Product data sheet. Rev. 5 — 5 October 2 of Nexperia. BAT54 series. Schottky barrier diodes. 3. Ordering information. 4. Marking. Datasheets, BAT54,A,C,S. PCN Obsolescence/ EOL, 1Q Product EOL 31/ Mar/ PCN Design/Specification, Mold Compound 12/Dec/ Mutl Dev Wafer Source Add 15/Jun/ PCN Other, Multiple Device Changes 29/Apr/ HTML Datasheet, BAT54, A, C, S Datasheet. EDA / CAD Models?.
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Common Anode for the two schottky diodes in the device. The current flows in to the device from this pin. Cathode for second schottky diode in the device.
BAT54A Schottky Diode Pinout, Equivalent & Datasheet
The current flows out from the device through this pin. Cathode for first schottky diode in the device. BAT54A can be operated like any other rectifier diode and can be installed in rectifier and protection circuits.
With that the characteristics of BAT54A can be given as:. In the above circuit BAT54A is used as a protection diode datashewt the microcontroller.
Panjit International Inc – datasheet pdf
Here the power supply unit delivers power Microcontroller while diode in series is for protection. In the above circuit BAT54A protects sensitive Microcontroller from reverse voltage and in a similar way we can use the device in other baf54a circuits. Submitted by admin on 22 November The device being designed to have low voltage drop during conduction will become necessary in low voltage circuits where conduction voltage drop cannot be afforded.
BAT54A is used in circuits where power efficiency is important. The device being capable of carrying sizable currents while having low drop will lead to high efficiency which is a necessity in battery operated systems.
BAT54A is designed to be capable of recovering from forward conduction to blocking reverse voltage taking only 5nS so that it can be operated high frequency applications. With that the characteristics of BAT54A can be given as: Conducts in forward bias direction Anode connected to positive voltage and Cathode connected to ground Only leakage current up to 0. Working of circuit When the supply unit delivers power the diode gets forward biased and current starts flowing.
Because of current flow a voltage appears at the Microcontroller and this voltage will be very near to PSU voltage because the device has very low drop during forward conduction.
Now for an instant consider the PSU polarity is connected wrongly. Under such state the diode gets reverse biased and based on BAT54A characteristics no current flows through the circuit during reverse bias.
So under error connection there will be zero voltage appearing across the Microcontroller thus saving it from damage. TL — Programmable Reference Voltage.