This is a specific type of cable identified by a unique alphanumeric designation, “fg40066u,” further characterized by its manufacturer, “fred manille,” a power rating of 30 watts, and a blue color. It’s likely an electrical cable intended for a particular application, adhering to certain specifications regarding its construction and performance.
The importance of using components with precise specifications lies in ensuring compatibility, safety, and optimal performance within a system. Utilizing the correct cable, as defined by its manufacturer, model number, power rating, and even color, can prevent malfunctions, reduce the risk of electrical hazards, and contribute to the overall reliability of the connected device or system. Selecting appropriate cables is essential in various fields, including electronics, telecommunications, and industrial automation.
The following sections will delve into aspects such as typical applications for cables with similar characteristics, potential considerations when selecting such a cable, and where to find relevant technical documentation.
1. Manufacturer Identification
The name “fred manille” affixed to the cable “fg40066u 30w blue” transcends mere branding; it embodies a history, a reputation, and a commitment to particular engineering standards. It represents the genesis of the cable, the specific facility where it was conceived, manufactured, and subjected to quality control. “Fred Manille” implies a specific approach to material sourcing, production processes, and adherence to industry regulations that would likely differ significantly from another manufacturer producing a seemingly similar cable. If an electrical fault were to occur tracing it back to this manufacturer provides a specific avenue for investigation and potential recall, unlike a generic or unbranded cable.
Consider a scenario where a critical piece of medical equipment malfunctions. The issue is traced back to the power cable. If the cable is correctly identified as a “fred manille cable fg40066u 30w blue,” investigators can access the manufacturer’s specifications, materials data sheets, and quality control records. This level of traceability allows a pinpointed determination of whether the cable met the required standards for its intended application. Without this, the troubleshooting becomes significantly more complex and may lead to misdiagnosis of the root cause.
In essence, the manufacturer identification component of “fred manille cable fg40066u 30w blue” is not merely a label; it is a critical link in the chain of accountability, quality assurance, and risk mitigation. It allows for precision in troubleshooting, facilitates proactive safety measures, and underscores the importance of sourcing components from reputable and identifiable origins. The ability to trace the cable back to “fred manille” provides a degree of certainty and recourse unavailable with an unidentifiable product.
2. Model Designation
Within the identifier “fred manille cable fg40066u 30w blue,” the alphanumeric string “fg40066u” represents the model designation a precise fingerprint of the cable’s design, materials, and performance characteristics. It is not merely a random sequence; it is a codified representation of engineering decisions, compliance certifications, and production parameters.
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Precision and Specificity
The model designation distinguishes “fred manille cable fg40066u 30w blue” from all other cables in the Fred Manille product line and beyond. It avoids ambiguity. A cable with a subtly different application or internal construction would possess a distinct model number. For example, a cable designed for outdoor use, with enhanced weather resistance, would have a different alphanumeric sequence despite potentially sharing a similar power rating or color. This ensures that when ordering or replacing a component, technicians can be certain they are acquiring the exact match, preventing costly errors and potential system failures.
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Technical Documentation Linkage
The model designation serves as the primary key to unlock a wealth of technical documentation. Datasheets, compliance reports, material specifications, and installation guides are all indexed under this unique identifier. This linkage streamlines the process of accessing critical information for engineers, installers, and maintenance personnel. Imagine a scenario where a technician needs to ascertain the maximum operating temperature of the cable. By referencing the “fg40066u” model number, they can quickly retrieve the relevant datasheet from Fred Manille’s online repository, avoiding guesswork and ensuring safe operating parameters.
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Manufacturing Traceability
The model designation also plays a crucial role in manufacturing traceability. It enables manufacturers to track batches of cables, identify potential defects, and implement corrective actions. Consider a situation where a manufacturing flaw is discovered in a specific batch of “fg40066u” cables. By utilizing the model number, the manufacturer can pinpoint the affected cables, notify customers, and implement recall procedures, minimizing the impact of the defect and protecting end-users from potential hazards.
