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Security alarm cable for inter-connecting sensors and control panels

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A security alarm cable is essential for connecting intrusion sensors, motion detectors, glass break sensors, magnetic contacts, and other devices to alarm control panels. These cables are designed for low-voltage, signal transmission applications in security systems.

✅ Key Features:

Multi-core construction (commonly 4, 6, 8, or more cores)

Stranded copper conductors for flexibility

Color-coded insulation for easy identification

Shielded or unshielded versions available (shielded for noise-sensitive environments)

Low smoke zero halogen (LSZH) and PVC jackets for safety and durability

✅ Ideal For:

Residential and commercial alarm systems

Access control devices

Perimeter security installations

CCTV and intercom integrations

 

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SFTP CAT7 along with a double shielding for performance

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Using SFTP CAT7 cable with double shielding is ideal when you’re aiming for top-tier performance, maximum interference protection, and stable high-speed data transmission, especially in environments with a lot of EMI (electromagnetic interference), like industrial, server, or telecommunication settings.

What is SFTP CAT7 Cable?

S/FTP = Shielded Foiled Twisted Pair

S (overall shield): Braided shield (usually tinned copper) surrounding all pairs.

F/TP (individual pair shield): Each twisted pair is wrapped in foil.

This dual shielding setup:

Blocks external interference (e.g., from motors, fluorescent lights).

Reduces crosstalk between cable pairs.

Ensures cleaner signal over long distances.

✅ Advantages of SFTP CAT7 with Double Shielding:

  1. Superior EMI/RFI protection: Ideal near high-power equipment or dense wiring setups.
  2. Stable 10Gbps transmission over 100 meters.
  3. Better data integrity in mission-critical systems.
  4. Suitable for PoE+ (Power over Ethernet Plus) with proper installation.
  5. Gold-plated shielded connectors further enhance performance.

Installation Tips:

  • Ground the braided shield properly for full shielding benefit.
  • Use shielded RJ45 connectors and keystone jacks.
  • Avoid sharp bends or kinks to maintain cable integrity.
  • Maintain recommended minimum bend radius (usually 4x cable diameter).
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Low Loss Flexible LMR-195 Outdoor Rated Coax Cable Double Shielded

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The Low Loss Flexible LMR-195 Outdoor Rated Coax Cable (Double Shielded) is a popular coaxial cable used in RF (radio frequency) applications where both signal integrity and flexibility are important.

Construction Overview

Inner Conductor: Solid bare copper or copper-clad steel (depending on brand).

Dielectric: Foamed polyethylene (PE) – helps maintain low loss.

Shielding:

  • 1st layer: Aluminum foil (100% coverage).
  • 2nd layer: Tinned copper braid (typically 90% coverage).

Jacket: UV-resistant black polyethylene – suitable for direct sunlight and outdoor use.

Common Uses

  • Antenna feed lines for Wi-Fi, LTE, 5G, GPS
  • SDR (Software-Defined Radio)
  • RF modems and routers
  • Signal boosters for vehicles or buildings
  • IoT and M2M applications
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Satellite TV CT100 Cable

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The CT100 cable is a high-quality coaxial cable commonly used for satellite TV, cable TV, and high-frequency signal transmission. It is known for its low signal loss, high shielding effectiveness, and durability, making it a preferred choice for satellite installations such as Sky, Freesat, and other digital TV services.

Key Features of CT100 Cable:

✅ Impedance: 75 ohms (ideal for satellite and TV signal transmission)

✅ Low Signal Loss: Maintains strong signal quality over long distances

✅ High Shielding: Typically has a copper braid and foil shield, reducing interference from external signals

✅ Durable Construction: UV-resistant outer sheath for indoor and outdoor use

✅ Compatible with F-Type Connectors: Used for connecting LNBs, satellite dishes, and receivers

Common Applications:

Satellite TV Installations – Used for Sky, Freesat, and Dish Network setups

Cable TV & Digital TV (DVB-T, DVB-S, DVB-C) – Provides clear signal transmission

Broadband & RF Communication – Used in data transmission and professional RF applications

CCTV & Security Systems – Suitable for long-distance video signal transmission

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Security alarm cable for applications in power-limited controls

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A security alarm cable is essential for power-limited control circuits, providing reliable signal transmission in security systems, fire alarms, access controls, and automation setups. These cables are designed to minimize interference, ensure durability, and comply with industry safety standards.

