Data SheetAD8112110) Ω 18VS = ±15V151VS = ±15V12VS = ±5VVS = ±5V90.16QUIESCENT SUPPLY CURRENT (mA)GAIN = –2CLOSED-LOOP OUTPUT RESISTANCE (RFB = 649 Ω 30.01–60–40–2002040608010012014010k100k1M10M100MJUNCTION TEMPERATURE (°C) 00866-E-012 FREQUENCY (Hz) 00866-E-015 Figure 11. Quiescent Supply Current vs. Junction Temperature Figure 14. Closed-Loop Output Resistance vs. Frequency 10101008RISE TIME68604VS = ±5VVS = ±15V26V40O = 1V p-pRL = 150 Ω 0GAIN = +2VOVERSHOOTS = ±15V–2420RISE TIME (ns)OVERSHOOT (%)–4INPUT OFFSET VOLTAGE (mV)–620–8–100–20–60–40–200204060801001201400.40.60.81.01.21.41.6JUNCTION TEMPERATURE (°C)VALUE OF FEEDBACK RESISTOR [R 00866-E-013 FB] (k Ω ) 00866-E-016 Figure 12. Input Offset Voltage vs. Junction Temperature Figure 15. Rise Time and Overshoot vs. Value of Feedback Resistor, RFB 2502.0VS = ±15V RL = 200 Ω 200)V Ω 1.5OUT = ±10VVS = ±15V1501.0VS = ±5VVS = ±5V RL = 150 Ω VOUT = ±2.5V100TRANSRESISTANCE (M0.5SHORT-CIRCUIT CURRENT (mA)500–60–40–20020406080100120140–60–40–20020406080100120140JUNCTION TEMPERATURE (°C)JUNCTION TEMPERATURE (°C) 00866-E-014 00866-E-017 Figure 13. Short-Circuit Current vs. Junction Temperature Figure 16. Transresistance vs. Junction Temperature Rev. G | Page 7 of 20 Document Outline FEATURES APPLICATIONS CONNECTION DIAGRAMS GENERAL DESCRIPTION TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS MAXIMUM POWER DISSIPATION METALIZATION PHOTOGRAPH ESD CAUTION TYPICAL PERFORMANCE CHARACTERISTICS APPLICATIONS INFORMATION GENERAL DESIGN CONSIDERATIONS ACHIEVING THE FLATTEST GAIN RESPONSE AT HIGH FREQUENCY Choice of Feedback and Gain Resistors Printed Circuit Board Layout Considerations Quality of Coaxial Cable Power Supply Bypassing Driving Capacitive Loads OPERATION AS A VIDEO LINE DRIVER AN 80 MHZ VOLTAGE-CONTROLLED AMPLIFIER CIRCUIT A VIDEO KEYER CIRCUIT OUTLINE DIMENSIONS ORDERING GUIDE