(AI mackano CMOS Hermetic Extended Temperature Range 5x7 Alphanumeric Displays Technical Data Features * On-Board Low Power CMOS IC Integrated Shift Register with Constant Current LED Drivers * Wide Operating Temperature Range -55C to +100C * HI-REL Screening per MIL-D-87157 Quality Level A TXV or TVXB * Hermetic Package Compact Glass Ceramic 4 Character Package HCMS-201X Series End Stackable HCMS-231X/-235X Series X-Y Stackable HCMS-235X Series are Sunlight Viewable * Five Colors Standard Red High Efficiency Red Orange Yellow High Performance Green * 5x7 LED Matrix Displays Full ASCII Set Two Character Heights 3.8mm (0.15 inch) 5.0mm (0.20 inch) Wide Viewing Angle X Axis = +50 Y Axis = +65 * Long Viewing Distance HCMS-201X Series to 2.6 Meters (8.6 Feet) HCMS-231X/-235X Series to 3.5 Meters(11.5 Feet) * Categorized for Luminous Intensity * HCMS-2011/2013 HCMS-231 1/-2313/-2314 HCMS-2351/-2353/-2854 Useable in Night Vision Lighting Applications * HCMS-2011/-2013, HCMS-2311/-2313 and HCMS-235 1/-2353: Categorized for Color Typical Applications Military Avionics * Communications Systems * Radar Systems * Fire Control Systems HCMS-201X/201XTXV/ 201XTXVB Series HCMS.-231X/231XTXV/ 231XTXVB Sunlight Viewable Series HCMS-235X/ 235XTXV/235XTXVB Series Description The HCMS.201X, HCMS-231X and the sunlight viewable HCMS-235X series are 5x7 LED four character displays con- tained in 12 pin dual-in-line packages designed for display- ing alphanumeric information. The character height for the HCMS-201X series displays is 3.8mm (0.15 inch), and for the HCMS-231X and HCMS-235X series displays the character height is 5.0mm (0.20 inch). The HCMS-201X series displays are available in four LED colors: standard red, high efficiency red, yellow and high perform- ance green. The HCMS-231X series are available in all five ESD WARNING: STANDARD CMOS HANDLING PRECAUTIONS SHOULD BE OBSERVED. 4-261LED colors. The HCMS-235X series displays are available in four LED colors: high efficiency red, orange, yellow and high per- formance green, The HCMS- 201X series displays are end stackable. The HCMS-231X and HCMS-235X series displays are end/row stackable. These displays are designed with on-board CMOS integrated Display Selection Table circuits for use in applications where conservation of power is important, The two CMOS ICs form an on-board 28-bit serial- in-parallel-out shift register with constant current output LED row drivers. Decoded column data is clocked into the on-board shift register for each refresh cycle. Full character display is achieved with ex- ternal column strobing. Compatibility with HDSP-201X/-231X/-235X TTL IC Series Displays The HCMS-201X, HCMS-231X and HCMS-235X CMOS IC dis- plays are drop-in replacements for the equivalent HDSP-201X, HDSP-231X and HDSP-235X TTL IC displays. The 12 pin glass/ceramic package configur- ation, four digit character matrix and pin functions are identical. Part Number Character Size LED Color HCMS-2010/2010TXV/2010TXVB 3.8 mm (0.15 inch) Standard Red HCMS-2011/2011TXV/2011TXVB 3.8 mm (0.15 inch) Yellow HCMS-2012/2012TXV/2012TXVB