AD83021.06181.041.02PINPA = PINPB + 5dB1.00150.980.960.9412V – 0.92 G 0.90P9INPA = PINPB0.88VMAPERCENT0.860.8460.820.8030.78PINPA = PINPB – 5dB0.760.7400200400600800 1000 1200 1400 1600 1800 2000 22000.800.850.900.951.00FREQUENCY – MHzMCP – V TPC 13. VMAG Output vs. Frequency, for PINPA = PINPB, PINPA TPC 16. Center Point of Magnitude Output (MCP) = PINPB + 5 dB, and PINPA = PINPB – 5 dB, PINPB = –30 dBm Distribution Frequencies 900 MHz, 17,000 Units 0.4180.2015–0.2mV –12–0.4–0.69–0.8PERCENT–1.06CHANGE IN SLOPE –1.2–1.43–1.6–1.80–40–200204060808527.027.528.028.529.029.530.0TEMPERATURE – ⴗ CVMAG SLOPE – mV/dB TPC 14. Change in VMAG Slope vs. Temperature, Three TPC 17. VMAG Slope, Frequency 900 MHz, 17,000 Units Sigma to Either Side of Mean, Frequencies 1900 MHz 250.03220150.03010V –5GmV –VMAG00.028VMA –5–10SLOPE OF0.026–15–20–250.024–40 –30 –20 –1001020304050607080900200400600800TEMPERATURE – ⴗ C1000120014001600180020002200240026002800FREQUENCY – MHz TPC 15. Change in Center Point of Magnitude Output TPC 18. VMAG Slope vs. Frequency (MCP) vs. Temperature, Three Sigma to Either Side of Mean, Frequencies 1900 MHz –8– REV. A Document Outline FEATURES PRODUCT DESCRIPTION FUNCTIONAL BLOCK DIAGRAM SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS PIN CONFIGURATION PIN FUNCTION DESCRIPTIONS ORDERING GUIDE CAUTION Equivalent Circuits Typical Performance Characteristics GENERAL DESCRIPTION AND THEORY Basic Theory Structure BASIC CONNECTIONS Measurement Mode Interfacing to the Input Channels Dynamic Range Cross Modulation of Magnitude and Phase Modifying the Slope and Center Point Comparator and Controller Modes APPLICATIONS Measuring Amplifier Gain and Compression CHARACTERIZATION SETUPS AND METHODS Gain Phase OUTLINE DIMENSIONS