link to page 9 ADA4312-1Data SheetTYPICAL PERFORMANCE CHARACTERISTICS The figures in this section refer to the test circuit shown in Figure 16, unless otherwise noted. 2730GAIN = 16V/V242721GAIN = 12V/V1824)GAIN = 8V/V)15dBdB21(12(INGAIN = 4V/VIN918GAGA6153-LOOPCOMMON-MODE-LOOPD0D12EE–39LOSLOS–6CC–96–123–15–180 005 11010010001101001000 004 FREQUENCY (MHz)FREQUENCY (MHz) 11044- 11044- Figure 4. Small Signal Differential and Common-Mode Frequency Response Figure 7. Large Signal Differential Frequency Response, Gain = +16 V/V, Differential VOUT = 5 V p-p –4010k732Ω–50)1.1Ω–60)/√HzHz–70nV97.6Ω40.2Ω(Bm/E1kd–80R (OIS1.1ΩENW–90OGEP732ΩIT –100MOLTA100–110T V URANS T –120TPOU–130–14010 020 0102030405060708090100 006 1101001k10k100k1M10M100M1GFREQUENCY (MHz)FREQUENCY (Hz) 11044- 11044- Figure 5. G.hn Transmit Spectrum, 16 dBm into 40 Ω Differential Figure 8. Differential Output Voltage Noise vs. Frequency, Gain = +16 V/V 1001008080OUT BOUT AV)60V)60E (mE (mD40D40UUITIT2020MPLMPL00SE ASE AL –20L –20PUPUT –40T –40PUPUTOUT ATOUT BU –60U –60OO–80–80–100–100 023 –80–4004080120160200240280320 022 –80–4004080120160200240280320TIME (ns)TIME (ns) 11044- 11044- Figure 6. Small Signal Output Transient Response, Normalized to 0 V, Figure 9. Small Signal Output Transient Response, Normalized to 0 V, 10 ns Rise Time, 10 ns Fall Time, 1 µs Pulse Width, 10% Duty Cycle 10 ns Rise Time, 10 ns Fall Time, 1 µs Pulse Width, 10% Duty Cycle Rev. A | Page 6 of 12 Document Outline Features Applications General Description Functional Block Diagram Typical Application Circuit Revision History Specifications Absolute Maximum Ratings Thermal Resistance Maximum Power Dissipation ESD Caution Pin Configuration and Function Descriptions Typical Performance Characteristics Test Circuit Applications Information Feedback Resistor Selection General Operation Half-Duplex Operation Establishing VMID Bias Control and Linearity PCB Layout Thermal Management Power Supply Bypassing Evaluation Board Outline Dimensions Ordering Guide