KEMET ESY108M010AG6AA

Mounting Type refers to the method by which an electronic component is attached to a printed circuit board (PCB) or other surface. Common mounting types include: * Through-hole: Component leads are inserted into holes in the PCB and soldered on the other side. * Surface-mount: Component is placed on the surface of the PCB and soldered in place. * Press-fit: Component is pressed into place on the PCB without soldering. * Socket: Component is inserted into a socket on the PCB, allowing for easy replacement. The mounting type is determined by factors such as the component's size, shape, and power requirements.

Package / Case refers to the physical housing or enclosure that encapsulates an electronic component. It provides protection, facilitates handling, and enables electrical connections. The package type determines the component's size, shape, pin configuration, and mounting options. Common package types include DIP (dual in-line package), SOIC (small outline integrated circuit), and BGA (ball grid array). The package also influences the component's thermal and electrical performance.

Operating Temperature is the range of temperatures at which an electronic component can function properly. It is typically specified in degrees Celsius (°C) and indicates the minimum and maximum temperatures at which the component can operate without experiencing damage or degradation. Operating Temperature is an important parameter to consider when designing electronic circuits, as it ensures that the components will function reliably in the intended operating environment.

Tolerance in electronic components refers to the allowable deviation from the specified value. It indicates the range within which the actual value of the component can vary while still meeting the manufacturer's specifications. Tolerance is typically expressed as a percentage of the nominal value, such as ±5% or ±10%. A lower tolerance indicates a tighter range of acceptable values, resulting in more precise and consistent performance.

Termination refers to the electrical characteristics of a component or circuit at its input or output terminals. It describes how the component or circuit interacts with external signals or devices. Termination can involve matching impedance, providing voltage or current regulation, or filtering unwanted signals. Proper termination ensures efficient signal transfer, minimizes reflections, and prevents damage to components. It is crucial for maintaining signal integrity and optimizing circuit performance.

Capacitance is the ability of a component to store electrical charge. It is measured in farads (F). A capacitor is a passive electronic component that consists of two conductors separated by an insulator. When a voltage is applied across the capacitor, charge builds up on the conductors. The amount of charge that can be stored depends on the capacitance of the capacitor. Capacitors are used in a variety of electronic circuits, including filters, timing circuits, and energy storage devices.

Lead length refers to the distance between the body of an electronic component and the point where its leads or terminals emerge. It is a crucial parameter that affects the component's performance, reliability, and ease of assembly. Lead length influences factors such as inductance, capacitance, and heat dissipation. Longer leads can increase inductance and capacitance, which may impact signal integrity and circuit performance. They can also affect heat dissipation, as longer leads provide a larger surface area for heat transfer. Optimal lead length is determined based on the component's intended application and the desired electrical and thermal characteristics.

Ripple current is the alternating current (AC) component of the current flowing through a capacitor. It is caused by the charging and discharging of the capacitor as the AC voltage applied to it changes. The ripple current can cause the capacitor to heat up and can also lead to premature failure. The maximum ripple current that a capacitor can handle is specified in its datasheet.

Polarization in electronic components refers to the orientation of the electric field within the component. It is a measure of the component's ability to store electrical energy. A polarized component has a positive and a negative terminal, and the electric field is oriented from the positive to the negative terminal. When a polarized component is connected to a voltage source, the electric field is established and the component stores electrical energy.

Height, in the context of electronic components, refers to the vertical dimension of the component. It is typically measured in millimeters (mm) or inches (in). Height is an important parameter to consider when designing and assembling electronic circuits, as it affects the overall size and form factor of the device. Components with a smaller height are often preferred for applications where space is limited, such as in portable devices or embedded systems.