Fact-checked by Grok 2 weeks ago

TERA

TERA is a shielded connector designed for use with Category 7 and higher in high-performance networking applications. Developed by The Siemon Company, it enables cable sharing for integrated video, voice, and services over a single link, supporting frequencies up to 1 GHz and beyond for applications like 10 Gb/s Ethernet. The connector was standardized in 2003 by the (IEC) under the specification IEC 61076-3-104, with a 2006 revision extending performance to 1000 MHz to accommodate emerging standards such as ISO/IEC 11801 Class F. TERA features a unique footprint distinct from the common 8P8C (RJ45) connector, providing superior shielding and with lower systems while facilitating future-proofing for higher-speed networks.

Overview

Definition and Purpose

The TERA connector is a shielded connector specifically designed for use with Category 7 (Cat7) , enabling high-performance systems. Developed to meet the demands of advanced networking, it terminates fully shielded cables and accepts 1-, 2-, and 4-pair plugs, supporting transmission frequencies up to 600 MHz. This configuration allows for data rates of up to 10 Gbps over distances of 100 meters, making it suitable for demanding applications in and environments. The primary purpose of the connector is to provide with lower-category cables, such as Cat5e and Cat6, while delivering enhanced performance for installations. By incorporating a fully shielded , including foil and braid shielding, it offers superior protection against () and alien crosstalk, ensuring reliable in noisy environments. This makes TERA particularly advantageous for professional installations requiring permanent link testing, as its non-RJ45 interface supports precise channel and link performance measurements aligned with international standards. Key benefits of include its versatility in supporting multiple protocols, such as Ethernet, over a single , which optimizes space and reduces installation costs in high-density setups. Its quadrant-based shielding and automatic termination features further enhance reliability, allowing seamless integration into systems for video, voice, and data applications. As specified in ISO/IEC 11801 for Class F cabling, TERA facilitates robust, scalable networks without compromising on signal quality or .

Development History

The connector was developed by The Siemon Company in the late 1990s to address the limitations of existing RJ45 connectors for emerging high-frequency Category 7 cabling needs, particularly in providing enhanced shielding to mitigate alien and at frequencies up to 600 MHz. Invented in , the design focused on a non-RJ45 shielded twisted-pair interface that supported fully shielded Category 7 cables while maintaining with lower categories. Initial prototype and testing phases occurred around 2000, validating the connector's performance for high-speed data applications, including early evaluations for 10GBASE-T transmission. Formal standardization efforts began in 2002 with the release of IEC PAS 61076-3-104, a publicly available specification outlining requirements for the 8-way shielded connector interface. This paved the way for broader industry acceptance by establishing uniform type testing and performance criteria. Key milestones include the first commercial availability in 1999, enabling early installations of TERA-based systems, full standardization in 2003 under IEC 61076-3-104 Edition 1.0 for Category 7/Class F cabling, and alignment with TIA/EIA-568-B standards through compatibility with Category 6 and lower systems for horizontal cabling applications. Initial adoption gained traction in European markets due to stricter EMI regulations, which emphasized the benefits of shielded solutions like TERA for compliance in high-interference environments.

Design and Specifications

Physical Construction

The TERA connector employs an 8-position, 8-contact (8P8C) configuration to support four twisted pairs, akin to the RJ45 but distinguished by its fully shielded quadrant design that isolates individual pairs for enhanced structural integrity and protection against external . The consists of a die-cast shell, which provides durability and enables seamless integration of shielding elements, while contacts are constructed from plated for corrosion resistance and reliable mechanical engagement. components, including the body and boot, utilize flame-retardant thermoplastic rated UL 94 V-0, ensuring compliance with safety standards and resistance to environmental stresses. A foil-shielded strain relief boot is incorporated to safeguard the cable jacket from damage during flexing or termination, supporting cables up to 9 mm in outer diameter. Dimensions for the assembled connector, including the boot, measure approximately 64.2 mm in length, 14.5 mm in width, and 24.3 mm in height, fitting within a standard RJ45 footprint for with existing . A latch mechanism on the male plug ensures secure mating with the female outlet, capable of withstanding a retention force of 50 N and supporting at least 2500 insertion cycles. TERA connectors are available in male (plug) and female (jack) variants, with field-terminable plugs designed for on-site assembly using 22–26 AWG solid or stranded conductors. Plugs come in 1-pair, 2-pair, and 4-pair options, allowing flexibility for partial or full channel termination while maintaining the overall shielded architecture.

