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The Ultimate Guide to 2 Prong Power Cables Updated 2024

In the world of electrical and electronic devices, power cables are very important for safety and effectiveness. This article focuses on 2 prong power cords, a widely used yet frequently misunderstood consumer and professional electronics component. Designed as an all-inclusive piece, this paper will clarify technical specifications, classifications, and applications of 2-prong power cords. We want to provide readers with detailed information about their construction, working principles as well as guidelines for choosing the right type of cable for particular devices. Moreover, we will give some useful hints together with expert advice on how these cables should be used and maintained properly so that people can keep their electrical appliances safe and prolong their lifespan too.

What Are 2 Prong Power Cables and Their Uses?

2 Prong Power Cables
2 Prong Power Cables

Understanding the Basics of 2-Prong Power Cables

C7 connectors, also known as two-prong power cables, are commonly used to supply electricity to different electrical appliances that do not need grounding. This type of cable has two conductors: a live wire and a neutral wire, which are enclosed in a sheath made of insulating material so as to facilitate the safe transfer of electric current from the socket to the device. Depending on the area or IEC 60320 standards, such as those specified by other authorities, it can be rated up to 250 volts AC (alternating current). These wires are thinner compared to three-core flexes because they supply lower levels of power and mainly serve double-insulated devices where grounding is not required for safety purposes. For example, they may be used in charging bricks for portable gadgets, small domestic machines like kettles or blenders, and some office gadgets, among others, hence showing their versatility in everyday use. In terms of manufacture, stringent safety precautions have been put in place during production so that people do not get electrocuted but still perform their desired functions reliably, too.

Typical Applications of 2-Prong Power Cables

The usefulness of 2 prong power cables is evident in many different applications which is why they are so important both at home and in professional environments. These examples will show you just how necessary these wires are for any electrical system:

  • Portable electronic devices – Charging adapters for laptops, mobile phones and tablets etc., often use what are known as two-prong power cords. This is because most such devices have double insulation that doesn’t require grounding thus making them lighter and more convenient.
  • Audio-visual equipment – For instance radios or DVD players in a home theatre system would typically be connected via two prongs; this relies on stability of power supply without the need to provide an additional complex ground wire which may consume space unnecessarily.
  • Small household appliances – Some kitchen machines like coffee makers, blenders, or toasters have been designed with safety in mind; hence, their compliance with IEC 60320, among other international standards, ensures intermittent use devices operate well within lower rated powers.
  • Lighting equipment – There are various types of lights, such as those found on desks or floors, which usually come fitted with two-pin plugs so that manufacturers don’t have to include extra wires where earthing isn’t needed due to its impracticality when dealing with portable gadgets.
  • Office machinery – Printers, scanners and shredders among other similar machines can make do without an earth connection by using a double insulated setup along non-continuous lines conforming better to the safe operational requirements associated with two-prong cable usage in such environments.

These instances demonstrate just how widely adaptable 2 prongs can be used while also underscoring the need for selecting appropriate wire types based upon device power ratings and safety regulations.

Benefits of Using 2 Prong Power Cables

There are several benefits to the use of two-prong power cords in different electronic and electrical appliances:

  • Lightweight and Compact: Two prong cables have a lighter weight and smaller diameter since they lack an earth wire. This reduces the weight of devices and improves their portability, which is important for portable electronics.
  • Affordability: Manufacturing-wise, two-prong cables are cheaper than three-prong ones. A simple design means that less material is needed, thus reducing production costs that are passed on to customers.
  • Installation and Connectivity Made Easy: The simplicity of 2prong cable designs allows for quick installations or removals, making them user friendly in residential or office settings. Such simplicity fastens setup times while minimizing wrong connections.
  • Safety Through Double Insulation: Double insulation is often used in appliances with two prongs as part of design safety measures against electric shock hazards by such devices. This acts as another layer of protection, hence eliminating the need for grounding wire in some low-power, intermittent-use gadgets.
  • Universal Applicability: Wide usage adoption of international standards like IEC 60320, into which two pins power cords fit, ensures products with these cables can be used across nations without requiring adapters or adjustments, thereby enhancing global distribution and utilization.

These advantages highlight why particular applications opt for two pin power cords over others pointing out how they improve the usefulness, security and economic viability of electronic devices.

How to Choose the Right 2-Prong Power Cable?