HCMS-2013/2013TXV/2013TXVB HCMS-2310/2310TXV/2310TXVB HCMS-2311/2311TXV/2311TXVB HCMS-23 12/2312TXV/2312TXVB HCMS-23 13/2313TXV/2313TXVB HCMS-23 14/2314TXV/2314TXVB Sunlight Viewable Displays HCMS-2351/2351TXV/2351TXVB HCMS-2352/2352TXV/2352TXVB HCMS-2353/2353TXV/2353TXVB HCMS-2354/2354TXV/2354TXVB 3.8 mm (0.15 inch) 3.8 mm (0.15 inch) 5.0 mm (0.20 inch) 5.0 mm (0.20 inch) 5.0 mm (0.20 inch) 5.0 mm (0.20 inch) 5.0 mm (0.20 inch) 5.0 mm (0.20 inch) 5.0 mm (0.20 inch) 5.0 mm (0.20 inch) 5.0 mm (0.20 inch) High-Efficiency Red High-Performance Green Standard Red Yellow High-Efficiency Red High-Performance Green Orange Yellow High-Efficiency Red High-Performance Green Orange Note: Basic part numbers (ic. HCMS-235 1) are without hi-rel screening. Part numbers with TXV or TXVB suffix (ie. HCMS-2351TXV) are with hi-rel screening per MIL-D-87157, Quality Level A. 4-262Package Dimensions W7 (0.699) MAX a 2.11 * (0.083) REF TT (0.146) * en [to SEE NOTE 3 PIN | FUNCTION PIN | FUNCTION } 1 | COLUMN 7 | DATA OUT SEE NOTE 3 rq r ry em ry 2 COLUMN 2 8 Ve 7.87 | ' l | I 7.25 3 COLUMN 3 9 | Von (0.310) i 1+1- AIH Et +1 (0.290) 4 | coLUMN4 10 | cock c4da tts | tog be _ 5 | COLUMNS 11 | GROUND | 6 | int.connect| 12 | DATAIN ~ | * DO NOT CONNECT OR USE 4.44:0.13 PIN 1 MARKED BY DOT 1270.18 (0.175 +0.005) ON BACK OF PACKAGE (0.080'0.008) | i a - ae) 5.08 4 rar, (0.200) ' tsa ~F Ha (0.100) so 6.85 (0.270) SEATING | PLANE ~ 0.25: 0.08 .010+0.003 127 254013 (001000.003) 7.62 (0.050) (0.10020,005) . (0.300) 0.5470.08 Tye, (0.020+0,003) NON ACCUM. HCMS.-201X Series - 20.07 max, + 178 (0 4 COLOR BIN 10.070) PART NUMBER -- SEE 284 1.27 DATE CODE (0.192) REF. a: NOTE 3 (0.050) 12 be 10/918 [ca c3 3 calea 22 241 aor A BS | rich Ft-y | SEENOTE3 (0,095) 487 titito tat { 8.43 441 2 af-t4a4t - 10,192) PEF rrr arte tay 4 (0.332) Eel icms-23%x band bend [eld tld 2 3 c3{/caj co cs 7 . 2.794 0.13 a 1 2 3/4 (0.110+0.005) 45 PIN 1 MARKED BY DOT & 5.00+0.13 LUMINOUS INTENSITY to140) PIN} ON BACK OF PACKAGE = 1.27-0.13 __ (0.197+0.008) CATEGORY : (0.050:0.005) PIN | FUNCTION PIN | FUNCTION 7 [ 1 | covumn4 7 | Data out 5 a 1. a 2 | covumN 2 a | V (0.200) ats 3 | COLUMN 3 2 | Voo 4 (0. 70 4 COLUMN 4 10 CLOCK | 0.25:0.08 TYP. 5 COLUMN 5S W GROUND (0.010+0.003) 6 | INT.CONNECT*| 12 | DATAIN 2.54 T t > 1 (0.100) az of 4 DO NOT CONNECT OR USE | (0.050) * I NOTES: 1. DIMENSIONS IN MILLIMETRES (INCHES) 2.54:0.13 2. UNLESS OTHERWISE SPECIFIED THE (0.100+0.005) TYP. 0.54:0.08 6.35+0.25 TOLERANCE ON ALL DIMENSIONS IS NON ACCUM (0.020+0.003) (0.2500.010} +0.38mm(+0.015), 3. CHARACTERS ARE CENTERED WITH RESPECT TO LEADS WITHIN +0.13mm (10.005") 4. LEAD MATERIAL IS COPPER ALLOY, SOLDER DIPPED. HCMS.