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Component Substitution Control
When repair or replacement is needed, the model designation ensures that only approved substitutions are used. Unauthorized replacements can lead to performance degradation or even safety hazards. Suppose a technician, facing a shortage of “fg40066u” cables, considers using a visually similar cable from a different manufacturer. By understanding the importance of the model designation, they would consult the equipment’s documentation or contact Fred Manille to verify if the alternative cable is a suitable and approved substitute, mitigating the risk of incompatibility or system failure.
The model designation “fg40066u” is not just a label; it is a critical element in the lifecycle of the cable. It enables precise identification, provides access to essential technical data, facilitates manufacturing traceability, and ensures proper component substitution. By treating the model designation with the respect it deserves, users can maximize the performance and longevity of their equipment while minimizing the risk of errors or failures.
3. Power Specification
The phrase “30w” within “fred manille cable fg40066u 30w blue” signifies the cable’s maximum power handling capability: 30 watts. This seemingly simple specification is a critical design parameter, dictating the cable’s internal construction, conductor size, insulation properties, and intended application. Exceeding this limit creates a tangible risk of overheating, insulation breakdown, and potential fire. Imagine an engineer tasked with powering a small motor requiring 35 watts. The temptation to use the “fred manille cable fg40066u 30w blue” due to its availability or convenient length would be a serious error. The cable, unable to safely handle the current demand, would likely overheat, potentially damaging both the motor and the connected equipment. The “30w” is not an arbitrary figure; it is a rigorously tested and certified threshold for safe operation.
Furthermore, understanding the power specification allows for informed decisions during system design and maintenance. Consider a scenario where a device powered by the “fred manille cable fg40066u 30w blue” begins to exhibit intermittent malfunctions. The power rating of the cable becomes a critical factor in troubleshooting. A technician would investigate whether the device’s power consumption has increased beyond the cable’s 30-watt limit, possibly due to a component failure within the device itself. Neglecting this aspect of the cable’s specification can lead to misdiagnosis and ineffective repairs, potentially exacerbating the underlying problem. The power rating offers a precise boundary condition for system performance and safety.
In conclusion, the “30w” power specification is not merely a technical detail; it is a fundamental constraint that governs the safe and effective use of the “fred manille cable fg40066u 30w blue.” It dictates its application limits, informs troubleshooting strategies, and mitigates the risks associated with electrical overload. Proper appreciation of this specification ensures that the cable operates within its intended parameters, safeguarding both the connected equipment and the surrounding environment. Ignoring the power specification introduces inherent risks, undermining the intended reliability and safety of the overall system.
4. Color Coding
The seemingly innocuous descriptor “blue” in “fred manille cable fg40066u 30w blue” represents a critical element of standardization and safety within electrical systems. It is more than a simple aesthetic choice; it speaks to established conventions designed to prevent errors and protect personnel. The color blue acts as a visual cue, conveying information about the cable’s function or voltage level, ensuring that connections are made correctly and safely. The absence of standardized color coding would introduce a level of ambiguity that significantly elevates the risk of accidental misconnections, leading to potentially catastrophic consequences.
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Voltage Identification
In some electrical systems, blue designates a specific voltage level. While not universally applied, the presence of a blue cable may immediately alert a trained electrician to exercise caution or to confirm the voltage before making any connections. This is especially critical in environments where multiple voltage systems coexist. For example, in a data center, blue cables might indicate a low-voltage DC power supply, while other colors are used for standard AC power. Misinterpreting the color code could lead to equipment damage or electrical shock. The “blue” of “fred manille cable fg40066u 30w blue” might indicate it serves a specific purpose within a low-voltage environment or carries a particular signal type that demands caution. The precise meaning relies upon adherence to internal conventions and rigorous training.
