Details
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GATE
| Parameter | Symbol | Conditions | Min | Typical | Max | Unit |
|---|---|---|---|---|---|---|
| Supply Voltage | VDD | Operating | 3 | - | 18 | V |
| Supply Current | IDD | Quiescent, VDD = 5V | - | 0.02 | - | mA |
| Input Voltage (High) | VIH | VDD = 5V | 3.5 | - | 5 | V |
| Input Voltage (Low) | VIL | VDD = 5V | 0 | - | 1.5 | V |
| Output Voltage (High) | VOH | VDD = 5V, IO = 0.4mA | 3.5 | - | 5 | V |
| Output Voltage (Low) | VOL | VDD = 5V, IO = 8mA | 0 | - | 0.5 | V |
| Propagation Delay Time | tpd | VDD = 5V, VI = VDD/2, IL = 0.4mA, IH = -0.4mA | 16 | - | 50 | ns |
| Power Dissipation | PD | Maximum, TA = 25°C | - | - | 100 | mW |
Instructions for HCF4075BEY
Supply Voltage:
- Ensure the supply voltage (VDD) is within the operating range of 3V to 18V.
- Avoid exceeding the maximum supply voltage to prevent damage to the device.
Input Signals:
- For a logic high input, the voltage should be at least 3.5V when VDD is 5V.
- For a logic low input, the voltage should not exceed 1.5V when VDD is 5V.
Output Signals:
- The output voltage (VOH) will be at least 3.5V when VDD is 5V and the output current (IO) is 0.4mA.
- The output voltage (VOL) will be no more than 0.5V when VDD is 5V and the output current (IO) is 8mA.
Propagation Delay:
- The propagation delay time (tpd) is the time it takes for the output to change state after the input changes. It ranges from 16ns to 50ns at VDD = 5V.
Power Dissipation:
- The maximum power dissipation (PD) at ambient temperature (TA) of 25°C is 100mW. Ensure adequate heat dissipation if operating near this limit.
Handling and Storage:
- Handle the device with care to avoid static discharge, which can damage the internal circuits.
- Store in a dry, cool place away from direct sunlight and sources of heat.
Circuit Design:
- Use decoupling capacitors (typically 0.1μF) close to the VDD and GND pins to filter out noise and ensure stable operation.
- Ensure all unused inputs are tied to a known state (either VDD or GND) to prevent floating inputs, which can cause unpredictable behavior.
Testing:
- Before integrating the HCF4075BEY into your design, test it on a breadboard or evaluation board to verify its functionality under your specific conditions.
By following these guidelines, you can ensure reliable and efficient operation of the HCF4075BEY in your circuit.
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