Key Features & Benefits

✅ Power-Limited Circuit Compatibility

Designed for low-voltage applications (typically 300V or less).

Ideal for security alarms, fire detection, and control panels.

✅ Shielded & Unshielded Options

Shielded cables protect against EMI/RFI interference, ensuring clear signal transmission.

Unshielded cables are cost-effective for environments with minimal interference.

✅ Durable & Fire-Resistant Construction

PVC, plenum-rated, or LSZH (Low Smoke Zero Halogen) jackets for enhanced safety.

Withstands moisture, heat, and physical wear, making it suitable for indoor and outdoor installations.

✅ Multiple Conductor Configurations

Available in 2, 4, 6, 8, or more conductors, with solid or stranded copper for flexibility.

Supports multiple security zones and sensor connections.

Common Applications

  • Intrusion detection systems – Wiring for motion detectors, glass break sensors, and door contacts.
  • Fire alarms – Smoke detectors, sirens, and control panels.
  • Access control – Keypads, card readers, and electronic locks.
  • CCTV & Surveillance – Low-voltage power and signal transmission.
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SFTP CAT7 with polyurethane jacket sets the industry standard

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SFTP CAT7 cables with a polyurethane (PUR) jacket are indeed a top-tier choice in industrial and commercial applications. They set the industry standard due to their superior shielding, durability, and high-speed data transmission capabilities. Here’s why they stand out:

Key Features of SFTP CAT7 with PUR Jacket:


    • Superior Shielding:

SFTP (Shielded Foiled Twisted Pair) construction includes an overall foil shield (S) and individual twisted pairs with foil shielding (FTP).

Provides excellent protection against EMI (Electromagnetic Interference) and RFI (Radio Frequency Interference), ensuring stable data transmission.

    • High-Speed Data Transmission:

Supports frequencies up to 600 MHz and speeds of 10 Gbps over distances up to 100 meters.

Backward compatible with CAT6A, CAT6, and CAT5E.

    • Polyurethane (PUR) Jacket – Industry-Grade Durability:

Highly flexible and abrasion-resistant, ideal for applications with high mechanical stress.

Oil, chemical, and UV-resistant, making it suitable for outdoor and industrial environments.

Halogen-free and flame-retardant, ensuring compliance with strict safety regulations.

Applications:

  • Industrial Automation & Robotics – Withstands harsh environments, continuous movement, and exposure to oils/chemicals.
  • Data Centers & High-Speed Networking – Ensures reliable, interference-free data transmission.
  • Marine & Offshore – Water-resistant and UV-resistant for extreme conditions.
  • Rail & Transportation – Withstands vibrations and environmental stresses.
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Alarm cables designed for sound, security, and alarm systems

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Alarm cables are specialized cables designed for use in sound, security, and alarm systems to ensure reliable signal transmission and system integrity. These alarm cables are commonly used in residential, commercial, and industrial security installations.

Key Features of Alarm Cables

    • Conductor Material

Typically made of copper (solid or stranded) for superior conductivity and durability.
Tinned copper options provide enhanced corrosion resistance.

    • Shielding Options

Unshielded (for low-interference environments).
Shielded (to protect against electromagnetic interference — EMI).
Common shielding types include foil, braid, or foil + braid combinations.

    • Insulation Material

Often constructed with PVC, PE, or LSZH (Low Smoke Zero Halogen) for enhanced safety and fire resistance.

    • Outer Jacket

Made from durable materials like PVC, LSZH, or PE for indoor and outdoor installations.
UV-resistant and water-resistant options are available for extreme conditions.

    • Wire Configuration

Available in various configurations such as 2-core, 4-core, 6-core, and 8-core to match system requirements.

Common Applications

✅ Intruder Alarm Systems – Connects sensors, control panels, and sirens.