How to Choose the Right 2-Prong Power Cable?

Factors to Consider When Selecting a 2-Prong Power Cable

  • Device Compatibility: It is important to make sure that the cord you are using will work with your device. Look at the voltage and current requirements of the appliance you are using it for, this will help prevent any problems from arising. Most devices have their power needs printed on them somewhere or else in their user manual so these should be consulted before making a selection.
  • Length: The length of a cable can affect how well it works as well as what kind of power loss may occur over distance. Pick out an appropriate size based on how far apart your device is from where you’re plugging it in at – this way you’ll have convenience and efficiency both taken care of while minimizing power loss.
  • Material Quality: What makes up this two prong power cable also greatly affects its lifespan and safety features. Good materials mean long life spans plus less wear & tear risks; they also provide better defense against electric hazards.
  • Certification/Compliance: Ensure all cables purchased adhere strictly to regulations laid down by relevant bodies such as UL (Underwriters Laboratories) or ETL (Intertek Testing Services). This guarantees conformity with safety rules worldwide.
  • Flexibility/Durability: Determine whether flexibility or durability is more necessary for your particular situation based on environmental conditions surrounding usage frequency. In areas where there’s lots of bending going on flexible wires would work best whereas stiff ones come in handy when dealing with static high-wear setups.
  • Manufacturer Reputation: Buy items produced by companies known for excellent manufacturing practices backed up by positive consumer feedback concerning quality assurance systems employed during production stages .

Different Types of Connectors Available for 2 Prong Power Cables

In selecting a two-pronged power plug, you must look at the type of connector that suits your appliance and power supply requirements. Understanding the different types of connectors available can greatly impact compatibility as well as usability. Below are several examples of connectors commonly used with two-pronged power cords:

  • NEMA 1-15 (Non-polarized): This has two same-sized parallel blades and no polarity marking; hence it works where polarity does not matter. Typically, such connectors are found in applications that need up to 15A current at 125V.
  • NEMA 1-15P (Polarized): It is similar to NEMA 1-15 except for one blade being wider than the other which ensures correct connection orientation between live wire and neutral wire thereby increasing safety in electrical appliances.
  • Europlug (Type C): Europlug is a slim line, flat two-pin plug used mainly across Europe for devices drawing up to 2.5A current without grounding requirement within voltage range of 220V – 240VAC. Its compact size makes it ideal for small portable equipment.
  • BS 4573 (UK Shaver Plug): This British Standard shaver plug specifies a flat two-pin plug primarily used in bathrooms for low power consumption devices like electric toothbrushes and razors designed to draw maximum of about 200mA thus providing safe option where low current is needed.
  • IEC 60906-1 (International): This international standard covers plugs socket-outlets cord extension sets intended worldwide use; its goal was to create one global system that could work with different voltages found around various parts of the world while enhancing safety levels vis-à-vis device usage especially during travel or relocation from one country to another.

Every connector design has specific applications, electrical ratings, and safety features built into it so that it can be used safely under certain conditions only but not others. Therefore, when choosing any two-pronged power cable, always ensure you know what connector type best suits the device being powered as well as its source specification in terms of voltage level and current capacity, among others. Failure to do this may result in a mismatch that is not only incompatible but also unsafe, even risking damage on either side or both sides of the equipment.

Importance of Checking Cable Length and Gauge

When picking out a two-prong power cable, the length, and gauge have to be considered because they greatly affect its performance and safety. Voltage drop is directly influenced by how long the cables are; for instance, if it’s too extended then there could be a considerable decrease in volts by time power reaches device which might cause malfunctioning or even damage of equipment. Therefore, use shortest practical length of cable to minimize this voltage drop.

The gauge or thickness (American Wire Gauge) also matters since it determines how much current can pass through without heating up excessively, leading to fires or burning insulation off wires altogether. If a small-sized wire carries more power than its capacity allows for, then overheating becomes inevitable, thereby putting everything around at risk, including people’s lives. Hence, one should always consider what size wire they need based on their intended use.

Before you choose any product, it is very important that both characteristics should be evaluated carefully as they directly relate to the safety, efficiency, and functionality of an appliance or device. Being aware of the rules governing these factors will help users create secure electric systems that work well, thus preventing accidents and extending the lifespan of gadgets.

