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Home ›  AA27 > ADDAC80-CBI-I-ADDAC80-CBI-V-ADDAC80CBI-V-ADDAC80-CCD-V-ADDAC80CCD-V-ADDAC80D-CBI-V-ADDAC80DCBI-V-ADDAC80N-CBI-V-ADDAC85-CBI-I-ADDAC85CBI-I-ADDAC85-CBI-V-ADDAC85CCD-V-ADDAC85D-CBI-V-ADDAC87-CBI-V-ADDAC87D-CBI-V-ADDAC87DCBI-V,COMPLETE LOW COST 12-BIT D/A CONVERTERS
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ADDAC80-CBI-I |ADDAC80CBIIAD ?N/a3avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC80-CBI-V |ADDAC80CBIVBBN/a294avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC80CBI-V |ADDAC80CBIVADIN/a2avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC80-CCD-V |ADDAC80CCDVADN/a4avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC80CCD-V |ADDAC80CCDVADN/a3avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC80D-CBI-V |ADDAC80DCBIVN/a9avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC80DCBI-V |ADDAC80DCBIVN/a1avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC80N-CBI-V |ADDAC80NCBIVADIN/a6avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC85-CBI-I |ADDAC85CBIIADN/a47avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC85CBI-I |ADDAC85CBIIADN/a42avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC85-CBI-V |ADDAC85CBIVADN/a7avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC85CCD-V |ADDAC85CCDVADN/a2avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC85D-CBI-V |ADDAC85DCBIVADN/a5avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC87-CBI-V |ADDAC87CBIVADN/a25avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC87D-CBI-V |ADDAC87DCBIVADN/a25avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS
ADDAC87DCBI-V |ADDAC87DCBIVADN/a3avaiCOMPLETE LOW COST 12-BIT D/A CONVERTERS


ADDAC80-CBI-V ,COMPLETE LOW COST 12-BIT D/A CONVERTERSFEATURES Single Chip Construction On-Board Output Amplifier Low Power Dissipation: 300mW mm” ..
ADDAC80CBI-V ,COMPLETE LOW COST 12-BIT D/A CONVERTERSCHARACTERISTICS ACCURACY Linearity Error Ca, + 25% CBI LS B 1 CCD LS B TA 6? Trninto Tm" LSB ..
ADDAC80-CCD-V ,COMPLETE LOW COST 12-BIT D/A CONVERTERSCHARACTERISTICS ACCURACY Linearity Error Ca, + 25% CBI LS B 1 CCD LS B TA 6? Trninto Tm" LSB ..
ADDAC80CCD-V ,COMPLETE LOW COST 12-BIT D/A CONVERTERSapplications where reliability and cost are of paramount importance. Advanced circuit design an ..
ADDAC80D-CBI-V ,COMPLETE LOW COST 12-BIT D/A CONVERTERSSpecifications shown in boldfm: are tested on til production units at final clcclri- 53:: tml." 1v ..
ADDAC80DCBI-V ,COMPLETE LOW COST 12-BIT D/A CONVERTERSFEATURES Single Chip Construction On-Board Output Amplifier Low Power Dissipation: 300mW mm” ..
ADV7305AKST ,14-bit 108MHz Video Encoder with NSV™SPECIFICATIONS(V = V = 2.375 V–2.625 V, V = 2.375 V–3.600 V, V = 1.235 V, R = 1520 , R = 150 , T ..
ADV7310KST ,12-bit 216MHz Video Encoder with NSV™ and Macrovision® Copy ProtectionCHARACTERISTICS . . . . . . . . . . . . . . . . . . 14 Block Size Control . . . . . . . . . . . . . ..
ADV7311KST ,12-bit 216MHz Video Encoder with NSV™GENERAL DESCRIPTION®Programmable DAC Gain ControlThe ADV 7310/ADV7311 is a high speed, digital-to-a ..
ADV7312KST ,Multiformat 11-Bit HDTV Video EncoderCHARACTERISTICS . . . . . . . . . . . . . . . . . . 14 Block Size Control . . . . . . . . . . . . . ..
ADV7314KST ,Multiformat 216 MHz Video Encoder with Six NSV™ 14-Bit DACsSPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . 6 DNR Threshold . . . . . . . . . . . ..
ADV7320KSTZ ,12-bit 216MHz Video Encoder with NSV and Macrovision® Copy ProtectionGENERAL DESCRIPTION S-video (Y/C) The ADV®7320/ADV7321 are high speed, digital-to-analog EuroScart ..


ADDAC80-CBI-I-ADDAC80-CBI-V-ADDAC80CBI-V-ADDAC80-CCD-V-ADDAC80CCD-V-ADDAC80D-CBI-V-ADDAC80DCBI-V-ADDAC80N-CBI-V-ADDAC85-CBI-I-ADDAC85CBI-I-ADDAC85-CBI-V-ADDAC85CCD-V-ADDAC85D-CBI-V-ADDAC87-CBI-V-ADDAC87D-CBI-V-ADDAC87DCBI-V
COMPLETE LOW COST 12-BIT D/A CONVERTERS
— rw-fi‘
Dy ANALOG
DEVICES
Complete Low Cost 12-Bit
MI Converters
All Mila/Ill] DACB5/AD DACB
FEATURES
Single Chip Construction
On-Board Output Amplifier
Low Power Dissipation: 300mW
Monotonicity Guaranteed over Temperature
Guaranteed for Operation with :12V Supplies
Improved Replacement for Standard DAC80, DAC800
Hl-5680
High Stability, High Current Output
Buried Zener Reference
Laser Trimmed to High Accuracy:
A 1/2LSB max Nonlinearity
Low Cost Plastic Packaging
PRODUCT DESCRIPTION
The AD DAC80 Series is a family of low cost Ibbit digital-to-ana-
log converters with both a high stability voltage reference and
output amplifier combined on a single monolithic chip. The AD
DAC80 Series is recommended for all low cost 12-bit D/A converter
applications where reliability and cost are of paramount
importance.
Advanced circuit design and precision processing techniques
result in significant performance advantages over conventional
DAC80 devices. Innovative circuit design reduces the total
power consumption to 300mW which not only improves reliability
but also improves long term stability.
The AD DAC80 incorporates a fully differential, non-saturating
precision current switching cell structure which provides greatly
increased immunity to supply voltage variation. This same struc-
ture also reduces noniinearities due to thermal transients as the
various bits are switched; nearly all critical components operate
at constant power dissipation. High stability, SiCr thin film
resistors are trimmed with a fine resolution laser, resulting in
lower differential nonlinearity errors. A low noise, high stability,
subsurface Zener diode is used to produce a reference voltage
with excellent long term stability, high external current capability
and temperature drift characteristics which challenge the best
discrete Zener references.
The AD DAC80 Series is available in three performance grades
and two package types. The AD DAC80 is specified for use
over the 0 to + 70°C temperature range and is available in
both plastic and ceramic DIP packages. The AD DAC85 and
AD DAC87 are available in hermetically sealed ceramic packages
and are specified for the - 25°C to + 85°C and - 55°C to + 125°C
temperature ranges.
REV. A
Information furnished by Analog Devices is believed to be accurate and
reliable. However, no responsibility is assumed by Analog Devices for its
use, nor for any infringements of patents or other rights of third parties
which may result from its use. No license is granted by implication or
otherwise under any patent or patent rights of Analog Devices.
F UNCTIONAL BLOCK DIAGRAMS
Wash mu E .61 E] Aer. cm msau am c%--a-r,..-rijazs, m... mu
Blr E ' mm“ El m u mm. Bttp l = comm " GAIN mm
- CIRCUIT cmcun
W7! [r- El rv, BI'J J E] 'Vs
- . HIV l ' " CMMON
an ' E sc) comm" I n-aIT s-ED
- "(SISYON -
sl' s cc- 126IT m suMMmGJUNch 9'” Cs]- uneu 2n sumo Ntvwonx
nmswn l , NETWORK n
LADntn ski. sun 3". AND " , anunl
9W6 E" NF'WDRK '13 20V RANGE H CURRENT 9 SCALING
cut/ll'," swncnts , sill
_ W 7 - l TWORK
an 1 EH swnruts " luv nuns C} sun " SCALING Nf
an I Ei- l anmmn OFFSET " a El- i 17 awoun onsél
s m: . am!
an , Ei- " war mvuv an s Ei- Is an man
w " E- IS vat. w w w - tb id,
m n E = El .v. m n E a .VI
155- an n Ea)-'" " tIC .v.- \Ism s" u E I3 MCI w.-
_ AD nncan
'NC - cm VERSIONS 'rtC Cal VEISIONS
_ SV CAN V9150" V 5V - WU VENS‘ONS
PRODUCT HIGHLIGHTS
1. The AD DAC80 series of D/A converters directly replaces all
other devices of this type with significant increases in
performance.
2. Single chip construction and low power consumption provides
the optimum choice for applications where low cost and high
reliability are major considerations.
3. The high speed output amplifier has been designed to settle
within 1/2LSB for a 10V full scale transition in Lows, when
properly compensated.
4. The precision buried Zener reference can supply up to 2.5mA
for use elsewhere in the application.
5. The low TC binary ladder guarantees that all units are
monotonic over the specified temperature range.
6. System performance upgrading is possible without redesign.
PRODUCT OFFERING
Analog Devices has developed a number of technologies to
support products within the data acquisition market. In serving
the market new products are implemented with the technology
best suited to the application. The DAC80 series of products
was first implemented in hybrid form and now it is available in
a single monolithic chip. We will provide both the hybrid and
monolithic versions of the family so that in existing designs
changes to documentation or product qualification will not have
to be done. Specifications and ordering information for both
versions are delineated in this data sheet.
One Technology Way, PO. Box 9106, Norwood, MA 02062-9106. U.S.A.
Tel: 617/329-4700 Fax: 617/328-8703 wa: 710/394-6577
Telex: 924491 Cable: ANALOG NORWOODMASS
M DACBD/AD DADB5/AD 1lylt87-$PEtyFltyillWI
(T, = +25%}. rated power
supplies unless otherwise noted.)
Model AD DACBU AD DACSS AD DAC87
Min Typ Mu Min Typ Mn Min Typ Max Units
TECHNOLOGY Monolithic Monolithic Monolithic
DIGITAL INPUT
Binary - CBI 12 12 12 Bits
BCD -CCD - - - Digits
Logic uvels(TTL Compatible)
Vm(Logic“l") +2.0 +5.5 +2.0 +5.5 +2.0 +5.5 v
V".(Logic "O") 0 +0.8 tr +0.8 It +0.8 V
1m (VIN = 5.5V) 25!) 250 250 "
1tc(Vu, = 0.8V) 100 100 100 um
TRANSFER CHARACTERISTICS
ACCURACY
Linearity Error Ca f 25'C
CBI sU2 = 1/2 ' 117 LSB'
CCD LSB
TA (ri Tmin ta rm., 21/4 & U2 ' 1/4 x 1/2 ' 1/2 1 3/4 LSB
Diiferem1al Linem'w Error@ + 25T
CBI & l" t 3/4 t 3/4 LSB
CCD LSB
Ts Cd T.,,,, to Tim: 23/4 tl t t LSB
Gain Em)!" t0.1 t0.3 :04 to. eil.1 A0.2 %FSR'
otisetError2 2005 $0.15 10.05 :0.1 :005 10.1 %FSR3
Temperature Range for Guaranteed
Mtmotonicity 0 4 70 - 25 + 85 - 55 + 125 'C
DRIFT (T.,,, m Tm")
Tom Bipolu Drift, max (includes gain,
offset. Ind linearity drifts) - 20 - 20 ' 30 ppm ofFSR/t.
Toul Errata,“ to Tm)‘
Unipollr 30.08 --0.15 :0.12 t0.2 20.18 :03 %ofFSR
Bipolar :0.06 20.10 20.08 20.12 :0.” t0.24 %ofFSR
Includingrnterrul Reference x15 :30 1:20 t20 pprnofFSW'C
Excluding Internal Reference t 4 , 7 :10 2 10 ppm ofFSRPC
Unipolu Offset :1 t3 tl t3 ppm ofFSRT
Bipolar Offset ' 5 2 ID :10 t 10 ppm of FSR/NC
CONVERSION SPEED
Voltage Model(V)’
Settling Time to z 0.01% ofFSR for
FSR changei2kfWMPF load)
with I0kOFeedback , 4 , 4 3 4 us
with 5knFeeriback 2 3 2 3 2 3 115
For LSB Change 1 1 I us
Slew Rare to 10 10 Van
ANALOG OUTPUT
Voltage Models
Ranges-CBI s23, 25,210, =Z.S,:5.:10, 22.5, s5, tlt), V
+s,+10 +S,+10 +5,+10
-CCD V
Output Current :5 - 5 , 5 mA
Output Impedancc (dc) 0.05 0.05 0.05 n
Short Circuit Current 40 40 40 mA
Internal Referenc: Voltagewx) +6.23 f 6.3 +6.37 +6.23 +6.3 +6.37 +6.23 f 6.3 +6.37 V
Outpullmpednnct 1.5 1.5 1.5 tt
Mn EzternaiCurreru' +2.5 +2.5 +2.5 mA
TemptoofDrift - 10 ur-gil ur-IO :20 :11] ppmoanPC
POWER SUPPLY SENSITIVITY
It 15V ' 10%, w supply when applicable 20.002 & 0.001 A 0.002 % of FSRP/nVs
, 12V t 5% :0.002 , 0.002 t 0.002 % afFSRP/nvs
POWER SUPPLY REQUIREMENTS
Raredvaitagrs *15 +15 f 15 v
AnalogSupplics 211.47 116.5 211.47 216.5 :1147 :16.5 V
Logic Supplkl V
Supply Drain
f 12, +15V 5 10 5 10 S M) mA
- 12, >1SV 14 20 14 20 14 " mA
TEMPERATURE RANGE
Spedrtcuion 0 + 70 - 25 + $5 - 55 + 125 'C
Operating -25 +85 -ss +125 -55 +125 'C
Storage -25 +125 -65 +150 -65 + ISO 'C
NOTES 'h minimum of t 12.3v is reiwiied for . =10V full scale output and
teast SitrruTicsat Bit,
'Adiustable lo um with external trim potentiometer,
'FSR mun: "Full Sale Range" Ind il 20V for the 2 10V tinge and 10V for [he 2 w Range.
‘Gnin and offset emu: miumd lo mm u ' 2PC.
’CFIO, see Figure lt.
'Maximum with no degradation of specification, must be I comm! load.
211.4V is required for :11 other voltage ranges.
Specir1iatitm' subiect to change without notice.
Specifications shawn in boldfm: Ire tested on 1llproduction ttnits " fun] electri-
cal test. Results hum those tests In used to calculate outgoing qullity levels. All
min Ind mu specifkations Ire gunmeed. although only those shown in
boldface Ire tested on MI production unin.
REV. A
All DACBU/AD DA085/AD DACB7
Model AD DACSO AD DAGBSC AD DACSS
Min Typ Max Min Trp Max Min Typ Max Units
TECHNOLOGY Hybrid Hybrid Hybrid
DIGITAL INPUT
Binary-Cm 12 12 12 Bits
BCD-CCD , , 3 Digits
Logic Levels (TTL Compalible)
VrHItttic"1") +2.0 4 5.5 +2.0 15.5 " 2.0 , " V
V.L(Logic"0") 0 +0.8 0 " 0.8 0 +0.8 V
111107111 = 5.5V) " 250 - 250 4 250 "
11L(V1L = 03V) -100 -100 ' 100 “A
TRANSFER CHARACTERISTICS
ACCURACY
Linearity Error 6: + Irc
CB1 :1/4 t 1/2 - 1/2 21/2 LSB'
CCD t US 11/4 21/4 *1“ L33
TA (II Tu, 112T", xll4 , 1/2 :1“ ' 1/2 xll2 T. 1/2 LSB
Diiferentul Linurity Error (it + 25'C
CBI 2 1/2 ur 314 2 V2 2 1/2 LSB
CCD 21/4 r, 1/2 :1/2 : Vt LSB
T1101 7..“on :1 el tl LSB
tuintirmr2 :01 :03 :01 :0.1 %FSR’
ottsetErrrv' :0.05 :0.15 10.05 :0.05 %st’
Tunperllure Ring: for Gulnmeed
Monotonicity 0 + 70 0 + 70 - 25 + $5 'C
D121Frrr...1o T...)
Toul Bipolar Drift, mu (includes gain,
offmand linearitydrifts) : 20 ppm ofFSR/%
Total titmr (T ".5. 10 Tux)‘
Unipolar :0.08 to. 15 % ofFSR
Bipolu 20.06 $0.10 %ofFSR
Including tutenul Reference S " t 30 - 20 20 ppm ofFSRPC
Excluding lnlemnl Reference 2 5 tc 7 10 to ppm ofFSRPC
Unipolur Oifset 1 s 3 ' 1 t 1 ppm of F5100
Bipolar Dtiset 5 x10 - 10 - 10 ppm anSRPC
CONVERSION SPEED
Voltage Model W)’
Sewing Time to t 0.01%01FSR for
FSR change (2hth'l5NpFkrad)
with 10knFeedback 5 S 5 us
with Schcdblck 3 3 , us
ForLSBChange 1.5 1.5 1.5 ps
Slew Rare 10 15 20 20 Il/ws
Current Model (I)
SettlingTime lo , th01%ofFSR
forFSRCurtge 1010100n Lead 300 300 300 ns
for IUt Load 1 I 1 us
ANALOG OUTPUT
Voltage Models
Ranges-CBI t2.5,s5,rt10, x2.5,t5,x10, a2.5,aS,t10, V
+S,+10 *S,+10 1S,+10
- CCD z 10 f 10 + 10 V
Output Current t 5 t 5 t 5 mA
Outputlrnredance(dc) 0.05 0.05 0.05 n
Short Circuit Duration Indefinite to Common Ir1definito 11) Common ltderinire 10 Common
Current Models
Rangts-Unipolnr -2.0 -2.0 -2.0 md
-Bipolar 21.0 :10 :1.0 mA
Output Impcdzm- Bipolar 3.2 3.2 3.2 m
vUnipolnr 6.6 6.6 6.6 m
Compliant: -l.5, +10 -2 5, +10 -2.5, ' 10 V
IrttertulRefermtcevoltage(VR) +6.17 +6.3 +6.43 +6.17 +6.3 +6.43 1 6.17 +6.3 +6.43 V
Oulpullmpednnce LS 1.5 1.5 n
MaxErternatcurrents +2.5 +2.5 f 2.5 mA
Tempco ofDrift ' 10 I 20 t 10 , 20 2 10 t 20 ppm ofVR/“C
POWER SUPPLY SENSITIVITY
, 15V 2 10%, w supply when spplicaMe , 0.002 S 0.002 t0.002 % of FUU%vs
POWER SUPPLY REQUIREMENTS
RatedVoltages 215,5 :15,5 115,5 V
hmltagSupplies :14 tl6 =14.s =1s.5 tl4.5 215.5 v
LNicsupplies +4.5 + 16 +4.5 +155 +4.5 +1s.5 v
Supply Drain7
' IW lit 20 15 20 15 20 mA
- IW 20 35 25 30 25 30 mA
+ w' a 20 15 20 15 20 mA
TEMPERATURE RANGE
strdfication 0 + 70 0 + 10 - 25 + 85 'C
Operating -25 +85 -25 4 85 -55 +125 T
Storage -55 +130 -65 +150 -65 +150 T
'1as1 "nificant Bit.
'hdiusabk to um with menu] trim poceeuiamerer.
IFSR mans "Full Sal: Range“ m1 is 20v for the t 1ov mg: m 10V for the tW unge.
lad, od offset errors adiusted to m " + 25XC,
REV. A
'cr-tr, see Figure 1..
'Maximum with no degradation of si=iricuitsn, must be I consum load.
71nduding SmA load.
' + SV supply required only fur CCD versions.
specific)" subject to change without notice.
M DACBO/AD llyi085/ll0 Iylt87-SPEtyFltymthl
tr, = +25%, rated power
supplies unless otharwise noted.)
Model AD DACMLD AD DACSSMIL AD DA087
_ Min Typ Max Min Typ Max Min Typ Max Units
TECHNOLOGY Hybrid Hybrid Hybrid
DIGITAL INPUT
Binary-CBI 12 12 12 Bits
BCD -OCD - - - Digits
Logic Levels(TTL Compalible)
Vm(Logic"r") +2.0 *55 +2.0 +5.5 +2.0 +5.5 V
Vn.(Logic"0'') 0 +0.3 il +0.8 0 +0.8 V
lm (Vm = 5.5V) t 250 + 250 + 250 "
lrvGhr =MV) - 100 100 -l00 "
TRANSFER CHARACTERISTICS
ACCURACY
Linurily Error tit + 25'C
CBI 21/2 tll2 :1/4 2112 LSB'
CCD - - - LSB
TA Crt Tm... 101'". 21/2 2 3/4 2 3/4 LSB
Differettud Linem'ty Error Ctr + 25'C
CBI 21/2 21/2 21/2 LSB
CCD LSB
TACa T.nmnTm. 2! tl xl LSB
Gain Error' 20.1 ' 20.1 20.2 %FSR'
Offset Error' 20.05 I 20.05 20.1 "FSR'
Temperature Range for Gummccd
Monotonicity - " + 85 - 55 , 125 - 55 - 125 x:
DR1n(TunlD Tm)
Tom! Bipolar Drift, mu(inc1udcs gain,
oihet,end lineuily drifts) - - 2 15 2 M) ppm ofFSKPC
Total Error (T u to Tm)‘
Unipolar - - 20.1] 20.30 VoufFSR
Bipolar - - 2 0.12 2 0.24 % ofFSR
Including Intertul Reference f 10 - 20 - 10 25 ppm of FSR/TD
Excluding lmemnl Reference t S 2 10 ppm ofFSMC
Unipolu Oitset 2 1 2 2 tl 2 3 ppm ofFSRfC
Bipolar Offset 25 210 - 5 ~10 ppm of FSR/NC
CONVERSION SPEED
Voltage Model (V)'
Settling Time to 2 0.01%01'FSR for
FSRchange(2knlWX)pF1oad)
with 10knFeedlmck S S 5 us
with 5knFeedback 3 3 3 p5
ForLSBChange 1.5 1.5 1.5 ps
Slew Rare 20 20 20 Was
Current Model (I)
Settling Time to 2 0.01%ofFSR
for FSR Change 10 19 100fl Load 300 300 300 ns
fur lkn Load I 1 1 us
ANALOG OUTPUT
Voltage Models
Ranges-CBI 22.5,:5,210, :Z.5,25,210, 22.5,25,210, V
+S,+10 -5,+10 +5,o10
-CCD V
outinnCurrent 25 25 25 mA
Output Imrxdance(dc) 0.05 0.05 $.05 n
Short Circuit Duration Indefinite mCommnn Indefinite loCommon Irtder1nite to Common
Current Models
Ranges-tJaipur -2.0 -2.0 -2.0 mA
-Bipolnr 21.0 21.0 21.0 mA
outputirreiance-Bipolar 3.2 3.2 2.5 3.2 4.1 m
-tJnipolar 6.6 6.6 5.0 6.6 8.2 kn
Compliance -2.S, +10 - 2.5, 1 10 -1.S, +10 V
IntemalRefereucevoluge(W) +6.17 +6.3 +6.43 +6.17 +6.3 +6.43 +6.17 +6.3 4 6.63 V
ourputlmimiance 1.5 1.5 1.5 n
MuEzterniCurrend +2.5 +2.5 +2.5 mA
TernpcoofDrifr 2 10 20 10 20 :2 5 10 ppm ofVR/“C
POWER SUPPLY SENSITIVITY
215V -ct0%,8vsupplywher..pplicable 20.002 20.002 20.002 20.003 %anSR/%Vs
POWER SUPPLY REQUIREMENTS
RatedVolugcs 215,5 215,5 =15,5 V
Range .
Anxltrgsupplies 214.5 215.5 214.5 :15.5 213.5 216.5 V
LogicSupplies +4.5 4 15.5 +4.5 +155 +4.5 +165 V
Supply Dminr
4 tW IS 20 15 20 10 20 mA
- IW 25 30 25 30 20 35 mA
+ w' 15 20 15 20 10 20 mA
TEMPERATURE RANGE
Specification - " + " - SS + 125 - 55 + 125 'C
Opening -55 +125 -55 +125 -55 +125 “C
Storage -55 +125 -St + 120 -65 f 150 'C
2.east signirtcxnt Bil.
zAalinsublc to zero with external trim potentiometer.
'FSR mun: "Full Scale Range'' and is 20V for the 2 10V nnge md 10V for the t 5V range.
'Gain and offset errors ndiusted (o um at + 25°C.
'cr-a, ace Figure la.
'Maximum with no degruiation of srssrxetion, mun be I column! load,
'including hnA load.
' + 5V supply required only for CCD versions.
Srmcirwations subject to change without notice.
REV. A
AD Mil8ll/h0 DAC85/AD DACB7
ABSOLUTE MAXIMUM RATINGS
+Vs to Power Ground
- Vs to Power Ground
Digital Inputs (Pins 1 to 12) to Power Ground . . .
(MS!) BIT 1 I Q El Wrr OUT
urn E 7 COSTEROL " GAIN ADJUST
CIRCUUT
" a E4 E] +vs
urn Ei- .F" 21 COMMON
Brrs E RESISTOR
LADDER
BITG Ed NETWORK
CURRENT
ttrr , E- swncuts
ttirsE-
II'T’ E-
IITID 10 -
12qtlT
an’ n E-l
ILSBI arr u E
El SUMWNG JUNCTION
w El 20V RANGE
E] MN RANGE
Til BIPOLAR OFFSEY
E REF INPUT
AD DACM
'NC - CBI VERSIONS
f sv - CCD VERSIONS
.............. 0V to + 18V
.............. 0V to - 18V
-1.0V to
Voltage Model Functional Diagram and Pin Configuration
Ref In to Reference Ground ............... 2 12V
Bipolar Offset to Reference Ground ........... 1 12V
10V Span R to Reference Ground ............ t 12V
20V Span R to Reference Ground ............ i 24V
Ref Out ....... Indefinite short to power ground or + Vs
(M53) " t E . El bher our
an 2 E--, = c5555 -Eil GAIN ADJUST
3113 E- J E] +V.
" 4 E- 124MT DE COMMON
an- 5 E... 1Ei'i,F,1,,'i', fe,, El SCALING NETWORK
an a E]- o,tgh, . V El SCAUNO NETWORK
B" 7 Ei- SWITCHES ", "kit El SCAUNG NETWORK
" 8 E- “3:” El BIPOLAR OFFSET
BIT! EF El REF INPUT
BIT " E- El tour
" " E-] " -Vs
[LSB) BIT " " " NC/ OVL'
'NC - cm VERSIONS
+5V - COD VERSIONS
Current Model Functional Diagram and Pin Configuration
ORDERING GUIDE
Input Output Temperature Linearity Package
Model Code Mode Technology Range Error Option'
AD DAC8ON-CBI-V Binary Voltage Monolithic 0 to + 70°C t 1/2LSB N-24
AD DAC8OD-CBI-V Binary Voltage Monolithic 0 to + 70°C , 1/2LSB D-24
AD DAC85D-CBI-V Binary Voltage Monolithic - 25°C to + 85°C * 1/2LSB D-24
AD DAC87D-CBI-V Binary Voltage Monolithic - 55°C to + 125°C , 1/2LSB D-24
AD DAC80-CBl-V Binary Voltage Hybrid 0 to + 70°C i 1/2LSB DH-24A
AD DAC80-CBI-1 Binary Current Hybrid 0 to + 70°C , 1/2LSB DH-24A
AD DAC80-CCD-V Binary Coded Decimal Voltage Hybrid 0 to + 70°C t 1/4LSB DH-24A
AD DAC80-CCD-1 Binary Coded Decimal Current Hybrid 0 to + 70°C t 1/4LSB DH-24A
AD DAC80Z-CBI-V** Binary Voltage Hybrid 0 to + 70°C t 1/2LSB DH-24A
AD DAc80Z-CB1-P* Binary Current Hybrid 0 to + 70°C i 1/2LSB DH-24A
AD DAC80Z-ccD-V** Binary Coded Decimal Voltage Hybrid 0 to + 70°C t 1/4LSB DH-24A
AD DAc80Z-CCD-P* Binary Coded Decimal Current Hybrid 0 to + 70°C : 1/4LSB DH-24A
AD DAC85C-CBI-V Binary Voltage Hybrid 0 to + 70°C t 1/2LSB DH-24A
AD DAC85C-CBI-I Binary Current Hybrid 0 to + 70°C t 1/2LSB DH-MA
AD DAC85-CBI-V Binary Voltage Hybrid - 25°C to + 85°C t 1/2LSB DH-24A
AD DAC85-CBI-I Binary Current Hybrid - 25°C to + 85°C : l/2LSB DH-24A
AD DAC85LD-CBI-V Binary Voltage Hybrid - 25°C to + 85°C It: 1/2LSB DH-24A
AD DAC85LD-CBI-I Binary Current Hybrid - 25°C to + 85°C , l/2LSB DH-24A
AD DAC85MIL-CBbV Binary Voltage Hybrid - 55°C to + 125°C t 1/2LSB DH-24A
AD DACBSMIL-CBl-I Binary Current Hybrid - 55°C to + 125°C * 1/2LSB DH-24A
AD DAC85C-CCD-V Binary Coded Decimal Voltage Hybrid 0 to + 70°C , l/4LSB DH-24A
AD DAC85C-CCD-I Binary Coded Decimal Current Hybrid 0 to + 70°C t l/4LSB DH-24A
AD DAC85-CCD-V Binary Coded Decimal Voltage Hybrid - 25°C to + 85°C , l/4LSB DH-24A
AD DAC85-cCD-1 Binary Coded Decimal Current Hybrid - 25°C to + 85°C t 1/4LSB DH-24A
AD DAC87-CBI-V Binary Voltage Hybrid - 55°C to + 125°C t l/2LSB DH-24A
AD DAC87-CBl-I Binary Current Hybrid - 55°C to + 125°C i 1/2LSB DH-24A
*For outline information see Package Information section.
"Z-Suffix devices guarantee performance of 0 to + 5V and 1 5V spans with minimum supply voltages of 111.4V.
REV. A
ic,good price


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