AD801200VV–10IN = 0.2V p-p–10S = +5V OR5V–PSRRVG = +2S =5V, +5V–20R–20F = 750–30–30+PSRR–40dB–40–50–50–60CMRRPSRR – dB –60–70–70–80–80–90–90–100–1000.030.1110100500100k 1M 10M 100M 500MFREQUENCY – MHzFREQUENCY – Hz TPC 19. CMRR vs. Frequency; VS = ±5 V, +5 V TPC 22. PSRR vs. Frequency; VS = ±5 V, +5 V 51kVO = 0.3V p-p4RF = 750R3L = 100G = +2100VS = +5VRF = 750dB21100VS = +5V–11VS =5VG = +10G = +1–2NORMALIZED GAING = +2OUTPUT RESISTANCE–30.1–4–50.011101005000.030.1110100500FREQUENCY – MHzFREQUENCY – MHz TPC 20. Frequency Response; VS = +5 V TPC 23. Output Resistance vs. Frequency 313501VRMSG = +20RF = 750115–40R–3L = 100VS = +5V–695–80dBVPHASE–975–120–12dBZ 55–160–15TTZ(s)PHASE – Degrees–1835–200OUTPUT VOLTAGE–2115–240–24–27–5–2801101005001k10k100k1M10M100M1GFREQUENCYMHzFREQUENCYHz TPC 21. Output Voltage vs. Frequency; VS = +5 V, TPC 24. Open-Loop Transimpedance and G = +2, RL = 100 Ω Phase vs. Frequency REV. C –9– Document Outline FEATURES APPLICATIONS PRODUCT DESCRIPTION FUNCTIONAL BLOCK DIAGRAM SPECIFICATIONS DUAL SUPPLY SINGLE SUPPLY MAXIMUM POWER DISSIPATION Test Circuits ABSOLUTE MAXIMUM RATINGS Typical Performance Characteristics THEORY OF OPERATION DC GAIN CHARACTERISTICS APPLICATIONS Line Driving for HDSL Choosing the Appropriate Turns Ratio for the Transformer LAYOUT CONSIDERATIONS OUTLINE DIMENSIONS Ordering Guide Revision History