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| hll1h kl:llal)llll y lunvi:k il:k~ adciiii, dacii12, shaii14, dacii17 general description the adcllll, dacl112, shal114, and dacl117 are fully documented, high reliability converter products which are guar- anteed to operate within specifications over the full military temperature range. qualification testing has proven that these devices are capable of operating under severe environmental con- ditions. a specification document is available for each product which lists its characteristics and capabilities in great detail. adc1111 the adcllll is a high reliability version of the adc-12qm. it performs 12 bit conversions in 25/ls (max) and has excellent stability over temperature. it comes complete with an input buffer and offers the choice of five user-rrogrammable input voltage ranges. module dimensions are 2' x 4" x 0.4" (51 x 102 x lomm). dacl112 the dacll12 is a high reliability version of the dac-12qs. this 2" x 2" x 0.4" (51 x 51 x 10mm) module, which comes complete with a versatile output amplifier, settles to 0.01 % accuracy in 5/ls. the user can program either of five output vol- tage ranges by means of jumpers connected to the module's ter- minal pins. shal114 the shal114 is a high reliability version of the sha-2a. it is a fast sample-and-hold amplifier with a 500ns (max) acquisition time to 0.01 % accuracy. module dimensions are 2" x 3" x 0.4" (51 x 76 x 10mm). dacl117 the dacl117 is a high reliability 12 bit current output d/a converter packaged in a 1.5" x 1" x 0.4" (38 x 25 x 10mm) her- metically sealed metal enclosure. it settles to 0.01 % accuracy in 3/ls when used with a high speed output amplifier. this device is also available in a non-military grade extended temperature version, the mda-12qd/et, and a commercial grade version, the mda-12qd. the high reliability converter program analog devices has, over the past several years, supplied a great many a/d and d/ a converter modules intended for military and critical industrial applications. as a result of this experience, we know what is needed in a high reliability converter and what it takes to build one. this experience is now available to you in the form of the industry's first line of converter products inten- ded expressly for high reliability applications. advantages to the user the first big advantage is the ease of specification. as part of our development program, we have generated a separate speci- fication drawing for each of the four products. these drawings run an average of 17 pages and specify in exact detail all pertin- 106 converters ent characteristics of the module. by copying our drawing over onto his own specification control drawing format, the user can completely specify a high reliability converter module in a very short time with a mimimum of effort. the second advantage is that the system designer can get quick delivery of units needed for breadboarding and prototyping. since the high reliability converters are standard products for us, they're available in small quantities in a few weeks or less. the third advantage is cost. the user is no longer in the position of having to subsidize the development of a special high reliability converter. we have sustained all the development costs and the user pays only for the modules he actually requires --~ --- -- obsolete