-231X/-235X Series 4-263Absolute Maximum Ratings Supply Voltage V_, to Ground 0.0... cerns 0.3 V to 7.0V Data Input, Data Output, Vj... cccecceieeeeseseeetteerenenees 0.3 V to V,,, Column Input Voltage, Voc, occa teseeaties -0.3 V to Vi, Free Air Operating Temperature Range, T, ve B5C to +100C Storage Temperature Range, Ty .........0.:ccceeeees -65C to +125C HCMS-2310/-231 1/-2312/- 2314 HCMS-235 1/-2352/-2354 Storage Temperature Range, T, ..........0-cceee ~55C to +100C HCMS-2010/-2011/-2012/-2013 HCMS-2313 HCMS-2353 Maximum Allowable Package Power Dissipation, P,'?) HCMS-2010/-201 1/-2012/-2013 at Te 83C Looe cece tenes 0.79 Watts HCMS-2310/-2311/-2312/-2313/-2314 at T= BEPC Lo. 0.92 Watts HCMS-235 1/-2352/-2353/-2354 at Ty = 71C ...cceeeees 1.31 Watts Maximum Solder Temperature 1.59 mm (0,063") Below Seating Plane, t < 5 see... cece 260C ESD Protection @ 1.5kQ, 100pf 0... eee V, = 4 kV (each pin) Notes: 1. Maximum allowable power dissipation is derived from V,,,, = 5.25 V, V, = 2.4 V, = 3.5 V, 20 LEDs ON per character, 20% DF. 2. Tit power dissipation for these displays should be derated as follows: HCMS-201X series derate above 83C at 17 mW/C, R8, , = 60C/W HCMS-231X series derate above 88C at 22 mW/C, Ro, = 45C/W HCMS-325X series derate above 71C at 23 mW/C, Ro, = 45C/W. Deratings based on R@,,_, = 35C/W per display for printed cireuit board assembly. See Figure 1 for power derating based on lower RO, , values. Recommended Operating Conditions Over Operating Temperature Range (-55C to +100C) Parameter Symbol Min. Typ. Max. Units Supply Voltage Von 4.75 5.00 5.25 Vv Data Out Current, Low State Ig, 1.6 mA Data Out Current, High State Lon -0.5 mA Column Input Voltage Voor 2.75 3.0 3.5 Vv Setup Time toerup 10 ns Hold Time trop 25 ns Clock Pulse Width High HCLOCK) 50 ns Clock Pulse Width Low twietock) 50 ns Clock High to Low Transition tou. 200 ns Clock Frequency CLOCK 5 MHz 4-264Electrical Characteristics Over Operating Temperature Range (-55C to +100C) Parameter Symbol | Test Conditions | Min. | Typ.*| Max. | Units Supply Current, Dynamic" lop ferock = 5 MHz 6.2 78 mA Supply Current, Static!?! Topsot V,=0.4V 1.8 2.6 mA psen V,=2.4V 22 | 3.3 Column Input Current V,= 0.4 V 10 pA HCMS-2010/-201 1/-2012/-2013 loot Vz=24V 310 | 384 mA HCMS-2310/-231 L/-23 12/-23 13/-2314 V,=24V 360 | 451 mA HCMS-235 1/-2352/-2353/-2354 V,=2.4V 500 650 mA Input Logic High Vin Vip = 4.75 V 2.0 Vv Data, V,, Clock Input Logic Low Vi Vop = 5.25 V 0.8 v Data, V,,, Clock Input Current Vip = 5.25 V Data, Clock I, 0<V,< 5.25 V -10 +10 pA V, 0<V,<5.25V | -40 0 Data Out Voltage Voy = 4.75 V 2.4 4.2 Vou 1,,, = -0.5 mA v loo, = O MA Voy = 5.25 V 0.2 0.4 Vor I), = 1.6 mA Vv Too, = O MA Power Dissipation Per Package!) Vop = 5.0 V HCMS-2010/-201 /-2012/-2013 Veo. = 3:5 V 414 HCMS-2310/-231 1/-2312/-2313/-2314 P, 17.5% DF 481 mW HCMS-235 1/-2352/-2353/-2354 V,= 2.4 v 668 15 LEDs ON per Character Thermal Resistance IC Junction-to-Pin HCMS-2010/-201 1/-2012/-2013 RO, pin 25 HCMS-2310/-231 1/-2312/-2313/-2314 10 C/W HCMS-235 1/-2352/-2353/-2354 10 Leak Rate 5x10* | ce/see All typical values specified at Vij, Notes: = 5.0V and T, = 25C. 1. hp Dynamic is the IC current while clocking column data through the on-board shift register at a clock frequency of 5MHz, the display is not illuminated. r characters are illuminated with a typical ASCII character composed of 15 dots per character. 2. bop Static is the IC current after column data is loaded and not being clocked through the on-board shift register. 