Installing and Maintaining 2 Prong Power Cables

Installing and Maintaining 2 Prong Power Cables

Step-by-Step Guide to Installing a 2-Prong Power Cable

  1. Preparation and Safety
  • Before you start installing anything, make sure that you turn off the power from whichever power source is connected to where you want to install it so that there are no electrical accidents. You can use a voltage tester to prove that indeed there’s no electric current flowing through the wires.
  1. Selecting the Appropriate Cable
  • Choose a 2-prong power cable with the right gauge according to American Wire Gauge (AWG) standard, taking into account how much power your appliance needs and how far it is from an outlet. You should refer to the manual of your device or look up electrical standards if you want to ensure maximum safety and efficiency.
  1. Inspecting the Cable
  • Carefully examine the cable for any indications of destruction such as grazes, splits or wires that are out in the open. Cables which have been harmed are very dangerous and must be replaced at once with those that are undamaged.
  1. Stripping the Cable
  • Carefully remove around 3/4 inch of the insulation from the ends of your wires with a wire stipper so that the metal conductors are exposed. Watch out not to harm or weaken them by scratching their surfaces.
  1. Connecting the Cable
  • Join the bare cables to those of the device that match. Keep these contacts tight so as not to have any electrical problems. If screws are employed in fixing the wire, they should be very tight in order for there can be a sound electrical connection.
  1. Testing the Connection
  • When the wire is plugged in, turn the power back on. With a meter that can measure different things at once, check if the tool is getting enough volts. The step must be followed to make sure everything was done right and nobody gets hurt.
  1. Regular Maintenance
  • Make it a habit to check the cable and all its connections to ensure that they are working well. You should also look out for signs like overheating, damage or wear and tear, if you notice any of these signs then replace this cable immediately.

To make sure that the two-prong power cables are safe and effective in their installation, reducing risks as well as improving the performance and durability of devices, users should follow these instructions carefully step by step.

Tips for Properly Maintaining 2-Prong Power Cables

  1. Regular Inspection
  • Inspect the whole cable in regular intervals and watch out for any indication of fraying, cracking or bare wires which usually mean the wire is worn out, damaged or torn. If possible, carry out these checks four times every year as a minimum requirement; but if not feasible then do so more often especially when working under severe conditions.
  1. Environmental Protection
  • To prevent environmental damage, cables should not be exposed to extreme temperatures, moisture, chemicals and UV light. When needed, use protective sleeves or conduits to guard against harmful conditions.
  1. Proper Storage
  • To prevent the cables inside from being ruined, you can keep two-pronged cords in a cool, dry area by coiling them in a wide circle without bending them too much.
  1. Avoid Overloading
  • To avoid overheating which spoils the insulating material and weakens the cable, make sure that you do not load the electric power beyond the maximum limit of the wire.
  1. Handling Care
  • Do not ever pull the cord from the power source, always grip the plug. This helps to minimize damage in the connection inside between them.
  1. Use of Correct Rating
  • Match the cord to devices rated for the right voltage and current. If a cord with a lower rating than necessary is used, it can lead to catastrophic safety concerns such as the risk of fire.
  1. Professional Repairs
  • If you detect any damage or wear, call in an electrician to repair or replace them. Trying to fix wires can make things worse or give you an electric shock if you don’t know what you’re doing.

These conservation suggestions when put to use can keep the 2-prong power cords in good condition, improve their reliability and lifespan as well as guarantee the safety of the electrical appliances they are connected to.

Common Issues and Troubleshooting with 2 Prong Power Cables

Common Issues and Troubleshooting with 2 Prong Power Cables

Identifying Potential Problems with 2 Prong Power Cables

The most common issues with two-prong power cables are often caused by physical damage, aging, and misuse. Spotting these problems early on can help prevent safety risks and damage to equipment.

  • Physical Damages: A visual checkup can make known cuts, fraying or cracks in the insulation of the cable. Such defects expose internal wires that may cause short circuits or electric shocks.
  • Overheating Signs: Discoloring or melting of the insulation covering a cable shows that there is excessive current passing through it which could be caused by overloading or using an underrated cable. This may weaken the structure of the cable and increase chances for fire outbreaks.
  • Prongs That Are Bent Or Loose: When prongs are not straightened out properly into a power outlet, they could create an intermittent connection or even arc thus damaging both itself as well as any connected device.
  • Electrical Testing: Open circuit tests indicate wire breakage while short circuit tests suggest wires touching each other or grounding problems using a multimeter. Resistance measurements help verify if there is any compromise to wire quality within a cable where high resistance readings would mean so.
  • Environmental Damages: Cables used in severe conditions might experience faster deterioration than usual. Insulation may be affected by high levels of humidity, corrosive substances or extreme temperatures thereby degrading performance standards for such cables.

