Datasheet MC33201, MC33202, MC33204, NCV33201, NCV33202, NCV33204 (ON Semiconductor) - 7
| Manufacturer | ON Semiconductor |
| Description | Low Voltage, Rail-to-Rail Operational Amplifiers |
| Pages / Page | 17 / 7 — MC33201, MC33202, MC33204, NCV33201, NCV33202, NCV33204. Figure 14. … |
| File Format / Size | PDF / 521 Kb |
| Document Language | English |
MC33201, MC33202, MC33204, NCV33201, NCV33202, NCV33204. Figure 14. Output Short Circuit Current
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
(mA) 150 2.0 VCC = +5.0 V V 125 EE = Gnd 1.6 CURRENT AMPLIFIER (mA) 100 TA = 125°C Source 1.2 PER CIRCUIT T 75 TA = 25°C Sink 0.8 SHOR 50 CURRENT TA = -55°C Y 25 0.4 , OUTPUT , SUPPL 0 CC 0 I SC I -55 -40 -25 0 25 70 85 105 125 ±0 ±1.0 ±2.0 ±3.0 ±4.0 ±5.0 ±6.0 T V A, AMBIENT TEMPERATURE (°C) CC, ⎮VEE⎮, SUPPLY VOLTAGE (V)
Figure 14. Output Short Circuit Current Figure 15. Supply Current per Amplifier versus Temperature versus Supply Voltage with No Load
2.0 4.0 VCC = +2.5 V VCC = +2.5 V VEE = -2.5 V (MHz) VEE = -2.5 V VO = ±2.0 V f = 100 kHz 1.5 3.0 μ TE (V/ s) +Slew Rate 1.0 2.0 -Slew Rate SR, SLEW RA 0.5 1.0 , GAIN BANDWIDTH PRODUCT GBW 0 0 -55 -40 -25 0 25 70 85 105 125 -55 -40 -25 0 25 70 85 105 125 TA, AMBIENT TEMPERATURE (°C) TA, AMBIENT TEMPERATURE (°C)
Figure 16. Slew Rate Figure 17. Gain Bandwidth Product versus Temperature versus Temperature
70 40 70 40 VS = ±6.0 V CL = 0 pF TA = 25°C TA = 25°C 50 RL = 600 W 80 50 RL = 600 W 80 TAGE GAIN (dB) TAGE GAIN (dB) 30 120 30 120 1A VOL 1A VOL 2A 2A 10 160 10 160 2B 1B 1A - Phase, CL = 0 pF 1A - Phase, VS = ±6.0 V 1B - Gain, C 1B 2B -10 L = 0 pF 200 1B - Gain, VS = ±6.0 V 2A - Phase, C , EXCESS PHASE (DEGREES) -10 200 , EXCESS PHASE (DEGREES) L = 300 pF O 2A - Phase, VS = ±1.0 V O , OPEN LOOP VOL 2B - Gain, C , OPEN LOOP VOL A L = 300 pF A 2B - Gain, VS = ±1.0 V -30 240 -30 240 10 k 100 k 1.0 M 10 M 10 k 100 k 1.0 M 10 M f, FREQUENCY (Hz) f, FREQUENCY (Hz)
Figure 18. Voltage Gain and Phase Figure 19. Voltage Gain and Phase versus Frequency versus Frequency www.onsemi.com 7
(mA) 150 2.0 VCC = +5.0 V V 125 EE = Gnd 1.6 CURRENT AMPLIFIER (mA) 100 TA = 125°C Source 1.2 PER CIRCUIT T 75 TA = 25°C Sink 0.8 SHOR 50 CURRENT TA = -55°C Y 25 0.4 , OUTPUT , SUPPL 0 CC 0 I SC I -55 -40 -25 0 25 70 85 105 125 ±0 ±1.0 ±2.0 ±3.0 ±4.0 ±5.0 ±6.0 T V A, AMBIENT TEMPERATURE (°C) CC, ⎮VEE⎮, SUPPLY VOLTAGE (V)
Figure 14. Output Short Circuit Current Figure 15. Supply Current per Amplifier versus Temperature versus Supply Voltage with No Load
2.0 4.0 VCC = +2.5 V VCC = +2.5 V VEE = -2.5 V (MHz) VEE = -2.5 V VO = ±2.0 V f = 100 kHz 1.5 3.0 μ TE (V/ s) +Slew Rate 1.0 2.0 -Slew Rate SR, SLEW RA 0.5 1.0 , GAIN BANDWIDTH PRODUCT GBW 0 0 -55 -40 -25 0 25 70 85 105 125 -55 -40 -25 0 25 70 85 105 125 TA, AMBIENT TEMPERATURE (°C) TA, AMBIENT TEMPERATURE (°C)
Figure 16. Slew Rate Figure 17. Gain Bandwidth Product versus Temperature versus Temperature
70 40 70 40 VS = ±6.0 V CL = 0 pF TA = 25°C TA = 25°C 50 RL = 600 W 80 50 RL = 600 W 80 TAGE GAIN (dB) TAGE GAIN (dB) 30 120 30 120 1A VOL 1A VOL 2A 2A 10 160 10 160 2B 1B 1A - Phase, CL = 0 pF 1A - Phase, VS = ±6.0 V 1B - Gain, C 1B 2B -10 L = 0 pF 200 1B - Gain, VS = ±6.0 V 2A - Phase, C , EXCESS PHASE (DEGREES) -10 200 , EXCESS PHASE (DEGREES) L = 300 pF O 2A - Phase, VS = ±1.0 V O , OPEN LOOP VOL 2B - Gain, C , OPEN LOOP VOL A L = 300 pF A 2B - Gain, VS = ±1.0 V -30 240 -30 240 10 k 100 k 1.0 M 10 M 10 k 100 k 1.0 M 10 M f, FREQUENCY (Hz) f, FREQUENCY (Hz)
Figure 18. Voltage Gain and Phase Figure 19. Voltage Gain and Phase versus Frequency versus Frequency www.onsemi.com 7