3. Fou 4 IC junction temperature T (IC) = (P)XR8, py + RO, pow tT, 4-265 = aT a x a aa BaeOptical Characteristics at T, = 25C Standard Red HCMS.-2010/-2310 Description Symbol Test Condition Min. Typ. | Max. | Units Peak Luminous Von = 5.0V Intensity per HCMS-2010 Voor. = 3-5 V 105 200 hed LEDS#! HCMS-2310 Tpnak V,=2.4V 220 370 (Character Average) T, = 25C"! Dominant Wavelength'! ra 639 nm Peak Wavelength ApEaK 655 nm Yellow HCMS-201 1/-2311/-2351 Description Symbol Test Condition Min. Typ. | Max. | Units Peak Luminous Vop = 5-0 V Intensity per HCMS-2011 Veo, = 3-5 V 400 750 LED! HCMS-2311 LoeaK V,= 2.4 V 650 1140 ped (Character HCMS-2351 T,= 25C?) 2400 3400 Average) Dominant Wavelength!! ry 585 nm Peak Wavelength Anpak 583 nm High Efficiency Red HCMS.-2012/-2312/-2352 Description Symbol Test Condition Min. Typ. | Max. Units Peak Luminous Vop = 5.0 V Intensity per HCMS-2012 Voor, = 3-5 V 400 1430 LEDS! HCMS-2312 Toeax V,=24V 650 | 1430 ped (Character HCMS.-2352 T, = 25C 1920 2850 Average) Dominant Wavelength! Me 625 nm Peak Wavelength ApeaK 635 nm High Performance Green HCMS-2013/-2313/-2353 Description Symbol Test Condition Min. Typ. | Max. | Units Peak Luminous Vop = 5.0 V Intensity per HCMS-2013 Voor = 3-5 V 850 | 1550 LEDS! HCMS-2313 Loeax V,=24V 1280 | 2410 ued (Character HCMS.2353 T. = 25C?! 2400 3000 Average) Dominant Wavelength'**! a 574 nm Peak Wavelength ApeAK 568 nm 4-266Orange HCMS-2314/-2354 Description Symbol Test Condition Min. Typ. | Max. Units Peak Luminous Vop = 5.0V Intensity per Veo, = 3-5 V LED9) HCMS-2314 lorax V,=24V 650 | 1430 ped (Character HCMS-2354 T,= 25C!2 1920 2850 Average) Dominant Wavelength!! ry 602 nm Peak Wavelength rppak 600 nm All typical values specified at V,, = 5.0 V and T, = 25C unless otherwise noted. Notes: 5. These LED displays are categorized for luminous intensity, with the intensity category designated by a letter code on the back of the package. 6. The HCMS-201 1/-2311/-2351 and HCMS-2013/-2313/-2353 are categorized for color with the color category designated by a number on the back of the package. 7. Ti refers to the initial case temperature of the display immediately prior to the light measurement. 8. Dominant wavelength, 4,, is derived from the CIE Chromaticity Diagram, and representa the single wavelength which defines the color of the device. The luminous aterance of the individual LED pixels may be calculated using the following equations: L, (cd/m? ) = 1(Candela)*DF/A(Metre) L,(Footlamberts) = al (Candela)*DF/A(Foot)? Where: A = LED pixel area = 5.3 x 10M? or 5.8 x 107A? DF = LED on-time duty factor Wu ie Fan Ya Switching Characteristics, T, = -55C to +100C jee Wevock Parameter Condition | Typ.| Max.| Units le we DES f.,,., CLOCK Rate 5 | MHz crock ev | VO tou ton C,=15 pF 105 | ns va 08 7 Propagation Delay | R, = 2.4 kQ tserup r os Show + CLOCK to DATA Wo ova F OUT DATA IN " : vio 8 yi f t. OFF V,, (0.4 V) to DATA OUT Display OFF 4 5 ton HS V,, (2.4 V) to Display ON 1 2 ON (ILLUMINATED) 4) | DISPLAY wm Nf OFF {NOT ILLUMINATED} 10% 4-26710. 