View M3851012603BVA_7249621.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

inch-pound mil-m-38510/126c 30 april 2004 superseding mil-m-38510/126b 30 december 1988 military specification microcircuits, linear, regulating, pul se width modulator, monolithic silicon reactivated after 30 april 2004 and may be used for either new or existing design acquisition. this specification is approved for use by all departments and agencies of the department of defense. the requirements for acquiring the product herein shall consist of this specification sheet and mil-prf-38535. 1. scope 1.1 scope. this specification covers the detail requirements for monolithic silicon, pulse width modulator microcircuits. two product assurance classes and a choice of case outlines and lead finishes are provided and are reflected in the complete part number. for this product, the requirements of mil-m-38510 have been superseded by mil-prf-38535, (see 6.3) 1.2 part or identifying number (pin) . the pin is in accordance with mil-prf-38535, and as specified herein. 1.2.1 device types. the device types are as follows: device type circuit 01 regulating, pulse width modulator 02 regulating, pulse width modulator 03 regulating, pulse width modulator 04 regulating, pulse width modulator 1.2.2 device class. the device class is the product assurance level as defined in mil-prf-38535. 1.2.3 case outlines. the case outlines are as designated in mil-std-1835 and as follows: outline letter descriptive designator terminals package style e gdip1-t16 or cdip2-t16 16 dual in line v gdip1-t18 or cdip2-t18 18 dual in line comments, suggestions, or questions on this document should be addressed to: commander, defense supply center columbus, attn: dscc-vas, 3990 east broad st., columbus, oh 43216-5000, or email linear@dscc.dla.mil. since contact information can change, you may want to verify the currency of this address information using the assist online database at www.dodssp.daps.mil. amsc n/a fsc 5962 .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 2 1.3 absolute maximum ratings. input voltage ..................................................................................... 42 v collector supply voltage: device type 01 .............................................................................. 42 v device types 02, 03, 04 ................................................................ 37 v output current (each output): device type 01 .............................................................................. 100 ma device type s 02, 03, 04 ................................................................ 200 ma reference output current ................................................................. -50 ma oscillator chargi ng current ............................................................... -5 ma logic input s ...................................................................................... -0.3 v to v ref analog inputs ................................................................................... -0.3 v to v in lead temperature (solderi ng, 10 seconds ) ...................................... +300 c. storage temperature range .............................................................. -65 c to +150 c junction temperature (t j ) ................................................................ +150 c 1.4 recommended operating conditions. input voltage range : device type 01 .............................................................................. +8 v to +40 v, class b +8 v to +40 v, clas s s device types 02 and 04 1 / .......................................................... +8 v to +30 v, class b +8 v to +27 v, clas s s device type 03 1 / ........................................................................ +8 v to +20 v, class b +8 v to +20 v, clas s s oscillator frequency range : device type 01 .............................................................................. 10 khz to 200 khz device types 02 and 04 ................................................................ 150 khz to 300 khz device type 03 .............................................................................. 100 khz to 350 khz collector supply voltage: device type 01 .............................................................................. +4.5 v to +40 v device type 02, 03, and 04 ........................................................... +4.5 v to +35 v operating temper ature range ........................................................... -55 c to +125 c 1.5 power and thermal characteristics . package case maximum allowable maximum maximum outline power dissipation jc ja 16 lead dual in line e 250 mw at t a = +125 c 60 c/w 100 c/w 18 lead dual in line v 250 mw at t a = +125 c 42 c/w 100 c/w _____ 1 / +8 v to +35 v operation is allowed if the maximum junction temperature is not exceeded. heat sinking may be required. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 3 2. applicable documents 2.1 general . the documents listed in this section are specified in sections 3, 4, or 5 of this specification. this section does not include documents cited in other sections of this specification or recommended for additional information or as examples. while every effort has been made to ensure the completeness of this list, document users are cautioned that they must meet all specified requirem ents of documents cited in sections 3, 4, or 5 of this specification, whether or not they are listed. 2.2 government documents . 2.2.1 specifications, standards, and handbooks . the following specifications and standards form a part of this specification to the extent specified herein. unless otherwise specified, the issues of these documents are those cited in the solicitation or contract. department of defense specifications mil-prf-38535 - integrated circuits (mic rocircuits) manufacturing, general specification for. department of defense standards mil-std-883 - test method standard for microelectronics. mil-std-1835 - interface standard electronic component case outlines. (copies of these documents are available online at http://assist.daps.dla.mil/quicksearch/ or www.dodssp.daps.mil or from the standardization document order desk, 700 robbins avenue, building 4d, philadelphia, pa 19111-5094.) 2.3 order of precedence . in the event of a conflict between the text of this specification and the references cited herein the text of this document takes precedence. nothing in this document, however, supersedes applicable laws and regulations unless a specific exemption has been obtained. 3. requirements 3.1 qualification . microcircuits furnished under this specification shall be products that are manufactured by a manufacturer authorized by the qualifying activity for listing on the applicable qualified manufacturers list before contract award (see 4.3 and 6.4). 3.2 item requirements . the individual item requirements shall be in accordance with mil-prf-38535 and as specified herein or as modified in the device manufacturer's quality management (qm) plan. the modification in the qm plan shall not affect the form, fit, or function as described herein. 3.3 design, construction, and physical dimensions . the design, construction, and physical dimensions shall be as specified in mil-prf-38535 and herein. 3.3.1 terminal connections. the terminal connections shall be as specified on figure 1. 3.3.2 functional block diagrams . the functional block diagrams shall be as specified on figure 2. 3.3.3 schematic circuits . the schematic circuits shall be maintained by the manufacturer and made available to the qualifying activity and the preparing activity upon request. 3.3.4 case outlines. the case outlines shall be as specified in 1.2.3. 3.4 lead material and finish. the lead material and finish shall be in accordance with mil-prf-38535 (see 6.6). 3.5 electrical performance characteristics . the electrical performance characteristics are as specified in table i, and apply over the full recommended ambient operating temperature range, unless otherwise specified. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 4 table i. electrical performance characteristics. conditions device limits test symbol v in = 20 v dc, r t = 2 k ? 0.1 % c t = 0.01 f 0.1 % type min max units -55 c t c +125 c unless otherwise specified error amplifier section input offset voltage v io v cm = 2.5 v 01 -5 5 mv input bias current i ib v cm = 2.5 v 01 .01 10 a input offset current i io v cm = 2.5 v 01 -1 1 a compensation current i cos1 v in (i) ? v in (ni) 150 mv, 01 65 170 a (sink) t c = +25 c compensation current i cos2 v in (in) ? v in (i) 150 mv, 01 -170 -65 a (source) t c = +25 c common mode rejection cmr 1.8 v v cm 3.4 v 01 70 db open loop voltage a vs t c = +25 c 01 72 db gain t c = -55 c, +125 c 68 unity gain bandwidth g bw t c = +25 c, see figure 5 01 2 mhz reference section output voltage v ref 01 4.8 5.2 v line regulation v rline 8 v v in 40 v 01 -20 20 mv load regulation v rload -20 ma i ref 0 ma 01 -50 50 mv ripple rejection ? v in / v in = 20 v, e i = 1 v rms, 01 50 db ? v ref f = 2400 hz, t c = +25 c short circuit current limit i os 1 / t 25 ms, v ref = 0 v, t c = +125 c 01 -120 ma t 25 ms, v ref = 0 v, t c = -55 c, +25 c -190 output noise voltage n o 10 hz f 10 khz, t c = +25 c 01 200 v rms oscillator section maximum frequency f osc r t = 2 k ? 0.1 %, 01 250 khz (max) c t = 0.001 f 1.0 % initial frequency f osc1 t c = +25 c 01 47 58 khz oscillator f osc2 t c = +125 c 45 60 frequency f osc3 t c = -55 c 45 60 frequency change ? f osc1 / 8 v v in 40 v, t c = +25 c 01 -2 2 % with voltage ? v in see footnotes at end of table. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 5 table i. electrical performance characteristics ? continued. conditions device limits test symbol v in = 20 v dc, r t = 2 k ? 0.1 % c t = 0.01 f 0.1 % type min max units -55 c t c +125 c unless otherwise specified oscillator section - continued output amplitude v osc 01 2.4 v output pulse width t pw 01 0.3 s ramp voltage v ramp 01 3.0 3.8 v saturation voltage v sat i ct = 5 ma, v osc = 5 v, 01 0.7 1.1 v (osc) t c = +25 c comparator section duty cycle adjust 2 / t on / min value: v cm = 2.5 v, 01 0.001 % range t osc v comp = 0.5 v max value: v cm = 2.5 v, 45 50 v comp = 3.8 v output section 3 / collector leakage current i cex v c = 40 v 01 10 a saturation voltage v sat v in (ni) ? v in (i) 150 mv, 01 2.0 v i c = 50 ma emitter output voltage v eo v in (ni) ? v in (i) 150 mv, 01 17 v t c = +25 c, v c = 20 v, i e = -50 ma rise time t r(tr) v in (ni) ? v in (i) 150 mv, 01 0.4 s r c = 2 k ? , v c = 20 v, t c = +25 c, c l = 15 pf fall time t r(tf) v in (ni) ? v in (i) 150 mv, 01 0.2 s r c = 2 k ? , v c = 20 v, t c = +25 c, c l = 15 pf see footnotes at end of table. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 6 table i. electrical performance characteristics. conditions device limits test symbol v in = 20 v dc, r t = 2 k ? 0.1 % c t = 0.01 f 0.1 % type min max units -55 c t c +125 c unless otherwise specified shutdown circuit section sense voltage v sen v in (ni) ? v in (i) 150 mv, 01 190 210 mv v eoa = 2 v, t c = +25 c v in (ni) ? v in (i) 150 mv, 165 235 v eoa = 2 v, t c = -55 c, +125 c shutdown 4 / v sd v in (ni) ? v in (i) 150 mv 01 1.4 v (hi) v sd v in (ni) ? v in (i) 150 mv 0.4 (lo) total standby current section total standby current i in v in = 40 v 01 10 ma see footnotes at end of table. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 7 table i. electrical performance characteristics ? continued. conditions device limits test symbol v in = 20 v dc, r t = 3.6 k ? 0.1 %, r d = 0 k ? , c t = 0.01 f 0.1 %, type min max units -55 c t c +125 c unless otherwise specified reference section output voltage v ref t c = -55 c, +125 c 02, 04 5.0 5.2 v t c = +25 c 5.05 5.15 line regulation v rline v in = 8 v to 35 v 02, 04 -30 30 mv load regulation v rload i ref = 0 to ?20 ma 02, 04 -50 50 mv short circuit current i os 1 / v ref = 0 v, t < 25 ms 02, 04 -125 ma output noise voltage n o 10 hz f 10 khz 02, 04 200 v rms ripple rejection ? v in / v in = 20 v, +1 v rms, f = 2400 hz, 02, 04 50 db ? v ref t c = +25 c oscillator section initial frequency f osc t c = +25 c 02, 04 37.5 42.5 khz oscillator frequency over temperature f osc2 t c = -55 c, +125 c 02, 04 36 44 khz saturation voltage v sat (osc) i dis = 5 ma, v osc = 5 v, t c = +25 c 02, 04 0.5 1.1 v clock amplitude v osc 02, 04 3.0 v clock pulse width t pw t c = -55 c, +25 c 02, 04 0.3 1.0 s t c = +125 c 0.3 1.4 ramp voltage v ramp 02, 04 3.0 3.6 v voltage stability ? f osc1 / v in = 8 v to 35 v, t c = +25 c 02, 04 -1 1 % ? v in minimum frequency f osc r t = 150 k ? 0.1 %, 02, 04 150 hz (min) c t = 0.1 f 1.0 %, r d = 0 k ? maximum frequency f osc r t = 2 k ? 0.1 %, 02, 04 300 khz (max) c t = 0.001 f 1.0 %, r d = 0 k ? sync 4 / v sync 02, 04 0.8 v (lo) v sync 2.8 (hi) sync input current i sync sync voltage = 3.5 v 02, 04 2.5 ma see footnotes at end of table. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 8 table i. electrical performance characteristics ? continued. conditions device limits test symbol v in = 20 v dc, r t = 3.6 k ? 0.1 % r d = 0 k ? , c t = 0.01 f 0.1 % type min max units -55 c t c +125 c unless otherwise specified error amplifier section input offset voltage v io 02, 04 -5 5 mv input bias current i ib 02, 04 .01 10 a input offset current i io 02, 04 -1 1 a open loop voltage gain a vs v cm = 2.5 v 02, 04 60 db common mode rejection cmr v cm = 1.5 v to 5.2 v 02, 04 60 db supply voltage rejection ratio psrr v in = 8 v to 35 v 02, 04 60 db unity gain bandwidth gbw a v = 0 db, see figure 5, t c +25 c 02, 04 2 mhz output high level v hi 02, 04 3.8 v output low level v lo 02, 04 0.5 v p.w.m. comparator section maximum duty cycle t on max / t osc v comp = 3.6 v 2 / 02, 04 45 50 % minimum duty cycle t on min / t osc v comp = 0.6 v 2 / 02, 04 0.001 % output section 5 / output low v ol i sink = 20 ma 02, 04 0.4 v i sink = 100 ma 2.0 output high v oh i source = -20 ma 02, 04 18 v i source = -100 ma 17 under voltage lockout v ul 02, 04 6 8 v shutdown delay t sd t c = -55 c, +25 c, v sd = 3 v 02, 04 500 ns t c = +125 c, v sd = 3 v 700 rise time t r(tr) 02, 04 600 ns fall time t r(tf) 02, 04 300 ns v c standby current i c v c = 35 v 02 200 a see footnotes at end of table. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 9 table i. electrical performance characteristics ? continued. conditions device limits test symbol v in = 20 v dc, r t = 3.6 k ? 0.1 % r d = 0 k ? , c t = 0.01 f 0.1 % type min max units -55 c t c +125 c unless otherwise specified soft start section soft start current i ss v sd = 0 v 02, 04 -80 -25 a shutdown input current i sd v sd = 2.5 v 02, 04 1 ma soft start voltage v ss v sd = 2 v 02, 04 0.6 v shutdown voltage 4 / v sd (lo) 02, 04 0.5 v v sd (hi) 1.6 total supply current i in t c = -55 c, +25 c, v in = 35 v 02, 04 20 ma t c = +125 c, v in = 35 v 18 see footnotes at end of table. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 10 table i. electrical performance characteristics ? continued. conditions device limits test symbol v in = 15 v dc, r t = 4.12 k ? 0.01 % r d = 0 k ? , c t = 0.01 f 0.1 % type min max units -55 c t c +125 c unless otherwise specified reference section reference output voltage v ref 03 4.9 5.1 v line regulation v rline v in = 8 v to 35 v 03 -20 20 mv load regulation v rload i load = 0 to ?20 ma 03 -30 30 mv short circuit current i os 1 / v ref = 0 v, t < 25 ms 03 -125 ma output noise voltage n o 10 hz f 10 khz, t c = +25 c 03 200 v rms ripple rejection ? v in / v in = 15 v, +1 v rms, t c = +25 c, 03 50 db ? v ref sinewave at 2.4 khz oscillator section 6 / initial frequency f osc t c = +25 c 03 38 42 khz voltage stability ? f osc / 8 v v in 35 v 03 -1 1 % ? v in oscillator frequency f osc2 t c = -55 c, +125 c 03 36 44 khz minimum frequency f osc r t = 150 k ? 0.1 %, 03 100 hz (min) c t = 0.20 f 1.0 %, r d = 0 k ? maximum frequency f osc r t = 2 k ? 