What is the difference between a wire fishing tool and cable fishing tool?

Wire fishing tools and cable fishing tools are both used in construction and networking to route wires or cables through walls, ceilings, and other enclosed spaces.

Wire Fishing Tool:

Purpose: Wire fishing tools are primarily designed for routing electrical wires, such as electrical wiring for outlets, switches, and lighting fixtures.

Flexibility: These tools are often more flexible and slender, allowing them to navigate through tight spaces and around obstacles commonly found in residential and commercial electrical installations

Typical Usage: Electricians commonly use wire fishing tools when running electrical wires behind walls, through conduits, or above ceilings.

Cable Fishing Tool:

Purpose: Cable fishing tools are more broadly designed to route various types of cables, including data cables (Ethernet, coaxial), fiber optic cables, and other low-voltage cables.

Versatility: Cable fishing tools may offer greater versatility and strength to accommodate different types and sizes of cables, including thicker and heavier cables commonly used in networking and telecommunications.

Typical Usage: Network technicians, telecommunications installers, and audio/video professionals often use cable fishing tools to run cables for networking, audiovisual systems, security systems, and other low-voltage applications.

In summary, while wire fishing tools are specialized for routing electrical wires, cable fishing tools are more versatile and suitable for routing a wider range of cables, including data cables, fiber optic cables, and other low-voltage wiring commonly used in networking and telecommunications.

What is the difference between Kynar wire and Tefzel wire? 

Kynar wire, also known as PVDF (Polyvinylidene Fluoride) wire, is made from a thermoplastic fluoropolymer.

Kynar wire has a lower temperature range, typically around -55°C to 150°C (-67°F to 302°F).

Kynar wire also offers good mechanical properties, but it may not be as flexible or have as high a tensile strength as Tefzel wire.

Kynar wire is commonly used in less demanding applications where lower temperatures and less mechanical stress are involved, such as in electronics, telecommunications, and general-purpose wiring. 

Tefzel wire, on the other hand, is made from ETFE (Ethylene Tetrafluoroethylene), another type of fluoropolymer.

Tefzel wire generally has a higher temperature resistance compared to Kynar wire. Tefzel wire can typically withstand temperatures ranging from -150°C to 150°C (-238°F to 302°F), whereas 

Kynar wire also offers good mechanical properties, but it may not be as flexible or have as high a tensile strength as Tefzel wire.

Due to its higher temperature resistance and excellent mechanical properties, Tefzel wire is often preferred in more demanding applications, such as aerospace, automotive, and industrial settings where extreme conditions are encountered.

What is the difference between wire wrap tools and fiber optic tools?

Wire wrap tools and fiber optic tools are both used in telecommunications and networking, but they serve different purposes and work with different types of materials:

Wire Wrap Tools:

Wire wrap tools are used in electronics and telecommunications for making connections between wires and terminals on circuit boards or other electronic components.

They are primarily used with solid core wires, typically made of copper or other conductive materials.

Wire wrap tools consist of a hand-held tool with a wrapping bit or sleeve that is used to tightly wrap the wire around a terminal post or pin.

These tools are commonly used in applications such as prototyping, breadboarding, and low-volume production of electronic circuits.

Fiber Optic Tools:

Fiber optic tools are used for the installation, maintenance, and testing of fiber optic cables, which transmit data using light signals rather than electrical signals.

Fiber optic tools include various instruments such as fusion splicers, cleavers, strippers, and OTDRs (Optical Time Domain Reflectometers).

Fusion splicers are used to permanently join two fiber optic cables together by melting and fusing their ends.

Cleavers are used to precisely cut fiber optic cables before splicing or connectorization.

Strippers are used to remove the protective coating from the fiber optic cable without damaging the delicate glass fibers.

OTDRs are used for troubleshooting and testing fiber optic cables by sending pulses of light into the cable and analyzing the reflections to detect faults or losses.

In summary, wire wrap tools are used for making connections between wires and terminals in electronic circuits, while fiber optic tools are used for installing, maintaining, and testing fiber optic cables used in telecommunications and networking. They work with different types of materials (copper wires vs. glass or plastic fibers) and serve different purposes within the field of telecommunications and electronics.

Difference between coax connectors and Network connectors?

Certainly, here are the key differences between coaxial connectors and network connectors:

Coaxial Connectors:

Physical Structure: Coaxial connectors are designed for coaxial cables, which consist of a central conductor surrounded by an insulating layer, a conductive shield, and an outer insulating layer.

