The designation “49T8770035G1” refers to a specific model number. Such identifiers are employed by manufacturers to uniquely categorize and track their products. This alphanumeric string typically represents a particular version or configuration of a device or component. For example, it could denote a power supply unit, a circuit board, or another component within a larger system. These model numbers allow for precise identification for inventory management, warranty tracking, and replacement part ordering.
The value of utilizing model numbers like this lies in their ability to streamline logistical and support processes. Accurate identification prevents errors in ordering and distribution, ensuring that the correct components are used in assembly or repair. Historically, these identification systems have evolved from simple numerical sequences to more complex alphanumeric codes that encapsulate detailed information about the product’s specifications and manufacturing date.
Detailed information about the item referenced by this identifier requires further investigation into the manufacturer’s documentation and product databases. The subsequent sections will delve into the potential contexts in which this identifier might be encountered and the resources available for obtaining comprehensive product specifications.
1. Specific product identifier
A specific product identifier, such as the alphanumeric string, serves as the foundational element for differentiating and categorizing manufactured goods. It is the key that unlocks access to detailed information regarding a particular item. The existence of such a unique identifier is a prerequisite for accurate inventory management, efficient supply chain operations, and effective customer support. Without it, distinguishing between similar products or identifying the correct replacement part becomes significantly more challenging, leading to potential errors and increased costs. For example, in the electronics industry, using the wrong component in assembly can cause system failure or reduced performance. The specific product identifier is, therefore, not merely a label but a critical component of a well-managed product lifecycle.
The use of these identifiers extends beyond internal organizational needs. They are essential for regulatory compliance, traceability, and ensuring consumer safety. For instance, in the automotive industry, a specific product identifier, often a Vehicle Identification Number (VIN), allows manufacturers to track vehicles through their entire lifecycle, facilitating recalls and addressing safety concerns. In the medical device sector, similar identifiers are used to monitor device performance and report adverse events, ensuring patient safety. The identifier acts as a single point of reference for accessing crucial information about the product’s origin, manufacturing process, and intended use.
In summary, the presence and proper application of a specific product identifier are crucial for maintaining quality control, facilitating efficient operations, and safeguarding consumer interests. The identifier is more than just a label; it is a fundamental tool for managing the complexities of modern manufacturing and distribution systems. Its absence or misuse can lead to significant challenges, highlighting its importance as a cornerstone of product management.
2. Unique component designation
A unique component designation, such as “49T8770035G1,” directly serves as the unambiguous identifier for a specific part within a larger system. This designation is critical because it eliminates ambiguity when specifying a component for manufacturing, repair, or replacement. Consider, for example, an electronics manufacturer assembling circuit boards. Without a unique component designation, multiple components with similar physical characteristics might be mistakenly interchanged, leading to functional failure of the final product. The model number acts as a precise instruction, dictating the exact part to be used at a specific location within the assembly.
The importance of a unique component designation extends beyond the manufacturing floor. It plays a crucial role in aftermarket support and maintenance. Imagine a technician troubleshooting a malfunctioning device. Identifying the correct replacement part relies heavily on the accuracy of the component designation. Using the wrong replacement can lead to further damage or incompatibility issues. A well-defined designation also facilitates efficient inventory management, enabling accurate tracking of component stock levels and preventing shortages or overstocking. This, in turn, contributes to cost savings and optimized supply chain operations. Another example is in the aerospace industry where using the wrong component could be disastrous and lead to fatalities and financial ruin.
In summary, the unique component designation provides the essential link between a specific part and its intended function within a larger system. Its precision eliminates ambiguity, facilitates accurate manufacturing and repair processes, and supports efficient inventory management. This understanding is critical for ensuring product quality, minimizing downtime, and optimizing operational efficiency. A challenge arises, however, from the need for manufacturers to maintain consistent and accessible databases of component designations, ensuring that this information is readily available to all stakeholders throughout the product lifecycle.