Electrical Characteristics

The TERA connector supports bandwidth exceeding 600 MHz (over 1.2 GHz per pair), enabling high-speed data transmission with robust . This performance is characterized by a exceeding ISO/IEC 11801 Class F requirements up to 600 MHz, ensuring minimal signal reflections and maintaining across the connection. Crosstalk attenuation meets or exceeds 40 dB at 600 MHz per Class F specifications, which significantly reduces interference between adjacent pairs, contributing to low noise levels in shielded environments. Insertion loss for the TERA connector is less than 0.75 across its operational frequency range, allowing for efficient signal propagation that supports 10GBASE-T Ethernet over distances of 100 meters without degradation, as verified through compliance with IEEE standards. The connector's shielding effectiveness provides alien crosstalk (AXT) isolation exceeding 35 , which is essential for mitigating external noise in high-density installations such as data centers where multiple cables are bundled closely. This level of isolation surpasses typical unshielded systems and enhances overall system reliability. TERA connectors have been extended to Category 8.2, supporting up to 2 GHz for 25GBASE-T and 40GBASE-T applications since 2018. TERA connectors are compliant with permanent link testing requirements up to 600 MHz under ISO/IEC 11801 Class F specifications, facilitating thorough validation of channel performance. Unlike traditional RJ45 connectors, which face limitations in achieving full due to higher demands, TERA enables precise testing and of shielded installations. When used in cables, these electrical characteristics ensure future-proofing for applications beyond current 10 Gb/s rates.

Compatibility and Usage

Cable Compatibility

The TERA connector is primarily designed for use with Category 7 (Cat7) S/FTP (shielded/foiled ) cables, which feature four individually shielded s to ensure high-frequency performance and reduced . These cables provide the necessary shielding integrity for the connector's fully shielded design, supporting bandwidths up to 600 MHz. For , the TERA connector functions effectively with Cat5e, Cat6, and Cat6A cables, whether unshielded or shielded, through the use of patch cords such as TERA-to-RJ45 configurations that allow integration with RJ45-equipped devices. However, optimal performance, particularly for 10GBASE-T applications, is achieved with Cat6A or higher shielded cables due to the connector's reliance on robust shielding to maintain . Looking forward, the TERA connector supports emerging standards like Cat7A and Cat8, enabling 40 Gbps applications over distances up to 30 meters in two-connector channels when paired with compatible S/FTP cables and adapters for mixed environments. This extends its utility in data centers and high-speed networks, with TERA-to-RJ45 patch cords facilitating connections to non-TERA endpoints. TERA-compatible cables typically require 22-23 AWG solid conductors for permanent installations, along with an overall braid for grounding and individual pair foils to minimize . Stranded 26 AWG variants are suitable for patch cords, but all must incorporate S/FTP or F/FTP shielding to align with the connector's electrical characteristics for noise rejection.

Installation and Termination

The termination of TERA connectors requires precise cable preparation to maintain shielding integrity and signal performance in Category 7 S/FTP or F/FTP cabling systems. For standard 4-pair plugs, the outer jacket is stripped to 38 mm ± 6 mm (approximately 1.5 inches), exposing the foil shield and twisted pairs while minimizing untwisting to less than 2 mm (0.08 inches) to preserve pair geometry. The individual pairs are then separated, with conductors trimmed to fit the connector's internal contacts according to T568A or T568B wiring schemes, and the shield is folded back for 360-degree contact with the connector's grounding mechanism. Insertion follows, where the prepared conductors are aligned and pushed into the color-coded IDC (insulation displacement contact) terminals of the plug or outlet, ensuring full seating without excess wire protrusion beyond 0-1 mm. Crimping is performed using a specialized tool, such as the Siemon CPT-T with the appropriate die (e.g., CPT-DIE-T4 for 4-pair configurations), which simultaneously secures the conductors and establishes shield continuity without additional grounding steps. For outlets, the process is similar but adapted for modular termination: the cable jacket is stripped to 44 mm ± 6 mm (1.75 ± 0.25 inches), with the inner jacket or foil exposed to 32-38 mm (1.25-1.5 inches). Essential tools include a TERA-specific for consistent application, a precision to avoid nicking conductors or foil, and a to verify pin assignments and shield grounding post-termination. The entire process typically takes about 3 minutes per connector with the dedicated toolset, enabling efficient field or panel installations. Best practices emphasize preserving the natural twist of pairs to within 1 mm of the termination point to minimize near-end (NEXT), as excessive untwisting can degrade performance. Shield continuity must be visually and electrically confirmed to prevent ground loops, achieved through the connector's resilient ground tabs that contact the folded-back without separate lugs. Outlets feature a hinged dust cover to protect unused ports from during deployment. Always disconnect circuits before handling to avoid electrical hazards, and avoid installations in wet environments or during storms. A common challenge in TERA termination is achieving reliable shield contact, particularly with varying cable constructions, which can lead to intermittent grounding if the foil is not evenly folded or if debris interferes during crimping; proper tool calibration and clean preparation mitigate this issue. with a cable tester ensures compliance with T568 schemes and overall link integrity before finalizing the installation.

