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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.

The "JESD-609 Code" in electronic components refers to a standardized marking code that indicates the lead-free solder composition and finish of electronic components for compliance with environmental regulations.

The "Pbfree Code" parameter in electronic components refers to the code or marking used to indicate that the component is lead-free. Lead (Pb) is a toxic substance that has been widely used in electronic components for many years, but due to environmental concerns, there has been a shift towards lead-free alternatives. The Pbfree Code helps manufacturers and users easily identify components that do not contain lead, ensuring compliance with regulations and promoting environmentally friendly practices. It is important to pay attention to the Pbfree Code when selecting electronic components to ensure they meet the necessary requirements for lead-free applications.

Connector Type in electronic components refers to the specific design and configuration of the connector used to establish electrical connections between different devices or components. This parameter describes the physical shape, size, and layout of the connector, as well as the number and arrangement of pins or contacts. Common connector types include USB, HDMI, RJ45, and D-sub connectors, each serving different purposes and applications. Understanding the connector type is crucial for ensuring compatibility and proper functionality when connecting electronic devices together.

Any Feature, including a modified Existing Feature, that is not an Existing Feature.

MIL Conformance refers to the compliance of electronic components with military standards set by the Department of Defense. These standards define rigorous requirements for reliability, performance, and durability under extreme conditions. Components that meet MIL Conformance are often used in defense, aerospace, and other critical applications where failure is not an option. Adherence to these standards ensures that the components can withstand harsh environments, such as extreme temperatures, vibrations, and humidity.

DIN Conformance refers to the compliance of an electronic component with the standards set by the Deutsches Institut für Normung (DIN), which is the German Institute for Standardization. DIN standards cover a wide range of technical specifications and requirements for various products, including electronic components. When a component is labeled as DIN-conformant, it means that it meets the specific criteria outlined by DIN for factors such as dimensions, materials, performance, and safety. Ensuring DIN conformance helps to guarantee interoperability, quality, and reliability of electronic components in various applications and industries. Manufacturers often adhere to DIN standards to demonstrate the quality and reliability of their products to customers and to ensure compatibility with other DIN-compliant devices.

IEC Conformance refers to the compliance of electronic components with standards set by the International Electrotechnical Commission (IEC). These standards ensure that the components meet specific safety, performance, and interoperability criteria. Adhering to IEC conformance helps manufacturers produce reliable and compatible products, facilitating international trade and promoting consumer safety. Components that conform to IEC standards are often preferred in global markets due to their quality assurance and regulatory acceptance.

In electronic components, the "Filter Feature" parameter refers to the capability of a component to filter or block certain frequencies of signals while allowing others to pass through. Filters are used to remove unwanted noise or interference from a signal, ensuring that only the desired frequencies are transmitted or received. The filter feature can be implemented using various techniques such as capacitors, inductors, resistors, or active components like operational amplifiers. Different types of filters, such as low-pass, high-pass, band-pass, and band-stop filters, are designed to cater to specific frequency ranges and applications. Overall, the filter feature plays a crucial role in maintaining signal integrity and improving the performance of electronic circuits.

In electronic components, "Mixed Contacts" refers to a type of contact arrangement where different types of contacts are used within the same component. This can include a combination of different contact materials, such as gold-plated contacts for signal transmission and silver-plated contacts for power connections. Mixed contacts can also refer to a combination of different contact styles, such as pin contacts and socket contacts within the same component.The use of mixed contacts allows for optimized performance and reliability in electronic components by leveraging the specific advantages of each contact type. For example, gold-plated contacts offer excellent conductivity and corrosion resistance, while silver-plated contacts provide high current-carrying capacity. By incorporating mixed contacts, manufacturers can tailor the component to meet the specific requirements of the application, ensuring efficient and reliable operation.

The center distance from one pole to the next.

Reach Compliance Code refers to a designation indicating that electronic components meet the requirements set by the Registration, Evaluation, Authorization, and Restriction of Chemicals (REACH) regulation in the European Union. It signifies that the manufacturer has assessed and managed the chemical substances within the components to ensure safety and environmental protection. This code is vital for compliance with regulations aimed at minimizing risks associated with hazardous substances in electronic products.

In the context of electronic components, the term "Reference Standard" typically refers to a specific set of guidelines, specifications, or requirements that serve as a benchmark for evaluating the quality, performance, and characteristics of the component. These standards are established by organizations such as the International Electrotechnical Commission (IEC), the Institute of Electrical and Electronics Engineers (IEEE), or specific industry bodies.Reference standards help ensure consistency and interoperability among different components, as they provide a common framework for manufacturers, designers, and users to adhere to. They outline parameters such as electrical properties, mechanical dimensions, environmental conditions, and safety considerations that the component must meet to be considered compliant.By referencing these standards, manufacturers can design and produce components that meet industry-recognized criteria, which in turn helps users select the right components for their applications with confidence. Adhering to reference standards also facilitates regulatory compliance and promotes overall quality and reliability in electronic systems.

Reliability in electronic components refers to the ability of a component to perform its required functions under stated conditions for a specified period of time. It is a measure of the likelihood that a component will not fail during its intended lifespan. High reliability indicates that the component is less likely to experience unexpected failures, which is crucial for maintaining the overall performance and safety of electronic systems. Factors affecting reliability include material quality, manufacturing processes, and environmental conditions.