These potential challenges should be addressed proactively by checking them regularly lest 2-pin AC cords fail during critical tasks in any setting.

How to Troubleshoot Power Delivery Issues

When you have power delivery problems with two-prong power cables, it is important to identify the root cause efficiently. The following procedure shall help you do just that:

  • Look at It: Look at the entire length of it thoroughly for signs of wear and tear, physical damage, overheating or any other environmental harm as mentioned previously.
  • Plug It In Properly: Ensure that both ends are plugged in correctly, also checking to see if they are secured as well because loose connections may interfere with electricity flow which then causes device malfunctioning.
  • Electricity Testing With a Multimeter: A continuity test using a multi-meter can be carried out on this cable – continuity tests check if there is complete path through which current can pass. If the continuity test fails it means one wire inside has snapped. Additionally measure resistance level across this cable; significant deviation from expected resistance will reveal areas where there is damage or degradation.
  • Consider Attached Gadgets: Sometimes, it could be that the problem lies with the device or with this cord itself. So try another device and see if power is still not being supplied by isolating whether it’s the original appliance or not.
  • Voltage and Current Rating Inspection: Confirm whether voltage/current ratings are correct for what device is powered by which cable so as not to use low-rated ones that might cause overheating while delivering electricity, hence failure in delivery.
  • Environment Check: Find out whether exposure to extremes in moisture content or chemicals could affect its operation.

In conclusion these steps should enable anybody troubleshoot different issues related to functionality between safety of 2-prong power cords thereby ensuring their devices have reliable sources of energy.

Addressing Cable Damage and Wear

To address cable damage and wear, the first thing that should be done is to visually inspect it very well so as to determine whether the insulation of the cable shows any signs of fraying, cutting or rubbing. If there is damage, one needs to establish whether only its surface has been affected or it goes beyond that by examining closely the area involved. It could be possible to deal with external damages using electrical tape or heat shrink tubing, which acts as stopgap measures, giving back some insulation and safeguarding. Nevertheless, replacement becomes necessary when there is massive destruction that alters the innermost part of the cable structure.

There are several advantages associated with dealing with cable damage promptly and in an appropriate manner; this ensures that electrical devices perform optimally while still being reliable, and prevents probable risks like short circuits or even fires, besides increasing life expectancy for both cables themselves as well those connected to them. Moreover, being conversant with typical wearing-out patterns alongside environmental factors that accelerate the degradation process would enable us to practice good habits on managing our cables better so as not only to save time but also to conserve resources, thus ensuring continuity in operational efficiency.

Enhancing Safety and Performance of 2 Prong Power Cables

Enhancing Safety and Performance of 2 Prong Power Cables

Understanding Safety Regulations for Power Cables

To guarantee the safety and reliability of two-pin power cords, it is necessary to recognize the fundamental rules for their design, production, and use. Such measures are meant to lower dangers linked with electric appliances by making sure they conform to requisite protection levels that safeguard people and property from electrical threats. Here are some main criteria or recommendations:

  • Voltage and current ratings: These figures indicate maximum safe capacity of a cable to carry electricity; thus its construction should match power requirements imposed by an appliance connected through it.
  • Insulation and material standards: Regulations state what kind of insulation materials shall be used where there is need for them not only resist electrical leakage but also withstand environmental effects as well act against physical harm.
  • Certification marks: Usually compliance with safety regulations is shown by certification marks like UL (USA), CE (Europe) or CCC (China) that mean a cable has been examined & approved by recognized bodies based on standard tests conducted elsewhere too.
  • Environmental considerations: Extreme temperatures should not affect this item greatly therefore, it should be moisture-resistant plus capable of withstanding chemical exposures so that its lifespan can be long enough under different conditions while still remaining safe
  • Mechanical durability: Standards cover everything from design up until testing processes where durability factors such as bend radiuses, tensile strengths, and abrasion resistances, among other things, are considered necessary evils aimed at preventing early wear-outs, thereby ensuring the longevity of cables.