Applications and Standards

Networking Applications

The TERA connector finds primary application in enterprise local area networks (LANs) and data centers as a backbone for (10GBASE-T) implementations, where its fully shielded design ensures reliable high-speed data transmission over distances up to 100 meters. This configuration supports converged networking environments, allowing simultaneous delivery of data, voice, and power without performance degradation. Additionally, TERA enables (PoE) applications, including PoE++ (IEEE 802.3bt Type 4) delivering up to 100W per port, with no insertion loss derating over 100 meters and operation rated up to 60°C for efficient heat dissipation in dense setups. In specialized scenarios, TERA excels in broadcast studios for uncompressed high-definition (HD) video , leveraging its 1.2 GHz per pair to minimize propagation delay skew and support video alongside data and a single . Its robust shielding provides immunity to (EMI) and radio-frequency interference (RFI), making it suitable for industrial automation environments with harsh conditions, such as factories near heavy machinery, where is critical for (OT) networks. Real-world deployments highlight TERA's value in mission-critical settings, including financial trading floors where it facilitates low-latency connections for feeds and ; by enabling cable sharing for up to four applications (e.g., 10GBASE-T Ethernet, VoIP, and video) over one link, it reduces complexity and through minimized requirements. In hospital networks, TERA supports reliable of diagnostics and , such as in healthcare converged systems requiring secure, high-bandwidth performance for patient monitoring and medical equipment integration. Due to its advanced construction and superior performance margins, TERA is best suited for high-density, professional installations rather than cost-sensitive home networking, where simpler alternatives suffice.

Standardization and Adoption

The TERA connector was formally integrated into international standards as a high-performance option for shielded twisted-pair cabling systems. It was specified in ISO/IEC 11801 Edition 2 (2002) as a connector for Class F channels, supporting frequencies up to 600 MHz when paired with Category 7 cable. This inclusion positioned TERA as an alternative to traditional RJ45 connectors for applications requiring enhanced shielding and performance. Additionally, TERA is recognized in the EN 50173, which aligns closely with ISO/IEC 11801 and emphasizes shielded systems for in commercial and industrial environments. Subsequent amendments expanded TERA's scope. In ISO/IEC 11801 Edition 2.2 (2010), it was designated as an interface for Category 7A/Class FA performance, enabling operation up to 1000 MHz. The standard's Edition 3 (2017) further refined requirements for higher categories, incorporating 's design for and integration with emerging high-frequency needs, though it did not introduce new connector specifications for TERA itself. These updates were driven by the need to support faster Ethernet protocols, with TERA's isolated quadrant contact design ensuring compliance without compromising shielding integrity. Adoption of the TERA connector progressed unevenly following its 2003 standardization by the (IEC 61076-3-104). In , uptake accelerated around the mid-2000s, aligned with EN 50173's promotion of shielded cabling for electromagnetic interference-prone installations, such as in industrial and settings. This regional preference for fully shielded systems facilitated broader integration in new builds compliant with European harmonized standards. In contrast, adoption in lagged significantly, as the TIA-568 series prioritizes unshielded twisted-pair (UTP) solutions with RJ45 connectors, limiting TERA to specialized deployments. By 2010, TERA had minimal presence in the U.S. market due to compatibility challenges and entrenched RJ45 infrastructure. TERA maintains niche adoption, particularly in and select high-reliability sectors like and secure s. Its market position has been tempered by the industry's shift toward fiber optic solutions for speeds beyond 10 Gbps, reducing demand for advanced connectors. However, ongoing enhancements, such as the 2018 introduction of Category 8.2 components supporting up to 2 GHz, position it for 25G and 40GBASE-T Ethernet applications in short-reach scenarios. Key factors influencing TERA's adoption include its cost premium, often 2-3 times that of RJ45 systems due to specialized and shielding materials, which can deter widespread use in cost-sensitive environments. This is partially offset by TERA's superior in permanent, high-interference installations, where reduced and future-proofing justify the investment. Compatibility with legacy equipment via hybrid patch cords also aids gradual integration, though the non-RJ45 remains a barrier to mainstream acceptance.

