MC34071,2,4,A MC33071,2,4,A, NCV33072,4,A VCC VCC V Source V CC CC/VEE = +4.5 V/ -4.5 V to +22 V/ -22 V TAGE (V) VCC -1.0 TAGE (V) VCC-2.0 −40 VCC = +15 V RL = GND 25 V V T CC -2.0 CC-4.0 A = 25°C TION VOL TION VOL 125 TURA TURA V 0.2 SA EE +2.0 Sink SA 25 VEE +1.0 0.1 85 GND sat 125 sat V , OUTPUT V V , OUTPUT EE 0 0 5.0 10 15 20 100 1.0 k 10 k 100 k IL, LOAD CURRENT (± mA) RL, LOAD RESISTANCE TO GROUND (W) Figure 10. Split Supply Output SaturationFigure 11. Single Supply Output Saturationversus Load Currentversus Load Resistance to Ground 0 60 VCC TAGE (V) 50 -0.4 Sink (mA) 40 TION VOL -0.8 Source CURRENT 30 TURA SA 2.0 VCC = +15 V 20 RL to VCC VCC = +15 V T 1.0 A = 25°C SC VEE = -15 V I, OUTPUT 10 GND RL ≤ 0.1 W sat DVin = 1.0 V V , OUTPUT 0 100 1.0 k 10 k 100 k -55 -25 0 25 50 75 100 125 RL, LOAD RESISTANCE TO VCC (W) TA, AMBIENT TEMPERATURE (°C) Figure 12. Single Supply Output SaturationFigure 13. Output Short Circuit Currentversus Load Resistance to VCCversus Temperature 50 28 VCC = +15 V ) V V EE = -15 V pp CC = +15 V 24 Ω 40 V V CM = 0 EE = -15 V V A O = 0 V = +1.0 20 DI R O = ±0.5 mA L = 2.0 k 30 T THD ≤ 1.0% A = 25°C 16 TA = 25°C TAGE SWING (V IMPEDANCE () 12 20 VOL AV = 1000 AV = 100 AV = 10 AV = 1.0 8.0 O 10 Z, OUTPUT , OUTPUT 4.0 OV 0 0 1.0 k 10 k 100 1.0 M 10 M 3.0 k 10 k 30 k 100 k 300 k 1.0 M 3.0 M f, FREQUENCY (Hz) f, FREQUENCY (Hz) Figure 14. Output ImpedanceFigure 15. Output Voltage Swingversus Frequencyversus Frequencyhttp://onsemi.com7
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