✅ CCTV Systems – Facilitates video signal and power transmission.

✅ Access Control Systems – Powers electronic locks, keypads, and control units.

✅ Intercom Systems – Ensures clear audio communication.

✅ Fire Alarm Systems – Provides secure connections for smoke detectors and alarms.

Recommended Cable Types for Specific Uses

2-Core Cable — Ideal for simple alarm circuits.

4-Core Cable — Suitable for PIR sensors, door contacts, or keypads.

6-Core or 8-Core Cable — Best for more complex alarm setups with multiple devices.

Shielded Cables — Recommended for areas with high electrical noise.

Key Considerations for Selection

✔️ Choose alarm cables with adequate voltage rating to match your system’s power needs.

✔️ For outdoor installations, select UV-resistant and waterproof options.

✔️ In fire-sensitive environments, opt for fire-retardant or LSZH cables for improved safety.

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Structured RG6+CAT5e Cable

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A structured RG6 + CAT5e cable is a combination cable that integrates RG6 coaxial and CAT5e (Category 5e) Ethernet wiring in a single jacket, making it ideal for residential and commercial structured cabling systems.

Key Features & Benefits:

Dual Functionality:

RG6 Coaxial Cable: Used for cable TV, satellite, and broadband internet.

CAT5e Cable: Used for networking, VoIP, and other Ethernet-based communications.

Simplified Installation:

Running both cables in one jacket saves labor and materials.

Ideal for structured wiring in smart homes and businesses.

High-Quality Signal Transmission:

RG6 Coaxial: Shielded to minimize interference, ensuring clear video and strong signal strength.

CAT5e: Supports up to 1 Gbps speeds at distances up to 100 meters.

Future-Proofing:

Supports HDTV, satellite, and high-speed internet.

Compatible with IP cameras, smart home systems, and automation.

Common Applications:

Home theater setups.

Smart home wiring (security cameras, networking, audio distribution).

Multi-room internet and TV distribution.

Commercial buildings with integrated A/V and data networks.

Choosing the Right Structured RG6 + CAT5e Cable

Shielding: Look for Quad-shielded RG6 and high-quality CAT5e for maximum performance.

Plenum vs. Riser Rated:

  • Plenum (CMP) for air-handling spaces (e.g., ducts, ceilings).
  • Riser (CMR) for vertical runs between floors.

Direct Burial: If running outdoors or underground, choose UV-rated and waterproof versions.

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VATC cable with an inner conductor surrounded

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VATC cable refers to a type of high-performance cable typically used in environments where extreme protection, especially against mechanical damage, is necessary. Cables with an inner conductor surrounded by additional layers of protection are designed for specific applications that require both electrical conductivity and durability under harsh conditions. These cables are commonly used in industries such as telecommunications, aerospace, military, and industrial systems where reliability is critical.

Key Features of VATC Cable with an Inner Conductor Surrounded:

Inner Conductor:

The inner conductor in VATC cables typically consists of a solid or stranded metal core (usually copper or aluminum) that carries the electrical signal or power. Copper is the most common choice for its excellent conductivity.

Surrounding Layers:

  • The inner conductor is surrounded by a series of insulating, shielding, and protective layers to enhance the performance of the cable in different environments.
  • Insulation Layer: The conductor is typically surrounded by a layer of insulation material, such as polyethylene (PE), polyvinyl chloride (PVC), or cross-linked polyethylene (XLPE), to prevent electrical shorting, leakage, or interference from surrounding components.
  • Shielding: VATC cables often include one or more shielding layers, such as braided metal wires (usually tinned copper or aluminum), foil shields, or a combination of both.
  • Armor or Armoring Layer: In VATC cables, the shielding is often followed by a mechanical protection layer made of steel, aluminum, or other rugged materials. The armor provides additional protection against abrasion, impact, crushing, or other physical damage, making the cable more robust for outdoor or industrial use.

Outer Jacket:

  • The outermost layer of the VATC cable is typically a durable outer jacket designed to protect the inner layers from environmental elements, such as UV radiation, moisture, oils, and chemicals.
  • Materials for outer jackets might include PVC, LSZH (Low Smoke Zero Halogen), or thermoplastic elastomers (TPE), depending on the specific environmental requirements (e.g., flame resistance, flexibility).

