AD364RJD ,Complete 16-Channel,12-Bit Data Acquisition Systemu ANALOG _ Complete IB-Channel, 12-Bit
DEVICES Data Acquisition Systems
AD363/AD364
AD389BD ,HIGH RESOLUTION TRACK-AND-HOLD AMPLIFIERFEATURES
Companion to Hi h Resolution AID Converters
Fast Acquisition Tim 2.5us to :0.003%
L ..
AD389KD ,HIGH RESOLUTION TRACK-AND-HOLD AMPLIFIERapplications,
The fast acquisition time (2dws m 300w) and low aperture
jitter (wops) make it suit ..
AD390JD ,Quad 12-Bit Microprocessor-Compatible D/A ConverterANALOG
DEVICES
AD390KD ,Quad 12-Bit Microprocessor-Compatible D/A Convertercharacteristics (20ppm/''C) and an initial tolerance
of I 0.03% maximum. The internal reference bu ..
AD390SD ,Quad 12-Bit Microprocessor-Compatible D/A Converterspecifications appear in Table 2.
’The AD390 outputs Ire guaranteed stable for load capaciunces ..
AD8571AR ,Zero-Drift, Single-Supply, Rail-to-Rail Input/Output Operational AmplifiersAPPLICATIONSTemperature Sensors8-Lead TSSOP 8-Lead SOICPressure Sensors(RU Suffix) (R Suffix)Precis ..
AD8571AR ,Zero-Drift, Single-Supply, Rail-to-Rail Input/Output Operational AmplifiersCHARACTERISTICSOutput Voltage High V R = 100 kW to GND 2.685 2.697 VOH L–40
AD364RJD
Complete 16-Channel,12-Bit Data Acquisition System
DEVICES
Complete lB-Channel, lMit
Data Acquisition Systems
AD3B3/AD364
FEATURES
18-0lmmel Date Aqu Input Bug. with:
Digitally Ihtettrtttutt Channel tuleetittnlMode Contmi
18 Shgb-Endod or a Dli'hnntiIl Chant)
" kHz Throughput Rate
Gumnhod No Mining Codes Our Tompemun
1mm Data WI! Input Stag. with:
Disinly Comm dunno! tutetitsetNode Control
" Singh-Ended or ' Meant“! Channel:
Io kih minnow Rm
calmed No Missing Coda Ova Temp-tum
Thm-Smo BttfUNd Digital Output
PRODUCT DESCRIPTIONS
The AD363 Ind AD366 In: complete i6.channel dat, acquixi-
dun systems which condition and subsequently convert " Inn-
log voltage into digital form. Each xysu- 00min: of two
devices, In mice input stage (AIS) and In "alta-to-digital
convene: (ADC). The AIS includu I two 8-chInnd multiplex-
m. I chInnd Iddreu mister, I unity Min itistntatetttation Im-
plitiet, and I "tntge4told "splifrr, The multiplexers may be
connected to the instrumentation iunplitier in either In 8.
channel diitetenuul or 16.ctarmel single ended ctmiigumiott. A
unique future of these products is In intcnul use: cancelled
switch which connects the multiplexer: in either sinslmded or
diffetetttMtttode. Thiollomoirtgledrvicetoperforrttirtei.
ther mode with Maria programming and permits interfacing
I mixture of sinxle-cndcd and differential signals by dynamically
switching the input mode control.
The AD363 Ind AD364 differ in ADC performance, Each ADC
is I complete 12-trit mcmive Ippmximtion convene: includ-
ittgattitttrrmidoeeart0predsiots Mum. Acriveluct
trimming mulls in What linearity errors of 30.01296 with
conversion times of 25 M (A0363) or 32 u; (AD364). The hr
brid ADSé3-ADC tas five um selectable input ranges (12.5,
15.0, :10.0, o to +3, Ind 0 to +10 volts) and include: I high
impedance butter "tp1itier. The ADSMADC is I monolithic
mm with 3-mtc output buffer circuitry for direct interface
m In b, w, or 16-bit processor bus Ind three use: selected
input nnxu (tS, tio, and 0 to +10 volts).