-' .- , ~i ~i z, o, , i i i i i i i i -oj - -- -- svm. description dr. ckd. appd. date a initial release per e.r. no. . . revstatuslllllllllllll1 1 of sheets 1112131"151617181911011111211311"1 51 unless otherwise specified drawn date analog devicesinc dimensions are in inches tolerances: drafting norwood . massach usetts decimals: .xx ! fractions: ! .xxx ! angles:! proj eng review specifications for 12 bit analog-to-digital converter, eng mgr model number adc1111 size code ident no dwg. no re v a 24355 03-66510 a scale i model adcll11 i sh..l of 12.. ] obsolete .1 i - 05/14/98 1.0 1.1 2.0 2.1 3.0 3.1 3.2 3.3 3.4 _analog devices for revisions and approval see sheet 1 scope: this specification covers the requirements for an encapsulated l2-bit analog-to-digital converter module. this aid converter module accepts analog input signals within any of several input voltage-ranges and converts th~ into ttl/dtl compatible parallel output digital data. general requirements: . modules supplied to this specification shall be manufactured, pro-~ cessed and tested in a careful and workmanlike manner i~l accordance with good engineering practice. the manufacturer of modules, in compliance with this apecification, shall have production and test, facilities and a quality and reliability assurance program adequate to assure successful compliance with the requirements of this speci- fication. applicable documents: the following documents form a part of this specificatic,n to the extent specified herein. applicable documents reference!d in the remainder of this specification are referenced by number only, with- out reference to amendment or issue. in each case, the amendment or issue referenced below spall apply. in the event of any conflict between this specification and any other document, this specification shall take precedence. military standards mil-std-130d identification marking of u.s. military f'roperty mil-std-202e test methods for electronic and electrical compon- ent parts mil-std-454d standard general requirements for electronic equip- ment mil-std-ss3 test methods and procedures for microelectronics . . military handbooks mil-hdbk-217a reliability stress and failure rate data for elec- tronic equipment . . size i code !dent. no. analogdevicesinc . nor wood. mas sac h use t t s i a 24 scale i i sheet -l - i4j 0021017 ji " 4- rev. a ., ;:1 ~. 21 , i i i i . i . .. i .j of 17 obsolete -~ i " ~ z :i ix id forre~~onsandapprovalsee~eet i mil-r-ll-la military specifications 3.5 mil-m-l4g mil-c-20e mil-r-lo509f mil-c-llol5d mil-p-l3949g mil-i-l6923e mil-s-l9500e mil-s-23586c mil-c-26655b mil-m-385l0a mil-g-45204b mil-i-45208a mil-i-46058c resistor, fixed, composition (insulated)/appro- priate device specification molding plastics and molded plastic parts, thermo- setting capacitor, fixed, ceramic dielectric, (temperature compensating)/appropriate device specification resistor, fixed, film (high stability)/appropriate device specification capacitor, fixed, ceramic dielectric (general pur- pose)/appropriate device specification plastic sheet, laminated, copper clad (for printed wiring) insulating compound, electrical, embedding semiconductor device/appropriate device specifica- tion sealing compound, electrical, silicone rubber, accelerator required capacitor, fixed, electrolytic (solid electrolyte), tantalum miccocircuits, general specifications for/appropriate device specification gold plating, 'electrode deposited inspection system requirements insulating compound, electrical (for coating printed circuit assembles) dwg.no. analog devicesinc norwood. massachusetts sheet l 1..- iu:v. a c., ~i ~i ~i . i i i i i i i i i , ..j ofll obsolete .. 05/14/98 4.0 4.1 5.0 5.1 5.2 5.3 6.0 6.1 6.2 6.3 6.4 11: 52 analog devices i4j 004/017 for revisions and ap'proval see sheet i absolute maximum ratings: absolute maximum ratings shall be as shown in table 1. electrical specifications: recommended operating conditions shall be as shown in table 2. electrical specifications shall be as shown in table 3. the module's t~ing characteristics shall be'a$ showq in figure 1. module connections: the desired input range, and whether or not the internal input buf- . fer is u'sed, shall be, determined according to table 4. when using a bipolar input voltage range, either offset binary or two's complement output coding shall be available. . the ,only differ- ence between the two codes is