3. Inventory tracking number
An inventory tracking number serves as a crucial component within the larger context of a model identifier. The accurate management of inventory relies heavily on the ability to uniquely identify each item, and the model identifier provides the foundation for this process. Consider the logistical challenges faced by a large distributor handling thousands of distinct components. Without a standardized model identifier, such as “49T8770035G1,” associating individual items with specific orders, locations, or production runs becomes significantly complicated, leading to potential errors in fulfillment and increased operational costs. The presence of a unique inventory tracking number, linked to the model identifier, allows for precise monitoring of stock levels, automated reordering processes, and efficient management of returns or replacements. The practical significance of this understanding is evident in the reduced instances of stockouts, minimized storage costs, and improved order accuracy observed in organizations with well-defined inventory management systems.
The connection between the inventory tracking number and the model identifier extends beyond basic stock control. It facilitates detailed analysis of product performance, demand forecasting, and optimization of supply chain logistics. By linking sales data, warranty claims, and return information to specific model identifiers, organizations can gain valuable insights into product quality, market preferences, and areas for improvement in design or manufacturing processes. For instance, a high rate of warranty claims associated with a particular model might indicate a design flaw or a need for stricter quality control measures. Conversely, consistently high demand for a specific model might signal an opportunity to increase production capacity or optimize pricing strategies. In the retail industry, this level of insight is critical for making informed decisions about product selection, inventory levels, and promotional activities.
In conclusion, the inventory tracking number, intrinsically linked to the model identifier, forms an integral part of a comprehensive inventory management system. It provides the means for precise identification, efficient tracking, and insightful analysis of product data. While challenges remain in ensuring consistent application and accurate data maintenance, the benefits of a well-implemented system, incorporating both the inventory tracking number and the model identifier, are substantial. Improved operational efficiency, reduced costs, and enhanced decision-making are among the key advantages realized by organizations that prioritize this connection.
4. Warranty claim reference
The connection between a warranty claim reference and the model number “49T8770035G1” is critical for effective product support and quality control. The model number serves as the primary identifier for a product, allowing manufacturers and service providers to accurately track and process warranty claims associated with specific items.
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Accurate Product Identification
The model number allows for precise identification of the product being claimed under warranty. This ensures that the correct warranty terms and conditions are applied. Without accurate identification, claims could be incorrectly processed, leading to customer dissatisfaction and financial losses for the manufacturer. For instance, variations in production runs or minor design changes might affect warranty eligibility, and the model number allows for differentiation.
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Efficient Claim Processing
A clear warranty claim reference, linked to the model number, streamlines the claim processing procedure. It enables service providers to quickly access product information, warranty status, and repair history. This facilitates faster turnaround times and improved customer service. A well-structured claim system, incorporating the model number, allows for automated validation of warranty coverage and reduces the need for manual verification, improving efficiency.
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Data Analysis and Quality Improvement
By tracking warranty claims against specific model numbers, manufacturers can identify recurring issues and potential design flaws. This data-driven approach allows for continuous product improvement and reduces the likelihood of future warranty claims. Analyzing claim patterns associated with “49T8770035G1,” for example, could reveal a specific component failure or manufacturing defect that requires attention. This feedback loop is essential for maintaining product quality and customer satisfaction.
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Fraud Prevention
A warranty claim reference linked to the model number helps prevent fraudulent claims. By verifying the product’s authenticity and warranty status, manufacturers can mitigate the risk of unauthorized repairs or replacements. This is particularly important for high-value items where fraudulent claims can result in significant financial losses. A robust claim system, incorporating model number verification, acts as a deterrent and protects the manufacturer’s interests.
In conclusion, the integration of the model number “49T8770035G1” with warranty claim references is essential for ensuring accurate product identification, efficient claim processing, data analysis for quality improvement, and fraud prevention. A well-designed warranty system, leveraging the model number, benefits both the manufacturer and the customer by providing reliable support and continuous product improvement.
5. Replacement part code
The model number, such as “49T8770035G1,” serves as a crucial element in identifying the correct replacement part. The replacement part code is directly linked to this model number, enabling technicians and consumers to source the appropriate component for repair or maintenance. Erroneous identification of the replacement part, due to an incorrect or missing model number, can lead to incompatibility issues, system malfunctions, and potentially hazardous operating conditions. For example, in the automotive industry, utilizing the wrong replacement part, even if seemingly similar, can compromise vehicle safety and performance. The model number, therefore, acts as the primary key for accessing a database of compatible replacement parts, ensuring accuracy and preventing errors in the repair process.
