JAN Qualified Hermetic Solid State Lamps* Technical Data Features * Military Qualified Listed on MIL-S-19500 QPL Choice of Four Colors Red High Efficiency Red Yellow Green * Designed for High- Reliability Applications Hermetically Sealed e Wide Viewing Angle * Low Power Operation IC Compatible e Long Life Panel Mount Configuration Description The 1N5765, 1N6092, 1N6093 and 1N6094 solid state LEDs are hermetically sealed in a TO- 46 package with a tinted, dif- fused plastic lens over a glass window. These devices are designed for high reliability applications and provide excel- lent on-off contrast, high axial luminous intensity, and a wide viewing angle. The panel mount versions consist of an LED unit permanently mounted in an anodized aluminum sleeve. The 1N5765 utilizes a GaAsP LED chip with a red diffused lens over a glass window. The 1N6092 has a high efficiency red GaAsP on GaP LED chip with a red diffused lens over a glass window. This device is comparable to the 1N5765 but its efficiency extends to higher currents and it provides greater luminous intensity. The 1N6093 provides a yellow GaAsP on GaP LED chip with a yellow, diffused lens over a glass window. The 1N6094 utilizes a green GaP LED chip with a green, dif- fused lens over a glass window. The plastic lens over glass window system is extremely durable and has exceptional temperature cycling capabilities. CAD eackano 1N5765 JAN1IN5765 JANTX1N5765 1N6092 JAN1IN6092 JANTX1N6092 1N6093 JAN1N6093 JANTX1N6093 1N6094 JANING6094 JANTX1N6094 PANEL MOUNT LAMP ASSEMBLY *Panel mount versions of all of the above are available per the selection matrix on the next page. 3-142COLOR - 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-46 Part Number System Standard Red 1N5765 JAN1N5765 JANTX1N5765 /467 High Efficiency Red 1N6092 JAN1N6092 JANTX1N6092 /519 @ Yellow 1N6093 JAN1N6093 JANTX1N6093 /520 | Green 1N6094 JAN1N6094 JANTX1N6094 /521 E TABLE B. Panel Mountable Part Number System!"! i Standard Red HLMP-0904 HLMP-0930 HLMP-0931 None High Efficiency Red | HLMP-0354 HLMP-0380 HLMP-0381 (JANM19500/51901) | (JTXM19500/51902) /519 Yellow HLMP-0454 HLMP-0480 HLMP-0481 (JANM19500/52001) | (JTXM19500/52002) /520 Green HLMP-0554 HLMP-0580 HLMP-0581 (JANM19500/52101) | (JTXM19500/52102) /521 Notes: 1. Parts are marked with the JAN part number. 2. Parts are marked with the JANTX part number. 3. Panel mountable packaging incorporates the Table A TO-46 part into a panel mount enclosure. 4. JAN and JANTX parts only. Package Dimensions HLMP-0904, 0354, 0454, 0554 12 70 (500) | a 2.47 (37) | |+-T32 1520} 9.86 (388) 1.52 (,060) 12.2 1.500) | *~ 7B (070) 58 CATHODE 1.52 (.060) | CATHODE gz ie} _ SO 912-32 UNEF-2A (NOTE 4] 14.8 1563) | 2.41 (.095) 2.67 (105) f , | 86 (.022) 1 \-CONOUCTIVE CHROMATE | |< FW (028) \ CONVERSION COATING PART MARKING 226 _ (089) 7] 64 |.025) rN, NOMINAL oN 9.45 (.372} 10.67 (.420) - - NS NOTES 1 THE PANELMOUNT SLEEVE IS BLACK ANODIZED ALUMINUM 2 SOLDER DIPPED LEADS GOLD PLATED LEADS AVAILABLE GN REQUEST 3 ONE LOCK WASHER AND ONE HEX-NUTIS INCLUDED WITH EACH PANEL MOUNT LAMP. 4 USE OF METRIC DRILL SIZE 8 20 MILLIMETRES OR ENGLISH DRILL SIZE P {0.323 INCH} IS RECOMMENDED FOR PRODUCING HOLE IN THE PANEL FOR PANEL MOUNTING 5. ALL DIMENSIONS IN MILLIMETRES {INCHES} 6 PACKAGE WEIGHT INCLUDING LAMP AND PANEL MOUNT IS 1.2. 