CD4011 DIP14 TI
CD4011 DIP14 TI

 

CD4011 DIP14 TI

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Description

BUY CD4011 DIP14 TI https://www.utsource.net/itm/p/11258263.html

Parameter Description Value Unit
Supply Voltage (VCC) Minimum Operating Voltage 3 V
Supply Voltage (VCC) Maximum Operating Voltage 15 V
Input Voltage (VIH) High-Level Input Voltage 2VCC/3 V
Input Voltage (VIL) Low-Level Input Voltage VCC/3 V
Output Voltage (VOH) High-Level Output Voltage VCC - 0.5 V
Output Voltage (VOL) Low-Level Output Voltage 0.5 V
Input Current (IIH) High-Level Input Current 40 μA
Input Current (IIL) Low-Level Input Current -1.0 μA
Output Current (IOH) High-Level Output Current -400 μA
Output Current (IOL) Low-Level Output Current 8 mA
Propagation Delay Time (tpd) Typical Propagation Delay Time at VCC = 5V 36 ns
Power Dissipation (PD) Maximum Power Dissipation 100 mW
Operating Temperature Range Commercial Grade 0 to 70 °C
Operating Temperature Range Industrial Grade -40 to 85 °C
Storage Temperature Range -65 to 150 °C

Instructions for Use:

  1. Power Supply:

    • Connect the supply voltage (VCC) to pin 14 and ground (GND) to pin 7.
    • Ensure the supply voltage is within the specified range (3V to 15V).

  2. Input Connections:

    • Connect input signals to the appropriate input pins (pins 1, 2, 5, 6, 8, 9, 12, 13).
    • Ensure input voltages do not exceed the supply voltage (VCC).

  3. Output Connections:

    • Connect load or next stage to the output pins (pins 3, 4, 10, 11).
    • Ensure the output current does not exceed the maximum ratings.

  4. Propagation Delay:

    • Consider the propagation delay time when designing timing-sensitive circuits.

  5. Temperature Considerations:

    • Operate the device within the specified temperature ranges to ensure reliable performance.

  6. Storage and Handling:

    • Store the device in a dry environment and handle with care to avoid damage from static electricity.

  7. Soldering:

    • Use appropriate soldering techniques and temperatures to avoid thermal stress on the device.

  8. Decoupling Capacitors:

    • Place decoupling capacitors close to the power supply pins to reduce noise and improve stability.

  9. Pin Configuration:

    • Refer to the pinout diagram for correct pin assignments:
      • Pin 1: Input A1
      • Pin 2: Input B1
      • Pin 3: Output Y1
      • Pin 4: Output Y2
      • Pin 5: Input A2
      • Pin 6: Input B2
      • Pin 7: GND
      • Pin 8: Input A3
      • Pin 9: Input B3
      • Pin 10: Output Y3
      • Pin 11: Output Y4
      • Pin 12: Input A4
      • Pin 13: Input B4
      • Pin 14: VCC

By following these parameters and instructions, you can ensure the proper operation and longevity of the CD4011 DIP14 TI IC.

(For reference only)

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