Consider a scenario involving a complex electronic device, such as a medical instrument or industrial control system. These devices often contain numerous proprietary components, each with specific performance characteristics. A correct replacement part code, obtained through the model number, guarantees that the replacement component meets the required specifications and maintains the overall functionality and safety of the device. Furthermore, the replacement part code facilitates efficient inventory management and supply chain operations. Distributors and service providers can use the model number to accurately track and manage stock levels of replacement parts, minimizing downtime and ensuring timely repairs. This is particularly critical in industries where equipment failure can have significant economic or operational consequences, such as manufacturing or transportation.
In conclusion, the model number “49T8770035G1” is inextricably linked to the identification and procurement of correct replacement parts. The replacement part code, derived from the model number, ensures compatibility, facilitates efficient inventory management, and ultimately contributes to the reliability and longevity of the equipment or system. While challenges remain in maintaining accurate and up-to-date databases of replacement part codes, the benefits of a well-implemented system are undeniable. The understanding of this relationship is critical for technicians, consumers, and manufacturers alike, promoting effective maintenance practices and minimizing the risk of equipment failure.
6. Manufacturing lot indicator
The manufacturing lot indicator is intrinsically linked to the model number, such as “49T8770035G1,” serving as a traceability mechanism for manufactured goods. This indicator provides essential information about the specific production batch or lot from which a product originates, enabling identification of potential manufacturing-related issues that may affect a group of products sharing the same model number. Its role is critical for quality control, recall management, and determining the scope of any necessary corrective actions.
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Source Identification
The manufacturing lot indicator, in conjunction with the model number, allows for the precise identification of the manufacturing plant, production line, and even the specific time frame during which the product was manufactured. This granularity is crucial in pinpointing the root cause of defects or performance anomalies. For example, if a batch of components used in model “49T8770035G1” exhibits premature failure, the lot indicator allows for tracing the affected products back to a specific supplier or production process, facilitating targeted investigations.
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Quality Control
The manufacturing lot indicator enables targeted quality control efforts. If a specific lot is found to have a higher-than-acceptable defect rate, manufacturers can isolate the affected products and implement corrective measures before they reach consumers. This proactive approach reduces the risk of widespread product failures and mitigates potential damage to the company’s reputation. For example, statistical process control methods can be applied to monitor the performance of different manufacturing lots and identify trends that require attention.
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Recall Management
In the event of a product recall, the manufacturing lot indicator is essential for determining the scope of the recall. By identifying the affected lot numbers, manufacturers can efficiently target the specific products that need to be retrieved from the market, minimizing the disruption and cost associated with the recall process. Without a clear understanding of the manufacturing lot indicator, a recall might encompass a broader range of products than necessary, leading to unnecessary expenses and logistical complications.
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Component Traceability
The manufacturing lot indicator extends to the components used in the assembly of a product. It allows manufacturers to trace the origin of individual parts and identify potential issues related to specific component batches. This traceability is particularly important in industries such as aerospace and automotive, where component failures can have serious safety implications. By tracking the manufacturing lot indicators of key components used in model “49T8770035G1,” manufacturers can identify potential weaknesses in the supply chain and implement measures to improve component quality.
The integration of the manufacturing lot indicator with the model number provides a powerful tool for enhancing product quality, managing risk, and ensuring regulatory compliance. While the complexity of managing this data can be significant, the benefits of a well-implemented system far outweigh the challenges. Proper utilization of the manufacturing lot indicator allows manufacturers to proactively address potential issues, minimize the impact of product failures, and maintain a high level of customer satisfaction.
7. Component revision level
The component revision level is a critical aspect directly related to the model number “49T8770035G1.” It indicates the specific iteration or modification state of a particular component used within the device or system designated by that model number. This revision level is essential for ensuring compatibility, maintaining performance standards, and addressing identified issues or improvements implemented throughout the product lifecycle. A change in component revision level typically signifies alterations to the component’s design, materials, manufacturing process, or firmware. This, in turn, can impact the overall functionality, reliability, and performance of the final product. For instance, a new revision level may address a known bug, improve energy efficiency, or enhance compatibility with other system components. Consequently, understanding the component revision level associated with a specific model number is paramount for accurate troubleshooting, repair, and replacement procedures. Failing to account for the revision level can lead to incompatibility issues or introduce new problems into the system.
