ADDAC80/ADDAC85/ADDAC87
ORDERING GUIDE
Output
Input
Code
Temperature
Range
Linearity
Error
Package
Option1
Model
Mode
Technology
ADDAC80N-CBI-V
ADDAC80D-CBI-V
Binary
Binary
Voltage
Voltage
Monolithic
Monolithic
0°C to 70°C
0°C to 70°C
1/2 LSB
1/2 LSB
N-24A
D-24
ADDAC85D-CBI-V
ADDAC87D-CBI-V
Binary
Binary
Voltage
Voltage
Monolithic
Monolithic
–25°C to +85°C
–55°Cto +125°C
1/2 LSB
1/2 LSB
D-24
D-24
ADDAC80-CBI-V
ADDAC80-CBI-I
Binary
Binary
Binary Coded Decimal
Binary Coded Decimal
Binary
Binary
Binary Coded Decimal
Binary Coded Decimal
Voltage
Current
Voltage
Current
Voltage
Current
Voltage
Current
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
0°C to 70°C
0°C to 70°C
0°C to 70°C
0°C to 70°C
0°C to 70°C
0°C to 70°C
0°C to 70°C
0°C to 70°C
1/2 LSB
1/2 LSB
1/4 LSB
1/4 LSB
1/2 LSB
1/2 LSB
1/4 LSB
1/4 LSB
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
ADDAC80-CCD-V
ADDAC80-CCD-I
ADDAC80Z-CBI-V2
ADDAC80Z-CBI-I2
ADDAC80Z-CCD-V2
ADDAC80Z-CCD-I2
ADDAC85C-CBI-V3
ADDAC85C-CBI-I
ADDAC85-CBI-V3
ADDAC85-CBI-I3
Binary
Binary
Binary
Binary
Binary
Binary
Voltage
Current
Voltage
Current
Voltage
Current
Voltage
Current
Voltage
Current
Voltage
Current
Current
Voltage
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
Hybrid
0°C to 70°C
1/2 LSB
1/2 LSB
1/2 LSB
1/2 LSB
1/2 LSB
1/2 LSB
1/2 LSB
1/2 LSB
1/4 LSB
1/4 LSB
1/4 LSB
1/4 LSB
1/2 LSB
1/2 LSB
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
DH-24A
0°C to 70°C
–25°C to +85°C
–25°C to +85°C
–25°C to +85°C
–25°C to +85°C
–55°C to +125°C
–55°C to +125°C
0°C to 70°C
ADDAC85LD-CBI-V3
ADDAC85LD-CBI-I3
ADDAC85MIL-CBI-V3 Binary
ADDAC85MIL-CBI-I3
ADDAC85C-CCD-V3
ADDAC85C-CCD-I3
ADDAC85-CCD-V3
ADDAC85-CCD-I3
ADDAC85MILCBII8
ADDAC85MILCBIV8
Binary
Binary Coded Decimal
Binary Coded Decimal
Binary Coded Decimal
Binary Coded Decimal
Binary
0°C to 70°C
–25°C to +85°C
–25°C to +85°C
–55°C to +125°C
–55°C to +125°C
Binary
ADDAC87-CBI-V3
ADDAC87-CBI-I3
ADDAC87-CBII883
ADDAC87-CBIV883
Binary
Binary
Binary
Binary
Voltage
Current
Current
Voltage
Hybrid
Hybrid
Hybrid
Hybrid
–55°C to +125°C
–55°C to +125°C
–55°C to +125°C
–55°C to +125°C
1/2 LSB
1/2 LSB
1/2 LSB
1/2 LSB
DH-24A
DH-24A
DH-24A
DH-24A
NOTES
1For outline information see Package Information section.
2Z-Suffix devices guarantee performance of 0 V to +5 V and 5 V spans with minimum supply voltages of 11.4 V.
3These models have been discontinued. This is for historical information only.
PRODUCT OFFERING
Table I. Digital Input Codes
Analog Input
COB
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 mono-
lithic 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.
Digital Input
CSB
CTC*
Compl.
Two’s
Compl.
Straight
Binary
Compl.
Offset
Binary
MSB
LSB
Compl.
000000000000 +Full-Scale
+Full-Scale
–1 LSB
011111111111 +1/2 Full-Scale Zero
–Full-Scale
+Full-Scale
Zero
100000000000 Midscale
111111111111 Zero
–1 LSB
–Full-Scale
*Invert the MSB of the COB code with an external inverter to obtain CTC code.
DIGITAL INPUT CODES
The ADDAC80 Series accepts complementary digital input
code in binary (CBI) format. The CBI model may be connected
by the user for anyone of three complementary codes: CSB,
COB or CTC.
REV. B
–7–
ADI [ ADI ]
