link to page 13 Data SheetAD83613.03.02.52.52.02.01.51.5+85°C1.01.00.50.500RROR (dB) –0.5RROR (dB) –0.5EE–1.0–1.0MEAN 3 SIGMA–40°C–1.5–1.5–2.0–2.02.5–2.5–3.0–3.00.010.020.10.40.010.020.10.4(–21dBm)(–7dBm)(+5dBm)(–21dBm)(–7dBm)(+5dBm)INPUT (V rms) 01088-C-012 INPUT (V rms) 01088-C-015 Figure 12. Error from CW Linear Reference vs. Input, 3 Sigma to Either Side of Figure 15. Output Delta from +25°C vs. Input Level, 3 Sigma to Either Mean, IS95 Reverse Link Signal, Supply 3.0 V, Frequency 900 MHz Side of Mean Sine Wave, Supply 3.0 V, Frequency 1900 MHz, Temperature −40°C to +85°C 3.0112.5V10S = 5VINPUT OUT2.09OF RANGE1.58–40°C+25°C1.07VS = 3V0.5NT (mA)INPUT OUT6OF RANGE0+85°C5CURRERROR (dB) –0.5Y+25°CEL4P–1.0PMEAN 3 SIGMAU+85°CS3–1.5–2.02–2.51–40°C–3.000.010.020.10.600.10.20.30.40.50.60.70.8(–21dBm)(–7dBm)(+8.6dBm)INPUT (V rms) 01088-C-016 INPUT (V rms) 01088-C-013 Figure 13. Error from CW Linear Reference vs. Input Level, 3 Sigma to Either Figure 16. Supply Current vs. Input Level, Supplies 3.0 V, and 5.0 V, Side of Mean, IS95 Reverse Link Signal, Supply 5.0 V, Frequency 900 MHz Temperatures −40°C, +25°C, and +85°C 3.02501.8+25°C2.5+85°C1.62.02001.5)+85°C–40°C1.4((pF)1.0+85°C0.51501.2TANCE0IS SACITANCE1.0RROR (dB) –0.5E100–1.0+25°C–40°CHUNT RE0.8–1.5SHUNT CAP–40°CS50–2.00.6–2.5–3.000.40.010.020.10.405001000150020002500(–21dBm)(–7dBm)(+5dBm)FREQUENCY (MHz) 01088-C-017 INPUT (V rms) 01088-C-014 Figure 14. Output Delta from +25°C vs. Input Level, 3 Sigma to Figure 17. Input Impedance vs. Frequency, Supply 3 V, Either Side of Mean Sine Wave, Supply 3.0 V, Temperatures −40°C, +25°C, and +85°C, MSOP Frequency 900 MHz, Temperature −40°C to +85°C (See the Application Information Section for SOT-23 Data) Rev. F | Page 7 of 22 Document Outline FEATURES APPLICATIONS GENERAL DESCRIPTION FUNCTIONAL BLOCK DIAGRAMS REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS CIRCUIT DESCRIPTION Filtering Offset APPLICATION INFORMATION Basic Connections Output Swing Dynamic Range Input Coupling and Matching Input Coupling Using a Series Resistor Selecting the Filter Capacitor Operation at Low Frequencies Power Consumption, Enable and Power-On Volts to dBm Conversion Output Drive Capability and Buffering OUTPUT REFERENCE TEMPERATURE DRIFT COMPENSATION Extended Frequency Characterization EVALUATION BOARD CHARACTERIZATION SETUPS Equipment Analysis OUTLINE DIMENSIONS ORDERING GUIDE