Both pmducu Ire spam for operation over both the commer-
cial (tt'C to +70'C) Ind military (-551: to +125'C) temperature
unset. The AD363 Ind AD364 Ir: "nibble with cnvimnmcm
ml taming. Pkuc contact the factory or am sales oitice
for details.
REV. A
Itthtrmatitttt furnish“ by Aruba Davin: it believed to be wrap and
rollIhiI. Howwu, no -telttittty is qumd try Analog Dwicu tor in
nu; nor for my inidnmm of man or other rights of third parties
which my man from in “II. No “cum is granted by implication or
otherwise under Iny pm o: W rights of Analog Device:
FUNCTIONAL BLOCK DIAGRAMS
”VAR“ _-—J
I "o", m m
tan in "rNRqtttt6 mum
Haun- um um
I'lI’VA'W
r' AD)“ AM“
it,. '"dltlff' mm; I
i 10-: m ' _
L = - '" mm .'
uo- - un ,
"-'-"" - I N I
= u u I u- . tum
" v a mo .
4E... I. II I r
L.."" Bae I M
man 4 [ "ttttttt I
MttNt»
u»: II a
I ll l
ultimo m --
L-"J - m“
M "tot mm
Ono‘l'ochnology mr, IO. Box 8108. Norwood. MA 01081-9106. U.S.A.
TN: 617/329-4700 FIX: 017/325-61M wa: 710/394-0577
Tolox: £2401 Cubic: ANALOG NORWOODMASS
. rrvvvv.
fiEBMiEB4-- SPECIFICATIONS ttrNal tit +25%. :15 , m +5 ll m mm. new
PM AD36MK WIS
ANALOGINPUTS
Nimherofhtputs 16Sing%aMedttr8DittuentauitWcttutialtysekctable) .
Input VdnaeR-m
Bipolar ttd v, 35.0 V. :10.0 ll .
Unipolar Olo+5V.0to+10V .
Input (Bias)Cttrmst, per Onnnd :50 nh m: .
tttputhttpednttr
ON Guard ttP' tt,itn pF .
0mm 10'°0.10pP *
ItqntNhCttrteatCtrmr0FFrsroN) J0ttth,tttaz,ltttmat1yuttied .
t1xttttttxrModeReixtiat
DitkmttiaiMtsde 70dBmitio0dB)typ)@tkHz,20Vp+ .
Mtactrmalkthmrdattrsel,
Attt0tTChntrsdtrshttr0NChaanel) -80dBtttsxt-90dBtypikHr,30vp-p I
RESOLUTION 12 Bin '
AtxDttACY
as anu‘ mom m (Adjustable ttt 2cm) t
Unipuk Offset Emu " tttV (Mimnbk to Zero) .
woman t20mvtAdiiaubleto2etts) .
liteaitr Em: =I/2 1.88 am .
th"tHmtislLtsearierEhtx t11SBttiaxCtu2tsBtyp) .
Mam :0.025%FSR .
NtgttEttrV Itttvrrt,0.tHztoiMHz .
Hummus mEFFICIENTS
tkin t30pptal'rhtux(tt0poeafCtnr) xt3grml'Ctmot(tisprxttt'CtyN
0ltset,xi0vRatige tt5prettl'CnurisSprmfCtyp) t8tptsfthttarecsrAtst'Ctrp)
Ditheetttid Lineuity No MissirBCtrdes ther Tm Range '
SIGNAL DYNAMICS
thttmsitat Tnne’ 25 us m (22 pa typ) -
Thrtmhmrttute,FttlHutedA- ZSkHzminOOHhtyp) .
$artq9rantrHtgd
WM 2tDtt'max0$0ttstyp) .
WUWIy SlBpsttttx0tl0pstyp) .
Acqnizidan Time
To 20.0196 of Plan! Value 18 .u Inn (10 p: cm) .
For madam,
Fm -rod8ttux(-80dBtmtirteHt *
onop tute 2 tttVhtts um (t mV/ms typ) .
DnrrALttmrrsmNhu'
1katvettCtmutaadttttADC%titxu
PinZl) tuitiveNhe,200asrninWktttcuadittgtld8e
co" no "i''HUsets Rainer. Trailing Faige
Ct'' w 'W') Sum Convmion .