Applications: They are commonly used in cable television (CATV), satellite TV installations, broadband internet connections, and some older networking technologies like 10BASE2 Ethernet.

Transmission Medium: Coaxial cables use a single conductor to transmit data signals and are capable of supporting a wide range of frequencies, making them suitable for high-bandwidth applications.

Connector Types: Common coax connectors include F-type connectors, BNC connectors, and RCA connectors, each with its specific applications and characteristics.

Shielding: Coaxial cables offer excellent electromagnetic interference (EMI) shielding due to the conductive shield surrounding the central conductor, which helps minimize signal loss and interference.

Network Connectors 

Physical Structure: Network connectors are typically used for twisted pair Ethernet cables, which consist of multiple pairs of insulated copper wires twisted together.

Applications: They are primarily used in Ethernet networks for connecting computers, routers, switches, and other network devices in homes, offices, data centers, etc.

Transmission Medium: Twisted pair cables use multiple insulated copper wire pairs twisted together, providing good resistance to electromagnetic interference and crosstalk.

Connector Types: The most common network connector is the RJ45 connector, standardized for Ethernet connections. It has eight pins and is used for both Ethernet and telephone connections.

Speed and Standards: Network connectors are used in various Ethernet standards, including 10/100 Mbps Ethernet, Gigabit Ethernet (1 Gbps), 10 Gigabit Ethernet (10 Gbps), and beyond, offering scalable speeds to meet different network requirements.

In summary, coaxial connectors are used for coaxial cable-based networks, offering high bandwidth and EMI shielding, while network connectors like RJ45 are specifically designed for Ethernet networks, providing flexibility and scalability in speed and standards.

What are the fiber optic tools?

"Fiber tools" generally refer to a range of equipment and instruments used in the installation, maintenance, testing, and troubleshooting of fiber optic communication networks. Fiber optic networks rely on strands of glass or plastic fibers to transmit data in the form of light signals over long distances, offering high bandwidth and reliability. 

Fiber Optic Strippers: Tools designed to remove protective coatings and buffer materials from optical fibers without damaging the fiber itself.

Fiber Cleaving Tools: Used to create a clean break in the fiber optic cable for splicing.

Kevlar Scissors: Specifically designed to cut Kevlar strength fibers and other tough materials used in fiber optic applications.

Fiber Cable Slitters: Tools designed to slit fiber optic cables for various applications.

Splice Preparation Kits: Include tools necessary for preparing fibers for splicing.

Cleaning Kits: Essential for maintaining the cleanliness of fiber optic connectors and cables.

Fiber optics tools are essential for preparing, installing, and maintaining fiber optic systems, ensuring optimal performance and reliability in fiber optic networks.

What are low-voltage tools?

Low voltage tools are specialized tools designed  for working with electrical systems that operate at voltages below a certain threshold, typically 50 volts AC or 120 volts DC. These tools are commonly used by electricians, technicians, and other professionals who work on low voltage electrical systems. 

Wire strippers: Used to strip insulation from electrical wires without damaging the conductors.

Cable cutters: Designed to cleanly and efficiently cut various types of cables and wires.

Crimping tools: Used to crimp connectors onto the ends of wires and create reliable electrical connections.

Multimeters: Used to crimp connectors onto the ends of wires and create reliable electrical connections.

Voltage detectors: Used to quickly and safely determine whether a conductor is energized.

Fish tapes and rods: Used for routing and pulling wires through conduits and other confined spaces.

Nut drivers and screwdrivers: Used to tighten and loosen nuts and bolts on electrical components.

These tools are designed to meet the specific needs and safety requirements of working with low voltage tools, providing reliable performance and protection for both the user and the equipment being worked on.

Applications of push-pull gauge?

Certainly, here are some key applications of push-pull gauges presented as bullet points:

Quality Control in Manufacturing:

Check assembly quality and operation of manufactured products.

Verify that components are properly installed, secured, or aligned within specified tolerances.

Material Testing:

Evaluate mechanical properties such as tensile strength, compressive strength, and bending strength.

Measures the force required to break or compress materials for inspection and analysis.

Product Testing and Certification:

Test the strength of welds, adhesives, and fasteners to ensure they meet industry standards.

Product certification for safety and reliability in the automotive, aerospace and construction sectors.

Safety Testing:

Evaluate the strength of seat belts, anchor points, and other safety devices to ensure they can withstand the specified loads.

Check the integrity of structural elements of buildings and bridges for safety reasons.

These applications highlight the versatility and importance of push-pull gauges across various industries and fields.

