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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.

Contact shape in electronic components refers to the physical geometry of the interface where electrical connections are made. It plays a critical role in determining the quality and reliability of the connection, impacting factors such as resistance, current density, and heat dissipation. Various shapes, such as flat, cylindrical, or custom profiles, influence the contact area, enabling designers to optimize performance for specific applications. The contact shape also affects the mechanical stability of the connection, influencing wear and longevity.

The parameter "Housing Material" in electronic components refers to the material used to encase or protect the internal circuitry of the component. The housing material plays a crucial role in providing physical protection, insulation, and environmental resistance to the electronic component. Common housing materials include plastics, metals, ceramics, and composites, each offering different levels of durability, heat resistance, and electrical properties. The choice of housing material is important in determining the overall performance, reliability, 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.

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 "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.

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

Termination in electronic components refers to the practice of matching the impedance of a circuit to prevent signal reflections and ensure maximum power transfer. It involves the use of resistors or other components at the end of transmission lines or connections. Proper termination is crucial in high-frequency applications to maintain signal integrity and reduce noise.

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.

The Maximum Operating Temperature is 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 "Min Operating Temperature" parameter in electronic components refers to the lowest temperature at which the component is designed to operate effectively and reliably. This parameter is crucial for ensuring the proper functioning and longevity of the component, as operating below this temperature may lead to performance issues or even damage. Manufacturers specify the minimum operating temperature to provide guidance to users on the environmental conditions in which the component can safely operate. It is important to adhere to this parameter to prevent malfunctions and ensure the overall reliability of the electronic system.

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.

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.

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.

Contact Type in electronic components refers to the specific design and configuration of the electrical contacts used to establish connections between components or devices. The contact type determines how the electrical signals are transmitted between the components, and it can vary based on factors such as the application requirements, signal type, and environmental conditions. Common contact types include pin contacts, socket contacts, surface mount contacts, and wire-to-board contacts. Understanding the contact type is crucial for ensuring proper connectivity and reliable performance in electronic systems.

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.

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.

The center distance from one pole to the next.

The parameter "Insulation Height" in electronic components refers to the distance between two conductive elements that are separated by an insulating material. It is a crucial specification that determines the level of electrical isolation and protection against short circuits or electrical interference. Insulation height is typically measured in millimeters or inches and is important for ensuring the safe and reliable operation of electronic devices by preventing unintended electrical connections between components. Manufacturers provide insulation height values in their product datasheets to help designers and engineers select the appropriate components for their applications.

In the context of electronic components, the parameter "Style" typically refers to the physical design or form factor of the component. This includes the shape, size, and layout of the component, as well as any specific features that distinguish it from other components. Different styles of components are often designed to fit specific applications or requirements, such as surface mount components for compact circuit board designs or through-hole components for more robust connections. Understanding the style of a component is important for selecting the right part for a particular electronic design and ensuring compatibility with other components and the overall system.

Pitch - Mating refers to the distance between the centers of two adjacent pins or contacts in a connector or electronic component when they are engaged or aligned for connection. This parameter is critical for ensuring proper alignment, compatibility, and spacing in electronic assemblies, influencing both mechanical and electrical performance. A correct mating pitch is essential for reliable signal transmission and to prevent issues such as short circuits or misalignment during assembly.

Body length or diameter in electronic components refers to the physical dimensions of a component's housing, typically measured in millimeters or inches. It indicates the size of the component that affects its fit within a circuit board or system. This parameter is crucial for ensuring compatibility with the design and mounting of electronic devices. It can impact heat dissipation, electrical performance, and overall assembly efficiency. Accurate measurement of body length or diameter is essential for proper component selection and placement in electronic applications.

Row Spacing - Mating is a parameter in electronic components that refers to the distance between rows of mating connectors or components. It is a critical specification that ensures proper alignment and connection between two mating parts. The row spacing is typically measured center-to-center between adjacent rows and is important for ensuring compatibility and proper functioning of the components. Manufacturers provide specific row spacing requirements to ensure that mating components fit together securely and function as intended in electronic systems.

Contact Length - Post is a parameter used to describe the length of the post or terminal on an electronic component where electrical connections are made. This measurement is important as it determines how securely the component can be connected to a circuit board or other components. A longer contact length can provide a more stable and reliable connection, while a shorter length may be more compact but could be less secure. Manufacturers typically provide this specification to help users select the appropriate components for their specific application requirements.

Shrouding in electronic components refers to the process of enclosing or covering a component or a portion of a circuit with a protective material or structure. This protective layer is typically used to shield the component from external factors such as moisture, dust, electromagnetic interference, or physical damage. Shrouding can also help improve the overall reliability and longevity of the electronic device by providing an additional layer of protection. In some cases, shrouding may also be used for aesthetic purposes or to meet specific environmental or safety requirements.

"Contact Finish - Post" is a parameter in electronic components that refers to the type of finish applied to the contact posts of a component. Contact posts are the metal terminals on a component that are used for making electrical connections. The finish applied to these contact posts can affect the component's performance, reliability, and compatibility with other components in a circuit.The contact finish post can be made of various materials such as gold, silver, tin, or nickel, and can be coated with different finishes like solder, matte, or bright finishes. The choice of contact finish post can impact the component's resistance to corrosion, solderability, and overall electrical conductivity. It is important to consider the contact finish post when selecting electronic components to ensure proper functionality and compatibility within a circuit design.

