Datasheet ADA4860-1 (Analog Devices) - 10 Hersteller Analog Devices Beschreibung High Speed, Low Cost, Op Amp Seiten / Seite 21 / 10 — ADA4860-1. 200. 2.7. VS = +5V. 100. 2.6. S = ±5V. = 0V. G = 0V. AG V. = … Dateiformat / Größe PDF / 719 Kb Dokumentensprache Englisch
ADA4860-1. 200. 2.7. VS = +5V. 100. 2.6. S = ±5V. = 0V. G = 0V. AG V. = 5. 2.5. O , –V. T 5V. V ±V. U =. TP +V. –100. 2.4. G = +1. G = +2. VOUT = 0.2V p-p
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Textversion des Dokuments ADA4860-1 200 2.7 200 2.7 VS = +5V VS = +5V ) 100 2.6 ) 100 2.6 V ) V ) m V m V ( ( ( ( E V E V E S = ±5V G E S = ±5V = 0V G = 0V AG V A S AG V A S T T T T L L L = 5 0 2.5 L O O , –V = 5 0 2.5 O , –V S O S V V V ±V T 5V V ±V T 5V UT U = UT U = P S S TP P +V TP +V UT UT O OU OU –100 2.4 O –100 2.4 G = +1 G = +2 VOUT = 0.2V p-p VOUT = 0.2V p-p 33R 20 0F = 550Ω R 0F = RG = 499Ω 9-TIME = 5ns/DIV 9- 70TIME = 5ns/DIV 70–200 2.3 05–200 2.3 05 Figure 22. Small Signal Transient Response for Various Supplies Figure 25. Small Signal Transient Response for Various Supplies200 200 CL = 9pF CL = 9pF C C L = 4pF L = 6pF ) 100 ) 100 V V m m ( ( E E C AG AG L = 4pF T T L 0 L 0 O O V V UT C UT P L = 6pF P UT UT O –100 O –100 VS = ±5V VS = ±5V G = +1 G = +2 VOUT = 0.2V p-p V 34 21OUT = 0.2V p-p 0R 0 9-F = 550Ω R 9-F = RG = 499Ω 70TIME = 5ns/DIV 70–200 TIME = 5ns/DIV 05 05–200 Figure 23. Small Signal Transient Response for Various Capacitor Loads Figure 26. Small Signal Transient Response for Various Capacitor Loads2.7 2.7 CL = 9pF CL = 6pF CL = 6pF CL = 4pF 2.6 2.6 ) ) V V ( ( E E G C G C A L = 9pF A L = 4pF T T L L O 2.5 O 2.5 V V T T U U TP TP OU OU 2.4 2.4 V V S = 5V S = 5V G = +1 G = +2 V V OUT = 0.2V p-p 22OUT = 0.2V p-p 35 0 0R R 9- 9-F = 550Ω F = RG = 499Ω 70 70TIME = 5ns/DIV TIME = 5ns/DIV 2.3 05 052.3 Figure 24. Small Signal Transient Response for Various Capacitor Loads Figure 27. Small Signal Transient Response for Various Capacitor Loads Rev. 0 | Page 9 of 20 Document Outline FEATURES APPLICATIONS PIN CONFIGURATION GENERAL DESCRIPTION TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS THERMAL RESISTANCE Maximum Power Dissipation ESD CAUTION TYPICAL PERFORMANCE CHARACTERISTICS APPLICATION INFORMATION POWER SUPPLY BYPASSING FEEDBACK RESISTOR SELECTION DRIVING CAPACITIVE LOADS POWER DOWN PIN VIDEO AMPLIFIER SINGLE-SUPPLY OPERATION OPTIMIZING FLATNESS AND BANDWIDTH LAYOUT AND CIRCUIT BOARD PARASITICS OUTLINE DIMENSIONS ORDERING GUIDE