The "PCB Contact Pattern" refers to the layout or arrangement of contact points on a printed circuit board (PCB) where electronic components are mounted or connected. This pattern determines how components will be physically and electrically connected to the PCB. The contact pattern typically includes pads, vias, traces, and other features that facilitate the soldering or mounting of components onto the board. It is crucial for ensuring proper electrical connections and reliable performance of the electronic device. Designing an appropriate PCB contact pattern is essential for the functionality, efficiency, and durability of the electronic components and the overall circuitry.

Body breadth in electronic components refers to the width of the physical body of a component, such as a resistor, capacitor, or integrated circuit. This measurement is crucial for ensuring proper fit within a circuit board or enclosure. It can affect the component's thermal performance, mechanical stability, and overall compatibility with other components in a design. Body breadth is typically specified in millimeters or inches and is an important factor in the selection and design of electronic assemblies.

Contact Gender in electronic components refers to the physical characteristics of the electrical contacts within a connector or terminal block. It indicates whether the contact is male or female, which determines how the connectors can be mated together. Male contacts typically have protruding pins or plugs, while female contacts have receptacles or sockets to receive the male contacts. Matching the correct contact genders is crucial for ensuring proper electrical connections and preventing damage to the components. Manufacturers often specify the contact gender of their components to facilitate compatibility and ease of use in electronic systems.

The UL Flammability Code is a parameter used to indicate the flammability rating of electronic components. It is assigned by Underwriters Laboratories (UL) based on the component's performance in flammability tests. The code consists of a two-letter designation, with the first letter indicating the component's flammability rating and the second letter indicating the component's resistance to ignition. Components with a higher UL Flammability Code are less likely to catch fire or sustain combustion, making them safer for use in electronic devices. It is important to consider the UL Flammability Code when selecting components to ensure compliance with safety standards and regulations.

Body Depth is a parameter that refers to the physical measurement of the depth or thickness of an electronic component. It is typically measured from the bottom to the top of the component, excluding any external connectors or pins. Body Depth is an important specification as it determines how much space the component will occupy on a circuit board or within an electronic device. Manufacturers provide this measurement to help designers and engineers ensure proper fit and compatibility within their designs. Understanding the Body Depth of electronic components is crucial for efficient and effective integration into electronic systems.

The parameter "Contact Style" in electronic components refers to the specific design and arrangement of the contact points that enable electrical connection in various devices. It dictates how components interface with each other, affecting factors such as reliability, durability, and performance. Different contact styles can include configurations like pin, socket, blade, or surface mount, each designed to cater to specific applications and requirements in circuit assembly.

Mating Contact Pitch refers to the distance between the center of one contact point to the center of the adjacent contact point in electronic components such as connectors or sockets. This parameter is crucial for ensuring proper alignment and connection between mating components. It helps determine the compatibility and interchangeability of different components, as components with the same mating contact pitch can be easily connected and disconnected. Manufacturers provide specifications for mating contact pitch to help users select compatible components for their electronic systems.

Termination Type in electronic components refers to the method used to connect the component to a circuit board or other electronic devices. It specifies how the component's leads or terminals are designed for soldering or mounting onto a PCB. Common termination types include through-hole, surface mount, and wire lead terminations. The termination type is an important consideration when selecting components for a circuit design, as it determines how the component will be physically connected within the circuit. Different termination types offer varying levels of durability, ease of assembly, and suitability for specific applications.

Contact Finish Termination refers to the final layer of material applied to the electrical contact surfaces of electronic components, which is critical for ensuring reliable electrical connections. It often involves different plating processes such as gold, tin, nickel, or palladium, chosen based on the specific application and environmental conditions. The finish helps prevent oxidation, enhance conductivity, and improve solderability, ultimately influencing the performance and longevity of the connections in electronic devices.

In electronic components, the "Contact Pattern" refers to the arrangement and design of the contact points on a component, such as a connector or a switch. The contact pattern determines how electrical connections are made between the component and other devices in a circuit. It includes the number, size, spacing, and configuration of the contact points, which can vary depending on the specific application and requirements of the component. A well-designed contact pattern is crucial for ensuring reliable and efficient electrical connections, as it affects factors such as signal integrity, power transmission, and durability of the component. Manufacturers carefully engineer contact patterns to meet the desired performance specifications and standards for the component's intended use.

The parameter "Insulator Color" in electronic components refers to the color of the insulating material that surrounds or separates conductive elements within the component. The insulator is a non-conductive material that prevents electrical current from flowing between the conductive elements, ensuring proper functionality and safety of the component. The color of the insulator is often used for visual identification and organization of components in electronic circuits or systems. Different manufacturers may use various colors for insulators to distinguish between different types of components or to indicate specific characteristics such as voltage rating or temperature range.

In electronic components, "Terminal Length" refers to the physical length of the terminal or lead of a component, such as a resistor, capacitor, or integrated circuit. It is the distance from the body of the component to the end of the terminal where connections are made. The terminal length is an important parameter as it determines how much space is required for soldering or connecting the component to a circuit board or other components. It also affects the overall size and layout of the circuit board. Manufacturers provide terminal length specifications to ensure proper installation and compatibility with the intended application.

Plating thickness in electronic components refers to the measurement of the thickness of the metal plating applied to various surfaces of the component. This plating is typically done to enhance the component's conductivity, corrosion resistance, and solderability. The plating thickness is an important parameter as it directly affects the performance and reliability of the electronic component. Manufacturers specify the required plating thickness to ensure that the component meets the desired electrical and mechanical properties for its intended application. Testing and quality control measures are often employed to verify that the plating thickness meets the specified requirements.