Details
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IC COMPARATOR TTL SC70-6
| Parameter | Description | Value | Unit |
|---|---|---|---|
| Supply Voltage | Operating supply voltage range | 2.7 to 5.5 | V |
| Quiescent Current | Supply current (typical) | 3 | μA |
| Input Offset Voltage | Maximum input offset voltage | ±1 | mV |
| Input Bias Current | Maximum input bias current | ±100 | nA |
| Slew Rate | Typical slew rate | 0.6 | V/μs |
| Bandwidth | -3dB bandwidth (typical) | 1.4 | MHz |
| Common-Mode Input Voltage Range | Input voltage range relative to ground | 0 to VCC - 1.2 | V |
| Output Voltage Swing | Output swing (typical) | 0 to VCC - 1.2 | V |
| Propagation Delay | Typical propagation delay time | 280 | ns |
| Operating Temperature Range | Temperature range for operation | -40 to +125 | °C |
Instructions for Using the MAX9010EXT+T
Supply Voltage:
- Ensure the supply voltage is within the specified range of 2.7V to 5.5V.
- Use a stable power source to avoid fluctuations that could affect performance.
Quiescent Current:
- The device draws a typical quiescent current of 3μA, making it suitable for low-power applications.
Input Signals:
- Ensure that the input signals do not exceed the common-mode input voltage range (0 to VCC - 1.2V).
- Keep input bias currents within the specified limits (±100nA).
Output Configuration:
- The output voltage swing is from 0 to VCC - 1.2V. Ensure that the load connected to the output can handle this range.
- For optimal performance, use a pull-up resistor if driving a high-impedance load.
Propagation Delay:
- The typical propagation delay is 280ns. This should be considered when designing timing-sensitive circuits.
Temperature Considerations:
- The device is rated for operation over a wide temperature range (-40°C to +125°C). Ensure that the operating environment does not exceed these limits.
Handling and Storage:
- Handle the device with care to avoid damage from electrostatic discharge (ESD).
- Store the device in a dry, cool place to prevent moisture damage.
Mounting and PCB Design:
- Follow standard PCB design practices to ensure reliable performance.
- Use proper grounding and decoupling capacitors near the power pins to minimize noise and improve stability.
Testing and Troubleshooting:
- Test the device under typical operating conditions to verify its performance.
- If issues arise, check for proper power supply, signal integrity, and correct connections.
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