the state of the most significant bit (msb). for offset binary coding use pin 72 (msb) as the msb output. for two r s complement use pin 70 (hs1r). gain and zero adjustment potentiometers, if used, shall be connected as shown in figure 2. when the aid converter is used with its own internal clock, as is normally the case, connection to the clock shall be effected by con- necting together pins 35 and 36 of the module. mechanical specifications: the module's circuitry shall conform to the block diagram shown in figure 2. the module's pin assignments and pin designations shall be as shown in table 5. the physical outline of the module shall be in accordancl~ with figure 3. the maximum weight of the module shall be 3.5 ounces (99.3 grams). the module shall be permanently and legibly marked per mil-std-130'. the manufacturer's identification, model numbers. and p~1 numbers shall be marked on top of the module. any additional markings shall be on one or more sides of the module. analog devices inc l sa i 243i:.-=. tdwgndo3-665j.o no r wo 0 0 . mas sac h use t t s -- u- -- sheet ~ -4- rev; a a'" ~i ~i ~i . i i i i i i i i i i .j of 17. 7.0 7.1 7.2 7.3 7.4 7.5 i i - obsolete -{ = 10 ii) - 7.6 8.0 8.1 9.0 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8 9.9 for revisions and approval see sheet i modules meeting the requirements of this specification shall have their printed circuit cards coated subsequent to component mounting and soldering, but prior to encapsulation, using a plastic coating material meeting the requirements of mil-i-46058. environmental specifications: aid modules meeting the requirements of this specification shall be capable of passing the environmental tests shown in table 6. quality conformance inspection all modules meeting the requirements of this specification shall be inspected using an inspection system meeting the requirements of mil-i-45208. . all modules meeting the requirements of this specification shall be subjected to the following screening tests, in the order shown, before delivery: after assembly, the module, while at ambient room temperature, shall be tested for, and shall pass, the 250c operating parameters desig- nated by reference numbers 1,2, and 4 of table 3. after temperature stabilization of the module at +1250c, the module shall be tested for, and shall pass, the high temperature operating parameters designated by reference numbers 1,2,3 and 4 of table 3. after temperature stabilization of the module at -550c, the module shall be tested for, and shall pass, the low temperature operating parameters designated by reference numbers 1,2,3 and 4 of table 3. the module shall be temperature cycled in accordance with mil-std- 883, method 1010, test condition b. the module shall be operated in an ambient temperature of +1250c +2oc for 168 hours with +5v and +15v power applied to the unit, and ;ith a 5khz minimum repetition rate convert command. the module, after stabilization at room ambient temperature, shall be retested, and shall pass the 250c operating parameters designated by reference numbers 1,2, and 4 of table 3. a pre-encapsulation visual inspection shall be performed to verify that workmanship is in accordance with mil-std-454, requirement 9. analog d evic es inc i a i ;,"a ;nk ~ tow.. ~~-66510 norwood. massachusetts - r-~.,j sheet ..l of 17 .- rev. a c~ ~i ~i ~i . i i i i i i i i i i ..j obsolete . - . - 11'1 - " !: z ::) ii: id ~ze i code iden~ nq ~~~o~!3 g~ycih~~~~1 a 243 scale 05/14/98 9.10 9.11 10.0 '10.1 11.0 11.1 11.1.1 11.1.2 11.1. 3 11. 1. 4 11.1. 5 11.1. 6 11.1. 7 . 