1314 r oF THT PTT 13] vem E HOMS.2012/-2312/-2314/ | [J] HOMS 235% SERIES > Ee , 7 a V2p ae ry ' { 5 orgy tA } zasar2asa i ys tS q Bota]. Rey a= 4s'CW ;4 2 Ps HOMS-2010/-2310 t = i r+ tet +4 3 < gg! 9) Homs-231x SERIES { * R | 5 . ! 3 O82 = 20 3 a. at 2 Ob ar og ja pe 2 =LS on * > " Os roe Gb ae 2 10 26 of Gi tts ANP] 8 Pty bt g 3 0.5) Hems-201x series L/P 7 P i 3 08F +4 ucms-2011/-231 po oat | RO, aoc TL 2 [| HOMs-2013/-231 xB OFF fo foe bie d ge a TT g8 azf.~ RQ, aia = 100C)-%, Z o2l- oO o1 1 | | | + { \ t = a 0 li 1 L ] out i 0 2 40 60 80 100 120 60] -40 -20 0 20) 40 60 80 100 Ta AMBIENT TEMPERATURE C Figure 1. Maximum Allowable Power Dissipation vs Ambient Tem- perature as a Function of Thermal Resistance Junction-to-Ambient, Ro, ,. Derated Operation Assumes RO... = 35C/W per Display for Printed Circuit Board. T, AC) MAX = 130C. Rb, , (T, = 100C) = 22C/W for HCMS-235X Series = 32C/W for HCMS-231X Series = 38C/W for HCMS-201X Series Electrical Description Each display device contains four 5x7 LED dot matrix characters and two CMOS integrated circuits, as shown in Figure 4. The two CMOS inte- grated circuits form an on-board 28 bit serial-in-parallel-out shift register that will accept stand- ard TTL logic levels. The Data Input, pin 12, is connected to bit position 1 and the Data Output, pin 7, is connected to bit posi- tion 28. The shift register out- puts control constant current sinking LED row drivers. The nominal current sink per LED driver is 11mA for the HCMS- 201X displays, 13mA for the HCMS-231X displays and 18mA for the HCMS-235X displays. A logic 1 stored in the shift regis- ter enables the corresponding LED row driver and a logic 0 stored in the shift register dis- ables the corresponding LED row driver. The electrical configuration of these CMOS IC alphanumeric displays allows for an effective -65 23 Ta - AMBIENT TEMPERATURE C Figure 2. Relative Luminous Intensity vs Display Pin Temperature interface to a display controller circuit that supplies decoded character information. The row data for a given column (one 7 bit byte per character) is loaded (bit serial) into the on-board 28 bit shift register with high to low transitions of the Clock input. To load decoded charac- ter information into the display, column data for character 4 is loaded first and the column data for character 1 is loaded Jast in the following manner. The 7 data bits for column 1, character 4, are loaded into the on-board shift register. Next, the 7 data bits for column 1, character 3, are loaded into the shift regis- ter, shifting the character 4 data over one character posi- tion. This process is repeated for the other two characters until all 28 bits of column data (four 7 bit bytes of character column data) are loaded into the on-board shift register. Then the column 1 input, Vo, pin 1, is energized to illuminate column 1 in all four characters. This process is repeated for 4-268 600 T T i HCMS-235X SERIES 5 BOO a das o Tas 28C jr HCMS-231X SERIES Voo= 5.0 | 5 sool- . . J oO z i ; 3 300 + "T 4 3 L 3 HCMS.201X SERIES = 200 A f . : a : (28 LED PIXELS , ILLUMINATED) 3 wo | 4 + ~ | i 0 ee 1 2 3 #+S 6 Veou - COLUMN VOLTAGE -V Figure 3. Peak Column Current vs