0.1 %, 03 350 khz (max) c t = 1.0 nf 1.0 %, r d = 0 k ? clock width t pw t c = -55 c, +25 c 03 2 s t c = +125 c 3 sawtooth peak voltage v rp v in = 35 v 03 2.5 3.5 v sawtooth valley voltage v rv v in = 8 v 03 0.45 v error amplifier section input offset voltage v io v cm = 2.5 v 03 -5 5 mv input bias current i ib v cm = 2.5 v 03 -1 a input offset current i io v cm = 2.5 v 03 -0.5 0.5 a open loop voltage gain a vs 03 60 db common mode rejection cmr v cm = 0 to 5.2 v 03 70 db see footnotes at end of table. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 11 table i. electrical performance characteristics ? continued. conditions device limits test symbol v in = 15 v dc, r t = 4.12 k ? 0.01 % r d = 0 k ? , c t = 0.01 f 0.1 % type min max units -55 c t c +125 c unless otherwise specified error amplifier section ? continued supply voltage psrr v in = 8 v to 35 v, v cm = 2.5 v 03 66 db rejection ratio unity gain bandwidth gbw a v = 0 db, see figure 5, t c = +25 c 03 2 mhz output high level v hi v pin1 ? v pin2 150 mv, i comp = -100 a 03 3.6 v output low level v lo v pin1 ? v pin2 150 mv, i comp = 100 a 03 0.4 v p.w.m. comparator section maximum duty cycle t on max / t osc v comp = 3.6 v 2 / 03 45 50 % minimum duty cycle t on min / t osc v comp = 0.4 v 2 / 03 0.001 % output drivers section 7 / saturation voltage v ce(sat) v c = 15 v, i sink = 20 ma 03 0.3 v v c = 15 v, i sink = 100 ma 2.0 output high v oh v c = 15 v, i source = -20 ma 03 12.5 v v c = 15 v, i source = -100 ma 12.0 shutdown delay t sd v c = 15 v, t c = -55 c, +25 c 03 0.5 s v c = 15 v, t c = +125 c 0.7 rise time t r(tr) v c = 15 v 03 0.3 s fall time t r(tf) v c = 15 v 03 0.2 s v c standby current i c v c = 35 v 03 150 a digital ports: sync , reset , shutdown high input current i ih v ih = 2.4 v 03 -200 a low input current i il v il = 0.4 v 03 -360 a high output voltage v ohp i source = 40 a 03 2.4 v low output voltage v olp i sink = 3.6 ma 03 0.4 v current limit comparator section sense voltage v s 03 80 120 mv input bias current i ibs 03 -10 a see footnotes at end of table. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 12 table i. electrical performance characteristics ? continued. conditions device limits test symbol v in = 15 v dc, r t = 4.12 k ? 0.01 % r d = 0 k ? , c t = 0.01 f 0.1 % type min max units -55 c t c +125 c unless otherwise specified soft start section error clamp voltage v ec 03 0.4 v capacitor charging current i cs 03 -150 -50 a under voltage lockout section reset output (low) voltage v r (lo) v ref = 3.8 v 03 0.4 v reset output (high) voltage v r (hi) v ref = 4.8 v 03 2.4 v power consumption section standby current i in shutdown = 0.4 v, v in = 35 v, t c = -55 c, +25 c 03 30 ma shutdown = 0.4 v, v in = 35 v, t c = +125 c 25 1 / continuous short circuit limits will be less than indicated test limits. 2 / t osc is the period of the output waveform. 3 / each output transistor shall be tested for all parameters listed. 4 / this is a go-no-go test, the limit values are used for input voltages. 5 / each output shall be tested for all parameters listed. v c = 20 v unless otherwise specified. 6 / a 2.7 k ? pullup resistor is added from the sync pin to v ref to limit the effects of stray capacitance in automatic test equipment. 7 / each output shall be tested for all parameters listed v c = 15 v unless otherwise specified. 8 / only use the shutdown pin, not the sync pin, to deactivate the device. 3.6 electrical test requirements . electrical test requirements for each device class shall be the subgroups specified in table ii. the electrical tests for each subgroup are described in table iii. 3.7 marking . marking shall be in accordance with mil-prf-38535. 3.8 microcircuit group assignment . the devices covered by this specification shall be in microcircuit group number 52 (see mil-prf-38535, appendix a). .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 13 table ii. electrical test requirements. subgroups (see table iii) mil-prf-38535 test requirements class s devices class b devices interim electrical parameters 1 1 final electrical test parameters 1*, 2, 3, 4, 5, 6 1*, 2, 3, 4, 5, 6 group a test requirements 1, 2, 3, 4, 5, 6, 7, 9, 10, 11 1, 2, 3, 4, 5, 6, 7, 9, 10,11 group b electrical test parameters when using the method 5005 qci option 1, 2, 3, and table iv delta limits n/a group c end-point electrical parameters 1, 2, 3, and table iv delta limits 1 and table iv delta limits group d end-point electrical parameters 1, 2, 3 1 *pda applies to subgroup 1. 4. verification. 4.1 sampling and inspection . sampling and inspection procedures shall be in accordance with mil-prf-38535 or as modified in the device manufacturer?s quality management (qm) plan. the modification in the qm plan shall not effect the form, fit, or function as described herein. 4.2 screening . screening shall be in accordance with mil-prf-38535, and shall be conducted on all devices prior to qualification and quality conformance inspection. the following additional criteria shall apply: a. the burn-in test duration, test condition, and test temperature, or approved alternatives shall be as specified in the device manufacturer's qm plan in accordance with mil-prf-38535. the burn-in test circuit shall be maintained under document control by the device manufacturer's technology review board (trb) in accordance with mil-prf-38535 and shall be made available to the acquiring or preparing activity upon request. the test circuit shall specify the inputs, outputs, biases, and power dissipation, as applicable, in accordance with the intent specified in test method 1015 of mil-std-883. b. interim and final electrical test parameters shall be as specified in table ii, except interim electrical parameters test prior to burn-in is opt ional at the discretion of the manufacturer. c. additional screening for space level product shall be as specified in mil-prf-38535. 4.3 qualification inspection . qualification inspection shall be in accordance with mil-prf-38535. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 14 device types 01 02 and 04 03 and 04 case outlines e e v terminal number terminal symbol 1 inv input inv input +error 2 noninv input noninv input -error 3 osc output sync comp 4 +cur lim sense osc output c ss 5 -cur lim sense c t reset 6 r t r t -current sense 7 c t discharge +current sense 8 gnd soft start shutdown 9 compensation compensation r t 10 shutdown shutdown c t 11 emitter a output a r d 12 collector a ground sync 13 collector b v c output a 14 emitter b output b v c 15 v in v in ground 16 v ref v ref output b 17 --- --- v in 18 --- --- v ref figure 1. terminal connections . .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 15 figure 2. functional block diagram. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 16 figure 2. functional block diagram - continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 17 figure 2. functional block diagram ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 18 note: the oscillator?s sync (pin 12) is not connected to the output gates. figure 2. functional block diagram ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 19 notes: 1. operational amplifier is m38510/13502 or similar. 2. resistors are 1 % and capacitors are 10% unless otherwise specified. 3. v n = 2.5 v unless otherwise specified in table iii. 4. c l 20 pf (including probe and jig capacitance). 5. 1.0 % for t osc (max) test. figure 3. test circuit for static and dynamic tests . .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 20 notes: 1. operational amplifier is m38510/13502 or similar. 2. resistors are 1 % and capacitors are 10% unless otherwise specified. 3. v n = 2.5 v unless otherwise specified in table iii. 4. 1.0 % for f osc (min) and f osc (max) test. figure 3. test circuit for static and dynamic tests ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 21 notes: 1. operational amplifier is m38510/13502 or similar. 2. resistors are 1 % and capacitors are 10% unless otherwise specified. 3. v n = 2.5 v unless otherwise specified in table iii. 4. 1.0 % for f osc (min) and f osc (max) test. figure 3. test circuit for static and dynamic tests ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 22 figure 4. test waveforms . .