A pacKann JAN Qualified Ultra-Bright Hermetic Solid State Lamps* Technical Data Features Military Qualified Listed on MIL-S-19500 QPL * Sunlight Viewable with Proper Contrast Enhancement Filter Hermetically Sealed * Choice of Three Colors High Efficiency Red Yellow High Performance Green Low Power Operation IC Compatible and high axial luminous intensity. These LED indicators are designed for use in applica- tions requiring readability in bright sunlight. With a proper contrast enhancement filter, these LED indicators are readable in sunlight ambients, see Application Note 1015 Contrast Enhancement Techniques for LED Displays. The panel mount versions consist of an LED unit permanently mounted in an Long Life/ReliablefRugged anodized aluminum sleeve. * Panel Mount Configuration The 1N6609 utilizes a high efficiency red GaAsP on GaP Description LED chip. The 1N6610 uses a The 1N6609, 1N6610, and 1N6611 are hermetically sealed solid state lamps in a TO-18 package with a clear glass lens. These hermetic lamps provide improved brightness over conventional hermetic LED lamps, excellent on-off contrast, yellow GaAsP on GaP LED chip. The 1N6611 uses a green GaP LED chip. 1N6609 JAN1N6609 JANTX1N6609 1N6610 JAN1N6610 JANTX1N6610 1N6611 JAN1N6611 JANTX1N6611 *Panel Mount versions of all of the above are available per the selection matrix on the next page. 3-206Selection Guide COLOR - PART NUMBER - LAMP AND PANEL MOUNT MATRIX Controlling Standard With JAN JAN Plus MIL-S-19500 Description Product Qualification" TX Testing Document! TABLE A. Hermetic TO-18 Part Number System High Efficiency Red 1N6609 JAN1N6609 JANTX1N6609 /619 Yellow 1N6610 JAN1N6610 JANTX1N6610 /520 Green 1N6611 JANIN66i1 JANTX1N6611 /521 TABLE B. Panel Mountable Part Number System"! High Efficiency Red | HLMP-0364 HLMP-0365 HLMP-0366 (JANM19500/51903) | (JANTXM19500/51904) /519 Yellow HLMP-0464 HLMP-0465 HLMP-0466 (JANM19500/52003) | (JANTXM19500/52004) /520 Green HLMP-0564 HLMP-0565 HLMP-0566 (JANM19500/52103) | (JANTXM19500/52104) /21 Notes: 1. Parts are marked with JAN part number. 2. Parts are marked with JANTX/JTX part number. 3. Panel mountable packaging incorporates the Table A TO-18 part into a panel mount encloaure. 4. JAN and JANTX parts only. HLMP.-0364, 0464, 0564 1IN6609, 1N6610, 1N6611 12.70 (.800) 9.47 (973) pep 452 (178) 98.27 (630) | * 9.86 (388) *| 5g (022) 4.83 1.190) D/A. 1.52 [.060) 14.8 (5831, | t ol, ~ GLASS LENS _ r~ 1.78 [.070) 12.7 CBG) " CATHODE GLASS METAL CATHODE =} | ass (191 __ HERMETIC CAN pee ode ~~~ GOLD PLATED | | 3.38 ( 133) $.46 (215) ~ KOVAR ar 08s} 353 (139) \ } 2.67 (.108) t _ tA 5 i: 246 1.970) 41 (018) 56 (.022) (028) 26 2 11.030) 61 (024) 312-32 UNEF-2A (NOTE 4) 7? (028) I CONDUCTIVE CHROMATE 86 {.022) | 641025) CONVERSION COATING wie 71 (028) - f NOMINAL 1 a 29 on PART MARKING 38, a 7 1144045) i) i la 4 40 (058) : ' .B9 (035) 9.45 (.372) a TTS (048) 10.67 ( 420) 5 08 ( 200) i 5591 220) i 4 ' NOTES: ~ 10 80 ~ 4 | 1. THE PANELMOUNT SLEEVE IS BLACK ANODIZED 4.425) i ALUMINUM | ' : 2. TIN-LEAD LEADS FINISH. GOLD PLATED LEADS | ! 1 53 (021) CATHODE > + ry tgagt AVAILABLE ON REQUEST. | 3. ONE LOCK WASHER AND ONE HEX-NUT ARE INCLUDED WITH EACH PANEL MOUNT LAMP. 4. USE OF METRIC DRILL BIZE 9.20 MILLIMETRES OR OUTLINE TO-18 ENGLISH DRILL SIZE P (323 INCH) IS RECOMMENDED FOR PRODUCING HOLE IN THE PANEL FOR PANEL MOUNTING NOTES e Paes WEIGHT INCLUDING ARIE ant cant 1. ALL DIMENSIONS ARE IN MILLIMETRES (INCHES). . 