4-Character 5 x 7 Dot Matrix / RoHS Compliant - By Exemption Serial Input Alphanumeric Industrial Display Sunlight Viewable: ISD235X



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(see page 1) 4-Character 5 x 7 Dot Matrix / RoHS Compliant - By Exemption Serial Input Alphanumeric Industrial Display Sunlight Viewable: ISD235X ISD21X, ISD231X, ISD235X ISD21X ISD231X ISD235X RoHS Compliant - By ExemptionDESCRIPTION The ISD21X/231X/235X are four digit 5 x 7 dot matrix serial input alphanumeric displays. The displays are available in red, yellow, high efficiency red, or high efficiency green. The package is a standard twelve-pin hermetic DIP with glass lens. The display can be stacked horizontally or vertically to form messages of any length. These displays have two fourteen-bit CMOS shift registers with built-in row drivers. These shift registers drive twenty-eight rows and enable the design of customized fonts. Cascading multiple displays is possible because of the Data In and Data Out pins. Data In and Out are easily input with the clock signal and displayed in parallel on the row drivers. Data Out represents the output of the 7th bit of digit number four shift register. The shift register is level triggered. The like columns of each character in a display cluster are tied to a single pin (see Block Diagram). High true data in the shift register enables the output current mirror driver stage associated with each row of LEDs in the 5 x 7 diode array. The TTL compatible V B input may either be tied to V CC for maximum display intensity or pulse width modulated to achieve intensity control and reduce power consumption. In the normal mode of operation, input data for digit four, column one is loaded into the seven on-board shift register locations one through seven. Column one data for digits 3, 2 and 1 is shifted into the display shift register locations. Then column one input is enabled for an appropriate period of time, T. A similar process is repeated for columns 2, 3, 4 and 5. If the decode time and load data time into the shift register is t, then with five columns, each column of the display is operating at a duty factor of: DF T = -------------------- 5T ( + 1) T+t, allotted to each display column, is generally chosen to provide the maximum duty factor consistent with the minimum refresh rate necessary to achieve a flicker free display. For most strobed display systems, each column of the display should be refreshed (turned on) at a minimum rate of 1 times per second. ith columns to be addressed, this refresh rate then gives a value for the time T+t of: 1 [5 x (1)]=2. msec. If the device is operated at 5. MHz clock rate maximum, it is possible to maintain t<t. For short display strings, the duty factor will then approach 2%. See Appnote 44 for application information and Appnotes 18, 19, 22, 23 at www.osram-os.com FEATURES Four Dot Matrix Characters Character Height ISD21X 3.81 mm (.15") ISD231X 5.8 mm (.2") ISD235X 5.8 mm (.2") Built-in CMOS Shift Registers with Constant Current LED Row Drivers ide Viewing Angle Shift Registers Allow Custom Fonts Easily Cascaded for Multiple Displays TTL Compatible End Stackable Operating Temperature Range: 55 C to +1 C Categorized for Luminous Intensity Ceramic Package, Hermetically Sealed Flat Glass indow RoHS Compliance The ISD21X, ISD231X, ISD235X Intelligent Displays TM are hermetically sealed displays using a ceramic and glass construction. These components are not lead (Pb) free but are RoHS Compliant based on the RoHS Compliance Directive's Annex, paragraphs 5 and 7. These exemptions allow for lead (Pb) in glass and ceramic electronic components. Refer to the following excerpts from the RoHS Compliance Directive Annex: Applications of lead, mercury, cadmium and hexavalent chromium, which are exempted from the requirements of Article 4(1) 5. Lead in glass of cathode ray tubes, electronic components and fluorescent tubes. 7. Lead in electronic ceramic parts (e.g. piezoelectronic devices).. 26-4-4 1