Input 0mm! Sch: (to Auk);
Input Sudan. Pins 2b-31) "it Binary (21m Addnu '
1tsrrt. Load '
Chanel Select latch (to A3110;
(Input 5m. Pin 32) "l" latch Tnmmx I
"O" Lluhcd *
4 IS TTT, Load: .
Sent-IA' Command (to Anna; .
tttmitSertkxsllin 13 Normally N" SmpleMode .
Connected to ADC "8atus,'' "I" Hold Made *
Pin 20) 2 M TTL Loud: '
$tttsetCt+(ttrADCseetitmPiat4) Ctxtnrsttu+$0trtbBitsResiutiat I
Ctxutetto0tawtitittt+ lfatnBiu
Munich .
$irtde8drdlDiikmttial Mad: Select
(to Auk: hatnt Section. Pin 1) 'W' Single Ended Mate .
"l" Diffmu'xl Mode (+4.0 V min) I
3111. Land: .
REV, A
M363/AD364
Pm A0363!!! AD363RS
DIGITAL 01mm SIGNALS'
(All Coda Poddv: True)
Pmlkl the
Unipdu Code Binuy .
Bipolu Code Gbet Binaryfl'wos Complement *
Output Drive 2 TH. Load: .
Sail Dan (NR2 Fauna!)
Unipolar Code Binary .
Bipolar Code Ofher Bimxy A
Output Drive 2 TTL lands I
Sums (SW Logic "i" (N'') During Convcnbn .
Output Duke 2 m bud: *
hum! Clock
Output Drive 2 m Lads I
mey 500 kHz .
INTERNAL REFERENCE VOLTAGE “0.00 V, :10 mV n
Mu Extend Cm! tl m. *
Volta: Tumult! CtMiciatt Mo pptul'C mu '
POWER REQUIREMENTS
&rtqir 1augesi0rtrena + IS V, Mtg @ m45 mA mu (+38 M lyp) .
-15V, M%@-4$ttthtttaxt-38athtyp) .
"Y,.eSth(iti36ttthmaxHl13ttthtyp) .
TtVmrDissitmtitstt 2Wmumn(l.7 Watts typ) '
mamas RANGE
$tmitkatitxt W to +701: .-55% to +i25T
Slang: -55‘C lo HSO'C -$6'C to +Htt'C
PACKAGE OPTIONS
Analog Input Sonia: (DH-BZE) AD363RKD ADSGSRSD
AD Section (DH-JZC) AD363RKD ADMSRSD
'eithS0t1,Ntisrdredstorir_tkinMitatrot.
'thetveriattttittteMADCsetttm.
'Oncmlmdisdcfmcdull- -l.6rtthttux@vn."0.4v, Xm=40uAmu@ Vm=2.4V. thseisTrLLodisddiaedoh" -0.36mAmn
.1ht.m0Av,tm--20rAettaxtit%r-L7v.
"peeitutitns an: n AD363RX.
'tmitkatiaas whim m dune without notice.
ABSOLUTE MAXIMUM RATINGS (ALL MODEIS)
+V, Digital Supply ....................... +5.5 V
+V, Analog Supply ........ ' ............... +16 V
-v, Analog Supply ..................... . . . -16 V
'la' Signal ..................... stV, Analog Supply
................. 0 to +V, Digital Supply
AGND lo BOND ......................... . tl V
REV. A -3-
”7!. r
A0363/AD384
AD363 HN FUNCTION DESCRIPTION
ANALOG INPUT SECTION ANALOG-TO-DIGITAL CONVERTER SECTION
Pi: Pin
Number Function _rrvVVVqT VeVVV - _.e..tfy.e,1t.tt_r,.tyrti,trtt TTrrT TrTrrr_ _. _
1 $iagleettd/Diirerentid Mode Select 1 Data Bit 12 (Lens: Signiiitautt 1310011:
"O": single-Ended Mode 2 Data Bit 11 thn
“l": Diitetetttial Mode (+4.0 V min) 3 Data Bit 10 Out
l Digital Gmund 4 Dan Iris 9 Out
' Positive Digital Power Supply, +5 ll ' Dan Bit 8 Out
4 "HW' Arum Input, Channel 7 6 Dan Bit 7 Out
, "High" Andes Input, Chanel 6 7 Data Bit 6 Out
6 "Huh'' Analog Input, Channel , ' Data Bit ' Out
, "High" Analog Input, Chmnel 4 , tho Bit 4 Out
' "High" Andes Input. Channel 3 10 Tha Bit ' Out
9 "High" Andes Input, Chanel 2 11 Du: Bit 2 Out
til "High" Analog Inym, Channel 1 12 Du: Bit 1 (Most Significant Bit) Out