2. GOLD-PLATED KOVAR LEAD: MOUNT I5 1.2. 1.8 GRAMS, NUT AND WASHER (S AN 3. PACKAGE WEIGHT OF LAMP ALONE 1S 25. .40 GRAMS. EXTRA 6.1.0 GRAM. 25. 3-207Absolute Maximum Ratings at T, = 25C High Efficiency Red Yellow Green 1N6609 1N6610 1N6611 Parameter HLMP-0364 HLMP-0464 | HUMP-0564 | Units Power Dissipation (derate linearly 120 120 120 mW from 50C at 1.6 mW/C) DC Forward Current 35!) 354) 35!) mA Peak Forward Current 60 60 60 mA See Fig. 5 See Fig. 10 See Fig. 15 Operating and Storage -65C to +100C Temperature Range Lead Soldering Temperature 260C for 7 seconds. (1.6 mm (0.063 in.) from body] Note: 1. Derate from 50C at 0.5 mA/C. Electrical/Optical Characteristics at T, = 25C 1N6609 1N6610 1N6611 HLMP-0864 HLMP-0464 HLMP-0564 Tost es Symbol Description Min.|Typ. | Max. | Min.|Typ.| Max.| Min.|Typ.| Max. | Units Conditions I, Axial Luminous 20 | 50 20 | 50 20 | 50 med | I,=20mA Intensity Ati, = 25 mA Figs. 3, 8, 13 6=0 Included Angle 28,, | Between Half 18 18 18 deg. | Figures 6, 11, 16 Luminous Intensity Points!" Ameax | Peak Wavelength 590 | 635 | 695 | 550 | 583 | 660 | 525 | 565 | 600 | nm | Measurement at Peak ry Dominant 626 585 570 nm Wavelength?! ty Speed of Response 200 200 200 ns Cc Capacitance 35 | 100 35 | 100 35 | 100 | pF V, = 0; f= 1 MHz RO, ,y | Thermal 425 425 425 C/W Resistance*"! R@, oy | Thermal 550 550 550 C/W Resistance**!! Vv, Forward Voltage 2.0 | 3.0 2.0 | 3.0 2.1 | 3.0 Vv =20mA AtI,=25 mA igures 2, 7, 12, I, Reverse Current 1.0 1.0 1.0 HA | V,=3V BV, | Reverse Break- 5.0 5.0 5.0 v I, = 100 pA down Voltage ny Luminous 140 455 600 Im/W Efficacy!" 3-208Notes: 1. 6,, is the off-axis angle at which the luminous intensity is half the axial luminous intensity. 2. The dominant wavelength, 4,, is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color of the device. 3. Junction to Cathode Lead with 3.18 mm (0.125 inch) of leads exposed between base of flange and heat sink. 4, Radiant intensity, I,, in watte/steradian, may be found from the equation I, =1,, where I, is the luminous intensity in candelas and n, is the luminous efficacy in lumene/watt. *Panel mount. **TO-18. 10 HIGH EFFICIENCY RED T, 725 GREEN YELLOW z SY wa z iv) : | \ w 0S N 2 = < s a 0 800 550 600 650 700 750 WAVELENGTH - am Figure 1. Relative Intensity vs. Wavelength. Family of High Efficiency Red 1N6609/HLMP-0364 2.007 rt To 4 I 1 Tr] 726C ' ze 18 + TOY ~ 14 a4 5 22 ysop ) 4 see 38 i we 2< ei ! i ' w a 2 ere v.26 b---+ | 4 3 V.2b Q g< ' ce a gc, a z 33 oor wf 2 2% 0.75, : ez wi : < 35 Bj 3 z / <= 0.60} - i 1 8 a = ao 0.26 - + { ? 0.00 | | | @ / 0 18 20 25 ry) "Ss 0 1% 2 2% 90 3 0 2 80 60 Vp - PEAK FORWARD VOLTAGE - V te ~ FORWARD CURRENT - mA Ipgan ~ PEAK CURRENT mA Figure 2. Forward Current Figure 3. Relative Luminous Figure 4. Relative Efficiency vs. Forward Current. Intensity vs. Forward Current. (Luminous Intensity per Unit Current) vs. Peak Current. 3-209Z 30 rN oo a z | | 20 + ror TI 1.25 a @ ! | - i abe Czcr = ad g 10 bee 20 pros sees 202 - _ - $222 up f883 th dep pop wo i I Loi | 5 Fel i des 7 ' Qo 2 ror 14 t we , vee | 5 = % = \ ' WwW = . => : ' +2 fH . oh t ! ZL ' t ' 1 25 Ele 11 te x= l 1 S/o 10 | Flo 10 190 T " 60 6o 70 BO 90 100 tp - PULSE DURATION - us - Figure 5. Maximum Tolerable Peak Current Figure 6. Relative Luminous Intensity va. Pulse Duration. (1,,, MAX as per MAX vs. Angular Displacement. Ratings). . Family of Yellow 1N6610/HLMP-0464 _. 