Panasonic 25SVPT330M

The "Mounting Type" in electronic components refers to the method used to attach or connect a component to a circuit board or other substrate, such as through-hole, surface-mount, or panel mount.

refers to the protective housing that encases an electronic component, providing mechanical support, electrical connections, and thermal management.

Surface Mount Land Size refers to the dimensions of the conductive pad on a printed circuit board (PCB) where a surface mount device (SMD) is attached. It is crucial for ensuring proper soldering, electrical connectivity, and mechanical stability of the component. The land size must match the footprint of the SMD to maintain optimal performance and reliability. Manufacturers often specify land sizes in component datasheets to guide PCB designers in creating compatible layouts.

The parameter "Product Weight (g)" in electronic components refers to the weight of the component measured in grams. This measurement is important for various reasons, such as determining the overall weight of a product, calculating shipping costs, and ensuring compatibility with the intended application or system. The weight of electronic components can vary significantly depending on the type of component and its size, with smaller components typically weighing less than larger ones. Manufacturers provide this information to help customers make informed decisions about the components they are using in their projects or products.

the maximum body temperature at which the thermistor is designed to operate for extended periods of time with acceptable stability of its electrical characteristics.

The DC Voltage ratings are the AC voltage values times 1.41 (usually rounded).

"Base Product Number" (BPN) refers to the fundamental identifier assigned to a component by the manufacturer. This number is used to identify a specific product family or series of components that share common features, characteristics, or functionality. The BPN is usually part of a larger part number or order code that includes additional information, such as variations in packaging, tolerance, voltage ratings, and other specifications.

RATED voltage is the voltage on the nameplate - the "design point" for maximum power throughput and safe thermal operation.

Semiconductor package is a carrier / shell used to contain and cover one or more semiconductor components or integrated circuits. The material of the shell can be metal, plastic, glass or ceramic.

In electronic components, the "Series" refers to a group of products that share similar characteristics, designs, or functionalities, often produced by the same manufacturer. These components within a series typically have common specifications but may vary in terms of voltage, power, or packaging to meet different application needs. The series name helps identify and differentiate between various product lines within a manufacturer's catalog.

The operating temperature is the range of ambient temperature within which a power supply, or any other electrical equipment, operate in. This ranges from a minimum operating temperature, to a peak or maximum operating temperature, outside which, the power supply may fail.

In electronic components, the parameter "Size / Dimension" refers to the physical dimensions of the component, such as its length, width, and height. These dimensions are crucial for determining how the component will fit into a circuit or system, as well as for ensuring compatibility with other components and the overall design requirements. The size of a component can also impact its performance characteristics, thermal properties, and overall functionality within a given application. Engineers and designers must carefully consider the size and dimensions of electronic components to ensure proper integration and functionality within their designs.

In electronic components, "tolerance" refers to the acceptable deviation or variation from the specified or ideal value of a particular parameter, such as resistance, capacitance, or voltage. It indicates the range within which the actual value of the component can fluctuate while still being considered acceptable for use in a circuit. Tolerance is typically expressed as a percentage or a specific value and is important for ensuring the accuracy and reliability of electronic devices. Components with tighter tolerances are more precise but may also be more expensive. It is crucial to consider tolerance when selecting components to ensure proper functionality and performance of the circuit.

The parameter "Applications" in electronic components refers to the specific uses or functions for which a component is designed. It encompasses various fields such as consumer electronics, industrial automation, telecommunications, automotive, and medical devices. Understanding the applications helps in selecting the right components for a particular design based on performance, reliability, and compatibility requirements. This parameter also guides manufacturers in targeting their products to relevant markets and customer needs.

Capacitance is a fundamental electrical property of electronic components that describes their ability to store electrical energy in the form of an electric field. It is measured in farads (F) and represents the ratio of the amount of electric charge stored on a component to the voltage across it. Capacitors are passive components that exhibit capacitance and are commonly used in electronic circuits for various purposes such as filtering, energy storage, timing, and coupling. Capacitance plays a crucial role in determining the behavior and performance of electronic systems by influencing factors like signal propagation, frequency response, and power consumption.