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 23 a. maximum duty cycle b. approximate minimum duty cycle (actual = 0%). duty cycle (%) = ( t on / t per ) x 100. figure 4. test waveforms ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 24 figure 4. test waveforms ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 25 figure 4. test waveforms ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 26 figure 4. test waveforms ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 27 figure 4. test waveforms ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 28 notes: 1. g bw is measured by increasing signal frequency (starting at 100 khz) until e o = 20 mv (p-p) . the frequency at which this occurs is g bw . 2. (c l ) capacitance load = 20 pf, -10%, on e o including scope probe and jig capacitance. 3. alternative method: set signal frequency (e i ) to the g bw minimum limit if e o 20 mv (p-p) then g bw is the minimum limit. figure 5. unity gain bandwidth test circuit . .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 29 notes: 1. g bw is measured by increasing signal frequency (starting at 100 khz) until e o = 20 mv (p-p) . the frequency at which this occurs is g bw . 2. (c l ) capacitance load = 20 pf, -10%, on e o including scope probe and jig capacitance. 3. alternative method: set signal frequency (e i ) to the g bw minimum limit if e o 20 mv (p-p) then g bw is the minimum limit. figure 5. unity gain bandwidth test circuit ? continued. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 30 notes: 1. g bw is measured by increasing signal frequency (starting at 100 khz) until e o = 20 mv (p-p) . the frequency at which this occurs is g bw . 2. (c l ) capacitance load = 20 pf, -10%, on e o including scope probe and jig capacitance. 3. alternative method: set signal frequency (e i ) to the g bw minimum limit if e o 20 mv (p-p) then g bw is the minimum limit. figure 5. unity gain bandwidth test circuit ? continued. .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 01 . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 subgroup symbol inv input noninv input osc +cl -cl r t c t gnd comp shut down e a c a c b e b v in v ref 1 v io 1 2.5 v 2.5 v gnd gnd gnd 20 v tc = +i ib 2 ? ? ? ? ? ? +25 c -i ib 3 ? ? ? ? ? ? i cos1 4 2.575 v 2.425 v ? ? ? i 1 to 2.5 v ? i cos2 5 2.425 v 2.575 v ? ? ? i 2 to 2.5 v ? i io 6 cmr 7 1.8 v 1.8 v gnd gnd gnd 20 v 3.4 v 3.4 v ? ? ? ? v ref 8 2.5 v 2.5 v ? ? ? ? v rline 9 ? ? ? ? ? 8 v ? ? ? ? ? 40 v v rload 10 ? ? ? ? ? 20 v -20 ma i os 11 ? ? ? ? ? ? 0 v v sat 12 ? ? 5 v ? ? 5 ma ? ? (osc) i cex(a) 13 ? ? ? ? ? 1.4 v gnd 40 v ? i cex(b) 14 ? ? ? ? ? 1.4 v 40 v gnd ? v sat(a) 15 2.425 v 2.575 v 1 / ? ? ? gnd 50 ma ? v sat(b) 16 ? ? ? ? ? ? 50 ma gnd ? v eo(a) 17 ? ? ? ? ? ? -50 ma 20 v ? v eo(b) 18 ? ? ? ? ? ? 20 v -50 ma ? i in 19 2.5 v 2.5 v ? ? ? 40 v 2 v io 20 2.5 v 2.5 v gnd gnd gnd 20 v tc = +i ib 21 ? ? ? ? ? ? +125 c -i ib 22 ? ? ? ? ? ? i io 23 cmr 24 1.8 v 1.8 v gnd gnd gnd 20 v 3.4 v 3.4 v ? ? ? ? v ref 25 2.5 v 2.5 v ? ? ? ? v rline 26 ? ? ? ? ? 8 v ? ? ? ? ? 40 v v rload 27 ? ? ? ? ? 20 v -20 ma i os 28 ? ? ? ? ? ? 0 v i cex(a) 29 ? ? ? ? ? 1.4 v gnd 40 v ? i cex(b) 30 ? ? ? ? ? 1.4 v 40 v gnd ? v sat(a) 31 2.425 v 2.575 v 1 / ? ? ? gnd 50 ma ? v sat(b) 32 ? ? ? ? ? ? 50 ma gnd ? i in 33 2.5 v 2.5 v ? ? ? 40 v 3 34 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 2, t c = +125 c. tc = -55 c 47 except for i os at ?55 c. the minimum limit is ?190 ma. see footnote at end of table. mil - m - 38510/126c 31 .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 01 ? continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 1 v io 1 k1, k2, k9, k10, k11 9 e1 v v io = (e1 ? 2.5 v) / 101 -5 5 mv tc = +i ib 2 k1, k9, k10, k11 9 e2 ? +i ib = (e1 ? e2) / 101000 0.01 10 a +25 c -i ib 3 k2, k9, k10, k11 9 e3 ? -i ib = (e3 ? e1) / 101000 0.01 10 a i cos1 4 9 i1 a i cos1 = i1 65 170 a i cos2 5 9 i2 ? i cos2 = i2 -170 -65 a i io 6 i io = ( +i ib ) ? ( -i ib ) -1 1 a cmr 7 k1, k2, k9, k10, k11 9 e4 v cmr = 20 log [ (3.4 ? 1.8) 101 / (e5 ? e4 ? 1.6) ] 70 db 9 e5 ? v ref 8 16 e6 ? v ref = e6 4.8 5.2 v v rline 9 ? e7 ? v rline = e8 ? e7 -20 20 mv ? e8 ? v rload 10 ? e9 ? v rload = e9 ? e6 -50 50 mv i os 11 ? i3 ma i os = i3 -190 ma v sat 12 7 e10 v v sat(osc) = e10 0.7 1.1 v (osc) i cex(a) 13 12 14 a i cex(a) = i4 10 a i cex(b) 14 13 15 a i cex(b) = i5 10 a v sat(a) 15 12 e11 v v sat(a) = e11 2.0 v v sat(b) 16 13 e12 ? v sat(b) = e12 2.0 v v eo(a) 17 11 e13 ? v eo(a) = e13 17 v v eo(b) 18 14 e14 ? v eo(b) = e14 17 v i in 19 15 i6 ma i in = i6 10 ma 2 v io 20 k1, k2, k9, k10, k11 9 e15 v v io = (e15 ? 2.5 v) / 101 -5 5 mv tc = +i ib 21 k1, k9, k10, k11 9 e16 ? +i ib = (e15 ? e16) / 101000 0.01 10 a +125 c -i ib 22 k2, k9, k10, k11 9 e17 ? -i ib = (e17 ? e15) / 101000 0.01 10 a i io 23 i io = ( +i ib ) ? ( -i ib ) -1 1 a cmr 24 k1, k2, k9, k10, k11 9 e18 v cmr = 20 log [ (3.4 ? 1.8) 101 / (e19 ? e18 ? 1.6) ] 70 db 9 e19 ? v ref 25 16 e20 ? v ref = e20 4.8 5.2 v v rline 26 ? e21 ? v rline = e22 ? e21 -20 20 mv ? e22 ? v rload 27 ? e23 ? v rload = e23 ? e20 -50 50 mv i os 28 ? i7 ma i os = i7 -120 ma i cex(a) 29 12 i8 a i cex(a) = i8 10 a i cex(b) 30 13 i9 a i cex(b) = i9 10 a v sat(a) 31 12 e24 v v sat(a) = e24 2.0 v v sat(b) 32 13 e25 ? v sat(b) = e25 2.0 v i in 33 15 i10 ma i in = i10 10 ma 3 34 to tc = -55 c 47 see footnotes at end of table . mil - m - 38510/126c 32 .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 01 ? continued . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 subgroup symbol inv input noninv input osc +cl -cl r t c t gnd comp shut down e a c a c b e b v in v ref 4 a vs 48 2.5 v 2.5 v gnd gnd gnd 20 v tc = ? ? ? ? ? 20 v +25 c ? v in / 49 ? ? ? 20 v + ? v ref 1 v rms f osc (max) 50 ? ? gnd gnd 2 k ? .001 f ? 20 v f osc1 51 ? ? ? ? ? 3 / ? 20 v ? f osc1 / 52 ? ? ? ? ? .01 f ? 8 v ? v in ? ? ? ? ? ? ? 40 v v osc 53 2.5 v 2.5 v ? ? ? ? ? 20 v v ramp 54 ? ? ? ? ? ? ? 20 v v sen 55 2.425 v 2.575 v ? ? ? ? 20 v v sd(hi) 56 ? ? gnd ? ? ? 1.4 v gnd gnd 20 v v sd(lo) 57 ? ? ? ? ? ? 0.4 v ? ? ? 5 a vs 58 2.5 v 2.5 v gnd gnd gnd 20 v tc = ? ? ? ? ? 20 v +125 c f osc (max) 59 ? ? gnd gnd 2 k ? .001 f ? 20 v f osc2 60 ? ? ? ? ? 3 / ? 20 v v osc 61 2.5 v 2.5 v ? ? ? .01 f ? 20 v v ramp 62 ? ? ? ? ? ? ? 20 v v sen 63 2.425 v 2.575 v ? ? ? ? 20 v v sd(hi) 64 ? ? gnd ? ? ? 1.4 v gnd gnd 20 v v sd(lo) 65 ? ? ? ? ? ? 0.4 v ? ? 20 v 6 66 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 5, t c = +125 c. tc = -55 c 73 7 g bw 74 tc = +25 c n o 75 2.5 v 2.5 v gnd gnd gnd 20 v 9 t pw 76 2.5 v 2.5 v gnd gnd 2 k ? .01 f ? gnd 20 v 20 v gnd 20 v tc = +25 c t on(a)max / 77 v cm = 2.5 v ? ? ? ? ? 3.8 v ? ? ? ? ? t osc t on(a)min / 78 ? ? ? ? ? ? 0.5 v ? ? ? ? ? t osc t on(b)max / 79 ? ? ? ? ? ? 3.8 v ? ? ? ? ? t osc t on(b)min / 80 ? ? ? ? ? ? 0.5 v ? ? ? ? ? t osc t r(tr)a 81 2.425 v 2.575 v ? ? ? ? ? ? ? ? ? ? t r(tf)a 82 ? ? ? ? ? ? ? ? ? ? ? ? t r(tr)b 83 ? ? ? ? ? ? ? ? ? ? ? ? t r(tf)b 84 ? ? ? ? ? ? ? ? ? ? ? ? see footnotes at end of table. mil - m - 38510/126c 33 .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 01 ? continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 4 a vs 48 k1, k2, k9, k10, k11 9 e37 v a vs = 20 log [ ? v n (101) / (e37 ? e38) ] 2 / 72 db tc = k1, k2, k9, k10, k11 9 e38 ? +25 c ? v in / 49 k16 16 e39 v rms ? v in / ? v ref = 20 log ( 1 v rms / e39 rms ) 50 db ? v ref f osc (max) 50 k4, k6 3 f1 khz f osc(max) = f1 250 khz f osc1 51 ? ? f2 ? f osc1 = f2 47 58 khz ? f osc1 / 52 ? ? f3 ? ? f osc1 / ? v in = 100 (f3 ? f4) / f3 -2 2 % ? v in ? ? f4 ? v osc 53 ? ? e40 ? v osc = e40 2.4 v v ramp 54 ? 7 e41 ? v ramp = e41 3.0 3.8 v v sen 55 4 e42 ? v sen = e42 4 / 190 210 mv v sd(hi) 56 k6 9 e43 ? v sd(hi) 1.4 v if e43 limit 0.5 v v sd(lo) 57 k6 ? e44 ma v sd(lo) 0.4 v if e44 limit 3.6 v 5 a vs 58 k1, k2, k9, k10, k11 9 e45 v a vs = 20 log [ ? v n (101) / (e45 ? e46) ] 2 / 68 db tc = k1, k2, k9, k10, k11 9 e46 ? +125 c f osc (max) 59 k4, k6 3 f5 khz f osc(max) = f5 250 khz f osc2 60 ? ? f6 ? f osc2 = f6 45 60 khz v osc 61 ? ? e47 v v osc = e47 2.4 v v ramp 62 ? 