11 "High" Analog Input, Channel 0 13 mm (m Out
12 No Connect 14 Short Cycle Control
13 Smyte-Hold Ctttttttuttd Connect to " V for 12 Bits
N'': Sample Mode Connect to Bit (tt + l) Out for n Bits
"i": Hold Mode 15 Digital Gtound
Normally Connected to ADC Pin 20 16 Positive Digial Power Supply, +5 V
14 Offset Adjust 11 FEE Out
I5 Offset Adjust "O".. Conversion in Prraress
16 Anna; Output (Pmuel Dan Not Valid)
Normally Connected to ADC "I''.' Conversion Complete
“Analog 1n" (Pmllel Data Valid)
Analog Ground 18 +10 V Reference Out
"High" Cuw'') Analog Input, Channel 15 (7) 19 Clock tha (Rum During Conversion)
"High" (“Low") Analog Input, Chime] l4 (6) 20 Status Out
Negative Analog Power Supply. - 15 V N'',' Conversion Complete
Positive Analog Power Supply, " V onllel Dan Ialid)
"High" ("Lm") Amie; Input, Channel 13 (5) "l": Conversion in Progress
"High" ("Low”) A9110: Input. Channcl 12 (4) (nmllel Dun Not Valid)
"High'' ("Low") Analog Input, Channel " (3) 21 Convert Start ht
"High" (“Low") Analog Input, Chmnd 10(2) Reset Logic -r-
"High" (''Lm") Analog Input, Channel 9 (1) Start Convert "L
"High" ("Low") Analog Input, Channel 8 (O) 22 Competitor In
Input Channel Select, Adams Bit AE 23 Bipolar Offset
Input Chnnd Select, Address Bit A0 Open for Unipolnr Inputs
Input Onmd Select, Address Bit A1 Comm to ADC Pin 22 for
Input Channel Select, Address Bit A2 Bipolar Inputs
Input Channel Select Latch " 10 V Span R11:
"IP.. wand 25 20 ll Spin R 1n
"i": Lurch "Tnutsperes" 26 Analog Ground
27 Gain Mint!
28 Positive Analog Pow Supply, +15 v
29 Buffer Out (for Emma! Use)
30 Buffet In (for External Use)
31 Negative Analog Power Supply, - 15 V
32 Seth] thu tha
sun Bit Valid on Tailing C-u.)
Edge Clock thm ADC Pin 19
-4- REV. A
SPECIFICATIONS W @ me. t15 v m " v unlm mm mm
M3WIB384
Pm ADM mm ADJHRS ADJMRT Unit:
ANALOG INPUI'S
Numb of Input: 16 Siatleetoded or 0 Ditktetttial tEketrratictlly Selectable)
Input Volta: Range
Tas. no T,.. x10 . . . V
Input (Bin) Gum: pct Chnnd Mo * . . "
Input lam ON Game! 10’°l100 * * . tWF
WT Chanel IDWIO . * ' tttpF
Input Fault Current 20 . * * mA mu
(Pour ON or OFF) (Intcnully
Cmm-Mod: Rziecu'on Limited)
DitkmtstialMaklkHt30Vtrt, 10min(80ryp) ' . * dB
Mag Ctrmalk (Any OFF CHANNEL
to Any ON Channel) t kHz
20 V " -00 ml! (-90 tnt) . . . dB
Other, Quad ttt Channel M . . . tttV mu
thin tttmel " . . . th of FSR
Unipohl' Offs! W tto " . " mV
Binds ttttie, Em: :50 :20 * " mV
mu Em: 0.024 0.011 . " th of PSR mu
1'.- to T.,,. 0.024 0.012 . . th of FSR Inn
Dithmttiel Unun'ly Enur 0.024 0.012 I " th of FSR max
Ts. ttt T,.., 0.024 0.012 . ' th of FSR mu
Notable: ttttVP-tsth/MHS . . tt
TEMPERATURE (DEFFICIBNTS
Olin $4 31 ' " ppm/‘C
olhet ixi0 V W) It 7 . " ppml’C
opeotiaqTempemureRartge tt'Ctrs +70'C I -$S'Cto +12S% m ppmfC
SIGRAL DYNAMICS
Cum Tune 32 Inn (tt lyp) . . . '"
ThrttugtiputRatr,NINmrmry 20min(2hyp) * . I kHz
Smpk-Hold
Am Dehy 200 m: (150 rm) * . . n:
Aperture 0mm Rn m (100 um) * . . ps
hatuisitHt Time
To 0.01% of Fun] Vulue
F02 Ful-Sal: Sup It ml! (10 WP) . . . us
Feedzhmxhnluh -70mu(-mlyp) ' . ' dB
Dmoo Ba: 2 mu (1 typ) * . I ttNlttts
DIGITAL INPUT SIGNALS
Amo’. Input Section
Input Ounce! Select 4 Bit Binary Address . " I
1 LS TTL Load . . .
Chunk) Select Lmh "i" Latch Tum: . . .
“0" um . ' .
4 " TH. Loads . . .
$ireeahdedlDitkmrttul 'tr' Single Ended . . .
Mode Sam N'' Diffmnxid (N ll min) . . .
' TTT, Load: * . .
SW30“ Command 'V' Simple Mode . . '
"I" Hold Mode . . .
l TTh Land I . .
ADC Sectieu' 4.5‘VL<5.5 .
Logic Input ThmUd
T.s. no 1’...
W N" " _ a . I v min
Logic “(r " . . . v m:
Lie law Cum
T.s. to 1'.
mun" zo . tt . M Inn
Lair Nr 20 . ' * " m
REV. A
Pam ADJMIU ADM ADMS ADMRT Univ
DIGITAL OUTPUT SIGNALS
Loci: Outputs 1'. to T...
SittkCttmrttVou, -0.4V L6 ' , . mAmin
mmmvm-uv od . . . mm
Output Lang: When in
Thur Sm: :40 . . ' " mu
0 C li ' '
Uniyolu Nitin Tax: Binary . . .
Bipom Podu’ve Ttue offset
am I I .
POWER REQUIREMENTS
SWVWM +13V,:5%@36mAmx . .
-ISV,:S%@65mAm & * '
+SV,:S%@7SmAmu * * .
PACKAGE OPTIONS
Analog Input Section (DH-SIE) ADSMRID ADSMRKD ADSMRSD AD364RTD
ADC Sm' (0-28) AD364RID _AD364RKD ADWRSD AD364RTD
'%th$0ttmigtnehunREFiNtattEF0tmAdi-toaettr.
'Mkahle m an.
'tME-tbe-tsto-e-ti-ttstruts
Win an: n ADM
"8t.titkstimt' an. a AD3MRE
Wm use a ADJMRS
$redtkatitms whim co chm: without none:
ABSOLUTE MAXIMUM RATINGS (ALL MODELS) ORDERING GUIDE
+v,DigtulSttpply ... ........ ............+5.$V
+V, Andes Supply ..... . .................. f 16 V Tempcnme
-V. Analog Supply ........................ -16 Ir Model Range Package Option*
Iruo 528‘" ..........t.t..q..-. tV, yy.klr Supply A0363RKD rc to tht'C mm}: (Analog Input Section)
VI" Digful ................. 0 to Hi, Digital Supply DH-32C (ADC Section)
AGND ttt DGND .......................... tl It ADMSRSD _ssAc ttt +1251: DH-32E (Analog Input Sectioa)
DH-32C (ADC Section)
AD364RID 0'C to +70‘C DHB2E (Analog Input Section)
Ih28 (ADC Section)
ADWRKD tt'C m +10'C DH-SZE (Analog Input Section)
13-28 (ADC Section)
AD364RSD -55°C to +12$°C DH-32E (Analog Input Section)
D-28 (ADC Section)
ADSMRTD -M'C lo +125‘C DH.32E (Analog Input Section)
IF28 (ADC Section)
q) = Hermetic DIP.
...6- REV, A