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Lifecycle Status refers to the current stage of an electronic component in its product life cycle, indicating whether it is active, obsolete, or transitioning between these states. An active status means the component is in production and available for purchase. An obsolete status indicates that the component is no longer being manufactured or supported, and manufacturers typically provide a limited time frame for support. Understanding the lifecycle status is crucial for design engineers to ensure continuity and reliability in their projects.

In electronic components, the term "Mount" typically refers to the method or process of physically attaching or fixing a component onto a circuit board or other electronic device. This can involve soldering, adhesive bonding, or other techniques to secure the component in place. The mounting process is crucial for ensuring proper electrical connections and mechanical stability within the electronic system. Different components may have specific mounting requirements based on their size, shape, and function, and manufacturers provide guidelines for proper mounting procedures to ensure optimal performance and reliability of the electronic device.

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.

a process by which the operating system makes files and directories on a storage device (such as hard drive, CD-ROM, or network share) available for users to access via the computer's file system.

a substance that is a poor conductor of electricity, but an efficient supporter of electrostatic field s.

The parameter "Body Material" in electronic components refers to the material used to construct the physical body or casing of the component. This material plays a crucial role in determining the component's durability, thermal conductivity, electrical insulation properties, and resistance to environmental factors such as moisture, heat, and mechanical stress. Common body materials for electronic components include plastics, ceramics, metals, and composites. Selecting the appropriate body material is essential to ensure the reliable performance and longevity of the electronic component in various operating conditions.

The PCB Mounting Orientation refers to the specific position or alignment in which an electronic component is mounted onto a printed circuit board (PCB). This parameter is crucial for ensuring proper functionality and performance of the component within the electronic system. The orientation can include factors such as the physical placement, angle, and direction in which the component is mounted on the PCB. It is important to follow the manufacturer's guidelines and specifications for the correct PCB Mounting Orientation to avoid potential issues such as electrical shorts, mechanical stress, or interference with other components on the board.

Center Contact Plating refers to the metal coating applied to the central contact of an electronic component, such as connectors or sockets. This plating is crucial for ensuring good electrical conductivity and minimizing resistance at the point of contact. It also provides protection against corrosion and wear, which can affect the component's performance over time. The choice of plating material, such as gold or nickel, can impact the durability and reliability of the connection.

The parameter "Center Contact Material" in electronic components refers to the material used for the central conductive part of connectors, such as RF connectors. This material is crucial for ensuring effective electrical conductivity and minimizing signal loss. Common materials include gold, silver, copper, and nickel, each offering different levels of conductivity, corrosion resistance, and mechanical properties. The choice of center contact material can significantly impact the performance and reliability of the connector in various applications.

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

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.

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.

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.

Parts can have many statuses as they progress through the configuration, analysis, review, and approval stages.

Moisture Sensitivity Level (MSL) is a standardized rating that indicates the susceptibility of electronic components, particularly semiconductors, to moisture-induced damage during storage and the soldering process, defining the allowable exposure time to ambient conditions before they require special handling or baking to prevent failures

An ECCN (Export Control Classification Number) is an alphanumeric code used by the U.S. Bureau of Industry and Security to identify and categorize electronic components and other dual-use items that may require an export license based on their technical characteristics and potential for military use.

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.

In the context of electronic components, the parameter "Gender" typically refers to the physical characteristics of connectors or interfaces that determine how they can be mated together. Connectors are often designed with specific gender types, such as male or female, to ensure proper alignment and connection between devices. A male connector typically has protruding pins or plugs that fit into a corresponding female connector, which has receptacles or sockets to receive the pins. This design helps prevent incorrect connections and ensures a secure and reliable electrical connection. Understanding the gender of connectors is crucial when designing or assembling electronic systems to ensure compatibility and proper functionality. It is essential to match the gender of connectors correctly to avoid damage and ensure optimal performance of the electronic components.

HTS (Harmonized Tariff Schedule) codes are product classification codes between 8-1 digits. The first six digits are an HS code, and the countries of import assign the subsequent digits to provide additional classification. U.S. HTS codes are 1 digits and are administered by the U.S. International Trade Commission.

There are 5 Main Types of Fastening Type: Screws, Nails, Bolts, Anchors, Rivets.

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, the parameter "Orientation" refers to the specific alignment or positioning of the component with respect to its intended installation or operation. This parameter is crucial for ensuring proper functionality and performance of the component within a circuit or system. Orientation may include factors such as the physical orientation of the component on a circuit board, the direction of current flow through the component, or the alignment of specific features or terminals for correct connection. Manufacturers often provide orientation guidelines in datasheets or technical specifications to help users correctly install and use the component. Paying attention to the orientation of electronic components is essential to prevent errors, ensure reliability, and optimize the overall performance of electronic devices.