ISD21X, ISD231X, ISD235X Ordering Information Type Color of Emission Character Height mm (inch) Ordering Code ISD2351 ISD2352 ISD2353 yellow high efficiency red high efficiency green 5.8 (.2) Q68A8142 Q68A8143 Q68A8144 ISD21 ISD211 ISD212 ISD213 red yellow high efficiency red high efficiency green 3.81 (.15) Q68A8134 Q68A8135 Q68A8136 Q68A8137 ISD231 ISD2311 ISD2312 ISD2313 red yellow high efficiency red high efficiency green 5.8 (.2) Q68A8138 Q68A8139 Q68A814 Q68A8141 Maximum Ratings Parameter Symbol Value Unit Operating temperature range 1) T op -55 to +1 C Storage temperature range T stg -65 to +125 C Supply voltage V CC to GND V CC -.5 to 7. V Inputs, data out and V B -.5 to V CC +.5 V Column input voltage V COL -.5 to 6. V Solder temperature 1.59 mm (.63 ) below seating plane, t < 5. s T s 26 C Allowable power dissipation, T A =25 C 2) ISD21 ISD211 / ISD212 / ISD213 ISD231X ISD235X P tot P tot P tot P tot.91.86 1.1 1.35 26-4-4 2

ISD21X, ISD231X, ISD235X Timing Characteristics 4) l/f CLOCK T THL T H T L CLOCK V IH V IL 2. V.8 V V IH DATA IN V IL 2. V.8 V T SETUP T HOLD T PLH, TPHL DATA OUT V 2.4 V OH.4 V V OL V IH V 2. V B V IL.8 V ON (illuminated) 9% DISPLAY 1% OFF (not illuminated) T OFF T ON AC Electrical Characteristics (V CC = 4.75 to 5.25 V, T A = 55 C to 1 C) Symbol Description Min. Typ. Max. 5) Units T SETUP Setup Time 5 1 ns T HOLD Hold Time 25 2 ns T L Clock idth Low 75 45 ns T H Clock idth High 75 45 ns F (CLK) T THL T TLH T PHL T PLH Clock Frequency Clock Transition Time Propagation Delay Clock to Data Out 5 MHz 75 2 ns 5 125 ns 26-4-4 3

ISD21X, ISD231X, ISD235X ISD21X 3) Package Outlines Dimensions in mm (inch) Pin 1 Indicator Year ork eek YY ISD21X H Z Hue Code Luminous Intensity Code Part Number OSRAM 17.75 (.699) max. 4.44 (.175) ±.13 (.5) 2.11 (.83) 7.37 (.29) 3.7 (.146) 7.87 (.31) 5.8 (.2) Seating Plane 1.27 (.5) 12 pl. 2.54 (.1) 6.85 (.27).51 (.2) ±.8 (.3) 1.27 (.5) ±.13 (.5) 2.54 (.1) typ. ±.13 (.5) 1 pl., non cum..25 (.1) typ. ±.5 (.2) 7.62 (.3) Pin 1 marked by dot on back of package IDOD54 26-4-4 4

ISD21X, ISD231X, ISD235X ISD231X / ISD235X 3) Package Outlines: Dimensions in mm (inch) Pin 1 indicators dot and notch on package underside Year ork eek YY ISD231X H Z Hue Code Luminous Intensity Code 5.8 (.2) 1.27 (.5) 12 pl. Part No. C L OSRAM 2.54 (.1) 6.86 (.27).51 (.2) ±.8 (.3) 2.54 (.1) ±.13 (.5) 1 pl., non cum..25 (.1) ±.5 (.2) 6.35 (.25) ±.25 (.1) 2.7 (.79) max. 5 (.197) ±.13 (.5) 2.51 (.99) ±.13 (.5) 8.43 (.332) 12 1 2.84 (.112) 11 1 9 8 7 2 3 4 5 6 4.88 (.192) Pin Function Pin Function 1 Column 1 7 Data Out 2 Column 2 8 VB 3 Column 3 9 V CC 4 Column 4 1 Clock 5 Column 5 11 Ground 6 No Connection 12 Data In Tolerance: ±.3 (.15) IDOD55 26-4-4 5

ISD21X, ISD231X, ISD235X Maximum Allowable Power Dissipation vs. Temperature, ISD21X 1. P D IDDG5121 Maximum Allowable Power Dissipation vs. Temperature, ISD235X 1.5 P D IDDG5123.8.6 R = 35 C/ R thja thja = 55 C/ 1. R thja = 35 C/ R thja = 55 C/.4.5.2 T jmax = 125 C T jmax = 125 C -6-4 -2 2 4 6 8 C 12 T A Maximum Allowable Power Dissipation vs. Temperature, ISD231X 1.2 IDDG5122 P D 1..8 R thja = 35 C/ R thja = 55 C/ -6-4 -2 2 4 6 8 C 12 T A.6.4.2 T jmax = 125 C -6-4 -2 2 4 6 8 C 12 T A 26-4-4 6

