MIL-M-38510-140 Microcircuits, Linear, Monolithic And Hybrid Silicon, Microprocessor Compatible, 12 Bit Analog-To-Digital ConvertersThis specification covers the detail requirements for monolithic and hybrid, microprocessor compatible, 12-bit successive approximation analog-to-digital converters buffered outputs. 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 For this product, the requirements of MIL-M-38510 have been superseded by MIL-PRF-38535, see 6.3.

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Subgroup

Symbol

Test no.

Applied voltages ref. pin 9 (figures 6, 8)

Applied digital code-word

DUT digital output

code-word

Active relays

Measurement sense lines ref. pin 9

Equation and notes

Limits

Units

Min

Max

7

VCC

(V)

11

VEE

(V)

1

VDD

(V)

29 <-------------> 40

MSB <------------>LSB

29 <-------------> 16

MSB <------------>LSB

Pin

Value

Unit

4

TA =

+25°C

VIO

382

+15.0

-15.0

+5.0

0000 0000 0000

0000 0000 000>

13

E556

V

VIO = 410*(E566)               Device types 01, 02

03,04,05,06

-0.5

-1.5

1.5

2.5

LSB

"

BZ

383

"

"

"

0111 1111 1111

>>>> >>>> >>>>

KA

"

E557

"

BZ = 410*(E557)                All device types

-4.5

3.5

"

AE

384

"

"

"

"

"

"

0000 0000 0000

1111 1111 1110

0000 0000 000>

1111 1111 111>

"

"

E558

E559

"

"

AE = 100*(9.995-(E559-       Device type 01

E558)) / (E559-E558)         Device types 02

03,04,05,06

-.125

-.25

-.3

.125

.25

.3

%/FSR

" "

BPAE

385

"

"

"

"

"

"

0000 0000 0000

1111 1111 1110

0000 0000 000>

1111 1111 111>

KA

"

"

"

E560

E561

"

"

BPAE = 100*(19.990*           Device type 01 (E560-E559)) /             Device types 02

(E560-E559)                         03,04,05,06

-0.125

-0.25

-0.3

0.125

0.25

0.3

%/FSR

" "

LE1

386

" " "

" " "

" " "

1111 1111 1110

0000 0000 0000

0000 0000 0001

1111 1111 111>

0000 0000 000>

0000 0000 00>>

" " "

" " "

E562

E563

E564

" " "

For end point linearity error,

LE(N) = ((E(N+562)+E(N+563)) / 2-V(ideal))) / S V(ideal) = N1*S+E563-S / 2, N1 = Applied ref DAC

code word ; S = (E563-E563)/4094

All device types

LE1 = ((E563+E564)/2-1*S-E563 +S/2) / S

-.5 "

.5 "

LSB "

LE2

387

"

"

"

0000 0000 0010

0000 0000 0011

0000 0000 001>

0000 0000 0>>>

"

"

"

"

E565

E566

"

"

LE2 = ((E564+E565)/2-2*S-E563 +S/2) / S

"

"

"

LE3

388

"

"

"

0000 0000 0100

0000 0000 0111

0000 0000 010>

0000 0000 >>>>

"

"

"

"

E567

E568

"

"

LE3 = ((E566+E567)/2-4*S-E563 +S/2) / S

"

"

"

LE4

389

"

"

"

0000 0000 1000

0000 0000 1111

0000 0000 100>

0000 000> >>>>

"

"

"

"

E569

E570

"

"

LE4 = ((E568+E569)/2-8*S-E563 +S/2) / S

"

"

"

LE5

390

"

"

"

0000 0001 0000

0000 0001 1111

0000 0001 000>

0000 00>> >>>>

"

"

"

"

E571

E572

"

"

LE5 = ((E570+E571)/2-16*S-E563 +S/2) / S

"

"

"

LE6

391

"

"

"

0000 0010 0000

0000 0011 1111

0000 0010 000>

0000 0>>> >>>>

"

"

"

"

E573

E574

"

"

LE6 = ((E572+E573)/2-32*S-E563 +S/2) / S

"

"

"

LE7

392

"

"

"

0000 0100 0000

0000 0111 1111

0000 0100 000>

0000 >>>> >>>>

"

"

"

"

E575

E576

"

"

LE7 = ((E574+E575)/2-64*S-E563 +S/2) / S

"

"

"

LE8

393

"

"

"

0000 1000 0000

0000 1111 1111

0000 1000 000>

000> >>>> >>>>

"

"

"

"

E577

E578

"

"

LE8 = ((E576+E577)/2-128*S-E563 +S/2) / S

"

"

"

LE9

394

"

"

"

0001 0000 0000

0001 1111 1111

0001 0000 000>

00>> >>>> >>>>

"

"

"

"

E579

E580

"

"

LE9 = ((E578+E579)/2-256*S-E563 +S/2) / S

"

"

"

LE10

395

"

"

"

0010 0000 0000

0010 1111 1111

0010 0000 000>

001> >>>> >>>>

"

"

"

"

E581

E582

"

"

LE10 = ((E580+E581)/2-512*S-E563 +S/2) / S

"

"

"

LE11

396

"

"

"

0011 0000 0000

0011 1111 1111

0011 0000 000>

0>>> >>>> >>>>

"

"

"

"

E583

E584

"

"

LE11 = ((E582+E583)/2-768*S-E563 +S/2) / S

"

"

"