18 GRAMS NUT AND WASHER IS AN EXTRA06 10 GRAM 10.80 (.425) vr 53 (.021) 3-143 1N5765, 1N6092, 1N6093, 1N6094 4.47 (176) _| 483 1190) _ TINTED PLASTIC 1.12 (044) 77 OVER GLASS LENS 1.63 (064) a - < PART _ MARKING 4 87 (180) t 572 (225) ' mR, ws ~ GLASS. METAL ~ HERMETIC CAN | 41 (016 go. PiareD 24.6 (970) T (024) 26.2 (1.030) | 89 (.035) 114 (045) 81 {.032) 07 (642) CATHODE OUTLINE TO-46 NOTES: + ALL DIMENSIONS ARE IN MILLIMETRES t!NCHES) 2 GOLD-PLATED KOVAR LEADS. 3 PACKAGE WEIGHT OF LAMP ALONE IS 25 40 GRAMSAbsolute Maximum Ratings at T, = 25C Red High Eff. Red Yellow Green Parameter HLMP-0904) HULMP-0354 | HLMP-0454 | HLMP-0554 | Units Power Dissipation (derate 100 120 120 120 mW linearly from 50C at 1.6 mW/C) DC Forward Current 504 35?! 352) 3521 mA Peak Forward Current 1000 60 60 60 mA See Fig. 5 See Fig. 10 See Fig. 15 | See Fig. 20 Operating and Storage -65C to +100C Temperature Range Lead Soldering Temperature (1.6 mm (0.063 in.) from body] 260C for 7 seconds. Notes: 1. Derate from 50C at 0.2 mA/C. 2. Derate from 50C at 0.5 mA/C, Electrical/Optical Characteristics at T, = 25C 1N5765/ 1N6092/ 1N6093/ 1N6094/ HLMP-0904 HLMP-0354 HLMP-0454 HLMP-0554 Test Sym. Description | Min. | Typ. | Max.|Min.| Typ.| Max.| Min. | Typ.| Max.) Min.| Typ.| Max.|Units| Conditions I, | Axial Luminous 0.5 | 1.0 3.0 | 8.0 3.0 | 8.0 3.0 | 8.0 med | I, = 20 mA Intensity At I, = 25 mA Figs. 3, 8, 13, 18 | | 6=0 1,, | Luminous 1.5 15 1.5 1.5 | med | I, = 20 mA Intensity at At I, = 25 mA @ = 30 @ = 30 Included Angle Between Half Figures 26,, | Luminous 60 70 70 70 deg | 6, 11, 16, 21 "| Intensity Points!!! heeax Peak 630 | 655 | 700 | 590 | 635) 695 | 550 | 583 | 660 | 525 | 565! 600 | nm | Measurement Wavelength at Peak da Dominant 640 626 585 570 nm Wavelength! t, | Speed of Response 10 200 200 200 ns C_ | Capacitance 200 | 300 35 | 100 35 | 100 35 | 100] pF | V, =0; = 1MHz RO, py) Thermal 425 425 425 425 C/W Resistance*!! RQ, ,| Thermal 550 550 550 550 CW Resistance***! V, | Forward Voltage 1.6 | 2.0 2.0| 3.0 2.0 | 3.0 2.1] 30] V |1,=20mA Figures 2, 7, At IL, =25 mA 12, 17 I, | Reverse Current 1.0 1.0 1.0 10] pA |V,=3V BV, | Reverse 4.0 | 5.0 5.0 5.0 5.0 v I, = 100 pA Breakdown Voltage nN Luminous 56 140 455 600 Im/W Efficacy 3-144Notes: 1. 6, is the off-axis angle at which the luminous intensity is half the axial luminous intensity. 2. The dominant wavelength, 1,, 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 watts/steradian, may be found from the equation I =I /n,, where I, is the luminous intensity in candelas and n, is the luminous efficacy in lumens/watt. *Panel mount. + 'TO-46. P a J to z r 1.0 HIGH EFFICIENCY Dy Ty, 25C | > GREEN YELLOW GaAsP RED Ee mNY a 2 we E z | uw 05 - - vem - - 2 = < s ad c 9 500 550 600 650 700 750 WAVELENGTH nm Figure 1. Relative Intensity vs. Wavelength. Family of Red 1N5765/HLMP-0904 Ty = 25C 20 T mot 8 88s \, FORWARD CURRENT - mA RN wan RELATIVE LUMINIOUS INTENSITY (NORMALIZED @ 20mA) Veo 150 1.60 1.70 Q 10 20 30 40 50 Vp ~- FORWARD VOLTAGE VOLTS 4, ~ FORWARD CURRENT - mA Figure 2. Forward Current vs. Figure 3. Relative Luminous Forward Voltage. Intensity vs. Focward Current. 