Details
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| Parameter | Symbol | Conditions | Min | Typ | Max | Unit |
|---|---|---|---|---|---|---|
| Supply Voltage | VCC | - | 2.7 | - | 36 | V |
| Input Voltage Range | VIN | - | 0 | - | VCC - 1.5 | V |
| Output Voltage Range | VOUT | - | 0 | - | VCC - 1.5 | V |
| Common-Mode Rejection Ratio | CMRR | f = 60 Hz | - | 98 | - | dB |
| Gain | AV | - | - | 5 | - | V/V |
| Bandwidth | BW | - | - | 4.5 | - | kHz |
| Quiescent Current | IQ | - | - | 200 | - | μA |
| Input Bias Current | IB | - | - | 10 | - | nA |
| Input Offset Voltage | VOS | - | - | 200 | - | μV |
| Power Dissipation | PD | - | - | 1.2 | - | W |
Instructions for Use:
Supply Voltage:
- Ensure the supply voltage (VCC) is within the range of 2.7V to 36V.
- Connect the positive supply to VCC and the negative supply to GND.
Input Voltage:
- The input voltage (VIN) should be within the range of 0V to VCC - 1.5V.
- Connect the differential inputs to the appropriate pins (IN+ and IN-).
Output Voltage:
- The output voltage (VOUT) will be within the range of 0V to VCC - 1.5V.
- Connect the output to the desired load or next stage of the circuit.
Common-Mode Rejection Ratio (CMRR):
- The INA105KP has a high CMRR of 98dB at 60Hz, which helps in rejecting common-mode signals.
Gain:
- The gain of the INA105KP is fixed at 5V/V. No external resistors are required to set the gain.
Bandwidth:
- The bandwidth is 4.5kHz, suitable for low-frequency applications.
Quiescent Current:
- The quiescent current is typically 200μA, making it suitable for low-power applications.
Input Bias Current:
- The input bias current is typically 10nA, which is very low and minimizes the effect on the input signal.
Input Offset Voltage:
- The input offset voltage is typically 200μV, which is relatively low and reduces errors in the output signal.
Power Dissipation:
- The maximum power dissipation is 1.2W. Ensure proper heat sinking if operating near this limit.
Additional Notes:
- Always refer to the datasheet for detailed specifications and application notes.
- Proper PCB layout and grounding techniques are essential for optimal performance.
- Use bypass capacitors (e.g., 0.1μF) close to the power supply pins to filter out noise.
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