7 e48 v v ramp = e48 3.0 3.8 v v sen 63 4 e49 v v sen = e49 4 / 165 235 mv v sd(hi) 64 k6 9 e50 v v sd(hi) 1.4 v if e50 limit 0.5 v v sd(lo) 65 k6 ? e51 v v sd(lo) 0.4 v if e51 limit 3.6 v 6 66 to tc = -55 c 73 7 g bw 74 see figure 5 2 mhz tc = +25 c n o 75 i6 e59 v rms n o = e59 200 v rms 9 t pw 76 k4, k6, k12, k13 3 t1 s t pw = t1 5 / 0.3 s tc = +25 c t on(a)max / 77 ? 12 t2, ? t on(a) max / t osc = t2 / tper x 100 5 / 45 50 % t osc tper t on(a)min / 78 ? 12 t3, ? t on(a) min / t osc = t3 / tper x 100 5 / 0.001 % t osc tper t on(b)max / 79 ? 13 t4, ? t on(b) max / t osc = t4 / tper x 100 5 / 45 50 % t osc tper t on(b)min / 80 ? 13 t5, ? t on(b) min / t osc = t5 / tper x 100 5 / 0.001 % t osc tper t r(tr)a 81 ? 12 t6 ? t r(tr)a = t6 5 / 0.4 s t r(tf)a 82 ? 12 t7 ? t r(tf)a = t7 5 / 0.2 ? t r(tr)b 83 ? 13 t8 ? t r(tr)b = t8 5 / 0.4 ? t r(tf)b 84 ? 13 t9 ? t r(tf)b = t9 5 / 0.2 ? see footnotes at end of table . 34 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 01 ? continued . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 subgroup symbol inv input noninv input osc +c l -c l r t c t gnd comp shut down e a c a c b e b v in v ref 10 t pw 85 2.5 v 2.5 v gnd gnd 2 k ? .01 f gnd gnd 20 v 20 v gnd 20 v tc = t on(a)max / 86 v cm = 2.5 v ? ? ? ? ? 3.8 v ? ? ? ? ? +125 c t osc t on(a)min / 87 ? ? ? ? ? ? 0.5 v ? ? ? ? ? t osc t on(b)max / 88 ? ? ? ? ? ? 3.8 v ? ? ? ? ? t osc t on(b)min / 89 ? ? ? ? ? ? 0.5 v ? ? ? ? ? t osc 11 90 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 10, t c = +125 c. tc = -55 c 94 1 / v osc = 5 v, 50 s pulse. pulse v osc to switch output transistor (which is on). 2 / measure v comp with v n = 1.8 v and v n = 3.4 v. 3 / the capacitor shall be polystyrene 0.01 f tuned with a mica capacitor to 0.1 %. 4 / adjust v +c.l. sense until v comp = 2 v. 5 / see figure 4. 35 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 01 ? continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 10 t pw 85 k4, k6, k12, k13 3 t10 s t pw = t10 5 / 0.3 s tc = t on(a)max / 86 ? t11, ? t on(a) max / t osc = t11 / tper x 100 5 / 45 50 % +125 c t osc tper t on(a)min / 87 ? t12, ? t on(a) min / t osc = t12 / tper x 100 5 / 0.001 % t osc tper t on(b)max / 88 ? t13, ? t on(b) max / t osc = t13 / tper x 100 5 / 45 50 % t osc tper t on(b)min / 89 ? t14, ? t on(b) min / t osc = t14 / tper x 100 5 / 0.001 % t osc tper 11 90 to tc = -55 c 94 36 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device types 02 and 04 . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 subgroup symbol (-) input (+) input sync osc c t r t dis- chg ss comp shut- down o/p a gnd v c o/p b v in v ref 1 v ref 1 2.5 v 2.5 v gnd 20 v tc = v rline 2 ? ? ? 8 v +25 c ? ? ? 35 v v rload 3 ? ? ? 20 v -20 ma i os 4 ? ? ? 20 v 0 v i c 5 ? ? 1.6 v ? 35 v 30 v v ol(a) 6 gnd v ref 2 / 20 ma ? 20 v 20 v v ol(a) 7 ? ? ? 100 ma ? ? ? v ol(b) 8 ? ? ? ? ? 20 ma ? v ol(b) 9 ? ? ? ? ? 100 ma ? v oh(a) 10 ? ? ? -20 ma ? ? ? v oh(a) 11 ? ? ? -100 ma ? ? ? v oh(b) 12 ? ? ? ? ? -20 ma ? v oh(b) 13 ? ? ? ? ? -100 ma ? v io 14 2.5 v 2.5 v ? ? +i ib 15 ? ? ? ? -i ib 16 ? ? ? ? i io 17 cmr 18 v cm v cm gnd 20 v i in 19 2.5 v 2.5 v ? 35 v v sat(osc) 20 2.5 v 2.5 v 5 v 5 ma ? 20 v v hi 21 gnd 5.1 v ? ? v lo 22 5.1 v gnd ? ? see footnotes at end of table. mil - m - 38510/126c 37 .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device types 02 and 04 ? continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 1 v ref 1 16 e1 v v ref = e1 5.05 5.15 v tc = v rline 2 ? e2 ? v rline = e3 ? e2 -30 30 mv +25 c e3 ? v rload 3 ? e4 ? v rload = e4 ? e1 -50 50 mv i os 4 ? i1 ma i os = i1 -125 ma i c 5 13 i2 a i c = i2 1 / 200 a v ol(a) 6 11 e5 v v ol(a) = e5 0.4 v v ol(a) 7 11 e6 ? v ol(a) = e6 2.0 ? v ol(b) 8 14 e7 ? v ol(b) = e7 0.4 ? v ol(b) 9 14 e8 ? v ol(b) = e8 2.0 ? v oh(a) 10 11 e9 ? v oh(a) = e9 18 ? v oh(a) 11 11 e10 ? v oh(a) = e10 17 ? v oh(b) 12 14 e11 ? v oh(b) = e11 18 ? v oh(b) 13 14 e12 ? v oh(b) = e12 17 ? v io 14 k12 (pos. 3), k13, k15 9 e13 ? v io = ( e13 ? 2.5 ) / 101 -5 5 mv +i ib 15 k3, k12 (pos. 3), k13, k15 ? e14 ? +i ib = (e13 ? e14 ) / 101000 0.01 10 a -i ib 16 k2, k12 (pos. 3), k13, k15 ? e15 ? -i ib = (e15 ? e13) / 101000 0.01 10 a i io 17 i io = ( +i ib ) ? (-i ib ) -1 1 a cmr 18 k12 (pos. 3), k13, k15 9 e16 v 3 / 60 db i in 19 15 i3 ma i in = i3 20 ma v sat(osc) 20 5 e17 v v sat(osc) = e17 0.5 1.1 v v hi 21 k12 (pos. 3) 9 e18 ? v hi = e18 3.8 ? v lo 22 ? ? e19 ? v lo = e19 0.5 ? see footnotes at end of table. 3 8 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device types 02 and 04 ? continued . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 subgroup symbol (-) input (+) input sync osc c t r t dis- chg ss comp shut- down o/p a gnd v c o/p b v in v ref 2 v ref 23 2.5 v 2.5 v gnd 20 v tc = v rline 24 ? ? ? 8 v +125 c ? ? 35 v v rload 25 ? ? ? 20 v -20 ma i os 26 ? ? ? 20 v 0 v i c 27 ? ? 1.6 v ? 35 v 30 v v ol(a) 28 gnd v ref 2 / 20 ma ? 20 v 20 v v ol(a) 29 ? ? ? 100 ma ? ? ? v ol(b) 30 ? ? ? ? ? 20 ma ? v ol(b) 31 ? ? ? ? ? 100 ma ? v oh(a) 32 ? ? ? -20 ma ? ? ? v oh(a) 33 ? ? ? -100 ma ? ? ? v oh(b) 34 ? ? ? ? ? -20 ma ? v oh(b) 35 ? ? ? ? ? -100 ma ? v io 36 2.5 v 2.5 v ? ? +i ib 37 ? ? ? ? -i ib 38 ? ? ? ? i io 39 cmr 40 v cm v cm gnd 20 v i in 41 2.5 v 2.5 v ? 35 v v hi 42 gnd 5.1 v ? 20 v v lo 43 5.1 v gnd ? 20 v 3 44 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 2, t c = +125 c. tc = -55 c 64 except for i in at ?55 c. the maximum limit is 20 ma. see footnotes at end of table. mil - m - 38510/126c 39 .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device types 02 and 04 ? continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 2 v ref 23 16 e20 v v ref = e20 5.05 5.2 v tc = v rline 24 ? e21 ? v rline = e22 ? e21 -30 30 mv +125 c ? e22 ? v rload 25 ? e23 ? v rload = e23 ? e20 -50 50 mv i os 26 ? i4 ma i os = i4 -125 ma i c 27 13 i5 a i c = i5 1 / 200 a v ol(a) 28 11 e24 v v ol(a) = e24 0.4 v v ol(a) 29 11 e25 ? v ol(a) = e25 2.0 ? v ol(b) 30 14 e26 ? v ol(b) = e26 0.4 ? v ol(b) 31 14 e27 ? v ol(b) = e27 2.0 ? v oh(a) 32 11 e28 ? v oh(a) = e28 18 ? v oh(a) 33 11 e29 ? v oh(a) = e29 17 ? v oh(b) 34 14 e30 ? v oh(b) = e30 18 ? v oh(b) 35 14 e31 ? v oh(b) = e31 17 ? v io 36 k12 (pos. 3), k13, k15 9 e32 ? v io = ( e32 ? 2.5 ) / 101 -5 5 mv +i ib 37 k3, k12 (pos. 3), k13, k15 ? e33 ? +i ib = (e32 ? e33 ) / 101000 0.01 10 a -i ib 38 k2, k12 (pos. 3), k13, k15 ? e34 ? -i ib = (e34 ? e32) / 101000 0.01 10 a i io 39 i io = ( +i ib ) ? (-i ib ) -1 1 a cmr 40 k12 (pos. 3), k13, k15 9 e35 v 3 / 60 db i in 41 15 i6 ma i in = i6 18 ma v hi 42 k12 (pos. 2) 9 e36 v v hi = e36 3.8 v v lo 43 ? ? e37 v v lo = e37 0.5 v 3 44 to tc = -55 c 64 see footnotes at end of table. 40 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device types 02 and 04 ? continued . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 subgroup symbol (-) input (+) input sync osc c t r t dis- chg ss comp shut- down o/p a gnd v c o/p b v in v ref 4 ? v in / 65 2.5 v 2.5 v gnd 20 v + tc = ? v ref 1 v rms +25 c f osc 66 ? ? .01 f 3.6 k ? 0 ? ? 20 v .01 f to gnd v osc 67 ? ? ? ? ? ? 20 v .01 f to gnd v ramp 68 ? ? ? ? ? ? ? ? ? f osc1 / 69 ? ? ? ? ? ? 8v ? ? v in ? ? ? ? ? ? 35 v ? f osc(min) 70 ? ? .1 f 150 k ? ? ? 20 v ? f osc(max) 71 ? ? .001 f 2 k ? ? ? ? ? v sync(lo) 72 ? ? ? ? ? v sync(hi) 73 ? ? ? ? ? i sync 74 ? ? 3.5 v ? ? ? i ss 75 ? ? 0 v 0 v ? ? i sd 76 ? ? 2.5 v ? ? v ss 77 ? ? 2 v ? ? v sd(lo) 78 ? ? .01 f 3.6 k ? 0 ? 3.6 v 6 / ? 20 v ? v sd(hi) 79 ? ? .01 f 3.6 k ? 0 ? 3.6 v 7 / ? 20 v ? a vs 80 ? ? ? ? psrr 81 5.1 v 5.1 v ? 8 v 35 v 5 f osc 82 2.5 v 2.5 v .01 f 3.6 k ? 0 ? ? 20 v .01 f to gnd tc = v osc 83 ? ? ? ? ? ? ? ? +125 c v ramp 84 ? ? ? ? ? ? ? ? f osc(min) 85 ? ? .1 f 150 k ? ? ? ? ? f osc(max) 86 ? ? .001 f 2 k ? ? ? ? ? v sync(lo) 87 ? ? ? ? ? v sync(hi) 88 ? ? ? ? ? i sync 89 ? ? 3.5 v ? ? ? i ss 90 ? ? 0 v 0 v ? ? i sd 91 ? ? 2.5 v ? ? v ss 92 ? ? 2 v ? ? v sd(lo) 93 ? ? .01 f 3.6 k ? 0 ? 3.6 v 6 / ? 