11.1.8 11: 53 analog devices --- i4j 006/017 for revisions and apf)roval see sheet i after encapsulation, the module shall have a final electrical test, which shall consist of being tested for, and passing, the 25c oper- ating parameters designated by reference numbers 1,2, and 4 of table 3. if any components, other than trim resistors, are replaced within the module after the quality conformance inspection has commenced, any tests already performed on the module are invalidated, and the module must begin the quality conformance inspection procedure again. calculated mean time between failures: , . the module shall have a minimum calculated mtbf ofloo,ooo hours at normal room ambient temperature with nominal supply voltages applied. the mtbf shall be calculated in accordance with handbook mil-hdbk- 2l7a. components: except as allowed for in paragraph 11.2 of this specification, all components used in modules meeting this specification shall meet the requirements of the appropriate specification(s) called out below: carbon resistors shall meet the requirements of mil-r-ii. metal film resistors shall meet the requirements of mil-r-lo509. ceramic capacitors shall meet the applicable requirements of mil-c- 11015 and mil-c-20. ' tantalum capacitors shall meet the requirements of mil-c-26655., microcircuits shall be hermetically sealed and shall meet one of the following requirements, shown in otder of preference: 1) microcir- cuits qualified to mil-m-385l0, class b, 2) microcircuits processed to m!l-m-38si0, class b. 3) microcircuits processed to the appli- cable requirements of mil-std-883, class b. microcircuits meeting the requirements of a lower preference are acceptable only when those meeting the requirements of a higher preference are not available. discrete semiconductors shall be hermetically sealed and meet the requirements of mil-s-19500. printed circuit boards shall use material meeting the requirements of mil-p-13949. encapsulating compound shall meet the requirements of thermal shock mil-i-16923, and corrosion resistance mil-s-23586. sheet -2- --- .- rev. a 0" ~i ~i ~i i i i i i i i i i i ..j of 17 obsolete 11.1. 9 for revisions and approval see sheet i plastic cases shall be manufactured of diallyl phthalate meeting the requirements of mil-m-14, sdg. 11.1.10 terminal pins shall be made of half-hard brass and shall be gold plated per mil-g-45204, class 1, type ii. 11.2 12.0 12.1 12.2 i ..:. in - c) ~ z :;) a: cd analog devices inc norwood. massachusetts the vendor shall, upon request, furnish a list of all components not meeting the appropriate requirements of paragraph 11.1, and shall indicate the reason(s) for using such components. preparation for delivery: preservation and packaging; the module shall be afforded preservation and packaging in a manner tha~ will afford adequate protection against corrosion, deterioration, and physical damage during shipment. packing; the module shall be packed in containers of the type, size, and kind commonly used for the purpose, in a manner that will insure acceptance by common carrier and safe delivery at destination. dwg. no. sheet .l. of ii -- - -- .- rev. c., ~i r:"1 ~i . i i i i i i i i i i ..j a obsolete .. i ~ 1ft - ~ ~ z ::. 0: id 05/14/98 11: 54 analog devices 141 008/017 for revisions and approval see sheet i table 1 absolute maximum ratings ." +15 volt supply voltage -15 volt supply voltage +5 volt supply voltage analog input voltage storage t~perature lead temp. 'during soldering: soldering iron on one pin wave solder on all pins table 2 +18 ,volts t, " -18 volts' +5.5 volts +15 volts -55c to +1259c 572f (3000c) for 3 sec. 5000f (2600c) for 3 sec. recommended operating conditions +15v supply voltage -15v supply voltage tracking error between +lsv and -15v supplies +5v-supply voltage analog input voltage range convert command logic "1" voltage convert command logic "0" voltage convert command pulse width ambient operating temperature range +15 volts +3% -15 volts +3% 1% maximum +s volts +5% -15v to +15v +2.4 <. vin < +5.0v +ov < vin < +o.4v loons minimum -55c to +12soc analog devices inc i a i ;~ ;n.k ~ ~dwg.ng3-665l0 nor wood. mas sac h use t t s ~.., sheet ~ :.