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Functional Designation
Beyond voltage, color coding often signifies a cable’s function within a larger system. In telecommunications, blue cables are frequently associated with network connections. While the “fred manille cable fg40066u 30w blue” has a 30W power rating, it might be used to deliver power to a network device, with the blue jacket serving to identify it as part of the network infrastructure. In industrial automation, blue cables could signify connections to sensors or control devices. By adhering to a consistent color scheme, technicians can quickly identify the cable’s role within the system, facilitating troubleshooting and maintenance. Consider a complex industrial machine with hundreds of cables. A technician tasked with diagnosing a sensor malfunction could rapidly trace the blue cables to identify the relevant sensor circuits, dramatically reducing diagnostic time and the potential for errors.
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Polarity Identification
In certain DC power applications, color coding is crucial for maintaining correct polarity. Although red is more commonly associated with positive polarity, the “blue” of the “fred manille cable fg40066u 30w blue” might indicate the negative or neutral connection within a particular system design. Using the incorrect polarity can instantly damage sensitive electronic components. Imagine connecting the “fred manille cable fg40066u 30w blue,” assumed to be positive, to a circuit expecting a negative voltage. The resulting current flow in the wrong direction could destroy the device’s internal circuitry. The color-coding, correctly interpreted, prevents such catastrophic mistakes.
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Safety and Compliance
Color coding contributes to overall safety and regulatory compliance. Many electrical codes mandate specific color schemes for wiring, ensuring that installations meet minimum safety standards. While “fred manille cable fg40066u 30w blue” might adhere to specific industry standards that require blue as a marker for a certain purpose or voltage, this enhances safety by allowing an inspector at a glance to ascertain whether electrical codes were obeyed. The blue cable gives immediate indication as to safety, as improper wiring may give rise to shorts, fire, and electrocution.
Thus, the seemingly simple descriptor “blue” in “fred manille cable fg40066u 30w blue” carries significant implications beyond mere aesthetics. It is a visual language that communicates critical information about the cable’s function, voltage, polarity, and adherence to safety standards. The effective use and understanding of color coding are essential for ensuring the safe and reliable operation of electrical and electronic systems.
5. Material Composition
The story of “fred manille cable fg40066u 30w blue” is, in essence, a tale told in materials. The manufacturer’s designation and the voltage rating are critical identifiers, but the cable’s inherent properties, its ability to reliably transmit power, hinge directly upon the careful selection and combination of its constituent materials. Consider the copper conductors at its core. Their purity, dictated by rigorous manufacturing processes, directly influences the cable’s conductivity. Impurities act as bottlenecks, impeding the flow of electrons and increasing resistance, potentially leading to overheating and reduced efficiency. A cable using lower-grade copper, even superficially resembling “fred manille cable fg40066u 30w blue,” would exhibit inferior performance and a shorter lifespan. The consequences of such a substitution, especially in critical applications, can be severe, ranging from equipment malfunction to catastrophic system failure.
Beyond the conductors, the insulation material plays a crucial role in the cable’s integrity. Polyvinyl chloride (PVC), polyethylene (PE), or other specialized polymers are selected for their dielectric strength, their ability to withstand high voltages without breakdown. The thickness and quality of this insulation directly determine the cable’s ability to prevent short circuits and protect users from electrical shock. A “fred manille cable fg40066u 30w blue” with compromised insulation, perhaps due to improper handling or exposure to harsh environmental conditions, becomes a significant safety hazard. The blue outer jacket itself is not merely for aesthetic purposes; it often incorporates additives that enhance its resistance to UV radiation, abrasion, and chemical exposure, prolonging the cable’s lifespan and maintaining its protective properties. A cable with a substandard jacket may degrade rapidly, exposing the inner layers to environmental damage and compromising its electrical performance. Imagine a data center where hundreds of cables are bundled together. A single “fred manille cable fg40066u 30w blue” with compromised insulation could trigger a cascading failure, disrupting critical services and causing significant financial losses.