ISD21X, ISD231X, ISD235X Optical Characteristics Red ISD21 / ISD231 Description Symbol Min. Typ. 9) Units Test Conditions 6) 7) Peak Luminous Intensity per LED (Character Average) ISD21 ISD231 I Vpeak 15 22 2 37 µcd V CC =5. V, V COL =3.5 V, T J =25 C 1), V B =2.4 V Peak avelength λ Vpeak 66 nm Dominant avelength 8) λ dom 639 nm Yellow ISD211 / ISD2311 / ISD2351 Description Symbol Min. Typ. 9) Units Test Conditions 6) 7) Peak Luminous Intensity per LED (Character Average) ISD211 ISD2311 I Vpeak 4 65 75 114 µcd V CC =5. V, V COL =3.5 V, T J =25 C 1), ISD2351 24 34 V B =2.4 V Peak avelength λ Vpeak 583 nm Dominant avelength 8) λ dom 585 nm High Efficiency Red ISD212 / ISD2312 / ISD2352 Description Symbol Min. Typ. 9) Units Test Conditions 6) 7) Peak Luminous Intensity per LED (Character Average) ISD212 ISD2312 I Vpeak 4 65 143 143 µcd V CC =5. V, V COL =3.5 V, T J =25 C 1), ISD2352 853 25 V B =2.4 V Peak avelength λ Vpeak 63 nm Dominant avelength 8) λ dom 626 nm High Efficiency Green ISD213 / ISD2313 / ISD2353 Description Symbol Min. Typ. 9) Units Test Conditions 6) 7) Peak Luminous Intensity per LED (Character Average) ISD213 ISD2313 I Vpeak 85 128 155 241 µcd V CC =5. V, V COL =3.5 V, T J =25 C 1), ISD2353 24 3 V B =2.4 V Peak avelength λ Vpeak 568 nm Dominant avelength 8) λ dom 574 nm 26-4-4 7

ISD21X, ISD231X, ISD235X Recommended Operating Conditions (Guaranteed over operating temperature range) Parameter Symbol Min. Nom. Max. Units Supply Voltage V CC 4.75 5. 5.25 V Data Out Current, Low State I OL ma Data Out Current, High State I OH ma Column Input Voltage, Column On * V COL 2.75 3.5 V Setup Time T SETUP 7 45 ns Hold Time T HOLD 3 ns idth of Clock T (CLK) 75 ns Clock Frequency T CLK 5. MHz Clock Transition Time T THL 2 ns Free Air Operating Temperature Range T A 55 +1 C * See Figures Peak Column Current vs. Column Voltage Peak Column Current vs. Column Voltage, ISD21X Peak Column Current vs. Column Voltage, ISD231X Peak Column Current vs. Column Voltage, ISD235X 6 ma I COL IDDG5124 6 ma I COL IDDG5125 6 ma I COL IDDG5126 5 5 5 4 4 4 3 2 1 21 211/212/213 3 2 1 ISD231 ISD2311/2/3 3 2 1 1 2 3 4 5 V 6 1 2 3 4 5 V 6 1 2 3 4 5 V 6 V COL V COL V COL 26-4-4 8

ISD21X, ISD231X, ISD235X Electrical Characteristics ( 55 C to +1 C, unless otherwise specified) Description Symbol Min. Typ. 9) Max. Units Test Conditions Supply Current (quiescent) I CC 5. ma V B =.4 V V CC =5.25 V 5. V B =2.4 V V CLK =V DATA =2.4V All SR Stages=Logical 1 Supply Current (operating) I CC 1 ma F CLK =5. MHz Column Current at Any Column Input* I COL 1 µa V B =.4 V V CC =5.25 V Column Current at Any Column Input* I COL ma V COL =3.5 V ISD21 red 35 435 All SR ISD211/2/3: yellow, HER, green 335 41 Stages=Logical 1 ISD231X: red, yellow, HER, green 38 52 ISD235X: yellow, HER, green 55 65 V B, Clock or Data Input Threshold Low V IL.8 V V CC =4.75 V 5.25 V V B, Clock or Data Input Threshold High V IH 2. V Data Out Voltage V OH 2.4 3.6 V I OH =.5 ma V CC =5.25 V V OL I OL =1.6 ma I COL = ma Input Current Logical, V B only I IL 3 11 3 µa V CC =4.75 V 5.25 V, Input Current Logical, Data, Clock I IL V IL =.8 V Power Dissipation per Package ISD21X ISD231X ISD235X Thermal Resistance IC, Junction-to-Pin ISD21X ISD231X ISD235X P D.44.52.74 R qj-pin V CC =5. V, V COL =3.5 V, 17.5% DF 15 LEDs on per character, V B =2.4 V 3 2 25 * See Figures Peak Column Current vs. Column Voltage (page 8) C/ 26-4-4 9

