Precision Instrumentation Amplifier with Signal Processing Amplifiers
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28 /10 — AD8295. 2.0. G = 100. S = ±2.5V, ±5V. 1.8. ( E. E (. 1.6. 1.4. O V T. E …
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AD8295. 2.0. G = 100. S = ±2.5V, ±5V. 1.8. ( E. E (. 1.6. 1.4. O V T. E VO. 1.2. F F. 1.0. -M N. 0.8. M M. INP. 0.6. E G. 0.4. PU IN. 0.2. CHAN. OUTPUT VOLTAGE (V)
AD829552.0G = 100V)4S = ±2.5V, ±5VV1.8µV)( EE (1.6GG3AATTLL1.42O V TE VO1.2ED1SOF F1.0-M N0OOUT0.8M M–1OINP0.6NCIT–2E G0.4PU IN–30.2CHAN–40 2 –5–4–3–2–1012345 7 04 0246810 06 3- 3- 34 OUTPUT VOLTAGE (V)WARM-UP TIME (Min) 34 07 07 Figure 9. Input Common-Mode Voltage Range vs. Output Voltage, Figure 12. Change in Input Offset Voltage vs. Warm-Up Time G = 100, VS = ±2.5 V, ±5 V, VREF = 0 V 155G = 100VS = ±15V)4V (10E3G A TNEGATIVE BIAS CURRENTL25VOA)POSITIVE BIAS CURRENTEn1D(0NT0-MO NRE–1CURMMO–5O–2OFFSET CURRENTC T–3PU –10IN–4–15–5 3 –15–10–5051015 8 04 –40–20020406080100120140 06 3- 3- 34 OUTPUT VOLTAGE (V)TEMPERATURE(°C) 34 07 07 Figure 10. Input Common-Mode Voltage Range vs. Output Voltage, Figure 13. Input Bias Current and Input Offset Current vs. Temperature G = 100, VS = ±15 V, VREF = 0 V 0180–0.050160±15VGAIN = 1000A)140 GAIN = 100n–0.100() BNT(d 120 GAIN = 10–0.150R RGAIN = 1PS 100CURREE–0.200ASIV TBI80±5VSIUT–0.250POINP60–0.30040–0.35020–15–10–5051015 61 9 0 0.11101001k10k100k1M 04 3- 3- COMMON-MODE VOLTAGE (V) 34 34 FREQUENCY (Hz) 07 07 Figure 11. Input Bias Current vs. Common-Mode Voltage Figure 14. Positive PSRR vs. Frequency, RTI, G = 1 to 1000 Rev. A | Page 10 of 28 Document Outline FEATURES APPLICATIONS CONNECTION DIAGRAM GENERAL DESCRIPTION TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS INSTRUMENTATION AMPLIFIER SPECIFICATIONS, SINGLE-ENDED AND DIFFERENTIAL OUTPUT CONFIGURATIONS OP AMP SPECIFICATIONS INTERNAL RESISTOR NETWORK POWER AND TEMPERATURE SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS THERMAL CHARACTERISTICS ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS IN-AMP OP AMPS SYSTEM THEORY OF OPERATION UNCOMMITTED OP AMPS INSTRUMENTATION AMPLIFIER Gain Selection Common-Mode Input Voltage Range Reference Terminal LAYOUT Routing and Vias Common-Mode Rejection over Frequency Unused Op Amps Reference Power Supplies INPUT PROTECTION INPUT BIAS CURRENT RETURN PATH RF INTERFERENCE DIFFERENTIAL OUTPUT APPLICATIONS INFORMATION CREATING A REFERENCE VOLTAGE AT MIDSCALE HIGH ACCURACY G = −1 CONFIGURATION WITH LOW-PASS FILTER TWO-POLE SALLEN-KEY FILTER AC-COUPLED INSTRUMENTATION AMPLIFIER DRIVING DIFFERENTIAL ADCs OUTLINE DIMENSIONS ORDERING GUIDE