The practical implications of the component revision level are evident in various scenarios. Consider the case of a manufacturer issuing a firmware update for a device. The update may only be compatible with devices containing a specific component revision level. Attempting to apply the update to a device with an older or incompatible revision could result in device malfunction or permanent damage. Similarly, when ordering replacement parts, it is crucial to specify the correct component revision level to ensure proper fit and functionality. The manufacturer’s documentation and service manuals typically provide detailed information regarding component revision levels and their compatibility with specific model numbers. In the absence of this information, contacting the manufacturer directly is recommended to avoid potential errors. The aerospace industry, for example, uses strict controls on component revision levels to guarantee predictable performance and safety characteristics, even down to the specific batch numbers of materials used in manufacturing.
In conclusion, the component revision level forms an integral part of the broader understanding of model number “49T8770035G1.” It enables precise identification of the specific configuration and capabilities of a component within the system. This information is crucial for maintaining product integrity, ensuring compatibility, and facilitating accurate troubleshooting and repair procedures. The challenges associated with tracking and managing component revision levels underscore the need for robust documentation and communication channels between manufacturers, service providers, and end-users. A clear understanding of this relationship minimizes the risk of errors and contributes to the long-term reliability and performance of the product.
8. Technical specification link
The technical specification link, when associated with the model number “49T8770035G1,” provides direct access to comprehensive documentation detailing the performance characteristics, operational parameters, and physical attributes of the identified product or component. The model number functions as the primary index key, enabling retrieval of this critical information from manufacturer databases or online repositories. The absence of a valid technical specification link renders the model number less useful, as it limits the ability to ascertain the item’s intended purpose, operating limitations, and compatibility with other systems. The link, therefore, is not merely supplemental but rather an essential component that unlocks the full potential of the model number as an identification tool. As an example, an engineer tasked with integrating a component identified as “49T8770035G1” into a larger assembly requires the technical specifications to determine voltage requirements, thermal dissipation characteristics, and physical dimensions, all of which are vital for proper system design and operation.
Practical application of the technical specification link is evident in various sectors. In the electronics industry, it permits engineers to select appropriate components based on their documented performance and reliability. Service technicians rely on these specifications to diagnose faults, identify suitable replacement parts, and ensure proper repair procedures. Furthermore, regulatory compliance often necessitates access to technical specifications to verify adherence to safety standards, emission limits, or other applicable regulations. Consider the automotive industry, where accessing the technical specification link associated with a particular engine component allows technicians to determine correct torque settings, diagnose performance issues related to specific sensors, and confirm emissions compliance for regulatory reporting. Without direct access to this information, critical decisions can be based on incomplete or inaccurate data, leading to potential system failures, safety hazards, or regulatory violations.
In conclusion, the technical specification link forms an indispensable complement to the model number, providing the necessary context for understanding and utilizing the identified product or component. Access to accurate and up-to-date specifications is essential for engineering design, maintenance procedures, regulatory compliance, and overall product lifecycle management. A challenge lies in ensuring the availability and accessibility of these links throughout the lifespan of the product, requiring manufacturers to maintain comprehensive documentation and provide readily accessible online resources. The strength of this association lies in the ability to readily unlock crucial technical details, ultimately contributing to safer and more efficient product utilization.
Frequently Asked Questions about Model 49T8770035G1
This section addresses common inquiries regarding the interpretation and application of the identifier “49T8770035G1.” The information provided aims to clarify its significance within the context of product identification, component specification, and logistical management.
Question 1: What is the primary purpose of a model number like 49T8770035G1?
The primary purpose is to uniquely identify a specific product or component within a manufacturer’s catalog. This allows for precise referencing during manufacturing, ordering, servicing, and inventory management.
Question 2: Where is the model number 49T8770035G1 typically located on a physical product?
The model number is usually found on a label affixed to the product, often near other identifying information such as the serial number, manufacturer’s name, or regulatory compliance markings. The location varies depending on the product type and manufacturer’s labeling practices.
Question 3: How can one utilize the model number 49T8770035G1 to find detailed product specifications?