Comparisons and Alternatives

Comparison to RJ45

The TERA connector differs fundamentally from the RJ45 in its design emphasis on full shielding, which provides comprehensive () protection through foil around each pair and an overall braid, in contrast to the RJ45's optional or partial shielding that often relies on unshielded (UTP) or foil over unshielded (F/UTP) constructions. This full shielding in TERA enables operation at frequencies up to 600 MHz for Category 7 (Cat7) cabling, surpassing the RJ45's typical 250 MHz limit for Category 6 (Cat6) systems. In terms of performance, significantly mitigates alien —noise from adjacent cables—by 15-20 in dense bundles compared to RJ45-based Cat6 setups, where alien power sum near-end (PS-ANEXT) minimums are around 35 versus TERA's enhanced 50 protection in shielded environments. This reduction allows to support reliable 10GBASE-T transmission over 100 meters, while RJ45 with Cat6 is limited to 55 meters due to heightened risks in bundled installations. Regarding cost and installation, the RJ45 remains more economical and straightforward to terminate using widely available tools, making it suitable for deployments, whereas demands specialized crimping tools and adapters, increasing upfront expenses but providing superior future-proofing for evolving high-speed networks. 's niche applicability shines in high-interference Cat7 environments, such as industrial or broadcast settings, while RJ45 dominates general-purpose Cat5e and Cat6 installations in offices and homes.

Comparison to GG45 and ARJ45

TERA connectors feature a slim, rectangular with an isolated quadrant contact design that enhances shielding and minimizes , differing from the 's octagonal, 12-contact "2-in-1" snap-in structure, which integrates eight contacts for high-frequency Ethernet alongside four for RJ45 compatibility, and the ARJ45's augmented RJ45-like design with similar 12 contacts for improved in Cat7A applications. In terms of performance, all three connectors meet or exceed ISO/IEC 11801 Class F requirements for 600 MHz bandwidth to support 10GBASE-T Ethernet, but provides partial support for legacy video and CATV applications up to 1000 MHz via its additional contacts, while emphasizes pure Ethernet transmission with up to 1.2 GHz per pair and superior alien rejection, and ARJ45 extends to 1000 MHz for Cat7A channels with focused augmentation for higher-speed . GG45 and ARJ45 have gained prominence in European markets through ' and Stewart Connector's respective promotions, often integrated into broader ecosystems, whereas is more commonly associated with Siemon installations, reflecting ecosystem-specific preferences over universal dominance. Direct interoperability between and /ARJ45 is limited without specialized adapters due to differing contact geometries and form factors, though offers enhanced to RJ45 via hybrid patch cords that maintain performance across lower categories, while and ARJ45 allow RJ45 plugs to mate partially for legacy support but not vice versa without conversion.