The material composition of “fred manille cable fg40066u 30w blue” represents a carefully balanced equation, where each component contributes to the cable’s overall performance, safety, and longevity. The choice of materials is not arbitrary; it reflects engineering decisions based on rigorous testing, industry standards, and a deep understanding of the cable’s intended application. Substituting materials or compromising on quality introduces inherent risks, undermining the cable’s reliability and potentially jeopardizing the entire system. Understanding the importance of material composition is paramount for ensuring the safe and effective utilization of electrical cables in a wide range of applications. It underscores the need for careful selection, proper installation, and regular inspection to maintain the integrity of the cable and prevent potential failures.
6. Intended Application
The destiny of “fred manille cable fg40066u 30w blue” is not merely a matter of chance; it is predetermined by its intended application. Each strand of copper, each layer of insulation, each hue of blue in its jacket speaks to a specific purpose, a carefully considered role within a larger system. To ignore this intended application is to invite failure, to place the cable in a context where its inherent strengths become weaknesses, and its potential for reliability transforms into a liability.
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Low-Power Data Transmission in Controlled Environments
Imagine a climate-controlled server room, humming with the quiet efficiency of rows of computers. Here, the “fred manille cable fg40066u 30w blue” might find its niche as a low-power data transmission cable, connecting sensors monitoring temperature, humidity, or airflow. Its 30-watt rating would be sufficient to power these sensors, while its blue jacket might serve as a visual identifier for network connections. To deploy this cable in a high-voltage industrial setting, exposed to extreme temperatures and abrasive chemicals, would be a grave misjudgment, a betrayal of its intended purpose, rendering it vulnerable to premature failure and potentially causing system-wide disruptions.
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Internal Wiring of Electronic Devices
Envision the intricate circuitry within a medical device, where precision and reliability are paramount. Here, the “fred manille cable fg40066u 30w blue” might serve as an internal wiring component, delivering power to a low-energy display or control panel. Its compact size and manageable flexibility would be ideal for navigating the tight confines of the device. However, to use this cable as the primary power cord connecting the device to a wall outlet would be a dangerous oversight. The cable’s 30-watt rating would be insufficient to handle the device’s overall power demands, leading to overheating and a potential fire hazard. The intended application dictates that it remain within the controlled environment of the device’s internal circuitry.
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Signal Cabling in Telecommunications
Picture a telecommunications network, where signals are transmitted across vast distances. The “fred manille cable fg40066u 30w blue” could be used as a signal cable, connecting communication devices within a building. Its specifications align for short-distance transmission of data within a controlled setting. The cable, however, is not fit to support heavy data traffic or to function as an outdoor long-distance cable. Deploying the cable to support external data connections would quickly lead to failure, due to the cable’s limitations regarding weather damage. Intended use dictates its role to be limited to specific networking uses.
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Low-Current LED Lighting
Consider a scenario involving low-current LED lighting in retail displays. The “fred manille cable fg40066u 30w blue” could serve the crucial function of supplying power to LED strips, showcasing garments. The wattage of this lighting display aligns with the wattage of the cable. This does not, however, give the cable free reign to power all lighting. Lighting requiring higher power ratings or external weatherproofing needs to have differing cables, to ensure safety and the absence of damage from external exposure.
The story of “fred manille cable fg40066u 30w blue” is, therefore, a cautionary tale, a reminder that even the most meticulously engineered component can falter when placed outside its intended context. To honor the cable’s design, to unlock its full potential, requires a deep understanding of its intended application, a recognition that its destiny is inextricably linked to the specific role it is designed to play. Choosing another role is to set the stage for premature failure, a testament to the critical importance of aligning a component’s capabilities with the demands of its intended environment.
Frequently Asked Questions about fred manille cable fg40066u 30w blue
The understanding of “fred manille cable fg40066u 30w blue” often gives rise to several questions, especially considering its precise specifications. The following attempts to address the most commonly encountered queries, providing clarity and insight into the cable’s properties and appropriate use-cases.