The model number can be used to search the manufacturer’s website, online product databases, or technical documentation repositories. These resources often provide detailed specifications, datasheets, and application notes.
Question 4: What does a change in a model number’s suffix (e.g., G1) typically indicate?
A change in the suffix usually denotes a revision or modification to the original product or component. This might include improvements in performance, materials, manufacturing processes, or firmware. Consulting the manufacturer’s documentation is crucial for understanding the specific changes.
Question 5: Is the model number 49T8770035G1 interchangeable with a serial number?
No, the model number and serial number serve distinct purposes. The model number identifies the type of product, while the serial number uniquely identifies a specific instance of that product. The serial number is used for warranty tracking and individual product history.
Question 6: What should one do if unable to find information related to the model number 49T8770035G1 online?
If online resources are insufficient, contacting the manufacturer directly is recommended. The manufacturer can provide detailed product information, technical support, and guidance on sourcing replacement parts or troubleshooting issues.
In summary, the model number serves as a vital tool for product identification and information retrieval. Understanding its role within the broader context of product management and technical documentation is essential for effective utilization.
The next section will explore the potential applications of this identifier in specific industrial and commercial settings.
Navigating the Significance of Model Identifier “49T8770035G1”
This section provides a series of focused insights intended to guide the effective utilization and interpretation of model identifiers such as “49T8770035G1.” These tips emphasize precision and accuracy in product identification and related processes.
Tip 1: Prioritize Accurate Documentation: Maintain meticulous records linking the model identifier to comprehensive technical specifications. This practice ensures readily available information for engineering, maintenance, and compliance purposes. An example includes creating a centralized database searchable by model identifier to access datasheets, schematics, and application notes.
Tip 2: Establish Consistent Nomenclature Standards: Implement uniform naming conventions across all departments involved in product management. This reduces ambiguity and facilitates seamless communication between engineering, manufacturing, and sales teams. Consistent nomenclature also aids in the accurate tracking of product revisions and updates.
Tip 3: Integrate Model Identifiers into Inventory Management Systems: Utilize model identifiers as primary keys within inventory databases to track stock levels, manage orders, and facilitate efficient logistics. This integration allows for precise monitoring of product movement and prevents errors in fulfillment.
Tip 4: Leverage Model Identifiers for Warranty Claim Processing: Incorporate model identifiers into warranty claim systems to streamline the validation process and prevent fraudulent claims. This ensures accurate application of warranty terms and efficient resolution of customer support issues. Track the number of warranty claims per product model to spot recurring manufacturing issues.
Tip 5: Ensure Traceability Through Lot Number Integration: Link manufacturing lot numbers to model identifiers to enable effective product recalls and identify potential quality control issues. This traceability allows for targeted corrective actions and minimizes the impact of product defects.
Tip 6: Use Revision Control for each product Identifier: Create and update a list of product changes for each Identifier in a single revision control system. Changes include hardware, software or packaging details
Tip 7: Utilize the model identifier for searching the technical manual, software or hardware diagrams. If there is a failure, be ready to look up details via the identifier.
These insights underscore the importance of accuracy, consistency, and integration when managing model identifiers. Adherence to these tips will enhance operational efficiency, reduce errors, and improve overall product lifecycle management.
The following section will address potential challenges associated with managing and interpreting complex model identification systems.
Understanding Model Identifier “49T8770035G1”
The preceding analysis has detailed the multifaceted significance of the model identifier “49T8770035G1.” Its function extends beyond simple nomenclature, serving as a critical link to product specifications, manufacturing data, warranty information, and component traceability. A comprehensive understanding of this identifier is essential for engineers, technicians, supply chain professionals, and regulatory compliance officers. The accurate interpretation and application of such identifiers are paramount for maintaining product integrity, ensuring operational efficiency, and mitigating risks associated with product defects or incompatibilities.
The effective management of model identifiers such as “49T8770035G1” requires a commitment to meticulous documentation, standardized processes, and integrated data management systems. Organizations that prioritize these elements will be well-positioned to leverage the full potential of model identifiers for enhancing product quality, streamlining operations, and fostering long-term sustainability. The continued evolution of manufacturing processes and regulatory requirements necessitates an ongoing commitment to refining and adapting model identification systems to meet future challenges and opportunities.