20 v ? v sd(hi) 94 ? ? .01 f 3.6 k ? 0 ? 3.6 v 7 / ? 20 v ? a vs 95 ? ? ? ? psrr 96 5.1 v 5.1 v ? 8 v ? 35 v see footnotes at end of table. 41 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device types 02 and 04 ? continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 4 ? v in / 65 k1 16 e56 v rms ? v in / ? v ref = 20 log ( ? v in / ? e56 ) 50 db tc = ? v ref +25 c f osc 66 k4, k5, k6, k7 4 f1 khz f osc = f1 37.5 42.5 khz v osc 67 ? 4 e57 v v osc = e57 3.0 v v ramp 68 ? 5 e58 v v ramp = e58 3.0 3.6 v ? f osc1 / 69 ? 4 f2 khz ? f osc1 / ? v in = 100 (( f2- f3 ) / f2 ) -1 1 % ? v in 4 f3 khz f osc(min) 70 ? 4 f4 hz f osc(min) = f4 150 hz f osc(max) 71 ? 4 f5 khz f osc(max) = f5 300 khz v sync(lo) 72 see figure 4 5 / 0.8 v v sync(hi) 73 see figure 4 5 / 2.8 v i sync 74 3 i10 ma i sync = i10 2.5 ma i ss 75 8 i11 a i ss = i11 -80 -25 a i sd 76 10 i12 ma i sd = i12 1 ma v ss 77 8 e59 v v ss =e59 0.6 v v sd(lo) 78 k4, k5, k6, k7 11 and 14 6 / 0.5 v v sd(hi) 79 k4, k5, k6, k7 11 and 14 7 / 1.6 v a vs 80 k12 (pos. 3), k13, k15 9 e60 v v n = 1 v to 3.5 v, 60 db a vs = 20 log [ ? v n (101) / ? e60 ] psrr 81 k12 (pos. 3), k13, k15 ? e61 ? 8 / 60 db ? ? e62 ? 5 f osc2 82 k4, k5, k6, k7 4 f6 khz f osc2 = f6 36 44 khz tc = v osc 83 ? 4 e63 v v osc = e63 3.0 v +125 c v ramp 84 ? 5 e64 v v ramp = e64 3.0 3.6 v f osc(min) 85 ? 4 f7 hz f osc(min) = f7 150 hz f osc(max) 86 ? 4 f8 khz f osc(max) = f8 300 khz v sync(lo) 87 see figure 4 5 / 0.8 v v sync(hi) 88 see figure 4 5 / 2.8 v i sync 89 3 i13 ma i sync = i13 2.5 ma i ss 90 8 i14 a i ss = i14 -80 -25 a i sd 91 10 i15 ma i sd = i15 1 ma v ss 92 8 e65 v v ss =e65 0.6 v v sd(lo) 93 6 / 0.5 v v sd(hi) 94 7 / 1.6 v a vs 95 k12 (pos. 3), k13, k15 9 e66 v v n = 1 v to 3.5 v, 60 db a vs = 20 log [ ? v n (101) / ? e66 ] psrr 96 k12 (pos. 3), k13, k15 ? e67 ? 8 / 60 db ? ? e68 ? see footnotes at end of table. 42 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device types 02 and 04 ? continued . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 subgroup symbol (-) input (+) input sync osc c t r t dis- chg ss comp shut- down o/p a gnd v c o/p b v in v ref 6 97 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 5, t c = +125 c. tc = -55 c 112 7 g bw 113 e i gnd 20 v tc = +25 c n o 114 2.5 v 2.5 v ? ? 9 t pw 115 2.5 v 2.5 v .01 f 3.6 k ? 0 ? ? 20 v tc = +25 c t on(a)max / 116 ? ? ? ? ? 3.6 v gnd 4 / ? 20 v 4 / ? t osc t on(b)max / 117 ? ? ? ? ? 3.6 v ? ? ? ? ? ? t osc t on(a)min / 118 ? ? ? ? ? 0.6 v ? ? ? ? ? ? t osc t on(b)min / 119 ? ? ? ? ? 0.6 v ? ? ? ? ? ? t osc v ul 120 gnd v ref 2 / ? v in 9 / t sd(a) 121 ? ? ? ? 20 v 20 v t sd(b) 122 ? ? ? ? 20 v 20 v t r(tr)a 123 2.5 v 2.5 v .01 f 3.6 k ? 0 ? 3.6 v gnd gnd 20 v 20 v t r(tf)a 124 ? ? ? ? ? ? ? ? ? ? t r(tr)b 125 ? ? ? ? ? ? ? ? ? ? t r(tf)b 126 ? ? ? ? ? ? ? ? ? ? 10 t pw 127 2.5 v 2.5 v .01 f 3.6 k ? 0 ? ? 20 v tc = t on(a)max / 128 ? ? ? ? ? 3.6 v gnd 4 / ? 20 v 4 / ? +125 c t osc t on(b)max / 129 ? ? ? ? ? 3.6 v ? ? ? ? ? ? t osc t on(a)min / 130 ? ? ? ? ? 0.6 v ? ? ? ? ? ? t osc t on(b)min / 131 ? ? ? ? ? 0.6 v ? ? ? ? ? ? t osc v ul 132 gnd v ref 2 / ? v in 9 / t sd(a) 133 ? ? ? ? 20 v 20 v t sd(b) 134 ? ? ? ? 20 v 20 v t r(tr)a 135 .01 f 3.6 k ? 0 ? 3.6 v gnd gnd 20 v 20 v t r(tf)a 136 ? ? ? 3.6 v ? ? ? ? t r(tr)b 137 ? ? ? 0.6 v ? ? ? ? t r(tf)b 138 ? ? ? 0.6 v ? ? ? ? see footnotes at end of table . 43 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device types 02 and 04 ? continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 6 97 to tc = -55 c 112 7 g bw 113 g bw = f ei , when e o = 20 mv, see figure 5 2 mhz tc = +25 c n o 114 16 e75 v rms n o = e75 200 v rms 9 t pw 115 k4, k5, k6, k7 4 t1 s t pw = t1 see figure 4 0.3 1.0 s tc = +25 c t on(a)max / 116 k4, k5, k6, k7, k11, 11 t2, ? t on(a) max / t osc = t2 / tper x 100 see figure 4 45 50 % t osc k12 (pos. 2) tper t on(a)max / 117 ? 14 t3, ? t on(b) max / t osc = t3 / tper x 100 see figure 4 45 50 % t osc tper t on(b)min / 118 ? 11 t4, ? t on(a) min / t osc = t4 / tper x 100 see figure 4 0.001 % t osc tper t on(b)min / 119 ? 14 t5, ? t on(b) min / t osc = t5 / tper x 100 see figure 4 0.001 % t osc tper v ul 120 15 e76 v v ul = e76 6 8 v t sd(a) 121 11 t6 ns see figure 4 10 / 500 ns t sd(b) 122 14 t7 ns see figure 4 10 / 500 ns t r(tr)a 123 k4, k5, k6, k7, k11, k12 (pos. 2) 11 t8 ? t r(tr)a = t8 see figure 4 600 ns t r(tf)a 124 ? 11 t9 ? t r(tf)a = t9 see figure 4 300 ? t r(tr)b 125 ? 14 t10 ? t r(tr)b = t10 see figure 4 600 ? t r(tf)b 126 ? 14 t11 ? t r(tf)b = t11 see figure 4 300 ? 10 t pw 127 k4, k5, k6, k7 4 t12 s t pw = t12 see figure 4 0.3 1.4 s tc = t on(a)max / 128 k4, k5, k6, k7, k11, 11 t13, ? t on(a) max / t osc = t13 / tper x 100 see figure 4 45 50 % +125 c t osc k12 (pos. 2) tper t on(b)max / 129 ? 14 t14, ? t on(b) max / t osc = t14 / tper x 100 see figure 4 45 50 % t osc tper t on(a)min / 130 ? 11 t15, ? t on(a) min / t osc = t15 / tper x 100 see figure 4 0.001 % t osc tper t on(b)min / 131 ? 14 t16, ? t on(b) min / t osc = t16 / tper x 100 see figure 4 0.001 % t osc tper v ul 132 15 e77 v v ul = e77 6 8 v t sd(a) 133 11 t17 ns see figure 4 10 / 700 ns t sd(b) 134 14 t18 ns see figure 4 10 / 700 ns t r(tr)a 135 k4, k5, k6, k7, k11, k12 (pos. 2) 11 t19 ? t r(tr)a = t19 see figure 4 600 ns t r(tf)a 136 ? 11 t20 ? t r(tf)a = t20 see figure 4 300 ? t r(tr)b 137 ? 14 t21 ? t r(tr)b = t21 see figure 4 600 ? t r(tf)b 138 ? 14 t22 ? t r(tf)b = t22 see figure 4 300 ? 11 139 to tc = -55 c 151 see footnotes at end of table. 44 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 03 . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 subgroup symbol (+) error (-) error comp css reset -c.s. +c.s. shut down r t c t r d sync o/p a v c gnd o/p b v in v ref 1 v ref 1 gnd gnd gnd gnd gnd 15 v tc = v rline 2 ? ? ? ? ? 8 v +25 c ? ? ? ? ? 35 v v rload 3 ? ? ? ? ? 15 v -20 ma i os 4 ? ? ? ? ? ? 0 v v ce(sat)a 5 ? ? ? ? gnd 20 ma 15 v ? ? 6 ? ? ? ? ? 100 ma ? ? ? v ce(sat)b 7 ? ? ? ? ? ? ? 20 ma ? 8 ? ? ? ? ? ? ? 100 ma ? v oh(a) 9 v ref ? ? ? 11 / -20 ma ? ? ? 10 ? ? ? ? ? -100 ma ? ? ? v oh(b) 11 ? ? ? ? ? ? ? -20 ma ? 12 ? ? ? ? ? ? ? -100 ma ? i c 13 gnd ? gnd 35 v ? ? i in 14 gnd ? 0.4 v ? 35 v v io 15 2.5 v 2.5 v ? 15 v r1 = 100 ? r2 = 100 ? +i ib 16 ? ? ? ? -i ib 17 ? ? ? ? i io 18 ? cmr 19 0 v 0 v ? 15 v 100 ? 100 ? 5.2 v 5.2 v ? ? 100 ? 100 ? i ih ( sd ) 20 gnd gnd gnd gnd 2.4 v to am- meter ? ? i il ( sd ) 21 ? ? ? ? 0.4 v to am- meter ? ? v ohp ( sd ) 22 ? ? ? ? -40 a ? ? v olp ( sd ) 23 ? ? ? 120 mv 3.6 ma ? ? i ih ( r) 24 ? ? 2.4 v to am- meter ? gnd ? ? i il ( r) 25 ? ? 0.4 v to am- meter ? ? ? ? v ohp ( r) 26 ? ? -40 a ? ? ? ? v olp ( r) 27 ? ? 3.6 ma ? ? ? 3.8 v 3.8 v see footnotes at end of table. 45 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 03 - continued. limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 1 v ref 1 18 e1 v v ref = e1 4.9 5.1 v tc = v rline 2 ? e2 ? v rline = e3 ? e2 -20 20 mv +25 c ? e3 ? v rload 3 ? e4 ? v rload = e4 ? e1 -30 30 mv i os 4 ? i1 ma i os = i1 -125 ma v ce(sat)a 5 13 e5 v v ce(sat)a = e5 0.3 v 6 13 e6 ? v ce(sat)a = e6 2.0 ? v ce(sat)b 7 16 e7 v v ce(sat)b = e7 0.3 v 8 16 e8 ? v ce(sat)b = e8 2.0 ? v oh(a) 9 13 e9 ? v oh(a) = e9 12.5 ? 10 13 e10 ? v oh(a) = e10 12.0 ? v oh(b) 11 16 e11 ? v oh(b) = e11 12.5 ? 12 16 e12 ? v oh(b) = e12 12.0 ? i c 13 14 i2 a i c = i2 150 a i in 14 17 i3 ma i in = i3 30 ma v io 15 k3 (pos. 3), k4, k6 3 e13 v v n = 2.5 v, v io = ( e13 ? 2.5 ) / 201 -5 5 mv +i ib 16 k1, k3 (pos. 3), k4, k6 ? e14 ? v n = 2.5 v, +i ib = (e13 ? e14 ) / 201000 -1 a -i ib 17 k2, k3 (pos. 3), k4, k6 ? e15 ? v n = 2.5 v, -i ib = (e15 ? e13) / 201000 -1 a i io 18 i io = ( -i ib ) ? (+i ib ) -0.5 0.5 a cmr 19 k3 (pos. 3), k4, k6 3 e16 v 12 / 60 db k3 (pos. 3), k4, k6 3 e17 ? i ih ( sd ) 20 8 i4 a i ih ( sd ) = i4 -200 a i il ( sd ) 21 8 i5 a i ih ( sd ) = i5 -360 a v ohp ( sd ) 22 ? ? e18 v v ohp ( sd ) = e18 2.4 v v olp ( sd ) 23 ? e19 v v olp ( sd ) = e19 0.4 ? i ih ( r) 24 5 i6 a i ih ( r) = i6 -200 a i il ( r) 25 ? i7 a i il ( r ) = i7 -360 a v ohp ( r) 26 ? e20 v v ohp ( r ) = e20 2.4 v v olp ( r) 27 ? e21 v v olp ( r ) = e21 0.4 v see footnotes at end of table. 