The "MCX623105AC VDAT" is a model specification for a type of electronic component, typically a capacitor. To provide a clear and distinct introduction to the key attributes of this model, we can break down the information into several categories:

1. Component Type: The "MCX" prefix often indicates that the component is a type of capacitor designed for use in high frequency applications, such as those found in radio frequency (RF) and microwave circuits.

2. Dielectric Material: The "23" in the model number suggests the dielectric material used in the capacitor. This could be a ceramic material with a specific dielectric constant, which affects the capacitor's capacitance value and its performance at high frequencies.

3. Capacitance Value: The "105" typically represents the capacitance value in picofarads (pF). In this case, it would be 10.5 pF, which is a common value for capacitors used in RF and microwave applications.

4. Tolerance: The "AC" in the model number often indicates the tolerance of the capacitor. This could be a specific percentage or a range that defines how much the actual capacitance can vary from the nominal value.

5. Package Type: The "V" in the model number suggests the package type, which is often a miniature or surface mount package suitable for high frequency applications where space is at a premium.

6. Temperature Stability: The "DAT" at the end of the model number could indicate a specific temperature range or stability characteristic of the capacitor, ensuring it performs reliably within a certain temperature range.

7. Voltage Rating: While not explicitly mentioned in the model number, capacitors also have a voltage rating that specifies the maximum voltage they can withstand without breaking down.

In summary, the "MCX623105AC VDAT" is a high frequency ceramic capacitor with a nominal capacitance of 10.5 pF, a specific dielectric material indicated by "23", a tolerance indicated by "AC", a miniature or surface mount package type indicated by "V", and a temperature stability or range indicated by "DAT". It is designed for use in high frequency circuits where precise capacitance and reliable performance are critical.