3145 wn RELATIVE EFFICIENCY iNORMALIZED AT 20mA DC) oO o 5a 100 150 200 280 300 350 Ipeak PEAK CURRENT - mA Figure 4. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current.wi a a < 3 5 o abe rouse zee F Eg=es xyZ>o gata 2a24 10 wx a aoa oz Qo e - 4 a ! 2 x 5 z/g l= 1 10 100 1000 10000 g]e elo =l4 tp PULSE WIDTH us Figure 5. Maximum Tolerable Peak Current vs. Pulse Duration. (1, MAX as per MAX Ratings). Figure 6. Relative Luminous Intensity vs. Angular Displacement. Family of High Efficiency Red 1N6092/HLMP-0354 - mA N & \peax - PEAK FORWARD CURRENT RELATIVE LUMINOUS INTENSITY (NORMALIZED AT 20mA) es 2 fo = we se 3 a 8 a 8B Re 8 B 2 2 1B 20 28 3000 34 10 15 20 Ve PEAK FORWARD VOLTAGE - V Figure 7. Forward Current vs. Forward Voltage. RATIO OF MAXIMUM TOLERABLE PEAK CURRENT 1G MAXIMUM TOLERABLE DC CURRENT Ipeax MAX Ipc MAX, 1 10 100 1,000 10,000 fp PULSE DURATION ys Figure 10. Maximum Tolerable Peak Current vs. Pulse Duration. (1, MAX as per MAX Ratings). (, FORWARD CURRENT - mA Figure 8. Relative Luminous Intensity vs. Forward Current. 6 TT T_T T, 725C wal 4 go ->o aA 24 " ut : 1 7" 3 12 _ be 4 uw @ 25 10 |__ az ae ac al = ! / 6 25 30 K:-3 0 10 2 30 a 50 6o Ipcax ~ PEAK CURRENT mA Figure 9. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current. To a - ) 90 b= = Figure 11. Relative Luminous Intensity vs. Angular Displacement. 10 20 30 40 50 60 70 80 90 100 3-146Family of Yellow 1N6093/HLMP-0454 1.50 1,25 1.00 0.75 RELATIVE EFFICIENCY (NORMALIZED AT 20mA DC) 0.50 RELATIVE LUMINOUS INTENSITY (NORMALIZED AT 20mA) HERMETIC LAMPS Iptan PEAK FORWARD CURRENT - mA 026 o 0.00 8 1.0 15 2.0 25 30 aa 10 5 20 Pa x & 50 60 Ve - PEAK FORWARD VOLTAGE - V I, - FORWARD CURRENT - mA lscax PEAK CURRENT mA Figure 12. Forward Current vs. Figure 13. Relative Luminous Figure 14. Relative Efficiency Forward Voltage. Intensity ve. Forward Current. (Luminous Intensity per Unit Current) vs. Peak Current. RATIO OF MAXIMUM TOLERABLE PEAK CURRENT TO MAXIMUM TOLERABLE DC CURRENT Ipgak MAX Ipc MAX. 1 10 100 1,000 10,000 tp PULSE DURATION us Figure 15. Maximum Tolerable Peak Current vs. Pulse Figure 16. Relative Luminous Intensity vs. Angular Duration. (I, MAX as per MAX Ratings). Displacement. 3-147Family of Green 1N6094/HLMP-0554 lptak PEAK FORWARD CURRENT ~ ma | i shot 1 \ Q 10 1S 2.0 25 3.0 m4 Vp PEAK FORWARD VOLTAGE - Figure 17. Forward Current vs. Forward Voltage. RATIO OF MAXIMUM TOLERABLE PEAK CURRENT TO MAXIMUM TOLERABLE DC CURRENT lpEAK MAX loc MAX 1 10 100 1,000 tp PULSE DURATION xs 16,000 ~ & 3 ow > Zz a a $< 28 w & ak g8 pt we 9a zs Zu a =5 wu aq 2N aa ea cz qaqa 25 BE eg 4 2 z c mo 1 2 2% 329 3 0 10 20 30 40 50 60 tg ~ FORWARD CURRENT mA lpgax PEAK CURRENT mA Figure 18. Relative Luminous Figure 19. Relative Efficiency Intensity vs. Forward Current. (Luminous Intensity per Unit Current) vs. Peak Current. 