Column Voltage columns 2, 3, 4 and 5. All V.,,, inputs should be at logic low to insure the display is off when loading data. The display will be blanked when the blanking input V,, pin 8, is at logic low regardless of the outputs of the shift register or whether one of the V.,,, inputs is energized. Refer to Application Note 1016 for drive circuit information. ESD Susceptibility The HCMS-201X/-231X/-235X series displays have an ESD susceptibility ratings of CLASS 3 per DOD-STD-1686 and CLASS B per MIL-STD-883C. It is recommended that normal CMOS handling precautions be observed with these devices. Soldering and Post Solder Cleaning These displays may be soldered with a standard wave solder process using either an RMA flux and solvent cleaning or an OA flux and aqueous cleaning.COLUMN DRIVE (NPUTS BLANKING CONTROL. Vg SERIAL DATA INPUT CLOCK COLUMN 12034 5 LED MATRIX ROWS 1-7 ROWS 1-7 CONSTANT CURRENT SINKING LED DRIVERS ROWS 8-14 26-BIT SIPO SHIFT REGISTER ROWS 15-21 3 Loares Bs ran St ROWS 22-28 SERIAL DATA OUTPUT Figure 4. Block Diagram of an HCMS-2XXX Series LED Alphanumeric Display. For optimum soldering, the solder wave temperature should be 245C and the dwell time for any display lead passing through the wave should be 1 1/2 to 2 seconds. The recommended solvent for post solder cleaning is Genesolv DES, manufactured by Allied Chemical. For aqueous cleaning, a water temperature of 60C (140F) with an immersion time not exceeding 15 minutes is recom- mended. For more detailed information, refer to Application Note 1027 Soldering LED Components. Contrast Enhancement When used with the proper con- trast enhancement filters, the HCMS-235X series displays are readable in sunlight and the HCMS-201X/23 1X series dis- plays are readable in daylight ambients. Refer to Application Note 1029 Luminous Contrast and Sunlight Readability of the HDSP-.238X Series Alphanu- meric Displays for Military Applications for information on contrast enhancement for sun- light and daylight ambients. Refer to Application Note 1015 Contrast Enhancement Tech- niques for LED Displays for information on contrast enhancement in moderate ambients. Night Vision Lighting When used with the proper NVG/DV filters, the HCMS- 2311/-2351 and HCMS-2133/- 2353 displays may be used in night vision lighting applica- tions. The HCMS-2311/-2351 (yellow) displays are used as 4-269 master caution and warning indicators. The HCMS-2313/- 2353 (high performance green) displays are used for general instrumentation. For a list of NVG/DV filters and a discussion on night vision lighting technol- ogy, refer to Application Note 1030 LED Displays and Indica- tors and Night Vision Imaging System Lighting. Controller Circuits, Power Calculations and Display Dimming Refer to Application Note 1016 Using the HDSP-2000 Alphanumeric Display Family for information on controller circuits to drive these displays, how to do power calculations and a technique for display dimming.Table I. Quality Level A of MIL-D-87157 - 100% Screening MIL-STD-750 Test Screen Method Conditions 1. Precap Visual 2072 Interpreted by HP Procedure 5956-7512-52 2. High Temperature Storage 1032 T, = 125C, Time = 24 hours! 