In electronic components, the parameter "Frequency" refers to the rate at which a signal oscillates or cycles within a given period of time. It is typically measured in Hertz (Hz) and represents how many times a signal completes a full cycle in one second. Frequency is a crucial aspect in electronic components as it determines the behavior and performance of various devices such as oscillators, filters, and communication systems. Understanding the frequency characteristics of components is essential for designing and analyzing electronic circuits to ensure proper functionality and compatibility with other components in a system.

ELV stands for Extra-Low Voltage, which refers to a specific voltage range used in electronic components and systems. This voltage range typically falls below 50 volts AC or 120 volts DC. ELV systems are designed to operate at lower voltages for safety reasons, as they pose a reduced risk of electric shock compared to higher voltage systems. Components and devices operating within the ELV range are commonly used in various applications, such as telecommunications, data centers, and low-power electronics. Adhering to ELV standards helps ensure the safety of both users and equipment in these systems.

In electrical engineering, impedance is the opposition to alternating current presented by the combined effect of resistance and reactance in a circuit.

Connector Style in electronic components refers to the physical design and configuration of the connector used to establish electrical connections between different devices or components. This parameter describes the shape, size, and layout of the connector, as well as the method of attachment and the number of pins or contacts it has. Different connector styles are used for various applications, such as board-to-board connections, cable-to-board connections, or wire-to-board connections. The connector style plays a crucial role in determining the compatibility and functionality of electronic devices, as it ensures proper signal transmission and power delivery between interconnected components.

to the number of a times a physical connector can “mate” or connect to it's counterpart.

Contact termination in electronic components refers to the method used to connect the component to a circuit or system. It is the point where the component's electrical connection is terminated or connected to the external circuit. Common contact termination methods include soldering, wire bonding, press-fit connectors, and surface mount technology (SMT). The choice of contact termination method depends on factors such as the type of component, the application requirements, and the manufacturing process. Proper contact termination is crucial for ensuring reliable electrical connections and overall performance of the electronic component.

the loss of signal power resulting from the insertion of a device in a transmission line or optical fiber and is usually expressed in decibels (dB).

Shield termination refers to the proper grounding or connection of the shield or shielding material in electronic components or systems. The shield is a conductive layer or material that surrounds sensitive components to protect them from electromagnetic interference (EMI) or radio frequency interference (RFI). Proper shield termination ensures that the shield effectively absorbs and redirects any external interference away from the sensitive components, preventing signal degradation or malfunctions. In essence, shield termination is crucial for maintaining the integrity and performance of electronic devices by providing a path for unwanted interference to be safely dissipated.

Adapter Style in electronic components refers to the physical design and configuration of an adapter or connector used to connect different devices or components together. This parameter typically describes the shape, size, and interface of the adapter, which determines how it can be connected to other devices. The adapter style may include details such as the number and type of pins, the orientation of the connector, and any additional features like locking mechanisms or shielding. Choosing the right adapter style is crucial to ensure compatibility and proper functionality when connecting electronic devices.

"Length - Tail" is a parameter used in electronic components, particularly in the context of connectors and cables. It refers to the length of the tail or lead of the component, which is the portion that is intended to be soldered or connected to another component. The length of the tail is an important consideration in electronic design and assembly, as it can affect the overall performance and reliability of the connection. A longer tail may provide more flexibility in positioning the component, while a shorter tail may be more compact and space-saving.In summary, the "Length - Tail" parameter specifies the length of the solderable portion of an electronic component, and it is a critical factor in determining the ease of assembly, reliability, and performance of the component in a circuit.

Radiation hardening is the process of making electronic components and circuits resistant to damage or malfunction caused by high levels of ionizing radiation, especially for environments in outer space (especially beyond the low Earth orbit), around nuclear reactors and particle accelerators, or during nuclear accidents or nuclear warfare.

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

Lead Free is a term used to describe electronic components that do not contain lead as part of their composition. Lead is a toxic material that can have harmful effects on human health and the environment, so the electronics industry has been moving towards lead-free components to reduce these risks. Lead-free components are typically made using alternative materials such as silver, copper, and tin. Manufacturers must comply with regulations such as the Restriction of Hazardous Substances (RoHS) directive to ensure that their products are lead-free and environmentally friendly.