ISD21X, ISD231X, ISD235X Block Diagram Column Drive Inputs Columns 1 2 3 4 5 LED Matrix 2 LED Matrix 3 LED Matrix 4 Blanking Control, V B 1 2 3 4 5 6 7 Rows Rows 1-7 Rows 1-7 Rows 1-7 Constant Current Sinking LED Drivers Serial Data Input 1 2 3 4 5 6 7 Rows 8-14 Rows 15-21 Rows 22-28 Serial Data 28-bit SIPO Shift Register Output Clock IDBD562 Contrast Enhancement Filters for Sunlight Readability Display Color Filter Color Marks Polarized Corp.* Optical Characteristics of Filter Red, HER Red MPC 2-15C 25% at 635 nm, Circular Polarizer Yellow Amber MPC 3-25C 25% at 583 nm, Circular Polarizer Green Yellow/Green MPC 5-122C 22% at 568 nm, Circular Polarizer Multiple Colors High Ambient Light Neutral Gray MPC 8-1C 1% Neutral, Circular Polarizer Multiple Colors Neutral Gray MPC 8-37C 37% Neutral, Circular Polarizer * Marks Polarized Corp. 25-B Jefryn Blvd.. Deer Park, NY 11729 516 /242-13 FAX 516 /242-1347 Marks Polarized Corp. manufactures to MIL-1-4528 inspection system. 26-4-4 1

ISD21X, ISD231X, ISD235X The small alphanumeric displays are hybrid LED and CMOS assemblies that are designed for reliable operation in commercial and industrial environments. Optimum reliability and optical performance will result when the junction temperature of the LEDs and CMOS ICs are kept as low as possible. Thermal Modeling ISD displays consist of two driver ICs and four 5 x 7 LED matrixes. A thermal model of the display is shown in Figure Thermal Model. It illustrates that the junction temperature of the semiconductor = junction self heating + the case temperature rise + the ambient temperature. Equation 1 shows this relationship. Thermal Model A thermal resistance of 28 C/ results in a typical junction rise of 6 C. See Equation 2 below. For ease of calculations the maximum allowable electrical operating condition is dependent upon the aggregate thermal resistance of the LED matrixes and the two driver ICs. All of the thermal management calculations are based upon the parallel combination of these two networks which is 15 C/. Maximum allowable power dissipation is given in Equation 3. Equation 3. T T JMAX ( ) A P DISPLAY = --------------------------------------- R + R θjc θca P = 5V I ( n 35) DF + V I DISPLAY COL COL CC CC LED T 1 Rθ 1 LED Power See Equation 1 below. The junction rise within the LED is the product of the thermal impedance of an individual LED (37 C/, DF=2%, F=2 Hz), times the forward voltage, V F(LED), and forward current I F (LED), of 13 14.5 ma. This rise averages T J(LED) =1 C. The Table below shows the V F(LED) for the respective displays. Model Number ISD21 ISD231 ISD211/2/3 ISD2311/2/3 ISD2351/2/3 IC T 2 R θ2 IC Power LED Power VF LED T 1 R θ1 LED T 1 Rθ 1 LED Power Rθ CA IC T 2 Rθ 2 IC Power Min. Typ. Max. 1.6 1.7 2. 1.9 2.2 3. LED T 1 LED Power IDDG5321 The junction rise within the LED driver IC is the combination of the power dissipated by the IC quiescent current and the 28 row driver current sinks. The IC junction rise is given in Equation 2. R θ1 For further reference see Figures Maximum Allowable Power Dissipation vs. Temperature (page 6) and Figures from page 12 on. Key to equation symbols DF Duty factor I CC Quiescent IC current I COL Column current n Number of LEDs on in a 5 x 7 array P CASE Package power dissipation excluding LED under consideration P COL Power dissipation of a column P DISPLAY Power dissipation of the display P LED Power dissipation of a LED R qca Thermal resistance case to ambient R qjc Thermal resistance junction to case T A Ambient temperature T J(IC) Junction temperature of an IC T J(LED) Junction temperature of a LED T J(MAX) Maximum junction temperature V CC IC voltage V COL Column voltage V F(LED) Forward voltage of LED Z qjc Thermal impedance junction to case Optical Considerations The light output of the LEDs is inversely related to the LED diode s junction temperature as shown in Normalized Luminous Intensity vs. Junction Temperature (page 12). For optimum light output, keep the thermal resistance of the socket or PC board as low as possible. Equation 1. T = P Z + P ( R + R ) + T J( LED) LED θjc CASE θjc θca A T J( LED) = [( I COL 28)V F( LED) Z θjc ] + [( n 35)I COL DF ( 5V COL ) + V CC I CC ] [ R θjc + R θca ] + T A Equation 2. T = P ( R + R ) + T JIC ( ) COL θjc θca A T = [ 5V ( V ) ( I 2) ( n 35)DF + V I ] [ R + R ] + T JIC ( ) COL F( LED) COL CC CC θjc θca A 26-4-4 11