What is fiber optic test equipment

Fiber optic test equipment refers to a variety of tools and devices used to measure, analyze, and troubleshoot fiber optic networks. These tools are essential for ensuring the proper installation, maintenance, and performance of fiber optic systems. 

Here are some common types of fiber optic test equipment:

Optical Power Meter (OPM) : Detects the optical signal power level being delivered via fiber optic cables. Assuring that the signal strength is within the acceptable range for dependable operation is one of its main functions.

Light Source: produces light signals that, for testing purposes, are transmitted via fiber optic cables. Attenuation, loss, and fiber length are measured using it in conjunction with optical power metres.

Fiber Identifier: Locates and identifies specific fibers within a cable without disrupting the network. It detects the presence of an optical signal and indicates its direction of transmission.

Visual Fault Locator (VFL): Emits a visible light signal into the fiber optic cable, allowing technicians to visually identify breaks, bends, or other faults in the cable.

Fiber Inspection Probe/Microscope: Examines the ends of fiber optic connectors for any flaws that might impair the quality of the signal, such as grit or scratches. It guarantees the correct alignment and bonding of  fibers.

These are just a few examples of fiber optic test equipment. The specific tools used will depend on the requirements of the particular application and the complexity of the fiber optic network being tested.

How do you terminate a network connector properly?

In order to guarantee dependable network connections, network connector termination must be done effectively. The following is a general guide on completing popular types of network hyperlinks, including Ethernet cable RJ45 connectors:

Prepare the Cable: To reveal the individual wires in the cable, remove the outer protective jacket. Take care not to poke or harm anything inner wiring.

Trim the Wires: To make sure that every wire is the same length and serves effectively. trim off any extra length.

Insert the Wires into the Connector: Make sure that every cable has its appropriate slot and that its insulation extends to the connector's end by carefully slipping the carefully organised wires into the connector's slots.

Crimp the Connector:Utilising a proper crimping musical instrument, firmly fasten the connection onto the wire. To guarantee a strong connection, make sure the crimping tool is in place correctly and that sufficient pressure is applied.

It's important to note that specific termination procedures may vary depending on the type of connector and cable being used. Always refer to manufacturer instructions and industry standards when terminating network connectors to ensure proper installation and optimal performance.

Can a coax crimping tool be used for both RG6 and RG59 coaxial cables? If so, how do you adjust the tool for each type?

Yes, a coax crimping tool can typically be used for both RG6 and RG59 coaxial cables.The key change required is choosing the suitable size kick the bucket or pleating jaws for the particular sort of connector and link being utilized.

RG6 and RG59 cables have slightly different outer diameters, so the crimping tool may need to be adjusted to accommodate these differences. 

Crimping tool

For RG59 cables, you would use a smaller die size on the crimping tool to match the dimensions of the RG59 connector. RG59 cables are thinner than RG6 cables, so a smaller die size is needed to properly crimp the connector onto the cable. Insert the RG59 die into the crimping tool and ensure it is securely in place. When using the coax crimping tool, make sure to position the connector and cable properly within the die before applying pressure. Follow the instructions provided with the tool and connector to ensure a secure and reliable connection.

What are the different categories of insulated hand tools?

Insulated hand tools are classified into three categories according to the IEC 60900 standard

Insulated tools: Hand tools made from conductive substance(s) with insulating material overlaying a portion or all of them.

Insulating hand tools: Hand tools composed entirely or mostly of insulating material(s), with the exception of inserts that are made of conductive materials and are designed to be used without an exposed conducting point. Multiple working heads are possible for insulating tools.

Hybrid hand tools: Hand tools having exposed conductive elements (such as cutting blades) at the working head that are composed of insulating material(s). Multiple working heads are possible with hybrid tools.

It is crucial to remember that real insulated tools must meet international standards like IEC 60900 and have a 1000 V AC rating. They also use a unique blend of materials that can prevent dangerous voltages.

Jonard Tools manufactures all our tools and products using premium-quality materials and each piece is designed with the user’s needs in mind. This is the reason why we offer several network tool kits. These network tool kits are all assembled to make sure field technicians have money and time-saving options when searching for tools they need. Also, most of the tools in these kits are covered under Jonard Tool’s unique Made for Life, guaranteed-for-life policy.

Networking tools encompass a wide range of hardware and software utilities designed to assist in the configuration, monitoring, troubleshooting, and maintenance of computer networks.

Jonard Tools is committed to providing premium quality on our cable fishing tools and wire fishing tools. As the low voltage industry changes and new technology is introduced, it is Jonard Tools’ mission to provide the most innovative tools needed for every project.