Typical Distribution of
Offset Voltage (RTO) G= 1/2, VS = ±2.25 V |
Figure 7-1 |
Typical Distribution of
Offset Voltage (RTO) G= 2, , VS = ±2.25 V |
Figure 7-2 |
Typical Distribution of
Offset Voltage (RTO) G= 1/2, , VS = ±18 V |
Figure 7-3 |
Typical Distribution of
Offset Voltage (RTO) G= 2, VS = ±18 V |
Figure 7-4 |
Typical Distribution of
Offset Voltage Drift (RTO) G = 1/2 |
Figure 7-5 |
Typical Distribution of
Offset Voltage Drift (RTO) G = 2 |
Figure 7-6 |
Output Offset Voltage vs
Temperature G = 1/2 |
Figure 7-7 |
Output Offset Voltage vs
Temperature G = 2 |
Figure 7-8 |
Offset Voltage vs Common-Mode
Voltage G = 1/2 |
Figure 7-9 |
Offset Voltage vs Common-Mode
Voltage G = 2 |
Figure 7-10 |
Input Bias Current vs Temperature G
= 1/2 and G = 2 |
Figure 7-11 |
Input Offset Current vs
Temperature |
Figure 7-12 |
Input Bias Current vs Common Mode
Voltage G = 1/2 |
Figure 7-13 |
Input Bias Current vs Common Mode
Voltage G = 2 |
Figure 7-14 |
Typical CMRR Distribution G = 1/2,
VS = ±2.25 V |
Figure 7-15 |
Typical CMRR Distribution G = 2,
VS = ±2.25 V |
Figure 7-16 |
Typical CMRR Distribution G = 1/2,
VS = ±18 V |
Figure 7-17 |
Typical CMRR Distribution G = 2,
VS = ±18 V |
Figure 7-18 |
CMRR vs Temperature G = 1/2 |
Figure 7-19 |
CMRR vs Temperature G = 2 |
Figure 7-20 |
Common-Mode Rejection Ratio vs
Frequency (RTI) G = 1/2 and 2 |
Figure 7-21 |
Maximum Output Voltage vs
Frequency |
Figure 7-22 |
PSRR vs Temperature G = 1/2 |
Figure 7-23 |
PSRR vs Temperature G = 2 |
Figure 7-24 |
PSRR vs Frequency (RTI) G =
1/2 |
Figure 7-25 |
PSRR vs Frequency (RTI) G =
2 |
Figure 7-26 |
Typical Distribution of Gain Error G
= 1/2, Vs = ±2.25V |
Figure 7-27 |
Typical Distribution of Gain Error G
= 2, Vs = ±2.25V |
Figure 7-28 |
Gain Error vs Temperature G = 1
/2 |
Figure 7-29 |
Gain Error vs Temperature G =
2 |
Figure 7-30 |
Closed-Loop Gain vs
Frequency G = 1/2 |
Figure 7-31 |
Closed-Loop Gain vs Frequency G =
2 |
Figure 7-32 |
Voltage Noise Spectral Density vs
Frequency (RTI) G = 1/2 |
Figure 7-33 |
Voltage Noise Spectral Density vs
Frequency (RTI) G = 2 |
Figure 7-34 |
0.1-Hz to 10-Hz RTI Voltage Noise G
= 1/2 |
Figure 7-35 |
0.1-Hz to 10-Hz RTI Voltage Noise G
= 2 |
Figure 7-36 |
Integrated Output Voltage Noise vs
Noise Bandwidth G = 1/2 |
Figure 7-37 |
Integrated Output Voltage Noise vs
Noise Bandwidth G = 2 |
Figure 7-38 |
Positive Output Voltage vs Output
Current (sourcing) G = 1/2 |
Figure 7-39 |
Positive Output Voltage vs Output
Current (sourcing) G = 2 |
Figure 7-40 |
Negative Output Voltage vs Output
Current (sinking) G = 1/2 |
Figure 7-41 |
Negative Output Voltage vs Output
Current (sinking) G = 2 |
Figure 7-42 |
Settling Time G = 1/2 |
Figure 7-43 |
Settling Time G = 2 |
Figure 7-44 |
Large Signal Step Response G =
1/2 |
Figure 7-45 |
Large Signal Step Response G
=2 |
Figure 7-46 |
Slew Rate over Temperature |
Figure 7-47 |
Overload Recovery (Normalized to
0V) |
Figure 7-48 |
Small-Signal Overshoot vs Capacitive
Load G = 1/2 |
Figure 7-49 |
Small-Signal Overshoot vs Capacitive
Load G = 2 |
Figure 7-50 |
Small-Signal Step
Response G = 1/2 |
Figure 7-51 |
Small-Signal Step
Response G = 2 |
Figure 7-52 |
THD+N vs Frequency G =
1/2 |
Figure 7-53 |
THD+N vs Frequency G =
2 |
Figure 7-54 |
THD+N Ratio vs Output
Amplitude G = 1/2 |
Figure 7-55 |
THD+N Ratio vs Output
Amplitude G = 2 |
Figure 7-56 |
Supply Current vs
Temperature G = 1/2 |
Figure 7-57 |
Supply Current vs
Temperature G = 2 |
Figure 7-58 |
Supply Current vs Supply
Voltage G = 1/2 |
Figure 7-59 |
Supply Current vs Supply
Voltage G = 2 |
Figure 7-60 |
Short Circuit Current vs
Temperature G = 1/2 |
Figure 7-61 |
Short Circuit Current vs
Temperature G = 2 |
Figure 7-62 |
Differential-Mode EMI
Rejection Ratio G = 1/2 |
Figure 7-63 |
Differential-Mode EMI
Rejection Ratio G = 2 |
Figure 7-64 |
Common-Mode EMI
Rejection Ratio G = 1/2 |
Figure 7-65 |
Common-Mode EMI
Rejection Ratio G = 2 |
Figure 7-66 |
Input Common-Mode
Voltage vs Output Voltage G = 1/2, Bipolar Supply |
Figure 7-67 |
Input Common-Mode
Voltage vs Output Voltage G= 2, Bipolar Supply |
Figure 7-68 |
Input Common-Mode
Voltage vs Output Voltage G = 1/2, 5-V Supply |
Figure 7-69 |
Input Common-Mode
Voltage vs Output Voltage G = 2, 5-V Supply |
Figure 7-70 |
Input Common-Mode
Voltage vs Output Voltage G = 1/2, 36-V Supply |
Figure 7-71 |
Input Common-Mode
Voltage vs Output Voltage G = 2, 36-V Supply |
Figure 7-72 |
Closed-Loop Output
Impedance vs Frequency |
Figure 7-73 |