- rev. a 0'" ::ii ~i ~i . i i i i i i i i i i .j ofe.. obsolete bruning 156" f for all tests, supply voltages table 3 are set at +15.00 volts, -15.00 ? i electrical specifications volts, and +5.00 volts -z :? i :i lent temp-+1250c r- characteristic min nom i max i units !pins 0 8g) i positive supply current 1 25 25 25 ida 27 c negative supply current 1 -45 -40 -35 ma 25 positive supply current 2 275 275 275 ma 29 :m < i i power supply rejection i 3 i i i i 10.002 i i i i i %/%!::.vs :z:- en i 1 relative accuracy error i i i i i i 1+0.5 i i i i lsb :m 2 differential linearity ::0 eluwr i i i i i i 1+0.5 i i i i lsb cn 3 4 e temp. cofficients gain +10 +7 +12 ppm/oc zero +50 +50 +50 pv/oc offset -+6 +5 +6 ppm/oc diff. linearity +6 +3 +6 ppm/oc input impedance ." 0 buffered 109 109 109 ohms 2 ::1t direct: . ::d m %1 i ov to +10v range 5000 5000 5000 ohms 6 :s p -5v to +5v range 5000 5000 5000 ohms 6 !!! 0 0 -10v to +10v range 10000 10000 10000 ohms 5 z ov to +5v range 2500 2500 2500 ohms 6 '" co) 0% -2.5v to +2.5v range 2500 2500 2500 ohms 6 z uj c i 0'\ 4 conversion time 5 25 25 25 33 0'\ ps "'0 en \j1 "'0 ::a % 0 reference output voltage 6 5.87 6.53 5.89 6.51 5.87 6.53 volts 22 0 '" '" < -t 1\0 high level input current 7,9 40 40 40 pa 34 r low level input current 8,9 1.6 -1.6 -1.6 ma 34 '" m m h high level output voltage 10,12 2.4 2.4 2.4 volts 33,41 low level output voltage 11,12 0.4 0.4 0.4 volts 33,4 :;:: >", -t 'on "mo i t l- - - - - - - - - - - - - .j obsolete bruning 0 ~ i ,~ :ii '-ii > pi ~ 15686 characteristic high level output voltage low level output voltage high level output voltage low level output voltage .on .~ma l- -'- - - - - - - - - - _..j . table 3 electrical specifications (contd.) !. t notes 13,15 14,15 15,16 15,17 2.4 2.4 0.4 0.4 2.4 2.4 0.4 0.4 , 2.4 0.4 2.4 0.4 " ! 0 tj1 ...... i-' ,;. ...... co 00 i-' i-' tj1 tj1 ;.:.. z ;.:.. t'""" 0 g") 0 tr1 <: ..... (') tr1 en ~ 0 i-' 0 ...... 0 i-' "" z? z .? i ref ,.. no. co 8c) :c cnm < "- n :m ui cn ()j ;-i z p r-- g') z 0 9 w i 0\ 0\ "'iv. ::a: pi 0 pi -4 i units pins volts 48,50, 52,54, 56,58, 61,63, 65;67, 71,72 volts 148,50, 52,54, 56,58, 61,63, 65,67, 71,72 volts i 70 " '0 ::d volts! 70 i::d m < '- !!! 0 z en ?- z 0 ,. "u " ::a 0 < ,. ,.. en m m :x:: m m -t obsolete srun ing 0 ~ i~ :..17. > pi ~ ...1., 15686 notes to table 3 1. as measured with +15 volt supply set to +15.00 volts and -15 volt supply set to -15.00 volts 2. as measured with +5 volt supply set to +5.00 volts. 3. applies only to slowly occurring variations in !15 volt supplies. also assumes +15 volt and -15 volt supplies track. gain tc is expressed as ppm/oc of range. for unipolar input range, range = +f.s. voltage. for bipolar input range, range = 2 x +f.s. voltage. zero tc applies when using a unipolar input range. offset tc applies when using a bipolar input range, and is expressed as ppm/oc of range. 4. 5. conversion time is measured froi!1 falling edge ("1" to "0" transition) of convert command pulse to "1" to "0" transition of status output. 6. as measured with a high input impedance voltmeter. any load connected to the reference output should draw no more than 1 05/14/98 -. in co (i') (i') n ~ ~ \!) z z ::i ~ cd 11: 56 analog devices ------ i4j 012/017 for revisions and approval see sh eet i table 4 input range and buffer selection analog deviceswcl a 1243"5 . 5tdwd.no~3-66510 norwood. massachusetts u scale sheet .1.2.. - - - -- .. rev. a ., ~i !=\i 21 !=>, i i i i i 1 i i i .j of..1l ... input range input input jumper ,jumper jumper in volts impedance to pin pin 4 to j!in 20 mro pin 19 to - -. 0 to +10 109 ohms 2 6 -- 23 kihlmuk 0 to +10 5k ohms 6 -- -- 23 -5 to +5 10e ohms 2 6 -- 20 minimum -5 to +5 5k ohms 6 -- -- 20 -10 to +10 10' ohms 2 5 -- 20 minimum -10 to +10 10k ohms 5 -- -- 20 0 to +5 109 ohms 2 6 5 23 minimum 0 to +5. 