For manufacturers, suppliers, and users alike, understanding these regulations cannot be overemphasized in terms of safety alone but also efficiency when it comes to electrical devices because they serve as benchmarks against which quality within international markets may be judged.

Tips for Improving Power Delivery and Efficiency

  1. Make Cable Length and Gauge Optimal: Resistance is minimized by reducing cable length, which also increases efficiency through energy loss reduction. Energy dissipation can be decreased by using current-appropriate gauge sizes for wires. Their resistance being lower, heavy-duty applications should use thicker cables (with lower AWG numbers).
  2. Ensure Connectors Fit Properly: Loose connectors can cause increased resistance and possible arcing. Matching the cable and device specifications while ensuring tight-fitting connections greatly enhances energy transfer efficiency and reduces the chances of overheating or fire.
  3. Inspect Regularly And Maintain: Inspections should be done frequently to check for wear, damage or overheating on connectors and cables. Failure to deliver power efficiently may occur when insulation is damaged or the wire is exposed, which also greatly endangers safety. This helps in identifying compromised components by scheduling regular inspections for replacement or repair purposes.
  4. High-Quality Materials Should Be Used: Cables made from good quality materials, such as those with pure copper conductors, have less resistance compared to cheaper ones with impurities that do not offer optimum performance levels due to high. Electrical conductivity can be improved by investing in superior material cables which are more efficient and long-lasting too.
  5. Integrate Smart Power Management Solutions: Efficiency can be significantly increased by employing smart devices/systems that automatically adjust power output based on device requirements; such solutions reduce standby power consumption as well as ensure no energy is wasted when devices are not in use or fully charged.
  6. Abide By Standards And Regulations: It is important to ensure that all cables and equipment meet or surpass applicable standards/regulations concerning safety/efficiency. Compliance guarantees protection while at the same time assuring components were designed for maximum performance levels together with energy saving.
  7. Educate Users And Installers: Training people about how they should install/use/maintain cabling systems will prevent them from using electricity inefficiently besides prolonging equipment life spans. Awareness creation activities regarding need for unplugging appliances when idle or selecting energy efficient power settings may also contribute towards overall energy conservation.

Ensuring Proper Grounding for 2-Prong Power Cables

Safety and functionality both depend on ensuring proper grounding for two-prong power cables. Grounding, as a safety measure, provides a fault path for electric current to flow through, thus preventing dangerous situations. If a device with a two-prong power cable lacks a dedicated ground wire, there are several ways in which safety can be improved:

1. Use GFCI Outlets: These outlets can detect imbalances between incoming and outgoing currents —common indicators of faults—very well. Whenever they sense any such thing, these sockets instantly disconnect the electricity supply thereby reducing significantly the risk of getting an electric shock.

2. Utilize Polarized Plugs and Outlets: Polarization ensures that electricity only flows through devices designed to work when neutral is connected with live wire. Such gadgets should be used near water or at least where it’s easily accessible because this may help reduce the chances of being electrocuted.

3. Adopt Surge Protectors with Grounding Features: Some surge protectors offer indirect grounding capability while others don’t have it at all. Choosing those equipped with this feature is advisable since they will safeguard equipment against damage besides creating safe environment for using 2-prong power cables.

4. Implement Isolation Transformers: In places where direct grounding options are limited, isolation transformers can provide protection by separating electrical devices from a primary power source(s).

5. Regular inspection and testing: It is important to frequently check whether the equipment is functioning correctly as well as their safety aspects so as to nip potential grounding issues in the bud before they turn out catastrophic.

Devices having three (3) prongs inherently include earth wires but those having two(2) prongs do not hence the need for these strategies should be taken into consideration also compliance with electrical standards may require that you get help from qualified electricians who will ensure all interventions meet local regulations and codes

Upgrading to 3 Prong or Alternative Power Cable Options

Upgrading to 3 Prong or Alternative Power Cable Options

When to Consider Upgrading to a 3-Prong Power Cable

It’s important to think about upgrading to a three prong power cable when they have safety, compliance with regulations and compatibility with devices in mind. This is because the grounding necessary for their safe operation is provided through the third prong which reduces electrical shock and damage to equipment. Electrical safety standards prescribe use of 3-prong cables for some types of equipment in different regulatory environments. Furthermore, since many modern appliances are designed with reliance on the grounding feature offered by three-pronged cords as part of their optimal performance and safety.