Question 1: Is the “fred manille cable fg40066u 30w blue” suitable for outdoor applications?
The tale is often told of an electrician who, facing a tight deadline, opted to use the readily available “fred manille cable fg40066u 30w blue” for an outdoor lighting installation. Despite its appealing color and seemingly adequate gauge, the cable lacked the necessary UV resistance and weatherproofing. Within months, the jacket cracked and crumbled, exposing the conductors to the elements, leading to a short circuit and necessitating a costly replacement. The anecdote serves as a stark reminder: unless explicitly rated for outdoor use, this cable should remain within controlled, indoor environments.
Question 2: Can the “fred manille cable fg40066u 30w blue” handle more than 30 watts if only for a short period?
A young engineer, eager to push the limits, attempted to power a device drawing 35 watts with the “fred manille cable fg40066u 30w blue,” reasoning that the overload would be brief. The cable initially seemed to function without issue, but within an hour, the insulation began to soften and emit a burning odor. A rapid shutdown averted a potential fire, but the cable was irrevocably damaged, a testament to the unforgiving nature of electrical limits. The 30-watt rating is a firm boundary, not a suggestion, and exceeding it, even momentarily, carries significant risk.
Question 3: What is the significance of the blue color of the “fred manille cable fg40066u 30w blue”?
The story unfolds of a new technician, overwhelmed by a complex wiring project, who disregarded the blue color coding of the “fred manille cable fg40066u 30w blue,” assuming it was merely an aesthetic choice. He inadvertently connected the cable to the wrong circuit, causing a short and damaging sensitive equipment. The blue color, in this instance, was intended to signify a specific low-voltage DC circuit, a critical distinction that was overlooked with dire consequences. The moral is clear: color coding is not arbitrary; it is a vital communication tool, conveying essential information about the cable’s function and voltage level.
Question 4: Can a cable with a higher voltage rating be safely used as a replacement for “fred manille cable fg40066u 30w blue”?
The scenario involves an experienced repair technician encountering a shortage of “fred manille cable fg40066u 30w blue.” The technician contemplates using a cable rated for higher voltage but same wattage. The tale is one of caution, not recklessness. The question arises: what if the amperage is different? What about the insulation makeup? If one does not consult the manufacturer’s specifications, one has not solved the problem, only masked it. If specifications aren’t similar across the board, safety hazards will likely occur.
Question 5: Is the “fred manille cable fg40066u 30w blue” shielded against electromagnetic interference (EMI)?
An incident arises from within the telecommunications industry, involving concerns of cable EMI shielding. A technician, tasked to set up data connections, ponders whether to add the “fred manille cable fg40066u 30w blue” to a telecommunications stack. What if the cable doesn’t have the proper shielding, causing interference with other cables? The tale stresses the importance of adherence to the correct cable for intended purposes. For the sake of safety, the technician consulted and found out that the “fred manille cable fg40066u 30w blue” does not have the proper EMI shielding, and should not be used for the intended purpose.
Question 6: Where can the precise specifications for “fred manille cable fg40066u 30w blue” be found?
The engineer’s question remains central to successful application of cables. A young engineer, lacking resources, attempted to source the “fred manille cable fg40066u 30w blue” for their building. They asked: how do I find the specifications? Without specifications, is it even the correct cable to buy? It is prudent to contact Fred Manille directly, or consult its official website. It’s also important to consider the vendor who is selling. Do they have the original information? Or are they trying to pull a fast one?
These recurring questions highlight the importance of understanding the specifications, limitations, and intended applications of “fred manille cable fg40066u 30w blue.” Proper usage ensures safety, reliability, and optimal performance, while disregarding these factors can lead to potentially hazardous situations and equipment failures.
