Datasheet MC33201, MC33202, MC33204, NCV33201, NCV33202, NCV33204 (ON Semiconductor) - 8
| Manufacturer | ON Semiconductor |
| Description | Low Voltage, Rail-to-Rail Operational Amplifiers |
| Pages / Page | 17 / 8 — MC33201, MC33202, MC33204, NCV33201, NCV33202, NCV33204. Figure 20. Gain … |
| File Format / Size | PDF / 521 Kb |
| Document Language | English |
MC33201, MC33202, MC33204, NCV33201, NCV33202, NCV33204. Figure 20. Gain and Phase Margin. Figure 21. Gain and Phase Margin
Model Line for this Datasheet
- MC33201D MC33201DG MC33201DR2 MC33201DR2G MC33201P MC33201PG MC33201VD MC33201VDG MC33201VDR2 MC33201VDR2G
- MC33202D MC33202DG MC33202DMR2 MC33202DMR2G MC33202DR2 MC33202DR2G MC33202P MC33202PG MC33202VD MC33202VDG MC33202VDR2 MC33202VDR2G MC33202VP MC33202VPG
Text Version of Document
MC33201, MC33202, MC33204, NCV33201, NCV33202, NCV33204
70 70 75 75 Phase Margin Phase Margin 60 60 60 60 50 50 45 VCC = +6.0 V 45 40 VCC = +6.0 V 40 V V EE = -6.0 V EE = -6.0 V TA = 25°C 30 RL = 600 W 30 30 30 CL = 100 pF 20 20 , GAIN MARGIN (dB) , GAIN MARGIN (dB) M M , PHASE MARGIN (DEGREES) A , PHASE MARGIN (DEGREES) 15 15 A M Gain Margin 10 10 M O O Gain Margin 0 0 0 0 -55 -40 -25 0 25 70 85 105 125 10 100 1.0 k 10 k 100 k T R A, AMBIENT TEMPERATURE (°C) T, DIFFERENTIAL SOURCE RESISTANCE (W)
Figure 20. Gain and Phase Margin Figure 21. Gain and Phase Margin versus Temperature versus Differential Source Resistance
80 16 150 VCC = +6.0 V 70 V 14 Phase Margin EE = -6.0 V AV = 100 RL = 600 W 120 60 12 AV = 100 Gain Margin TA = 25°C TION (dB) 50 10 90 ARA 40 8.0 SEP AV = 10 60 30 6.0 , GAIN MARGIN (dB) V 20 4.0 M CC = +6.0 V A , PHASE MARGIN (DEGREES) 30 VEE = -6.0 V MO V 10 2.0 O = 8.0 Vpp CS, CHANNEL TA = 25°C 0 0 0 10 100 1.0 k 100 1.0 k 10 k CL, CAPACITIVE LOAD (pF) f, FREQUENCY (Hz)
Figure 22. Gain and Phase Margin Figure 23. Channel Separation versus Capacitive Load versus Frequency
10 50 5.0 V V CC = +5.0 V EE = -5.0 V VCC = +6.0 V (pA/ Hz) TA = 25°C RL = 600 W VEE = -6.0 V TION (%) VO = 2.0 Vpp 40 TAGE (nV/ Hz) T 4.0 A = 25°C OR 1.0 AV = 1000 30 3.0 AV = 100 NOISE VOL 0.1 Noise Voltage 20 2.0 INPUT L HARMONIC DIST AV = 10 TA 0.01 O T ALENT 10 1.0 REFERRED NOISE CURRENT A THD, V = 1.0 Noise Current 0.001 0 0 n i , INPUT n 10 100 1.0 k 10 k 100 k e , EQUIV 10 100 1.0 k 10 k 100 k f, FREQUENCY (Hz) f, FREQUENCY (Hz)
Figure 24. Total Harmonic Distortion Figure 25. Equivalent Input Noise Voltage versus Frequency and Current versus Frequency www.onsemi.com 8
70 70 75 75 Phase Margin Phase Margin 60 60 60 60 50 50 45 VCC = +6.0 V 45 40 VCC = +6.0 V 40 V V EE = -6.0 V EE = -6.0 V TA = 25°C 30 RL = 600 W 30 30 30 CL = 100 pF 20 20 , GAIN MARGIN (dB) , GAIN MARGIN (dB) M M , PHASE MARGIN (DEGREES) A , PHASE MARGIN (DEGREES) 15 15 A M Gain Margin 10 10 M O O Gain Margin 0 0 0 0 -55 -40 -25 0 25 70 85 105 125 10 100 1.0 k 10 k 100 k T R A, AMBIENT TEMPERATURE (°C) T, DIFFERENTIAL SOURCE RESISTANCE (W)
Figure 20. Gain and Phase Margin Figure 21. Gain and Phase Margin versus Temperature versus Differential Source Resistance
80 16 150 VCC = +6.0 V 70 V 14 Phase Margin EE = -6.0 V AV = 100 RL = 600 W 120 60 12 AV = 100 Gain Margin TA = 25°C TION (dB) 50 10 90 ARA 40 8.0 SEP AV = 10 60 30 6.0 , GAIN MARGIN (dB) V 20 4.0 M CC = +6.0 V A , PHASE MARGIN (DEGREES) 30 VEE = -6.0 V MO V 10 2.0 O = 8.0 Vpp CS, CHANNEL TA = 25°C 0 0 0 10 100 1.0 k 100 1.0 k 10 k CL, CAPACITIVE LOAD (pF) f, FREQUENCY (Hz)
Figure 22. Gain and Phase Margin Figure 23. Channel Separation versus Capacitive Load versus Frequency
10 50 5.0 V V CC = +5.0 V EE = -5.0 V VCC = +6.0 V (pA/ Hz) TA = 25°C RL = 600 W VEE = -6.0 V TION (%) VO = 2.0 Vpp 40 TAGE (nV/ Hz) T 4.0 A = 25°C OR 1.0 AV = 1000 30 3.0 AV = 100 NOISE VOL 0.1 Noise Voltage 20 2.0 INPUT L HARMONIC DIST AV = 10 TA 0.01 O T ALENT 10 1.0 REFERRED NOISE CURRENT A THD, V = 1.0 Noise Current 0.001 0 0 n i , INPUT n 10 100 1.0 k 10 k 100 k e , EQUIV 10 100 1.0 k 10 k 100 k f, FREQUENCY (Hz) f, FREQUENCY (Hz)
Figure 24. Total Harmonic Distortion Figure 25. Equivalent Input Noise Voltage versus Frequency and Current versus Frequency www.onsemi.com 8
