link to page 14 link to page 14 link to page 14 link to page 14 link to page 14 AD8033/AD8034810VVOUT = 200mV p-pOUT = 200mV p-pCL = 100pFG = +1CL = 100pF9 G = +268CL = 51pF4CL = 100pFR7SNUB = 25Ω6) 2)BBdd(( 5CL = 33pFININ0AGAG 4CL = 33pFCL = 2pF–23CL = 2pF2–41–60 12 15 0.1110100 0 0.1110100 0 4- 4- FREQUENCY (MHz) 92 FREQUENCY (MHz) 92 02 02 Figure 12. Small Signal Frequency Response for Various C Figure 15. Small Signal Frequency Response for Various C L (See Figure 44) L (See Figure 45) 98VOUT = 200mV p-pVCOUT = 200mV p-pRF = 0pFG = +28F = 3kΩG = +27CF = 1pFRL = 1kΩ766)5C)BF = 1.5pFBRd5L = 500Ωd((IN4CIN4F = 2pFAGAG3322110 3 0 6 0.1110100 01 0.1110100 01 4- 4- FREQUENCY (MHz) 92 FREQUENCY (MHz) 92 02 02 Figure 13. Small Signal Frequency Response for Various CF (See Figure 45) Figure 16. Small Signal Frequency Response for Various RL (See Figure 45) 100100180VOUT = 200mV p-pVS = ±12V8015010GAIN)60120G = +2(Ω) Brees)deg1( 4090DIN(DANCEEE PGAPHASEASIMHG = +12060P0.10300.01 4 –2001001k10k100k1M10M100M 17 -01 1001k10k100k1M10M100M 0 4- 24 FREQUENCY (Hz) 92 29 FREQUENCY (Hz) 0 02 Figure 14. Output Impedance vs. Frequency (See Figure 47) Figure 17. Open-Loop Response Rev. D | Page 8 of 24 Document Outline FEATURES APPLICATIONS GENERAL DESCRIPTION TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS MAXIMUM POWER DISSIPATION OUTPUT SHORT CIRCUIT ESD CAUTION TYPICAL PERFORMANCE CHARACTERISTICS TEST CIRCUITS THEORY OF OPERATION OUTPUT STAGE DRIVE AND CAPACITIVE LOAD DRIVE INPUT OVERDRIVE INPUT IMPEDANCE THERMAL CONSIDERATIONS LAYOUT, GROUNDING, AND BYPASSING CONSIDERATIONS BYPASSING GROUNDING LEAKAGE CURRENTS INPUT CAPACITANCE APPLICATIONS INFORMATION HIGH SPEED PEAK DETECTOR ACTIVE FILTERS WIDEBAND PHOTODIODE PREAMP OUTLINE DIMENSIONS ORDERING GUIDE