3. Temperature Cycling 1051 Condition B, 10 cycles, 15 minute dwell 4. Constant Acceleration 2006 10,000 G's at Y, orientation 5. Fine Leak 1071 Condition H 6. Gross Leak 1071 Condition C or KU! 7. Interim Electrical/ Ip (at V, = 0.4 V and 2.4 V), I.,, (at V, = 0.4 V Optical Tests!?! and 2.4 VY) 1,,,(Vy, Clock and Data In), I,, (V,, Clock and Data In), low Ty, and Type ax: Vin and V,, inputs are guaranteed by the electronic shift register test. T, = 25C 8. Burn-In!!) 1015 Condition B at V,,,, = V, = 5.25 V, V,,, = 3.5 V, T, = +100C LED ON-Time Duty Factor = 5%, 35 Dots On; t = 160 hours 9. Final Electrical Test!?! ~ Same as step 7 10. Delta Determinations _ Alyy = 6 mA, AI,,, (clock) = 10 nA, Al,,, (Data In) = +10 pA Al,,,, = +10% of initial value, and Al, = -20%, T, = 25C 11. External Visual!) 2009 Notes: 1. MIL-STD-884 Test Method applies. 2. Limits and conditions are per the electricaV/optical characteristics. The I,,,, and I,,, tests are the inverse of V,,,, and V,. specified in the electrical characteristics. 3. T, = +100C for HCMS-2013/-2313/-2353. 4. Fluid temperature = +100C for HCMS-2013/-2313/-2353. Table IT. Group A Electrical Tests - MIL-D-87157 Subgroup Test Parameters LTPD Subgroup 1 DC Electrical Tests at 25C!!! Ip (at V,, = 0.4 V and 2.4 V), I,,, (at V, = 0.4 V and 2.4 V) 1, (,, Clock and Data In), I,, (V,, Clock and Data In), 5 ow tg, Visual Function and I, ...4,- ;;,and V,, inputs are guaranteed by the electronic shift register test. Subgroup 2 DC Electrical Tests at High Temperature!) Same as Subgroup 1 except delete I, and visual 7 function, T, = +100C Subgroup 3 DC Electrical Tests at Low Temperature!!! Same as Subgroup | except delete J], and visual 7 function, T, = -55C Subgroup 4, 5, and 6 not tested Subgroup 7 Optical and Functional Tests at 25C Satisfied by Subgroup 1 5 Subgroup 8 External Visual MIL-STD-883, Methad 2009 7 Notes: 1. Limits and conditions are per the clectrical/optical characteristics. The I,,, and I specified in the electrical characteristics. a, tests are the inverse of V., and V,, 4-270Table IIIa. Group B, Class A and B of MIL-D-87157 MIL-STD-750 Sample Subgroup Test Method Conditions Size Subgroup 1 Resistance to Solvents 1022 4 Devices/ 0 Failures Internal] Visual and Design 2076571 1 Device/ Verification") 0 Failures Subgroup 22:5! Solderability 2026 T, = 245C for 5 seconds LTPD = 15 Subgroup 3 Thermal Shock (Temp. Cycle) 1051 Condition B1, 15 minute dwell LTPD = 15 Moisture Resistance!4! 1021 Fine Leak 1071 Condition H Gross Leak 1071 Condition C or K' Electrical/Optical Endpoints!! Ip (at V, = 0.4 V and 2.4 Vv), Tyg, fat V,, = 0.4 V and 2.4 V), I, (V,, Clock and Data In), I,, (V,,, Clock and Data In), Ioyp Lo, Visual Function and Ton ay: V,,,and V,, inputs are guaranteed by the electronic shift register test. T, = 25C Subgroup 4 Operating Life Test (340 hrs.) 1027 T, = +100C at V,,,, = V, = 5.25 V, Veo, = 3.5 V, LED ON-Time Duty LTPD = 10 Factor = 5%, 35 Dots On Electrical/Optical Endpoints!! Same as Subgroup 3 Subgroup 5 Non-Operating Storage Life 1032 T, = +125C!8) LTPD = 10 Test (340 hrs.) Hlectrical/Optical Endpoints!5! Same as Subgroup 3 Notes: 1. Visual inspection is performed through the display window. 