Datasheet AD8290 (Analog Devices) - 8

ManufacturerAnalog Devices
DescriptionG = 50, CMOS Sensor Amplifier with Current Excitation
Pages / Page20 / 8 — AD8290. UNI. 1.296 1.297 1.298 1.299 1.300 1.301 1.302 1.303 1.304 1.305
RevisionB
File Format / SizePDF / 543 Kb
Document LanguageEnglish

AD8290. UNI. 1.296 1.297 1.298 1.299 1.300 1.301 1.302 1.303 1.304 1.305

AD8290 UNI 1.296 1.297 1.298 1.299 1.300 1.301 1.302 1.303 1.304 1.305

Model Line for this Datasheet

Text Version of Document

AD8290 25 25 20 20 ) 15 ) 15 % % ( ( S S T T UNI 10 UNI 10 5 5
9
0 0
12
1.296 1.297 1.298 1.299 1.300 1.301 1.302 1.303 1.304 1.305
00
–0.60 –0.56 –0.52 –0.48 –0.44 –0.40 –0.36 –0.32 –0.28
0 5- 5- 74 74 06
EXCITATION CURRENT (mA)
06
GAIN ERROR (%)
Figure 9. Output Excitation Current for 692 Ω RSET at 2.6 V Supply Figure 12. Percent Gain Error at 2.6 V Supply
25 25 20 20 ) 15 ) 15 % % ( ( S S T T UNI 10 UNI 10 5 5
0
0
3
0 1.296 1.297 1.298 1.299 1.300 1.301 1.302 1.303 1.304 1.305
01
–0.60 –0.56 –0.52 –0.48 –0.44 –0.40 –0.36 –0.32 –0.28
01 5- 5- 74 74 06
EXCITATION CURRENT (mA)
06
GAIN ERROR (%)
Figure 10. Output Excitation Current for 692 Ω RSET at 3.6 V Supply Figure 13. Percent Gain Error at 3.6 V Supply
25 25 20 20 ) 15 ) 15 % ( % ( S T S IT UNI 10 UN 10 5 5
1
0
4
0 1.296 1.297 1.298 1.299 1.300 1.301 1.302 1.303 1.304 1.305
01
–0.60 –0.56 –0.52 –0.48 –0.44 –0.40 –0.36 –0.32 –0.28
01 5- 45- 74 67 0
EXCITATION CURRENT (mA)
06
GAIN ERROR (%)
Figure 11. Output Excitation Current for 692 Ω RSET at 5.0 V Supply Figure 14. Percent Gain Error at 5.0 V Supply Rev. B | Page 8 of 20 Document Outline FEATURES APPLICATIONS GENERAL DESCRIPTION FUNCTIONAL BLOCK DIAGRAM TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS THERMAL RESISTANCE ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS THEORY OF OPERATION AMPLIFIER HIGH POWER SUPPLY REJECTION (PSR) AND COMMON-MODE REJECTION (CMR) 1/f NOISE CORRECTION CURRENT SOURCE APPLICATIONS INFORMATION TYPICAL CONNECTIONS CURRENT EXCITATION ENABLE/DISABLE FUNCTION OUTPUT FILTERING CLOCK FEEDTHROUGH MAXIMIZING PERFORMANCE THROUGH PROPER LAYOUT POWER SUPPLY BYPASSING DUAL-SUPPLY OPERATION PRESSURE SENSOR BRIDGE APPLICATION TEMPERATURE SENSOR APPLICATION ADC/MICROCONTROLLER OUTLINE DIMENSIONS ORDERING GUIDE