Datasheet AD780 (Analog Devices) - 9
| Manufacturer | Analog Devices |
| Description | 2.5 V/3.0 V High Precision Reference |
| Pages / Page | 12 / 9 — Data Sheet. AD780. DYNAMIC PERFORMANCE. ILOAD. 0mA. 10mA. VOUT (CL = … |
| Revision | I |
| File Format / Size | PDF / 295 Kb |
| Document Language | English |
Data Sheet. AD780. DYNAMIC PERFORMANCE. ILOAD. 0mA. 10mA. VOUT (CL = 1000pF). +VIN. OUTPUT CHANGE (50mV/DIV). VOUT. s/DIV. 249. LINE REGULATION
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Data Sheet AD780 DYNAMIC PERFORMANCE ILOAD
The output stage of the AD780 has been designed to provide
0mA
superior static and dynamic load regulation.
10mA
Figure 16 and Figure 17 show the performance of the AD780 while driving a 0 mA to 10 mA load.
VOUT (CL = 1000pF) +VIN OUTPUT CHANGE (50mV/DIV) 2 AD780 6 VOUT
00841-019
10
µ
s/DIV 1
µ
F 249
Ω Figure 19. Settling under Dynamic Capacitive Load
LINE REGULATION 4 VOUT VL 0V
Line regulation is a measure of change in output voltage due to a specified change in input voltage. It is intended to simulate 00841-016 Figure 16. Transient Resistive Load Test Circuit worst-case unregulated supply conditions and is measured in µV/V. Figure 20 shows typical performance with 4.0 V < VIN <
ILOAD
15.0 V.
0mA 200 10mA T = 25
°
C VOUT (CL = 0pF) 100
µ
V) 0 OUTPUT CHANGE (50mV/DIV) OUTPUT CHANGE ( –100
00841-017
10
µ
s/DIV
Figure 17. Settling Under Transient Resistive Load
–200
00841-020
4 10 15
The dynamic load may be resistive and capacitive. For example,
INPUT VOLTAGE (V)
the load may be connected via a long capacitive cable. Figure 18 Figure 20. Output Voltage Change vs. Input Voltage and Figure 19 show the performance of the AD780 driving a 1000 pF, 0 mA to 10 mA load.
+VIN 2 AD780 6 VOUT C L 1
µ
F 1000pF 249
Ω
4 VOUT V L 0V
00841-018 Figure 18. Capacitive Load Transient Response Test Circuit Rev. I | Page 9 of 12 Document Outline Features Functional Block Diagram General Description Product Highlights Table of Contents Revision History Specifications Absolute Maximum Ratings Thermal Resistance Notes ESD Caution Theory of Operation Applying the AD780 Noise Performance Noise Comparison Temperature Performance Temperature Output Pin Temperature Transducer Circuit Supply Current Over Temperature Turn-On Time Dynamic Performance Line Regulation Precision Reference for High Resolution 5 V Data Converters 4.5 V Reference from 5 V Supply Negative (–2.5 V) Reference Outline Dimensions Ordering Guide
Data Sheet AD780 DYNAMIC PERFORMANCE ILOAD
The output stage of the AD780 has been designed to provide
0mA
superior static and dynamic load regulation.
10mA
Figure 16 and Figure 17 show the performance of the AD780 while driving a 0 mA to 10 mA load.
VOUT (CL = 1000pF) +VIN OUTPUT CHANGE (50mV/DIV) 2 AD780 6 VOUT
00841-019
10
µ
s/DIV 1
µ
F 249
Ω Figure 19. Settling under Dynamic Capacitive Load
LINE REGULATION 4 VOUT VL 0V
Line regulation is a measure of change in output voltage due to a specified change in input voltage. It is intended to simulate 00841-016 Figure 16. Transient Resistive Load Test Circuit worst-case unregulated supply conditions and is measured in µV/V. Figure 20 shows typical performance with 4.0 V < VIN <
ILOAD
15.0 V.
0mA 200 10mA T = 25
°
C VOUT (CL = 0pF) 100
µ
V) 0 OUTPUT CHANGE (50mV/DIV) OUTPUT CHANGE ( –100
00841-017
10
µ
s/DIV
Figure 17. Settling Under Transient Resistive Load
–200
00841-020
4 10 15
The dynamic load may be resistive and capacitive. For example,
INPUT VOLTAGE (V)
the load may be connected via a long capacitive cable. Figure 18 Figure 20. Output Voltage Change vs. Input Voltage and Figure 19 show the performance of the AD780 driving a 1000 pF, 0 mA to 10 mA load.
+VIN 2 AD780 6 VOUT C L 1
µ
F 1000pF 249
Ω
4 VOUT V L 0V
00841-018 Figure 18. Capacitive Load Transient Response Test Circuit Rev. I | Page 9 of 12 Document Outline Features Functional Block Diagram General Description Product Highlights Table of Contents Revision History Specifications Absolute Maximum Ratings Thermal Resistance Notes ESD Caution Theory of Operation Applying the AD780 Noise Performance Noise Comparison Temperature Performance Temperature Output Pin Temperature Transducer Circuit Supply Current Over Temperature Turn-On Time Dynamic Performance Line Regulation Precision Reference for High Resolution 5 V Data Converters 4.5 V Reference from 5 V Supply Negative (–2.5 V) Reference Outline Dimensions Ordering Guide
