Details
BUY SN74AS32N https://www.utsource.net/itm/p/9045085.html
| Parameter | Description | Value | Unit |
|---|---|---|---|
| Supply Voltage (VCC) | Recommended operating supply voltage | 4.5 to 5.5 | V |
| Output Drive Current | Maximum output drive current | ±24 | mA |
| Propagation Delay Time | Typical propagation delay time for VCC = 5V | 6 | ns |
| Power Dissipation | Total power dissipation | 1000 | mW |
| Operating Temperature | Recommended operating ambient temperature range | -40 to +85 | °C |
| Storage Temperature | Range of temperatures over which the device can be stored without damage | -65 to +150 | °C |
| Input Current | Maximum input leakage current | ±1 | μA |
| Output Leakage Current | Maximum output leakage current | ±50 | μA |
| Input Voltage (VIH, VIL) | High-level and low-level input voltage | VIH: 2.0 V, VIL: 0.8 V | V |
Instructions for Use:
Supply Voltage: Ensure that the supply voltage is within the specified range of 4.5 to 5.5 volts. Using voltages outside this range can cause improper operation or damage to the device.
Powering the Device: Connect the VCC pin to the positive supply and GND pin to ground. Ensure a stable power supply to avoid fluctuations that can affect performance.
Handling Outputs: The SN74AS32N can source or sink up to ±24mA per output. Do not exceed this limit to prevent damage.
Propagation Delay: Consider the typical propagation delay of 6ns when designing timing-sensitive circuits.
Temperature Management: Operate the device within the recommended temperature range (-40°C to +85°C). Exceeding these limits can lead to unreliable operation.
Storage Conditions: When storing the device, ensure it remains within the storage temperature range (-65°C to +150°C).
Input Protection: Inputs should be kept within valid logic levels (VIH and VIL). Avoid floating inputs by using pull-up or pull-down resistors as necessary.
Output Loading: Be mindful of the output leakage current and design circuits to accommodate this characteristic.
ESD Precautions: Handle the device with care to prevent electrostatic discharge (ESD), which can damage sensitive components.
Decoupling Capacitors: Place decoupling capacitors close to the power pins to minimize noise and transient effects on the power supply lines.
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