MC34071,2,4,A MC33071,2,4,A, NCV33072,4,A 0.4 4.0 A V V = 1000 CC = +15 V V TION (%) TION (%) EE = -15 V 3.0 R 0.3 OR OR L = 2.0 k AV = 1000 TA = 25°C VCC = +15 V VEE = -15 V V 0.2 O = 2.0 Vpp 2.0 RL = 2.0 k TA = 25°C A A V = 100 V = 100 L HARMONIC DIST L HARMONIC DIST 0.1 TA TA 1.0 AV = 10 O O T AV = 10 T AV = 1.0 AV = 1.0 THD, THD, 0 0 10 100 1.0 k 10 k 100 k 0 4.0 8.0 12 16 20 f, FREQUENCY (Hz) VO, OUTPUT VOLTAGE SWING (Vpp) Figure 16. Total Harmonic DistortionFigure 17. Total Harmonic Distortionversus Frequencyversus Output Voltage Swing 116 100 0 V 112 CC = +15 V 80 VEE = -15 V Gain V Phase 45 O= -10 V to +10 V TAGE GAIN (dB) R 108 L = 10 k TAGE GAIN (dB) 60 f ≤ 10Hz Phase VOL VOL Margin 90 104 40 = 60° VCC = +15 V 135 VEE = -15 V 100 20 VO = 0 V , EXCESS PHASE (DEGREES) RL = 2.0 k φ VOL 180 VOL A, OPEN LOOP A, OPEN LOOP TA = 25°C 96 0 -55 -25 0 25 50 75 100 125 1.0 10 100 1.0 k 10 k 100 k 1.0 M 10 M 100 M TA, AMBIENT TEMPERATURE (°C) f, FREQUENCY (Hz) Figure 18. Open Loop Voltage GainFigure 19. Open Loop Voltage Gain andversus TemperaturePhase versus Frequency 20 1.15 1 Phase 100 VCC = +15 V 10 Margin = 60° 1.1 VEE = -15 V Gain (NORMALIED) 120 RL = 2.0 k Margin = 12 dB 0 1.05 TAGE GAIN (dB) 140 VOL -10 1.0 1. Phase RL = 2.0 k 160 2. Phase RL = 2.0 k, CL = 300 pF 3 -20 3. Gain R 0.95 L = 2.0 k 4. Gain R 180 L = 2.0 k, CL = 300 pF V 4 -30 CC = +15 V 0.9 V , EXCESS PHASE (DEGREES) VOL EE = 15 V 2 φ A, OPEN LOOP V , GAIN BANDWIDTH PRODUCT O = 0 VTA = 25°C -40 0.85 1.0 2.0 3.0 5.0 7.0 10 20 30 GBW -55 -25 0 25 50 75 100 125 f, FREQUENCY (MHz) TA, AMBIENT TEMPERATURE (°C) Figure 20. Open Loop Voltage Gain andFigure 21. Normalized Gain BandwidthPhase versus FrequencyProduct versus Temperaturehttp://onsemi.com8
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