In the context of electronic components, the parameter "Technology" refers to the specific manufacturing process and materials used to create the component. This includes the design, construction, and materials used in the production of the component. The technology used can greatly impact the performance, efficiency, and reliability of the electronic component. Different technologies may be used for different types of components, such as integrated circuits, resistors, capacitors, and more. Understanding the technology behind electronic components is important for selecting the right components for a particular application and ensuring optimal performance.

Construction in electronic components refers to the design and materials used in the manufacturing of the components. It encompasses the physical structure, arrangement, and integration of various parts like substrates, conductors, and insulators. The construction impacts the performance, reliability, and thermal properties of the component, influencing how it interacts with electrical signals and other components in a circuit. Different construction techniques can also affect the size, weight, and cost of the electronic component.

"Termination style" in electronic components refers to the method used to connect the component to a circuit board or other electronic devices. It determines how the component's leads or terminals are designed for soldering or mounting onto the circuit board. Common termination styles include through-hole, surface mount, and wire lead terminations.Through-hole components have leads that are inserted through holes in the circuit board and soldered on the other side. Surface mount components have flat terminals that are soldered directly onto the surface of the circuit board. Wire lead terminations involve attaching wires to the component for connection.The choice of termination style depends on factors such as the type of component, the manufacturing process, and the space available on the circuit board. Different termination styles offer various advantages in terms of ease of assembly, reliability, and space efficiency in electronic designs.

Equivalent Series Resistance (ESR) is a parameter that describes the internal resistance of a capacitor or an inductor in an electronic circuit. It represents the total resistance that is present in series with the ideal capacitance or inductance of the component. ESR is typically caused by factors such as the resistance of the conductive materials used in the component, the connections within the component, and the dielectric material used. A lower ESR value is desirable in electronic components as it indicates better performance and efficiency, especially in applications where high-frequency signals or rapid changes in voltage are involved. ESR is an important parameter to consider when selecting components for applications such as power supplies, filtering circuits, and signal processing.

In electronic components, polarity refers to the orientation or direction in which the component must be connected in a circuit to function properly. Components such as diodes, capacitors, and LEDs have polarity markings to indicate which terminal should be connected to the positive or negative side of the circuit. Connecting a component with incorrect polarity can lead to malfunction or damage. It is important to pay attention to polarity markings and follow the manufacturer's instructions to ensure proper operation of electronic components.

the distance between two baselines of lines of type. The word 'leading' originates from the strips of lead hand-typesetters used to use to space out lines of text evenly. The word leading has stuck, but essentially it's a typographer's term for line spacing.

Voltage is a measure of the electric potential difference between two points in an electrical circuit. It is typically represented by the symbol "V" and is measured in volts. Voltage is a crucial parameter in electronic components as it determines the flow of electric current through a circuit. It is responsible for driving the movement of electrons from one point to another, providing the energy needed for electronic devices to function properly. In summary, voltage is a fundamental concept in electronics that plays a key role in the operation and performance of electronic components.

Leakage current is a term used in electronics to describe the small amount of current that flows through a component when it is supposed to be in a non-conductive state. This current can occur due to imperfections in the materials used to manufacture the component, as well as other factors such as temperature and voltage. Leakage current can lead to power loss, reduced efficiency, and potential reliability issues in electronic devices. It is important to consider and minimize leakage current in electronic components to ensure proper functionality and performance.

the pulsed current consumption of non-linear devices like capacitor-input rectifiers.

Ripple current at low frequency is a parameter that describes the maximum alternating current that a component can handle without exceeding its specified temperature limits. This type of current typically occurs in electronic components such as capacitors and inductors when they are subjected to fluctuating voltage levels. The ripple current at low frequency is important to consider in the design and selection of components to ensure they can operate reliably and efficiently under varying conditions. It is typically specified in datasheets to provide guidance on the component's performance and limitations in real-world applications.

Ripple Current @ High Frequency refers to the alternating current component that flows through a capacitor or an inductor within a circuit when subjected to a high-frequency signal. It is particularly relevant in switching power supplies and filter circuits, where the frequency of the voltage ripple can influence the performance and efficiency of the component. The parameter indicates the maximum allowable ripple current that can pass through the component without causing excessive heating or damage, thus ensuring reliable operation during high-frequency conditions.

a group of products which fulfill a similar need for a market segment or market as a whole.