ISD21X, ISD231X, ISD235X Normalized Luminous Intensity vs. Junction Temperature IDDG5127 1 1 Normalized to: T A = 25 C Max. Package Power Dissipation, ISD21X IDDG5129 1.5 P Dmax 1. Normalized Liminous Intensity 1 1-1 -6-4 -2 2 4 6 8 1 C 14 T j.5 V CC = 5.25 V, I CC = 1 ma V COL = 3.5 V, I COL = 41 ma DF = 2%, T A = 25 C 5 1 15 2 25 3 35 4 Max. Package Power Dissipation, ISD231X 2. P Dmax 1.5 IDDG513 hen mounted in a 1 C/ socket and operated at Absolute Maximum Electrical conditions, the display will show an LED junction rise of 17 C. If T A =4 C, then the LED s T J will be 57 C. Under these conditions the following Figure Max. LED Junction Temperature vs. Socket Thermal Resistance shows that the l V will be 75% of its 25 C value. Max. LED Junction Temperature vs. Socket Thermal Resistance T j 5 C 4 35 3 25 IDDG5128 1..5 V CC = 5.25 V, I CC = 1 ma V COL = 3.5 V, I COL = 52 ma DF = 2%, T A = 25 C 5 1 15 2 25 3 35 4 Max. Package Power Dissipation, ISD235X IDDG5131 3. P Dmax V CC = 5.25 V, I CC = 1 ma 2.5 V COL = 3.5 V, I COL = 6 ma DF = 2%, T A = 25 C 2. 2 15 1 5 V COL = 3.5, I COL = 41 ma V CC = 5.25 V, I CC = 1 ma n = 2 LEDs, DF = 2% P =.87 5 1 15 2 25 3 35 C/ 5 Socket Thermal Resistance 1.5 1..5 5 1 15 2 25 3 35 4 26-4-4 12

ISD21X, ISD231X, ISD235X Package Power Dissipation, ISD21X 1.5 P D V CC = 5 V, I CC = 5 ma V COL = 3.5 V, I COL = 335 ma DF = 2%, T = 25 C 1. A IDDG5132 Max. Character Power Dissipation, ISD21X IDDG5133.5 P V CC = 5.25 V, I CC = 1 ma D V COL = 3.5 V, I COL = 41 ma.4 Duty Factor = 2%.3.5.2.1 17% 1% 5% 5 1 15 2 25 3 35 4 Package Power Dissipation, ISD231X P D 1.5 1..5 IDDG5134 V CC = 5 V, I CC = 5 ma V COL = 3.5 V, I COL = 38 ma DF = 2%, T A = 25 C 5 1 15 2 25 3 35 4 Package Power Dissipation, ISD235X P D 2. 1.5 IDDG5136 V CC = 5 V, I CC = 5 ma V COL = 3.5 V, I COL = 45 ma DF = 2% 5 1 15 2 25 3 35 4 Max. Character Power Dissipation, ISD231X P D.5 V CC = 5.25 V, I CC = 1 ma V COL = 3.5 V, I COL = 38 ma.4.3.2.1 Duty Factor = 2% 17% 1% 5% Max. Character Power Dissipation, ISD235X P D 2. 1.5 IDDG5135 5 1 15 2 25 3 35 4 IDDG5137 V CC = 5 V, I CC = 5 ma V COL = 3.5 V, I COL = 45 ma DF = 2% 1. 1..5.5 5 1 15 2 25 3 35 4 5 1 15 2 25 3 35 4 26-4-4 13