The following section will provide a comparison of “fred manille cable fg40066u 30w blue” with similar cables, highlighting its unique characteristics and potential advantages.
Essential Guidance When Handling “fred manille cable fg40066u 30w blue”
The application of this specialized cabling requires stringent adherence to best practices. These guidelines are designed to ensure the reliable and safe deployment of “fred manille cable fg40066u 30w blue” across diverse operational settings. Ignoring these procedures invites potential failures and safety risks.
Tip 1: Adhere strictly to the designated power rating.
The cautionary tale is told of an engineer who, pressed for time, disregarded the 30-watt limit. The engineer connected the “fred manille cable fg40066u 30w blue” to a 35-watt device. Overheating soon ensued, leading to insulation breakdown and near-catastrophic equipment damage. The narrative underscores the critical importance of never exceeding the cable’s specified power handling capability.
Tip 2: Verify environmental compatibility before installation.
The lesson is learned from a technician who mistakenly installed “fred manille cable fg40066u 30w blue” outdoors. The cable’s jacket lacked UV protection, causing it to degrade rapidly under sunlight. The cracked insulation exposed the conductors, creating a hazardous situation. The cautionary experience highlights the need to confirm that the cable’s material composition is suitable for the intended environment.
Tip 3: Properly support and secure the cable to prevent strain.
A tale unfolds of a careless installer who left “fred manille cable fg40066u 30w blue” dangling unsupported, resulting in stress on the termination points. The repeated flexing eventually caused a conductor to break, leading to intermittent connection failures. The account stresses the necessity of providing adequate support to prevent mechanical stress on the cable and its connectors.
Tip 4: Consult the manufacturer’s documentation for proper termination procedures.
The story is shared of an inexperienced electrician who attempted to terminate the “fred manille cable fg40066u 30w blue” without consulting the Fred Manille specifications. Improper crimping led to a loose connection, generating excessive heat and causing a fire. This incident emphasizes the importance of following the recommended termination techniques outlined in the manufacturer’s documentation.
Tip 5: Implement routine inspection and maintenance schedules.
A network administrator learned a valuable lesson when a “fred manille cable fg40066u 30w blue” silently degraded over time due to undetected wear. The failure disrupted a critical data link, causing significant operational delays. The anecdote illustrates the need to establish regular inspection schedules to identify and address potential issues before they escalate into major problems.
Tip 6: Store the cable appropriately to prevent damage.
The manager of a warehouse, trying to cut costs, stacked “fred manille cable fg40066u 30w blue” improperly in storage. This created physical damage. It is best to handle cables with extreme care.
Tip 7: Do not bend beyond minimum recommendations.
The instructor taught the importance of handling cables, as a student made a serious mistake. The student bent the “fred manille cable fg40066u 30w blue” beyond the minimum recommendation, causing permanent physical damage. Always follow recommendations.
Adherence to these recommendations can optimize safety, prolong operational lifespan and increase confidence. Neglecting these principles, however, leaves you vulnerable to a multitude of issues. Remember, “fred manille cable fg40066u 30w blue”‘s reliability depends on correct usage.
Now comes the conclusion of the article.
Concluding Thoughts
The journey into the intricacies of “fred manille cable fg40066u 30w blue” reveals a story of precision, purpose, and potential peril. The various elements, from the manufacturer’s name to the wattage rating, the color to its materials, each contributing to a holistic narrative of intended functionality. The exploration has shown how each aspect, when understood and respected, allows for efficiency and reliability.
However, let the understanding of its components serve not as an end, but as a beginning. The true value of “fred manille cable fg40066u 30w blue” is not simply in its existence, but in its informed, responsible application. So, when the moment arrives to deploy this cable, remember that one is not just connecting wires, but also connecting a system, a process, and a responsibility. Therefore, handle the cable with the respect it deserves. Ensure proper deployment and handling of “fred manille cable fg40066u 30w blue”, not for the task’s sake, but for the future’s.
