avago technologies - 10 - asmb-6wd0/asmb-6wz0 data sheet packing label packing label standard label (attached on moisture barrier bag) baby label (attached on plastic reel) (1p) item: part number (1t) lot: lot number lpn: (9d)mfg date: manufacturing date (p) customer item: (v) vendor id: deptid: made in: country of origin (q) qty: quantity cat: intensity bin bin: color bin (9d) date code: date code standard label ls0002 rohs compliant halogen free e4 max temp 260c msl4 (1p) part #: part number (1t) lot #: lot number (9d)mfg date: manufacturing date c/o: country of origin (1t) tape date: quantity: packing quantity d/c: date code vf: cat: intensity bin bin: color bin baby label cosb001b v0.0 (9d): date code: avago technologies - 11 - asmb-6wd0/asmb-6wz0 data sheet soldering soldering recommended lead free re flow soldering condition: a. reflow soldering must not be done more than 2 times. do observe necessary precautions of handling moisture sensitive device as stated in below section. b. recommended land pattern and re commended board reflow direction: c. do not apply any pressure or force on the led during reflow and after reflow when the led is still hot. d. do not touch the led body wi th hot soldering iron except the soldering te rminals as it may cause damage to the led. e. for de-soldering, it is recommended to use suitable soldering iron tip. f. user is advised to confirm beforehand wh ether the functionality and performance of the led is affected by hand soldering. 217 c 200 c 60 - 120 sec. 6 c/sec. max. 3 c/sec. max. 3 c/sec. max. 150 c 255 - 260 c 100 sec. max. 10 to 30 sec. time temperature 2.16 0.65 2.5 0.5 4.5 0.35 avago technologies - 12 - asmb-6wd0/asmb-6wz0 data sheet precautionary notes precautionary notes handling precautions handling of moisture sensitive device this product has a moisture sensitive level 4 rating per jedec j- std-020. refer to avago application note an5305, handling of moisture sensitive surface mount devices, for additional details and a review of proper handling procedures. a. before use an unopened moisture barrier bag (mbb) can be stored at <40c/90%rh for 12 months. if the actual shelf life has exceeded 12 months and the humidity indicator card (hic) indicates that baking is not required, then it is safe to reflow the leds per the original msl rating. it is recommended that the mbb not be opened prior to assembly (e.g. for iqc). b. control after opening the mbb the humidity indicator card (hic) shall be read immediately upon opening of mbb. the leds must be kept at <30c / 60%rh at all times and all high temperature related pr ocesses including soldering, curing or rework need to be completed within 72 hours. c. control for unfinished reel unused leds must be stored in a sealed mb b with desiccant or desiccator at <5%rh. d. control of assembled boards if the pcb soldered with the leds is to be subjected to other high temperature processes, the pcb need to be stored in sealed mbb with desiccant or de siccator at <5%rh to ensure that all leds ha ve not exceeded their floor life of 72 hours. e. baking is required if: the hic indicator is not blue at 10% and is pink at 5%. the leds are exposed to condition of >30c / 60% rh at any time. the led floor life exceeded 72hrs. the recommended baking condition is: 605oc for 24hrs baking should be performed only once. f. storage the soldering terminals of these avago leds are silver plated. if the leds are exposed in ambient environment for too long, the silver plating might be oxidized and thus affecting its solderability performance. as such, unused leds must be kept in sealed mbb with desiccant or in desiccator at <5%rh. a. do not poke sharp objects into the encapsulant. sharp object like tweezers or syringes might apply excessive force or even pierce through the encapsulant and induce failures to the led die or wire bond. b. do not touch the encapsulant. uncontrolled fo rce acting on the encapsulant might result in excessive stress on the wire bond. the led should only be held by the body. c. do no stack assembled pcbs together. use an appropriate rack to hold the pcbs. d. to remove foreign particles on the surface of encapsulant, a cotton bud can be used with isopropyl alcohol (ipa). during cleaning, rub th e surface gently without putting much pressure. ultrasonic cleaning is not recommended. e. for automated pick and place, avago has tested nozzle size below to be working fine with this led. however, due to the possibility of variati ons in other parameters such as pick and place machine maker/model and other se ttings of the machine, customer is recommended to verify the nozzle selected will not cause damage to the led. id od id = 1.7mm od = 3.5mm avago technologies - 13 - asmb-6wd0/asmb-6wz0 data sheet precautionary notes application precautions a. drive current of the led must not exceed the maximum allo wable limit across temperature as stated in the datasheet. constant current driving is recommended to ensure consistent performance. b. leds do exhibit slightly different characteristics at differen t drive currents that might result in larger performance variat ions (i.e., intensity, wavelength, and forward voltage). the user is recommended to set the application current as close as possible to the test current to minimize these variations. c. led is not intended for reverse bias. do use other appropriat e components for such purpose. when driving the led in matrix form, it is crucial to ensure that the reverse bias voltage is not exceeding the allowable limit of the led. d. do not use the led in the vicinity of ma terial with sulfur content, in environm ent of high gaseous sulfur compound and corrosive elements. examples of material that may contain sulfur are rubber gasket, rtv (room temperature vulcanizing) silicone rubber, rubber gloves etc. prolonged exposure to such environment may affect the optical characteristics and product life. e. avoid rapid change in ambient temperature especially in high humidity environment as this will cause condensation on the led. f. number of reflow cycle and reflow tempe rature condition used may affect optical characteristics of the led. it is recommended to use leds with the same number of reflow cy cle and same reflow temperature condition within the same finished good. thermal management optical, electrical and reliability characteristics of led are af fected by temperature. the junction temperature (tj) of the le d must be kept below allowable limit at all ti mes. tj can be calculated as below: t j = t a + r j-a x i f x v fmax where t a = ambient temperature [c] r j-a = thermal resistance from led junction to ambient [c/w] i f = forward current [a] v fmax = maximum forward voltage [v] the complication of using this formula lies in t a and r j-a . actual t a is sometimes subjective and hard to determine. r j-a varies from system to system depending on design and is usually not known. another way of calculating t j is by using solder point temperature t s as shown below: t s can be measured easily by mounting a thermocouple on the soldering joint as shown in illustration above, while r j-s is provided in the datasheet. user is advised to verify the t s of the led in the final product to ensure that the leds are operated within all maximum ratings stated in the datasheet. eye safety precautions leds may pose optical hazards when in operation. it is not advis able to view directly at operating leds as it may be harmful to the eyes. for safety reasons, use appropriate shielding or personal protective equipment. t j = t s + r j-s x i f x v fmax where t s = led solder point temperature as shown in illustration below [c] r j-s = thermal resistance from junction to solder point [c/w] for product information and a complete list of distributors, please go to our web site: www.avagotech.com avago technologies and the a logo are tradem arks of avago technologies in the united states and other countries. all other brand and product names may be trademarks of their respective companies. this data sheet (including, without limitation, the avago component[s] identified herein) is not designed, intended, or certified for us e in any military, nuclear, medical, mass transportation, aviation, navigations, pollution control, hazardous substances management, or other high-risk application. avago provides th is data sheet "as-is," without warranty of any kind. avago disclaims all warranties, expressed and implied, including, without limitation, the implied warranties of merchantability, fitness for a particular purpose, and noninfringement. data subject to change. copyright ? 2015C2016 avago technologies. all rights reserved. pub-005359 C june 3, 2016 |
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