225 16 - qt i i | it > 2.00 oe : = 3 I G_ Oo 14 i g i Zq 175 > 8 ve : e 4 : 5 ) ee 150 z ' 2 $5 1.25 ze. |? ; Z ge rs aN as EG x wE o7s 4 | a 29 we o be 2 eo ! <= os0 3 6 = & f 0.26 . : weet tt ooo L. - oe 8 i i 4 16 20 25 30 34 10 15 20 26 30 36 o 10 2 Hn a 50 60 Ve PEAK FORWARD VOLTAGE Figure 7. Forward Current vs. Forward Voltage. v 3 30 rT ew ne eq ani 4 & Ooze. 32a ZaCe2 20 fosce Best x253 a2E 5 172 3< , T 2% ai ra i 6: i | @s Ver at ane Wat 6 3 a ry Vat. = x v2] de 2 Ig Wao Sle te i #9 10 FORWARD CURRENT Figure 8. Relative Luminous Intensity vs. Forward Current. mA Inca ~ PEAK CURRENT - mA Figure 9. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current. tp PULSE DURATION us Figure 10. Maximum Tolerable Peak Current vs. Pulse Duration. (I, MAX as per MAX Ratings). Figure 11. Relative Luminous Intensity vs. Angular Displacement. 3-210- PEAK FOAWARO CURRENT - mA Ireax Family of Green 1N6611/HLMP-0564 16 T 1 TTT em | ~ | | | > Ty 2 26C | ; L_, 4. 4 i fe =~ L oy 3. >& 14 t | ee 24 } | i ay + + + oo zk w { | a : 3 oy! 3 fz] | : | - ; wr + | , | 7 2u 339 \~" : i | =5 28 i i z Zz 8 10 ' , = = & a es ai 33 7 | 29 i = a7 | Be es ra | | =~ Zz 8 J Ss 10 + 4 + t + t iw ~_ nan: 4 ' oc vi foot! : ou L abottooitriris | 6 10 15 20 25 30034 5 10 1 2 2 30 35 o 0 2 M 44 5 6 Vp PEAK FORWARD VOLTAGE Vv 1, FORWARD CURRENT. ma lpgax PEAK CURRENT mA Figure 12. Forward Current Figure 13. Relative Luminous Figure 14. Relative Efficiency vs. Forward Voltage. Intensity vs. Forward Current. {Luminous Intensity per Unit Current) vs. Peak Current. 3 30 < 2 coe T 1.25 2.3 t Pees | ' 9 + 2222 20 ret Bass | bog x=? 172 ds 558 i bobo . | Bes rPper mF Va to 60 @ , 13 | 1 A \ Six + 25 qo <= 4 1D SIR OT*) - lo 50 60" 70" BO" 90 100 lp PULSE DURATION - us Figure 15. Maximum Tolerable : : Peak Current vs. Pulse Duration. Figure 16. Relative Luminous Intensity . Angular Disp] t. (I, MAX as per MAX Ratings). vs. Angular Displacemen 3-211JAN PART: Samples of each lot are subjected to Group A and B tests listed below. Every six months, samples from a single lot of each part type are subjected to Group C testing. All tests are to the conditions and limits specified by the appropriate MIL-S-19500 slash sheet specification. Table I. 100% Screening JANTX PART: These devices undergo 100% screening tests as listed below to the conditions and limits specified by the MIL- S-19500 slash sheet specifica- tion. The JANTX lot has also been subjected to Group A, B, and C sample tests as for the JAN PART above. MIL-STD-750 Examination or Test Method Conditions 1. High Temperature Life 1032 T, = +100C, Time = 24 hours 2. Temperature Cycling 1051 Condition A, T (high) = +100C 3. Constant Acceleration 2006 20,000 gs. Y1 Axis 4. Fine Leak 1071 Condition H 5. Gross Leak 1071 Condition K, Test Temperature = +100C 6. Electrical Test 1, Vp, and I, T, = 25C 7. Burn-InlY 1015 I, = 35 mA, T, = 25C, Time = 96 hours 8. Final Electrical Test Same as Step 6 9. Deltas Determinations AL,, = -20%, V, = +50 mV 10. External Visual!) 2071 Note: 1. MIL-STD-883 Method applics. 3-212Table II. Group A Inspection for TO-18 Lamps MIL-STD-750 Limits Examination or Test | Method Details LTPD | Sym. | Min. | Max.