ISD21X, ISD231X, ISD235X Character Power Dissipation, ISD21X IDDG5138.4 P V CC = 5 V, I CC = 5 ma D V COL = 3.5 V, I COL = 335 ma.3 Duty Factor = 2% Character Power Dissipation, ISD235X IDDG514.5 P V CC = 5 V, I CC = 5 ma D V COL = 3.5 V, I COL = 45 ma.4 Duty Factor = 2%.3.2 17% 17%.2.1 1% 5%.1 1% 5% 5 1 15 2 25 3 35 4 5 1 15 2 25 3 35 4 Character Power Dissipation, ISD231X IDDG5139.5 P V CC = 5 V, I CC = 5 ma D V COL = 3.5 V, I COL = 38 ma.4.3 Duty Factor = 2%.2 17%.1 1% 5% 5 1 15 2 25 3 35 4 26-4-4 14

ISD21X, ISD231X, ISD235X Revision History: 26-4-4 Previous Version: 24-12-9 Page Subjects (major changes since last revision) Date of change all RoHS Compliant - By Exemption 26-3-3 Attention please! The information describes the type of component and shall not be considered as assured characteristics. Terms of delivery and rights to change design reserved. Due to technical requirements components may contain dangerous substances. For information on the types in question please contact our Sales Organization. If printed or downloaded, please find the latest version in the Internet. Packing Please use the recycling operators known to you. e can also help you get in touch with your nearest sales office. By agreement we will take packing material back, if it is sorted. You must bear the costs of transport. For packing material that is returned to us unsorted or which we are not obliged to accept, we shall have to invoice you for any costs incurred. Components used in life-support devices or systems must be expressly authorized for such purpose! Critical components 11) page 16 may only be used in life-support devices or systems 12) page 16 with the express written approval of OSRAM OS. 26-4-4 15

ISD21X, ISD231X, ISD235X Remarks: 1) Operation above +1 C ambient is possible if the following conditions are met. The junction should not exceed T J =125 C and the case temperature (as measured at pin 1 or the back of the display) should not exceed TC=1 C. 2) Maximum allowable dissipation is derived from: V CC =5.25 V, V B =2.4 V, V COL =3.5 V 2 LEDs on per character, 2% DF. 3) Dimensions are specified as follows: inch (mm) 4) V B Pulse idth Frequency 5 khz (max.) 5) All typical values specified at V CC =5. V and T A =25 C unless otherwise noted. 6) The displays are categorized for luminous intensity with the intensity category designated by a letter code on the bottom of the package. 7) The luminous sterance of the LED may be calculated using the following relationships: L V (cd/m 2 ) = l V (Candela)/A (Meter) 2 L V (Footlamberts) = p l v (Candela)/A (Foot) 2 A=5.3 x 1 8 m 2 = 5.8 x 1 7 (Foot) 2 8) Dominant wavelength (l dom ) is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color of the device. 9) All typical values specified at V CC =5. V and T A =25 C unless otherwise noted. 1) The luminous intensity is measured at T A =T J =25 C. No time is allowed for the device to warm up prior to measurement. 11) A critical component is a component used in a life-support device or system whose failure can reasonably be expected to cause the failure of that life-support device or system, or to affect its safety or the effectiveness of that device or system. 12) Life support devices or systems are intended (a) to be implanted in the human body, or (b) to support and/or maintain and sustain human life. If they fail, it is reasonable to assume that the health or the life of the user may be endangered. Published by OSRAM Opto Semiconductors GmbH ernerwerkstrasse 2, D-9349 Regensburg www.osram-os.com All Rights Reserved. 26-4-4 16

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