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.

Mating Information in electronic components refers to the specifications and details related to how a particular component connects or interfaces with other components or systems. This information typically includes details such as the type of connectors, pin configurations, voltage and current ratings, signal compatibility, and physical dimensions required for proper mating and connection. Understanding the mating information is crucial for ensuring compatibility and proper functioning of electronic components within a system or circuit. Manufacturers provide detailed mating information in datasheets to help engineers and designers select and integrate components effectively.

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.

Housing color in electronic components refers to the color of the protective casing or enclosure that surrounds the component. It can play a role in visual identification, aiding in easy recognition during assembly or maintenance. Additionally, the housing color may also have implications for heat dissipation, aesthetic considerations, or regulatory compliance depending on the application or industry standards.

Lead length refers to the distance from the body of an electronic component to the end of its leads or terminals. It is an important specification in component design and packaging, as it affects the ease of soldering, the overall fit within a circuit board, and the electrical performance. Longer leads can facilitate easier connections but may also introduce increased resistance or inductance in high-frequency applications. Proper lead length is crucial for ensuring reliable connections and optimal performance in electronic circuits.

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.

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.

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.

Polarization Key is a design feature in electronic components, particularly connectors and integrated circuits, that ensures proper alignment and orientation during connection. It typically consists of physical notches or protrusions that prevent incorrect insertion, thereby protecting against potential damage and ensuring optimal performance. The key helps maintain consistent polarity, which is crucial in applications such as audio equipment, power supplies, and signal processing devices.

PCB Contact Row Spacing refers to the distance between the centers of adjacent contact rows in a printed circuit board (PCB). It is an important parameter in the design and layout of electronic components, particularly for connectors and sockets. Proper row spacing ensures compatibility with corresponding component leads and facilitates efficient circuit assembly and operation. The spacing can affect the overall footprint of the component and influences layout considerations for routing traces on the PCB.

The parameter "Sealable" in electronic components refers to the ability of the component to be securely sealed or enclosed to protect it from environmental factors such as moisture, dust, and other contaminants. Components that are sealable are designed to prevent damage or malfunction caused by exposure to these external elements. This sealing can be achieved through various methods such as encapsulation, potting, or conformal coating. Ensuring that electronic components are sealable is important for maintaining their reliability and longevity in various operating conditions.

The current rating of a contact is defined as the current level that creates a certain temperature rise of the contact spring — usually 20°C or 30°C. Both electrical and thermal factors govern the heat created by the current.

Mating Post Length refers to the length of the protruding contact elements in electronic connectors that engage with corresponding contacts in a mating component. It is a critical dimension that ensures proper alignment and electrical connectivity between two parts. The measurement can influence the reliability of the connection and may impact the overall design and layout of electronic assemblies. Proper mating post length is essential for maintaining signal integrity and preventing mechanical issues during operation.

Mating alignment in electronic components refers to the precise positioning and orientation required for two components to connect or fit together properly. This parameter is crucial for ensuring that electrical connections are made correctly and securely. It involves factors such as the physical dimensions, shape, and alignment features of the components that need to be matched for successful mating. Proper mating alignment is essential for maintaining signal integrity, preventing damage to the components, and ensuring reliable performance of the electronic system. Manufacturers often provide specifications and guidelines for mating alignment to help users achieve optimal connections and functionality.

In the context of electronic components, the term "Features" typically refers to the specific characteristics or functionalities that a particular component offers. These features can vary depending on the type of component and its intended use. For example, a microcontroller may have features such as built-in memory, analog-to-digital converters, and communication interfaces like UART or SPI.When evaluating electronic components, understanding their features is crucial in determining whether they meet the requirements of a particular project or application. Engineers and designers often look at features such as operating voltage, speed, power consumption, and communication protocols to ensure compatibility and optimal performance.In summary, the "Features" parameter in electronic components describes the unique attributes and capabilities that differentiate one component from another, helping users make informed decisions when selecting components for their electronic designs.

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.

Contact Finish Thickness - Mating is a parameter in electronic components that refers to the thickness of the plating or finish on the contact surfaces of a connector or terminal that come into direct contact with mating components. This parameter is crucial for ensuring proper electrical conductivity and mechanical stability during mating and unmating processes. The contact finish thickness affects the overall reliability and performance of the connection by influencing factors such as contact resistance, wear resistance, and corrosion resistance. Manufacturers specify this parameter to ensure compatibility and optimal performance in various applications.

"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.

PCB thickness refers to the measurement of the thickness of a printed circuit board, typically expressed in millimeters or mils. It plays a crucial role in determining the mechanical strength, flexibility, and thermal performance of the PCB. Standard thicknesses commonly range from 0.2 mm to 3.2 mm, with the most common thickness being 1.6 mm. The choice of PCB thickness affects the overall design and functionality of electronic devices, influencing factors such as signal integrity and power management.

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