25 4 : o 1a 20 30 40 50 60 70 80 90 100 Figure 20. Maximum Tolerable Peak Current vs. Pulse Figure 21. Relative Luminous Intensity vs. Angular Duration. (1, MAX as per MAX Ratings). Displacement. 3-148JAN 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. JANTX PART: These devices undergo 100% screening tests as listed below to the conditions and limits specified by the MIL- S-19500 slash sheet. The JANTX lot has also been subjected to Group A, B, and C sample tests as for the JAN PART above. Table I. Group A Inspection for TO-46 Lamps MIL-STD-750 Limits Examination or Test | Method Details LTPD | Symbol | Min. | Max. | Unit Subgroup 1 5 Visual and mechanical 2071 inspection Subgroup 2 5 Luminous intensity I, = 20 mA de;6 = 0 I, 0.51 med 3.08) med Luminous intensity I, = 20 mA de;'6 = 30 I, 0.323 med 1.58) med Reverse current 4016 DC method; V,, = 3 V de I, 1.0 | pAde Forward current 4011 DC method; I, = 20 mA Ve 3.0 | V de Subgroup 3 10 High temperature: T, = 100C Reverse current 4016 DC method; V, = 3 V de I, 1.0 | pAde Forward voltage 4011 DC method; I, = 20 mA"! Ve 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 Ve 3.0 | Vde Subgroup 4 5 Capacitance 4001 | V, =0;f=1MHz Cc 100 pF Notes: 1. I, = 25 mA for 1N6094. 2. For IN5765. 3. For 1N6092, 1N6093, and 1N6094. 3149 HERMETIC LAMPSTable II, 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, indicator fluid/device maintained at 100C +5C Electrical test: Luminous intensity I, = 20 mA dc,!6 = 0 I, 0.5) med 3.021 med Subgroup 3 5 Steady-state-operation 1027 | I, =35 mA de, 340 hours life T, = 25C Electrical test: Luminous intensity I, = 20 mA dc," 6 = 0 I,, [0.45% med 2.7) med Subgroup 4 Decap internal design 2075 | Test 1 device/O failure verification Subgroup 5 (Not applicable) Subgroup 6 7 High temperature life 1032 | T, = 100C, 340 hours (nonoperating) Electrical test: Luminous intensity I, = 20 mA de,!@ = 0 T,, [0.45% med 2.721 med Notes: 1. For 1N5765. 2. For 1N6092, 1N6093, and 1N6094. 3. 25 mA for 1N6094. 3-150Table ITE. 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,, 0.54 med 3.021 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, 0.54 med 3.02! 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 ly 0.459) med 2.72) med 3-151 HERMETIC LAMPSTable III. Group C Inspection (continued) 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 = 5s, I,,, = 1.0 A(pk) Electrical test: Luminous intensity I, = 20 mA de,! 6 = 0 I, 0.451 med 2.7?) med Subgroup 8 10 Peak forward pulse t. =0.5 ms, current (operating) By < 120 mW, T, = 25C, I, = 60 mA, 500 hours Electrical test: Luminous intensity I, = 20 mA dc,!@ = 0 I, 0.4511 med 2.711 med Notes: 1. For 1N5765. 2. For 1N6092, 1N6093, and 1N6094. 3.1, = 25 mA for 1N6094. Table IV. Group A Inspection for panel mount lamps 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,'9 = 0 ln 0.5% med 3.02 med Forward voltage DC method: I, = 20 mA! Vv, 3.0 | Vde Reverse current DC method: V, = 3 V de I, 1.0 | wAde Subgroup 3 5 Resistance to solvents 1022 Omit solution 2.1d Subgroup 4 5 Physical dimensions 2066 Notes: 1. For 1N5765. 2. For IN6092, IN6093, and 1N6094. 3. L, = 25 mA for 1N6094. 3-152