ZHCSIM8C August 2018 – July 2019 INA821
PRODUCTION DATA.
| DESCRIPTION | FIGURE |
|---|---|
| Typical Distribution of Input Stage Offset Voltage | Figure 1 |
| Typical Distribution of Input Stage Offset Voltage Drift | Figure 2 |
| Typical Distribution of Output Stage Offset Voltage | Figure 3 |
| Typical Distribution of Output Stage Offset Voltage Drift | Figure 4 |
| Input Stage Offset Voltage vs Temperature | Figure 5 |
| Output Stage Offset Voltage vs Temperature | Figure 6 |
| Typical Distribution of Input Bias Current, TA = 25°C | Figure 7 |
| Typical Distribution of Input Bias Current, TA = 90°C | Figure 8 |
| Typical Distribution of Input Offset Current | Figure 9 |
| Input Bias Current vs Temperature | Figure 10 |
| Input Offset Current vs Temperature | Figure 11 |
| Typical CMRR Distribution, G = 1 | Figure 12 |
| Typical CMRR Distribution, G = 10 | Figure 13 |
| CMRR vs Temperature, G = 1 | Figure 14 |
| CMRR vs Temperature, G = 10 | Figure 15 |
| Input Current vs Input Overvoltage | Figure 16 |
| CMRR vs Frequency (RTI) | Figure 17 |
| CMRR vs Frequency (RTI, 1-kΩ source imbalance) | Figure 18 |
| Positive PSRR vs Frequency (RTI) | Figure 19 |
| Negative PSRR vs Frequency (RTI) | Figure 20 |
| Gain vs Frequency | Figure 21 |
| Voltage Noise Spectral Density vs Frequency (RTI) | Figure 22 |
| Current Noise Spectral Density vs Frequency (RTI) | Figure 23 |
| 0.1-Hz to 10-Hz RTI Voltage Noise, G = 1 | Figure 24 |
| 0.1-Hz to 10-Hz RTI Voltage Noise, G = 1000 | Figure 25 |
| 0.1-Hz to 10-Hz RTI Current Noise | Figure 26 |
| Typical Distribution of Gain Error, G = 1 | Figure 27 |
| Typical Distribution of Gain Error, G = 10 | Figure 28 |
| Input Bias Current vs Common-Mode Voltage | Figure 29 |
| Gain Error vs Temperature, G = 1 | Figure 30 |
| Gain Error vs Temperature, G = 10 | Figure 31 |
| Supply Current vs Temperature | Figure 32 |
| Gain Nonlinearity, G = 1 | Figure 33 |
| Gain Nonlinearity, G = 10 | Figure 34 |
| Offset Voltage vs Negative Common-Mode Voltage | Figure 35 |
| Offset Voltage vs Positive Common-Mode Voltage | Figure 36 |
| Positive Output Voltage Swing vs Output Current | Figure 37 |
| Negative Output Voltage Swing vs Output Current | Figure 38 |
| Short-Circuit Current vs Temperature | Figure 39 |
| Large-Signal Frequency Response | Figure 40 |
| THD+N vs Frequency | Figure 41 |
| Overshoot vs Capacitive Loads | Figure 42 |
| Small-Signal Response, G = 1 | Figure 43 |
| Small-Signal Response, G = 10 | Figure 44 |
| Small-Signal Response, G = 100 | Figure 45 |
| Small-Signal Response, G = 1000 | Figure 46 |
| Large-Signal Step Response | Figure 47 |
| Closed-Loop Output Impedance | Figure 48 |
| Differential-Mode EMI Rejection Ratio | Figure 49 |
| Common-Mode EMI Rejection Ratio | Figure 50 |
| Input Common-Mode Voltage vs Output Voltage, G = 1, VS = 5 V | Figure 51 |
| Input Common-Mode Voltage vs Output Voltage, G = 100, VS = 5 V | Figure 52 |
| Input Common-Mode Voltage vs Output Voltage, VS = ±5 V | Figure 53 |
| Input Common-Mode Voltage vs Output Voltage, VS = ±15 V | Figure 54 |