| Unit Subgroup 1 5 Visual and mechanical 2071 inspection Subgroup 2 5 Luminous intensity I, = 20 mA de; I,, 20.0 med 6=0 Reverse current 4016 | DC method; V, = 3 V de I, 1.0 | pAdc Forward current 4011 | DC method; I, = 20 mA V, 3.0 | V de Subgroup 3 10 High temperature: T, = 100C Reverse current 4016 DC method; V,, = 3 V de I, 1.0 | pAdc Forward voltage 4011 | DC method; I, = 20 mA Vv, 3.0 | Vde Low Temperature: T, = -55C Reverse current 4016 | DC method; V, = 3 V de I, 1.0 | pAdc Forward voltage 4011 | DC method; I, = 20 mA V, 3.0 | Vde Subgroup 4 5 Capacitance 4001 | V,=0;f=1MHz Cc 100 pF Subgroups 5, 6, and 7 Not applicable Note: 1.1, = 25 mA for 1N6611. 3-213 v me ae 4 vane veer) xTable III. Group B Inspection MIL-STD-750 Limits Examination or Test | Method Details LTPD | Symbol | Min. | Max. } Unit Subgroup 1 15 Solderability 2026 Resistance to solvents 1022 Subgroup 2 10 Thermal shock 1051 | Test condition A, (temperature cycle) T (high) = 100C; 25 cycles Hermetic seal 1071 Test condition H Fine leak Gross Leak Test condition C or K, leak indicator fluid/ device maintained at 100C +5C Electrical test: Luminous intensity I, = 20 mA de @ = 0 I, 20.0 mcd Subgroup 3 5 Steady-state-operation 1027 I, = 35 mA de, 340 hours, life T, = 25C Electrical test: Luminous intensity I, = 20 mA de!" 6 = 0 I, 18.0 med Subgroup 4 Decap internal design 2075 | Test 1 device/0 failure verification Subgroup 5 (Not applicable) Subgroup 6 q High temperature life 1032 | T, = 100C, 340 hours (nonoperating) Electrical test: Luminous intensity I, = 20 mA de, @ = 0 Iy, 18.0 med Note: 1.1, = 25 mA for 1N6611. 3-214Table IV. Group C Inspection MIL-STD-750 Limits Examination or Test | Method Details LTPD | Symbol | Min. | Max. | Unit Subgroup 1 15 Physical dimensions 2066 Subgroup 2 10 Thermal shock 1056 | Test condition A (glass strain) Terminal strength 2036 | Test condition E Hermetic seal 1071 Fine leak Test condition H Gross leak Test condition C or K, indicator fluid/device maintained at 100C +5C Moisture resistance 1021 | Omit initial conditioning Electrical test: Luminous intensity I, = 20 mA de,"!6 = 0 I, 20.0 med Subgroup 3 10 Shock 2016 | Nonoperating, 1500 g's, 0.5 ms, 5 blows in X1, Y1, Z1 orientation. Vibration, variable 2056 | Nonoperating frequency Constant acceleration 2006 20,000 g's; X1, Y1, Z1 orientation Electrical test: Luminous intensity I, = 20 mA de,'"6 = 0 I, 20.0 med Subgroup 4 15 Salt atmosphere 1041 (corrosion) Subgroup 5 (Not applicable) Subgroup 6 Steady-state- 1027 I, = 35 mA de, 1000 operation life hours, T, = 25C Electrical test: Luminous intensity I, = 20 mA de," 6 = 0 I, 18.0 med 3-215 r ane) van es rot viet x4 Table IV. Group C Inspection (cont.) MIL-STD-750 Limits Examination or Test | Method Details LTPD | Symbol | Min. | Max. | Unit Subgroup 7 10 Peak forward pulse t, = 1 ps, pps = 300, current (transient) total test time = 5 s, Tue = 1.0 A(pk) Electrical test: Luminous intensity I, = 20 mA de,' 6 = 0 I, 18.0 med Subgroup 8 10 Peak forward pulse t, = 0.5 ms, current (operating) Bau <120 mW, T, = 25C, I, = 60 mA, 500 hours Electrical test: Luminous intensity I, = 20 mA de @ = 0 ly, 18.0 med Note: 1.1, = 25 mA for 1N6611. Table V. Group A Inspection for Panel Mount Assemblies MIL-STD-750 Limits Examination or Test | Method Details LTPD | Symbol | Min. | Max.} Unit Subgroup 1 5 External visual 2071 examination Subgroup 2 5 Luminous intensity I, = 20 mA de,'@ = 0 l, 20.0 med Forward voltage DC method: I, = 20 mA! Vv, 3.0 | Vde Reverse current DC method: V,, = 3 V de I, 1.0 | pAdc Subgroup 3 5 Resistance to solvents 1022 | Omit solution 2.1d Subgroup 4 5 Physical dimensions 2066 Note: 1.1, = 25 mA for HLMP-0564. 3-216