Applications of VATC Cable:

  • Telecommunications: Used for high-speed data transmission in environments requiring high durability, such as underground installations or outdoor settings.
  • Military and Aerospace: Used in critical communication systems, where ruggedness and protection against interference are crucial.
  • Industrial Systems: Used for industrial machinery and systems that need reliable performance in harsh environments with mechanical stress.
  • Automotive: For automotive wiring systems that require both flexibility and protection from heat and mechanical wear.
  • Oil and Gas: Often used in petrochemical industries for instrumentation and control applications in harsh environments where cables are exposed to chemicals, high temperatures, or pressure.

Key Considerations When Choosing VATC Cable:

  1. Voltage Rating: Ensure that the insulation material can handle the required voltage level without breakdown or degradation.
  2. Temperature Range: Verify that the cable’s insulation and jacket materials can withstand the expected temperature fluctuations in the intended environment.
  3. Mechanical Protection: The degree of armoring or protection needed will depend on the specific environment (e.g., whether it will be exposed to heavy machinery, chemicals, or physical impacts).
  4. Signal Integrity: If the application requires high-frequency transmission (such as for telecommunications), the shielding must be of high quality to minimize signal degradation or interference.

VATC cables with an inner conductor surrounded by insulating, shielding, and protective layers provide robust and reliable solutions for high-performance applications where environmental resilience and signal integrity are critical. The combination of excellent mechanical protection, electrical isolation, and effective shielding makes them suitable for a wide range of demanding industrial, military, telecommunications, and aerospace applications.

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Should fire alarm cable be in conduit?

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The fire alarm cables should generally be installed in conduit or an approved raceway system, but it depends on local codes and specific installation requirements. Here’s why conduit is often recommended or required:

1. Fire Safety Regulations:

  • National Fire Protection Association (NFPA) 72, the National Fire Alarm and Signaling Code, and other local building codes may require fire alarm cables to be installed in a conduit, especially if the cables run in areas where fire protection or fire resistance is critical.
  • Conduits provide an extra layer of protection for fire alarm cables, ensuring that they are not easily damaged by fire, impact, or other hazards during an emergency.

2. Protection from Physical Damage:

  • Conduit helps shield fire alarm wiring from physical damage, such as cuts, abrasions, or impact, which can compromise the integrity of the system. This is particularly important in high-traffic areas or locations with heavy equipment or machinery that could damage exposed wiring.

3. Circuit Integrity During Fire (FIRE-RESISTANT CABLE):

  • For fire alarm systems, maintaining circuit integrity during a fire is crucial, as it ensures that the alarm can continue functioning even in hazardous conditions. Certain types of cables, known as fire-resistant cables or FPLP (Fire Protective Limited Power Circuit) rated cables, may still need to be run in conduit to ensure they meet these requirements.
  • Conduit can help protect cables from heat and flame, which can degrade cables in an unprotected installation.

4. Code Compliance and Insurance:

  • Local codes and insurance requirements often dictate the installation methods for fire alarm systems. These codes could vary by region, but many jurisdictions will require fire alarm cables to be in conduit or a raceway.
  • Some codes might specify that the fire alarm cable be run in a protected environment (like a plenum or vertical shaft), which can involve using conduit or specific cable types like plenum-rated or armored cables.

5. Aesthetics and Organization:

  • In addition to safety and protection, using conduit helps with the organization of wiring in commercial or industrial environments. It ensures that fire alarm cables are clearly separated from other wiring systems, and it can also make future maintenance or upgrades easier by providing clear access to the cables.

Exceptions or Alternatives:

  • In some situations, open cable trays or other methods of cable management are allowed, especially in low-risk or controlled environments. Some newer installations may also allow the use of fire alarm cables that are rated for direct exposure (non-conduit installation) in specific types of buildings, but the requirements must always be checked with the local codes and standards.
  • For emergency circuits or fire alarm signaling, the installation method might vary depending on the type of structure and its fire-resistance rating.