Datasheet OP162, OP262, OP462 (Analog Devices) - 9
| Fabricante | Analog Devices |
| Descripción | 15 MHz Rail-to-Rail Operational Amplifiers |
| Páginas / Página | 20 / 9 — Data Sheet. OP162/OP262/OP462. VS = 5V. TA = 25. GAIN. 0.1%. 0.01%. S = … |
| Revisión | H |
| Formato / tamaño de archivo | PDF / 476 Kb |
| Idioma del documento | Inglés |
Data Sheet. OP162/OP262/OP462. VS = 5V. TA = 25. GAIN. 0.1%. 0.01%. S = 5V. PHASE. 135. GAIN (dB). 180. STEP SIZE (V). PHASE SHIFT (dB). –10. 225. –20
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Data Sheet OP162/OP262/OP462 50 4 VS = 5V 40 TA = 25
°
C GAIN 3 0.1% 0.01% V 30 45 2 S = 5V TA = 25
°
C 20 90 PHASE 1 10 135 0 GAIN (dB) 0 180 STEP SIZE (V) –1 PHASE SHIFT (dB) –10 225 –2 0.1% 0.01% –20 270 –3 –30
00288-019
–4
00288-022
100k 1M 10M 100M 0 200 400 600 800 1000 FREQUENCY (Hz) SETTLING TIME (nS)
Figure 16. Open-Loop Gain and Phase vs. Frequency (No Load) Figure 19. Step Size vs. Settling Time
60 60 V V S = 5V S = 5V T T A = 25
°
C A = 25
°
C R 50 TA =
±
50mV 40 L = 830
Ω
C R L = 5pF L = 10k
Ω
40 20 +OS 30 0 –OS OVERSHOOT (%) 20 CLOSED-LOOP GAIN (dB) –20 10 –30
00288-020
0
00288-023
10k 100k 1M 10M 100M 10 100 1000 FREQUENCY (Hz) CAPACITANCE (pF)
Figure 17. Closed-Loop Gain vs. Frequency Figure 20. Smal -Signal Overshoot vs. Capacitance
5 70 VS = 5V 60 TA = 25
°
C 4 50
√
Hz) 3 40 2 30 VS = 5V AVCL = 1 NOISE DENSITY (nV/ 20 RL = 10k
Ω
1 MAXIMUM OUTPUT SWING (V p-p) CL = 15pF TA = 25
°
C 10 DISTORTION<1% 0
00288-021
0
00288-024
10k 100k 1M 10M 1 10 100 1k FREQUENCY (Hz) FREQUENCY (Hz)
Figure 18. Maximum Output Swing vs. Frequency Figure 21. Voltage Noise Density vs. Frequency Rev. H | Page 9 of 20 Document Outline Features Applications General Description Pin Configurations Revision History Specifications Absolute Maximum Ratings ESD Caution Typical Performance Characteristics Applications Functional Description Offset Adjustment Rail-to-Rail Output Output Short-Circuit Protection Input Overvoltage Protection Output Phase Reversal Power Dissipation Unused Amplifiers Power-On Settling Time Capacitive Load Drive Total Harmonic Distortion and Crosstalk PCB Layout Considerations Applications Circuits Single-Supply Stereo Headphone Driver Instrumentation Amplifier Direct Access Arrangement Outline Dimensions Ordering Guide
°
C GAIN 3 0.1% 0.01% V 30 45 2 S = 5V TA = 25
°
C 20 90 PHASE 1 10 135 0 GAIN (dB) 0 180 STEP SIZE (V) –1 PHASE SHIFT (dB) –10 225 –2 0.1% 0.01% –20 270 –3 –30
00288-019
–4
00288-022
100k 1M 10M 100M 0 200 400 600 800 1000 FREQUENCY (Hz) SETTLING TIME (nS)
Figure 16. Open-Loop Gain and Phase vs. Frequency (No Load) Figure 19. Step Size vs. Settling Time
60 60 V V S = 5V S = 5V T T A = 25
°
C A = 25
°
C R 50 TA =
±
50mV 40 L = 830
Ω
C R L = 5pF L = 10k
Ω
40 20 +OS 30 0 –OS OVERSHOOT (%) 20 CLOSED-LOOP GAIN (dB) –20 10 –30
00288-020
0
00288-023
10k 100k 1M 10M 100M 10 100 1000 FREQUENCY (Hz) CAPACITANCE (pF)
Figure 17. Closed-Loop Gain vs. Frequency Figure 20. Smal -Signal Overshoot vs. Capacitance
5 70 VS = 5V 60 TA = 25
°
C 4 50
√
Hz) 3 40 2 30 VS = 5V AVCL = 1 NOISE DENSITY (nV/ 20 RL = 10k
Ω
1 MAXIMUM OUTPUT SWING (V p-p) CL = 15pF TA = 25
°
C 10 DISTORTION<1% 0
00288-021
0
00288-024
10k 100k 1M 10M 1 10 100 1k FREQUENCY (Hz) FREQUENCY (Hz)
Figure 18. Maximum Output Swing vs. Frequency Figure 21. Voltage Noise Density vs. Frequency Rev. H | Page 9 of 20 Document Outline Features Applications General Description Pin Configurations Revision History Specifications Absolute Maximum Ratings ESD Caution Typical Performance Characteristics Applications Functional Description Offset Adjustment Rail-to-Rail Output Output Short-Circuit Protection Input Overvoltage Protection Output Phase Reversal Power Dissipation Unused Amplifiers Power-On Settling Time Capacitive Load Drive Total Harmonic Distortion and Crosstalk PCB Layout Considerations Applications Circuits Single-Supply Stereo Headphone Driver Instrumentation Amplifier Direct Access Arrangement Outline Dimensions Ordering Guide