2. Whenever electricaVoptical tests are not required as endpoints, electrical rejects may be used. . The LTPD applics to the number of leads inspected except in no case shall less than 3 displays be used to provide the number of leads required. . Initial conditioning is a 15 inward bend for one cycle. . Limits and conditions are per the clectrical/optical characteristics. The I,,, and I, tests are the inverse of V. specified in the electrical characteristics. .T, = 100C for HCMS.2013/-23 13/-2353. . Equivalent to MIL-STD-883, Method 2014. . Fluid temperature = +100C for HCMS-2013/-2313/-2353. we onde and V,, OH xan 4-271 a Ww 3 x vty a Lae hasTable IVa. Group C, Class A and B of MIL-D-87157 MIL-STD-750 Sample Subgroup Test Method Conditions Size Subgroup 1 Physical Dimensions 2066 2 Devices/ 0 Failures Subgroup 2!*! Lead Integrity!) 2004 Condition B2 Fine Leak 1071 Condition H LTPD = 15 Gross Leak 1071 Condition C or K! Subgroup 3 Shock 2016 1500G. Time = 0.5 ms, 5 blows in LTPD = 15 each orientation X,, Y,, Z, Vibration Variable Frequency 2056 Constant Acceleration 2006 10,000G at Y, orientation External Visual!4! 1010 or 1011 Electrical/Optical Endpoints! _ Ipp (at V, = 0.4 V and 2.4 V), Ig, (at V, = 0.4 V and 2.4 V), I,,, (V,, Clock and Data In), 1,, (V,, Clock and Data In), I,,,, Jo,, Visual Function and I,,,,,- ,,and V,, inputs are guaranteed by the electronic shift register test. T, = 25C Subgroup 4!!:3! Salt Atmosphere 1041 LTPD = 15 External Visual"! 1010 or 1011 Subgroup 5 Bond Strength'! 2037 Condition A LTPD = 20 (C =0) Subgroup 6 Operating Life Test! 1026 T, = +100C at V, = V, = 5.25 V, V5, = 3.5 V LED ON-Time Duty Factor = 5%, 35 Dots On A=10 Electrical/Optical Endpoints!*! _ Same as Subgroup 3 Notes: 1. Whenever electricaVoptical tests are not required as endpoints, electrical rejects may be used. 2. The LTPD applies to the number of leads inspected except in no case shall less than 3 displays be used to provide the number of leads required. Solderability samples shall not be used. Visual requirements shall be as specified in MIL-STD-883, Methods 1010 or 1011. Displays may be selected prior to seal. Ifa given inspection lot undergoing Group B inspection has been selected to satisfy Group C inspection requirements the 340 hour life tests may be continued on test to 1000 hours in order to satisfy the Group C life teat requirements. In such cases cither the 340 hour endpoint measurements shall be made a basis for Group B lot acceptance or the 1000 hour endpoint measurement shall be used as the basis for both Group B and Group C acceptance. 7. MIL-STD-883 test method applies. 8. Limits and conditions are per the clectricaVoptical characteristics. The I,,, and I,, tests are the inverse of V,,, and V,, specified in the electrical specifications. 9. Initial conditioning is a 15 inward bend for three cycles. 10, Fluid temperature = +100C for HCMS-2013/-2313/-2353. So me os 4272