25k ohms 6 -- 5 23 -2.5 to +2.5 109 ohms 2 6 5 20 minimum -2.5 to +2.5 2.5k ohms 6 -- 5 20 obsolete -{ i ~ in - " ~ z :;:) iii: g:i pin number 1 2 3 4 5 6 19 20 22 23 25 27 29 30 32 33 34 35 36 37 43 48 50 52 54 56 58 61 63 65 67 70 71 72 for revisions and approval see sheet i table 5 pin designations designation gain adjust buffer input signal ground buffer output 20 volt range input 10 volt range input bipolar offset current output comparator input reference output signal ground -15vdc input +15vdc input +5vdc input digital ground comparator output status output convert command input clock input clock output clock inhibit input s1'a tus output bit 12 (lsb) output bit 11 output bit 10 output bit 9 output bit 8 output bit 7 output bit 6 output bit 5 output bit 4 output bit 3 output bit 1 (mlr) output bit 2 output bit 1 (msb) output note: pins are installed only in those pin locations called out in this table. analog d evices ~ a ';0:1 ' 3 dens: ~ tdwgonoo3-66510 norwood. massachusetts c.--r . ~ sheet 13 of.!2- ..- rev. a c., ~i ~i ~i . i i i i i i i i i i ~ obsolete 05/14/98 11: 57 analog devices 141 014/017 for revisions, and approval see sheet i ta!le 6 environmental tests test visual and mechanical barometric pressure (muced) temperature cycling moisture resistance i . in - " i i 2003 1009 1008 conditions a,b .' b b delete section 3.1 delete section 3.42, step 7b section 3.5: nominal power supply voltages shall be applied b pulse duration: o.5ms a applied force: 4.5 lbs a b maximum temperature: l2soc test duration: 1000 hrs. per astm std g-2l a delete section 3.1 b testduratio11: 1000 hra. , i size analog devices inc norwood. massachusetts a scale sheet 14 of 17 .- rev. a o~ =-, ~i ~i . i i i i i i i i i i . ktl-std method 883 2008 202 10sc 883 1010 883 1004 shock 883 2002 terminal strength 202 2lla .. vibration fatigue 883 2005 'steady-state life 883 1005 solderability 883 fungus resistance mil-i-46058 salt atmosphere 883 high temperature storage 883 obsolete .j i ~ 81) - ,.; i: z :) ? cd for revisions and approval see sheet i fi cr"'<.f 1 tprp7(', ihagrah -ii- loons. min -.n ~ ~ ~ i , , , '" '" '" '" g! ~ ~ ~ , , i , ~iiiiiiiiiiii "0..11 ft i ~iiiiiiiiiii ~ "0" ii i i i i h 1111111\ 1 2 3 4 5 8 7 8 9 10 11 12 previous code = 10110...1 new code = 01010...1 note idle clock pulses between 4th and ?~h bits, and between 8th and 9th bits. convert command status clock msb 2sb 3sb 4sb ssb i i i i i i i i lsb comparator output analog deviceswc sa ';a~n~~~dwg.n~~-66510 norwood . massachus~tts c.-r - sheet 15 --- of 17 -- .- "ev. a c., 81 !='i ~i . i i i i i i i i i i ..j obsolete .. 10 e 10 in - " 05/14/98 11: 58 analog devices 141 016/017 for revisions and approval see sheet i figure 2 block diagram ! ...,5 jok 1 00 k 4-:-/\n gain 2 -i5 3 20v range ~ , 5 lev range "6 - +15v 3meg zero -15 +15v 271 0--+ 29 1 ~ 30 ~ grd 32 33 34 3s 36 .)comp. outi . status convert cmd clock in clock out precision dac (udac ic's plus thin film resistor network) cd '" ,:e co '" -j mss ttl logic & registers internal clock analog'd evic es we norwood. massachusetts 72 71 '70 67 65 63 61 58 56 . 9 ~. ., 154 10 . 152 11 51) 48 status 0 143 37 clock inhibi1f dwg.no. 03~66510 sheet ..li. 4- rev. a ., c ,i ~l ~i zi 1 i i i i i i i i i ..j of.ll obsolete pin diameter 0.018(0.457) min 0.020(0.508) max note: dimensions in inches shown out- side parenthesis -r dimensions in mm shown inside parenthesis note: pins installed only in shaded hole locations i .. in - " i z ::) qc cd analogdevicesinc i a i ~a . ;'i1::~tdw..n~3-66510 nor woo 0 . mas sac h use t t s ~ c..., for revisions and approval see sheet i figure 3 physical outline 1 ~ 2.00(50.8) ---1-1 2.02 (51.3) g. 4 40(10.2) nom ~ . 2(10.7) max .- ~i j-b~f~:!j t 36 37 min max 4.00(101.6) nom 4.02(102.1) max 19 18 54 55 1 72 bottom view 0.1" square grid sheet 17 ~ -~-- of 17 .- "ev. a 0'" ~i f', ~i . i i i i i i i i i i ..j obsolete |
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