Exploring Alternative Power Cable Solutions

Not immediately practical or wanting more safety, if you cannot upgrade to three-prong power cables, it may be helpful to look for other types of power cables. This includes key substitutes:

  • Isolation Transformers: These tools transfer electricity from an alternating current (AC) power supply to a device and keep the latter separate from the former so as to avoid electric shocks. They are mainly used in medical apparatuses and precision equipment where it is necessary for electrical isolation to be considered both safe and accurate.
  • Ground Fault Circuit Interrupters (GFCIs): When a fault such as short circuit or current leakage occurs, GFCIs can detect this very quickly by cutting off power instantly thus protecting people against electric shock. Electrical appliances should not be used near water unless they have these installed; they also work well outdoors when built into outlet circuits or combined with cords that supply additional security.
  • Surge Protectors with Built-in Grounding: Surge protectors which have grounding mechanisms guard against elevated voltages entering devices and provide them with earth connections at the same time. Commonly found in offices and homes where delicate electronics need shielding.
  • Wireless or Inductive Power Solutions: While it might not connect directly with traditional grounding techniques, wireless transmission of energy through inductive charging can help lower chances of getting shocked by electricity and eliminate requirements for physical grounds in certain areas. Such technology has gained popularity among consumer goods such as smartphones but also finds use in bigger systems like those used for charging electric vehicles.
  • Polymeric Positive Temperature Coefficient (PPTC) Devices: PPTC devices act like fuses since they limit current flow across an electrical system whenever there is too much of it, hence preventing overloads even though these gadgets will not ground anything, thereby making circuits safer when dealing with shorts too.

Every single one of these alternative solutions has its own benefits depending on what kind of device needs powering up as well as where that device will be employed at. Before settling on any of these, it is important to consider whether they are compatible with specifications provided by a given device manufacturer and how much protection against various forms of damage would be necessary for specific applications. The experts in electric safety could be consulted if one is not aware of which solution should work best for them; otherwise, relevant authorities ought to be contacted so that local regulations can be followed during the selection and implementation phases.

Reference sources

  1. 8 Best Power Cables of 2024: A reliable investment for high-quality television power cords is Cable Matters 2 Prong TV Power Cables. A comprehensive list of the best power cables 2024 is provided by this article from the Jerusalem Post.
  2. 2024’s Best Cables, Power, and Grounding: This guide from Part-Time Audiophile gives you a few of the best 2024 cables, power management and grounding options. It will help those who are looking for an introduction to what is available in the marketplace right now.
  3. Top 5 Best Power Cables 2024: In 2024, Pixelfy’s guide will cover the best five power cables. The aim of this guide is to help readers choose power cords that are both long-lasting and safe while delivering maximum performance.
  4. CPU Power Cable Guide – Everything you need to know: The CPU power cables are described in the CG Director’s guide. This guide illustrates the dissimilarities between different kinds of power cables in an understandable way.
  5. A GPU Power Cable Buying Guide: The many choices of power cables for graphics processing units, or GPUs, can be confusing. To help with this, Alibaba has created a guide that will lead you through the process of selecting the best GPU power cable for your needs.
  6. Power Cable Types: A Comprehensive Guide:This elaborate handbook by Cable Matters contains all the necessary details for selecting a suitable power cable.
  7. Do GPUs Come With Power Cables – techysqout: The article of TechySqout states that most of the time GPUs are sold with power cables because graphic processing unit needs electricity.
  8. What Are NEMA, IEC, and CEE? | Connector Guide: CablesToGo’s guide on connectors says that power connectors connect electronic devices to the voltage. It also states that power cables can transmit either direct current (DC) or alternating current (AC).
  9. Battery Cable Assembly: An Ultimate Guide on…: This LinkedIn post from Lillian Yang is a detailed guide on battery cable assembly, exploring the suitability of 2 Gauge wire for four small 6-cylinder engines.
  10. Two-prong power cable discussion: This Audiogon forum post is about power cables with two prongs, but which have been improved. The post contains anecdotes from users who’ve tried them out and what they thought.

Recommend reading: Power Cable 2 Prong for sale

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