20 /9 — AD734. ) V m. INPUT OFFSET VOLTAGE. ( E. DRIFT WILL TYPICALLY BE. WITHIN …
Revision
E
File Format / Size
PDF / 456 Kb
Document Language
English
AD734. ) V m. INPUT OFFSET VOLTAGE. ( E. DRIFT WILL TYPICALLY BE. WITHIN SHADED AREA. LTA. V T. W S. U O. OF IN. –10. ION T –10. –15. IA V. –20. –55. –35
AD7342020) V mINPUT OFFSET VOLTAGE15( E15DRIFT WILL TYPICALLY BEGWITHIN SHADED AREA10LTA)O10(VV TG5EINFS5W S0OFTTUU0PTP–5U OOF IN–5–10ION T –10–15IA V -034 -036 DE 27 –20 00827 –15 008 89101112131415161718–55–35–15525456585105125SUPPLY VOLTAGE (±VTEMPERATURE (°C)S) Figure 16. Output Swing vs. Supply Voltage Figure 18. VOS Drift, X Input 060) V mINPUT OFFSET VOLTAGE( E40DRIFT WILL TYPICALLY BEGWITHIN SHADED AREAB)U = 10VLTAdO20( –10V TUDEU = 5VE0ITFSL PU = 2VOF TAMU –20TPUU = 1VP T –20UOF IN –40OX1 FREQ =Y1 FREQ –1MHzION T(FOR EXAMPLE,IA –60 35 YV1 – X1 = 1MHz 0 -037 FOR ALL CURVES) 27- DE 27 –30 008 008 102030405060708090100–55–35–15525456585105125YTEMPERATURE (°C)1 FREQUENCY (MHz) Figure 17. Output Amplitude vs. Input Frequency, When Used as Figure 19. VOS Drift, Z Input Demodulator 8V) mINPUT OFFSET VOLTAGE6E (DRIFT WILL TYPICALLY BEGWITHIN SHADED AREALTA4VOSET F2F O T0PU N I F O –2N IO T IA –4V 038 DE 7- –6 082 0 –55–35–15525456585105125TEMPERATURE ( ° C) Figure 20. VOS Drift, Y Input Rev. E | Page 9 of 20 Document Outline FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS THERMAL RESISTANCE ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS FUNCTIONAL DESCRIPTION AVAILABLE TRANSFER FUNCTIONS DIRECT DENOMINATOR CONTROL OPERATION AS A MULTIPLIER Standard Multiplier Connections Current Output Squaring and Frequency-Doubling OPERATION AS A DIVIDER Feedback Divider Connections Connections for Square-Rooting DIVISION BY DIRECT DENOMINATOR CONTROL A PRECISION AGC LOOP WIDEBAND RMS-TO-DC CONVERTER USING U INTERFACE LOW DISTORTION MIXER OUTLINE DIMENSIONS ORDERING GUIDE