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SN7414N

Specifications

SKU: 11226846

BUY SN7414N https://www.utsource.net/itm/p/11226846.html
IC INVERTER SCHMITT 6CH 14DIP
Parameter Symbol Min Typical Max Unit Notes
Input Voltage (VIH) 2.0 5.5 V High-level input voltage
Input Voltage (VIL) 0 0.8 V Low-level input voltage
Output Voltage (VOH) 2.4 5.0 V High-level output voltage, at 400 μA
Output Voltage (VOL) 0 0.4 V Low-level output voltage, at 16 mA
Supply Voltage VCC 4.75 5.25 V Operating supply voltage range
Propagation Delay Time (tpd) 10 30 ns Typical propagation delay time, at VCC = 5 V, TA = 25°C
Power Dissipation PD 100 mW Maximum power dissipation per package
Operating Temperature Range -55 125 °C Full operating temperature range
Storage Temperature Range -65 150 °C Storage temperature range

Instructions for Using SN7414N:

  1. Power Supply:

    • Ensure the supply voltage (VCC) is within the specified range of 4.75 V to 5.25 V.
    • Connect the ground (GND) pin to a stable reference point.
  2. Input Signals:

    • Apply input signals that meet the high-level (VIH) and low-level (VIL) voltage requirements.
    • Avoid applying voltages outside the VCC and GND levels to prevent damage.
  3. Output Signals:

    • The output voltage (VOH) should be at least 2.4 V when the output is high and no more than 0.4 V when the output is low.
    • Ensure the load current does not exceed the maximum specified values to avoid overheating or damage.
  4. Propagation Delay:

    • Account for the typical propagation delay time (tpd) of 10 ns to 30 ns when designing timing-sensitive circuits.
  5. Thermal Management:

    • Ensure adequate heat dissipation if operating near the maximum power dissipation (PD) to prevent overheating.
    • Operate within the specified temperature ranges to ensure reliable performance.
  6. Storage and Handling:

    • Store the device within the storage temperature range to avoid damage.
    • Handle with care to prevent static discharge and physical damage.
  7. Schematic and Layout:

    • Follow recommended PCB layout guidelines to minimize noise and ensure optimal performance.
    • Use decoupling capacitors close to the power pins to filter out noise and provide stable power.

By adhering to these parameters and instructions, you can ensure the reliable operation of the SN7414N in your electronic designs.

(For reference only)

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