ESR stands for Equivalent Series Resistance and is a crucial parameter in electronic components, particularly in capacitors. It represents the internal resistance of a capacitor at high frequencies and is measured in ohms. ESR is important because it affects the performance and efficiency of the capacitor in filtering and energy storage applications. A low ESR value indicates a more efficient capacitor with better performance, while a high ESR value can lead to increased power losses and reduced effectiveness of the capacitor. It is essential to consider the ESR value when selecting capacitors for specific electronic circuits to ensure optimal performance.

The parameter "Size(mm)" in electronic components refers to the physical dimensions of the component, typically measured in millimeters. This measurement provides information about the overall size of the component, including its length, width, and height. Understanding the size of electronic components is important for designing circuits and ensuring proper fit within a system or on a circuit board. It also helps in determining the spacing and arrangement of components to avoid interference or overcrowding. Manufacturers often provide the size specifications to help users select the appropriate components for their specific application requirements.

In the context of electronic components, the parameter "Product" typically refers to the specific item or device being discussed or analyzed. It can refer to a physical electronic component such as a resistor, capacitor, transistor, or integrated circuit. The product parameter may also encompass more complex electronic devices like sensors, displays, microcontrollers, or communication modules.Understanding the product parameter is crucial in electronics as it helps identify the characteristics, specifications, and functionality of the component or device in question. This information is essential for selecting the right components for a circuit design, troubleshooting issues, or comparing different products for a particular application. Manufacturers often provide detailed product datasheets that outline key specifications, performance characteristics, and application guidelines to assist engineers and designers in utilizing the component effectively.

a particular group of related products.

Product Length in electronic components refers to the physical measurement of an electronic part from one end to the other along its longest axis. It is a crucial specification that helps in determining compatibility with circuit boards, enclosures, and other components. Understanding the Product Length is essential for ensuring proper placement and assembly within electronic designs.

In electronic components, "Product Width" typically refers to the physical width or diameter of the component. It is an important parameter as it determines the size and form factor of the component, which in turn can impact its compatibility with other components or devices. The product width measurement is usually specified in millimeters or inches and is crucial for ensuring proper fit and alignment within a circuit or system. Designers and engineers often consider the product width along with other dimensions to ensure that the component will function correctly within the intended application.

In electronic components, the parameter "Diameter" typically refers to the measurement of the width of a circular component, such as a resistor, capacitor, or inductor. It is a crucial dimension that helps determine the physical size and fit of the component within a circuit or on a circuit board. The diameter is usually measured in millimeters (mm) or inches (in) and is important for ensuring proper placement and soldering of the component during assembly. Understanding the diameter of electronic components is essential for selecting the right size for a specific application and ensuring compatibility with other components and the overall design of the circuit.

Height Seated (Max) is a parameter in electronic components that refers to the maximum allowable height of the component when it is properly seated or installed on a circuit board or within an enclosure. This specification is crucial for ensuring proper fit and alignment within the overall system design. Exceeding the maximum seated height can lead to mechanical interference, electrical shorts, or other issues that may impact the performance and reliability of the electronic device. Manufacturers provide this information to help designers and engineers select components that will fit within the designated space and function correctly in the intended application.

Product Height in electronic components refers to the vertical measurement of the component when it is oriented in a specific way, typically from the bottom to the top. This parameter is important for determining the physical dimensions of the component and how it will fit within a system or device. It is often specified in millimeters or inches and is crucial for ensuring proper clearance and spacing within a circuit board or enclosure. Understanding the product height helps designers and engineers plan for the overall size and layout of a product, ensuring that all components fit together properly and function as intended.

Product Height (mm) in electronic components refers to the measurement of the component's vertical dimension. It indicates how tall the component is when installed in a circuit or system. This parameter is crucial for determining compatibility with enclosures, ensuring adequate space for components on printed circuit boards, and facilitating proper airflow and cooling in electronic designs.

RoHS means “Restriction of Certain Hazardous Substances” in the “Hazardous Substances Directive” in electrical and electronic equipment.

The parameter "Ratings" in electronic components refers to the specified limits that define the maximum operational capabilities of a component. These ratings include voltage, current, power, temperature, and frequency, determining the conditions under which the component can function safely and effectively. Exceeding these ratings can lead to failure, damage, or unsafe operation, making it crucial for designers to adhere to them during component selection and usage.