46 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 03 - continued . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 subgroup symbol (+) error (-) error comp css reset -c.s. +c.s. shut down r t c t r d sync o/p a v c gnd o/p b v in v ref 1 i ih ( s) 28 gnd gnd gnd gnd 0.5 v 2.4 v to am- meter gnd 15 v tc = +25 c i il ( s) 29 ? ? ? ? ? 0.4 v to am- meter ? 15 v v ohp ( s) 30 ? ? ? ? ? -40 a ? 15 v v olp ( s) 31 ? ? ? ? 3.6 v 3.6 ma ? 15 v 2 32 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 1, t c = +25 c. tc = +125 c 62 except for i os , the minimum limit is ?100 ma and i in the maximum limit is 25 ma. 3 63 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 1, t c = +25 c. tc = -55 c 93 4 ? v in / 94 gnd gnd gnd gnd gnd 15 v +1 v tc = +25 c ? v ref rms at 2.4 khz f osc 95 ? ? ? ? 4.12 k ? .01 f 0 ? 2.7 k ? to v ref 15 v ? 15 v v rv 96 ? ? ? ? ? ? ? ? ? 8 v v rp 97 ? ? ? ? ? ? ? ? ? 35 v ? f osc / 98 ? ? ? ? ? ? ? ? 15 v ? 8 v ? v in ? ? ? ? ? ? ? ? ? ? 35 v f osc(min) 99 ? ? ? ? 150 k ? 0.2 f ? ? ? ? 15 v f osc(max) 100 ? ? ? ? 2 k ? 1.0 nf ? ? ? ? ? a vs 101 2.5 v r1 = 100 ? 2.5 v r2 = 100 ? ? ? psrr 102 ? ? ? 8 v ? ? ? 35 v v s 103 150 mv gnd gnd ? 15 v +i ibs 104 ? ? ? gnd ? ? -i ibs 105 ? ? ? ? ? ? v ec 106 gnd ? 0.4 v ? ? ? ? i cs 107 ? 150 mv 0 v ? ? ? ? v r(low) 108 ? gnd ? ? ? 3.8 v 3.8 v v r(high) 109 ? ? ? ? ? 4.8 v 4.8 v v hi 110 150 mv ? -100 a ? 15 v v lo 111 gnd 150 mv 100 a ? ? see footnotes at end of table. 47 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 03 - continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 1 i ih ( s) 28 12 i8 a i ih ( s) = i8 -200 a tc = +25 c i il ( s) 29 ? i9 ? i il ( s ) = i9 -360 a v ohp ( s) 30 ? e22 v v ohp ( s ) = e22 2.4 v v olp ( s) 31 ? e23 ? v olp ( s ) = e23 0.4 ? 2 32 to tc = +125 c 62 3 63 to tc = -55 c 93 4 ? v in / 94 k13 18 e70 v rms ? v in / ? v ref = 20 log ( ? v in / ? v ref ) 50 db tc = +25 c ? v ref f osc 95 k5, k7, k9 13 f1 khz f osc = 2(f1) 38 42 khz v rv 96 ? 10 e71 v v rv = e71 0.45 v v rp 97 ? 10 e72 v v rp = e72 2.5 3.5 v ? f osc / 98 ? 13 f2 khz ? f osc / ? v in = (f2 ? f3) / f2 x 100 -1 1 % ? v in ? 13 f3 khz f osc(min) 99 ? 13 f4 hz f osc(min) = [ f4 ] *2 100 hz f osc(max) 100 ? 16 f5 khz f osc(max) = [ f5 ] *2 350 khz a vs 101 k3 (pos. 3), k4, k6 3 e73 v 13 / 60 db psrr 102 ? ? e74 ? 14 / 66 db ? ? e75 ? v s 103 k11, k12 7 e76 ? v s = e76 15 / 60 120 mv +i ibs 104 ? 7 i28 a +i ibs = i28 -10 a -i ibs 105 ? 6 i29 a -i ibs = i29 -10 a v ec 106 4 e77 v v ec = e77 0.4 v i cs 107 4 i30 a i cs = i30 -150 -50 a v r(low) 108 5 e78 v v r(low) = e78 0.4 v v r(high) 109 5 e79 ? v r(high) = e79 2.4 v v hi 110 k3 (pos. 2) 3 e80 ? v hi = e80 3.6 v v lo 111 k3 (pos. 2) 3 e81 ? v lo = e81 0.4 v see footnotes at end of table. 48 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 03 - continued . adapter pin numbers test no. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 subgroup symbol (+) error (-) error comp css reset -c.s. +c.s. shut down r t c t r d sync o/p a v c gnd o/p b v in v ref 5 tc = +125 c f osc2 112 gnd gnd gnd gnd 4.12 k ? .01 f 0 ? 2.7 k ? to v ref gnd 15 v 113 to all test parameters, test conditions, equations, and test limits remaining are identical with tests 96 through 111 specified in table iii, subgroup 4, t c = +25 c. 128 6 129 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 5, t c = +125 c. tc = -55 c 145 7 no 146 gnd gnd gnd gnd gnd 15 v tc = +25 c gbw 147 gnd gnd gnd 15 v 9 t pw 148 gnd gnd gnd gnd 4.12 k ? .01 f 0 ? 2.7 k ? to v ref gnd 15 v tc = +25 c t sd(a) 149 150 mv ? ? ? 11 / 15 v ? ? t sd(b) 150 150 mv ? ? ? 11 / 15 v ? ? t on(a) max / 151 gnd ? 3.6 v ? ? 4.12 k ? .01 f 0 ? ? ? ? t osc t on(a) min / 152 ? ? 0.4 v ? ? ? ? ? ? ? ? t osc t on(b) max / 153 ? ? 3.6 v ? ? ? ? ? ? ? ? t osc t on(b) min / 154 ? ? 0.4 v ? ? ? ? ? ? ? ? t osc t r(tr)a 155 ? ? ? ? ? ? ? ? ? ? ? t r(tf)a 156 ? ? ? ? ? ? ? ? ? ? ? t r(tr)b 157 ? ? ? ? ? ? ? ? ? ? ? t r(tf)b 158 ? ? ? ? ? ? ? ? ? ? ? 10 t pw 159 gnd gnd gnd gnd 4.12 k ? .01 f 0 ? 2.7 k ? to v ref gnd 15 v tc = +125 c t sd(a) 160 150 mv ? ? ? 11 / 15 v ? ? t sd(b) 161 150 mv ? ? ? 11 / 15 v ? ? 162 to all test parameters, test conditions, equations, and test limits remaining are identical with tests 151 through 158 specified i n table iii, subgroup 9, t c = +25 c. 169 11 170 to all test parameters, test conditions, equations, and test limits are identical with those specified in table iii, subgroup 9, t c = +25 c. tc = -55 c 180 see footnotes at end of table. 49 mil - m - 38510/126c .com .com .com .com .com 4 .com u datasheet
table iii. group a inspection for device type 03 - continued . limits test no. energized relays subgroup symbol no. value unit equations and notes min max unit 5 f osc2 112 k5, k7, k9 13 f6 khz f osc2 = [ f6] * 2 36 44 khz tc = 113 to +125 c 128 6 129 to tc = -55 c 145 7 n o 146 18 e106 v rms n o = e106 200 v rms tc = +25 c g bw 147 g bw = f ei when e o ? e i , see figure 5 2 mhz 9 t pw 148 k5, k7, k9 12 t1 s t pw = t1 16 / 2 s tc = +25 c t sd(a) 149 8 to 13 t2 ? t sd(a) = t2 16 / 0.5 ? t sd(b) 150 8 to 16 t3 ? t sd(b) = t3 16 / 0.5 ? t on(a) max / 151 k3 (pos. 2), k5, k7, 13 t4, ? t on(a) max / t osc = t4 / tper x 100 16 / 45 50 % t osc k8, k9, k11, k12 t per t on(a) min / 152 ? 13 t5, ? t on(a) min / t osc = t5 / tper x 100 16 / 0.001 ? t osc t per t on(b) max / 153 ? 16 t6, ? t on(b) max / t osc = t6 / tper x 100 16 / 45 50 ? t osc t per t on(b) min / 154 ? 16 t7, ? t on(b) min / t osc = t7 / tper x 100 16 / 0.001 ? t osc t per t r(tr)a 155 ? 13 t8 ? t r(tr)a = t8 0.3 s t r(tf)a 156 ? 13 t9 ? t r(tf)a = t9 0.2 ? t r(tr)b 157 ? 16 t10 ? t r(tr)b = t10 0.3 ? t r(tf)b 158 ? 16 t11 ? t r(tf)b = t11 0.2 ? 10 t pw 159 k5, k7, k9 12 t12 s t pw = t12 16 / 3 s tc = +125 c t sd(a) 160 8 to 16 t13 ? t sd(a) = t13 16 / 0.7 ? t sd(b) 161 8 to 13 t14 ? t sd(b) = t14 16 / 0.7 ? 162 to 169 11 170 to tc = -55 c 180 see footnotes at end of table. 50 mil - m - 38510 /126c .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 51 table iii. group a inspection - continued . notes: 1 / this test applies to device type 02 only. 2 / 5 v, 50 s pulse, toggles the ?on state? between transistors a and b. 3 / vary v cm from 1.5 v to 5.2 v and measure change on pin 9, v n = 2.5 v. equation for cmr test is : cmr = 20 log | ? v cm (101) / ( ? ex - ? v cm )| test 18, ? ex = ? e16 test 40, ? ex = ? e35 test 61, ? ex = ? e53 4 / load resistance on outputs a and b 1 k ? . 5 / 0.8 v to 2.8 v transition on v sync must cause a transition in v osc . 2.8 v to 0.8 v transition on v sync must not cause a transition in v osc . 6 / apply 0.5 v to the shutdown pin, output should be on. ( device type 02 either output > 2.5 v ) ( device type 04 either output < 2.5 v ). 7 / apply 1.6 v to the shutdown pin, output should be off. ( device type 02 both outputs < 2.5 v) ( device type 04 both outputs > 2.5 v). 8 / equation for psrr is as follows with v n = 5.1 v: psrr = 20 log | ? v in (101) / ( ex ? ey ) | test 81, ( ex ? ey ) = ( e61 ? e62 ) test 96, ( ex ? ey ) = ( e67 ? e68 ) test 112, ( ex ? ey ) = ( e73 ? e74 ) 9 / increase v in = from 5 v to the point where outputs are on: ( device type 02 on state = either output > 2.5 v ), ( device type 04 on state = either output < 2.5 v ). 10 / device type 02, t sd = t output( low ) ? t pin 10(high). device type 04, t sd = t output( high ) ? t pin 10(high). 11 / apply a 3.6 v, 50 s pulse to c t to switch output transistor (which is on). .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 52 table iii. group a inspection - continued. notes: 12 / v n = 2.5 v. equation for cmr is as follows: cmr = 20 log [ 5.2 v (201) / | ( ex ? ey ? 5.2) | ] test number 19: ex = e17, ey = e16 test number 50: ex = e40, ey = e39 test number 81: ex = e63, ey = e62 13 / v n = 0.5 v to 3.5 v. equation for a vs is as follows: a vs = 20 log ( ? v n (201) / | ? ex | ) test number 101: ? ex = e73 test number 118: ? ex = e84 test number 135: ? ex = e95 14 / v n = 2.5 v. equation for psrr is as follows: psrr = 20 log [ ? v in (201) / | ( ex ? ey ) | ] test number 102: ( ex ? ey ) = ( e75 ? e74 ) test number 119: ( ex ? ey ) = ( e86 ? e85 ) test number 136: ( ex ? ey ) = ( e97 ? e96 ) 15 / increase voltage on +c.s. until v shutdown 0.4 v. record v +c.s. 16 / see figure 4. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 53 4.4 technology conformance inspection (tci) . technology conformance inspection shall be in accordance with mil-prf- 38535 and herein for groups a, b, c, and d inspections (see 4.4.1 through 4.4.4). 4.4.1 group a inspection . group a inspection shall be in accordance with table iii of mil-prf-38535 and as follows: a. tests shall be as specified in table ii herein. b. subgroup 8 shall be omitted. 4.4.2 group b inspection . group b inspection shall be in accordance with table ii of mil-prf-38535. 4.4.3 group c inspection . group c inspection shall be in accordance with table iv of mil-prf-38535 and as follows: a. end point electrical parameters shall be as specified in table ii herein. b. the steady-state life test duration, test condition, and test temperature, or approved alternatives shall be as specified in the device manufacturer's qm plan in accordance with mil-prf-38535. the burn-in test circuit shall be maintained under document control by the device manufacturer's technology review board (trb) in accordance with mil-prf-38535 and shall be made available to the acquiring or preparing activity upon request. the test circuit shall specify the inputs, outputs, biases, and power dissipation, as applicable, in accordance with the intent specified in test method 1005 of mil-std-883. c. special subgroups shall be added to group c inspection requirements for class b devices, and shall consist of the tests, conditions, and limits of subgroups 10 and 11 as specified in table iii herein. 4.4.4 group d inspection . group d inspection shall be in accordance with table v of mil-prf-38535. end point electrical parameters shall be as specified in table ii herein. 4.5 methods of inspection . methods of inspection shall be specified and as follows. 4.5.1 voltage and current . all voltage values given are referenced to the external zero reference level of the supply. currents values given for conventional current and are positive when flowing into the referenced terminal. 5. packaging 5.1 packaging requirements. for acquisition purposes, the packaging requirements shall be as specified in the contract or order (see 6.2). when actual packaging of materiel is to be performed by dod personnel, these personnel need to contact the responsible packaging activity to ascertain requisite packaging requirements. packaging requirements are maintained by the inventory control point's packaging activity within the military department of defense agency, or within the military departmen t's system command. packaging data retrieval is available from the managing military department's or defense agency's automated packaging files, cd-rom products, or by contacting the responsible packaging activity. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 54 table iv. group c end-point electrical parameters . t c = +25 c device test limits unit delta unit type min max all v io --- 5 mv 0.7 mv all i ib 0.1 10.0 a 1 a 01 v ref 4.8 5.2 v 20 mv 02, 04 v ref 5.0 5.2 v 20 mv 03 v ref 4.9 5.1 v 20 mv 6. notes 6.1 intended use. microcircuits conforming to this specification are intended for original equipment design applications and logistic support of existing equipment. 6.2 acquisition requirements . acquisition documents should specify the following: a. title, number, and date of the specification. b. pin and compliance identifier, if applicable (see 1.2). c. requirements for delivery of one copy of the conformance inspection data pertinent to the device inspection lot to be supplied with each shipment by the device manufacturer, if applicable. d. requirements for certificate of compliance, if applicable. e. requirements for notification of change of product or process to acquiring activity in addition to notification of the qualifying activity, if applicable. f. requirements for failure analysis (including required test condition of mil-std-883, method 5003), corrective action and reporting of results, if applicable. g. requirements for product assurance options. h. requirements for special carriers, lead lengths, or lead forming, if applicable. these requirements should not affect the part number. unless otherwise specified, these requirements will not apply to direct purchase by or direct shipment to the government. i. requirements for "jan" marking. j. packaging requirements (see 5.1). 6.3 superseding information . the requirements of mil-m-38510 have been superseded to take advantage of the available qualified manufacturer listing (qml) system provided by mil-prf-38535. previous references to mil-m-38510 in this document have been replaced by appropriate references to mil-prf-38535. all technical requirements now consist of this specification and mil-prf-38535. the mil-m-38510 specification sheet number and pin have been retained to avoid adversely impacting existing government logist ics systems and contractor's parts lists. 6.4 qualification . with respect to products requiring qualification, aw ards will be made only for products which are, at the time of award of contract, qualified for inclusion in qualifi ed manufacturers list qml-38535 whether or not such products have actually been so listed by that date. the attention of the contractors is called to these requirements, and manufacturers are urged to arrange to have the products that they propose to offer to the federal government tested for qualification in order th at they may be eligible to be awarded contracts or purchase orders for the products covered by this specification. information pertaining to qualification of products may be obtained from dscc-vq, 3990 e. broad street, columbus, ohio 43123-1199. .com .com .com .com .com 4 .com u datasheet
mil-m-38510/126c 55 6.5 abbreviations, symbols, and definitions . the abbreviations, symbols, and definitions used herein are defined in mil-prf-38535 and mil-std-1331. 6.6 logistic support. lead materials and finishes (see 3.3) are interc hangeable. unless otherwise specified, microcircuits acquired for government logistic support will be acquired to dev ice class b (see 1.2.2), lead material and finish a (see 3.4). longer length leads and lead forming should not affect the part number. 6.7 substitutability . the cross-reference information below is presented for the convenience of users. microcircuits covered by this specification will functionally replace the listed generic-industry type. generic-industry microcircuit types may not have equivalent operational performance characteristics across military temperature ranges or reliability factors equivalent to mil- m- 38510 device types and may have slight physical variations in relation to case size. the presence of this information should n ot be deemed as permitting substitution of generic-industry types for mil-m-38510 types or as a waiver of any of the provisions of mil-prf-38535. military device type generic-industry type 01 1524 02 1525a 03 1526 04 1527a 6.8 changes from previous issue . asterisks are not used in this revision to identify changes with respect to the previous issue, due to the extensiveness of the changes. custodians: preparing activity: army ? cr dla - cc navy - ec air force - 11 project 5962-2037 dla ? cc review activities: army - mi, sm navy - as, cg, sh, td air force ? 03, 19, 99 note: the activities listed above were interested in this document as of this date of this document. since organizations and responsibilities can change, you should verify the currency of the information above using the assit online database at www.dodssp.daps.mil . .com .com .com .com 4 .com u datasheet

▲Up To Search▲

Price & Availability of M3851012603BVA

	To Download M3851012603BVA Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .