Datasheet AD586 (Analog Devices) - 9

制造商Analog Devices
描述High Precision 5 V Reference
页数 / 页16 / 9 — AD586. 50mV. 200mV. CL = 0. VOUT. CL = 1000pF. LOAD REGULATION. 1mV. VOUT …
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AD586. 50mV. 200mV. CL = 0. VOUT. CL = 1000pF. LOAD REGULATION. 1mV. VOUT (. 1000. 500. LOAD (mA). –500. –1000. TEMPERATURE PERFORMANCE. 3.5V. 1000pF

AD586 50mV 200mV CL = 0 VOUT CL = 1000pF LOAD REGULATION 1mV VOUT ( 1000 500 LOAD (mA) –500 –1000 TEMPERATURE PERFORMANCE 3.5V 1000pF

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AD586 5V 50mV 1
µ
S 5V 200mV 1
µ
S VL CL = 0 VOUT CL = 1000pF
00529-012 00529-015 Figure 13. Large-Scale Transient Response Figure 16. Output Response with Capacitive Load
LOAD REGULATION 5V 1mV 2
µ
S
The AD586 has excellent load regulation characteristics. Figure 17
VL
shows that varying the load several mA changes the output by a few µV. The AD586 has somewhat better load regulation per- formance sourcing current than sinking current. ∆
VOUT (
µ
V) VOUT 1000 500 2 4 6 8 10 LOAD (mA) –6 –4 –2 0
00529-013
–500
Figure 14. Fine-Scale Setting for Transient Load
–1000
In some applications, a varying load may be both resistive and capacitive in nature, or the load may be connected to the AD586 by a long capacitive cable. 00529-016 Figure 17. Typical Load Regulation Characteristics Figure 15 and Figure 16 display the output amplifier characteristics driving a 1000 pF, 0 mA to 10 mA load.
TEMPERATURE PERFORMANCE
The AD586 is designed for precision reference applications where temperature performance is critical. Extensive tempera-
VOUT CL
ture testing ensures that the device maintains a high level of
3.5V 1000pF 500
Ω performance over the operating temperature range.
5V AD586 VL 0V
Some confusion exists with defining and specifying reference voltage error over temperature. Historically, references have 00529-014 Figure 15. Capacitive Load Transient Response Test Circuit been characterized using a maximum deviation per degree Celsius, that is, ppm/°C. However, because of nonlinearities in temperature characteristics that originated in standard Zener references (such as “S” type characteristics), most manufacturers have begun to use a maximum limit error band approach to specify devices. This technique involves measuring the output at three or more different temperatures to specify an output volt- age error band. Rev. G | Page 9 of 16 Document Outline FEATURES GENERAL DESCRIPTION PRODUCT HIGHLIGHTS SPECIFICATIONS AD586J, AD586K/AD586A, AD586L/AD586B AD586M, AD586S, AD586T ABSOLUTE MAXIMUM RATINGS ESD CAUTION PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS THEORY OF OPERATION APPLYING THE AD586 NOISE PERFORMANCE AND REDUCTION TURN-ON TIME DYNAMIC PERFORMANCE LOAD REGULATION TEMPERATURE PERFORMANCE NEGATIVE REFERENCE VOLTAGE FROM AN AD586 USING THE AD586 WITH CONVERTERS 5 V REFERENCE WITH MULTIPLYINGCMOS DACs OR ADCs STACKED PRECISION REFERENCES FORMULTIPLE VOLTAGES PRECISION CURRENT SOURCE PRECISION HIGH CURRENT SUPPLY OUTLINE DIMENSIONS ORDERING GUIDE