References

  1. [1]
    MMORPG TERA to shut down PC servers on June 30 - RPG Site
    Apr 22, 2022 · Developer: Bluehole Studio. Original release dates: Japanese release date 29 July, 2011. US release date 1 May, 2012. European release date 3 ...<|control11|><|separator|>
  2. [2]
    TERA: The Exiled Realm of Arborea (Video Game 2011) - IMDb
    Release date ; South Korea. January 25, 2011 ; United States. May 1, 2012 ; United Kingdom. May 3, 2012 ; Japan. November 29, 2018 ; United States. June 26, 2022( ...
  3. [3]
    TERA | KRAFTON
    TERA (The Exiled Realm of Arborea) started a new era in the genre of MMORPG with the genre's first non-targeting combat system.
  4. [4]
    TERA - Steam Community
    TERA is an epic fantasy MMORPG experience. Master the action-packed combat system and prove yourself in solo and multiplayer adventures.
  5. [5]
    TERA – Release Details - PlayStation 4 - GameFAQs
    Rating 77% (41) Game Detail ; Developer: Bluehole Studio ; Publisher: En Masse Entertainment ; Release: March 8, 2018 ; Also Known As: · TERA - Action MMORPG (US) · TERA Online (US)
  6. [6]
    Bluehole will shut down long-running MMO Tera in June
    Tera was released in South Korea in January 2011 before making its way to North American and Europe in May 2012. GameForge said Bluehole made the decision to ...
  7. [7]
    Three years after sunsetting TERA PC, Krafton is finally moving ...
    Aug 5, 2025 · It was quite the sad day back in June 2022 when Krafton/Bluehole shut down the extremely quirky action MMO TERA. While its console version ...
  8. [8]
    [PDF] Spec Sheet - TERA® Outlet - Siemon
    TERA outlets are the industry's highest performing network cabling connectors. Outlets accept 1-, 2- and 4-pair plugs and terminate fully shielded Category 7 ...Missing: definition | Show results with:definition
  9. [9]
    What kind of connectors do I need for Cat7A or Cat7 cables?
    TERA is a shielded connector for use with Cat.7A twisted-pair copper cables, developed by the Siemon Company. It is with a different footprint from the common ...Missing: definition | Show results with:definition
  10. [10]
    https://webstore.iec.ch/en/publication/19000
  11. [11]
    TERA® Category 7A Structured Network Cabling
    Siemon's fully shielded TERA end-to-end cabling solution is the highest-performing twisted-pair copper cabling system available.
  12. [12]
    ISO/IEC 11801 - Horizon Electronics
    When combined with GG45 or TERA connectors, Class F cable is rated for transmission frequencies of up to 600 MHz. As of November 2010, all manufacturers of ...
  13. [13]
    [PDF] TERA Becomes the Standard Connector for Next Generation ...
    For the second time, the International Electrotechnical Commission (IEC) has recognized the interface based upon Siemon's TERA connector as the standard.
  14. [14]
    IEC PAS 61076-3-104:2002
    Jun 19, 2002 · Technical committee ; Publication type, Publicly Available Specification ; Publication date, 2002-06-19 ; Edition, 1.0 ; ICS. 31.220.10 ...Missing: TERA | Show results with:TERA
  15. [15]
    IEC 61076-3-104:2003
    Apr 2, 2003 · Publication type, International Standard ; Publication date, 2003-04-02 ; Edition, 1.0 ; ICS. 31.220.10 ; Withdrawal date, 2006-07-25.Missing: TERA | Show results with:TERA
  16. [16]
    None
    Summary of each segment:
  17. [17]
    [PDF] Spec Sheet - TERA® Category 8.2 Outlet and Plug - SCL System
    The TERA Category 8.2 outlet/plug supports 25/40Gb, 2GHz, 30m channels, 22-23 AWG cables, 20Ω contact resistance, 1000V peak, and 64.2x14.5x24.3mm dimensions.
  18. [18]
    [PDF] Class F
    Invented by Siemon in 1999 and subsequently chosen as an industry standard interface for category 7/class F and category 7A/class FA, the Siemon TERA outlet is ...Missing: date prototype
  19. [19]
    TERA ® Cat 7A Cabling Shielded Systems - Siemon
    Exceeding ISO/IEC category 7A/class FA specifications, Siemon's fully shielded end-to-end TERA Cat 7A cabling solution delivers 10 Gb/s performance and ...
  20. [20]
    https://files.siemon.com/en/whitepaper/08-03-03-trading-floor-it-infrastructure.pdf
  21. [21]
    [PDF] Spec Sheet - TERA® Patch Cords - Siemon
    TERA to RJ45 patch cords allow the TERA system to be easily connected to RJ45 equipped active electronics. Multiple applications can be run over one 4-pair ...
  22. [22]
    Cat 8 & 8.2 Cabling System - Siemon
    Siemon's end-to-end TERA® Category 8.2 copper cabling system was founded on our Siemon TERA connector that was originally chosen as the ISO/IEC 11801 ...
  23. [23]
    [PDF] Instruction - TERA® 1-pair shielded plug cable preparation - Siemon
    TERA® 1-pair shielded plug cable preparation and termination instructions. 3. 5. 6. 4. 7. 8. S/FTP Qualified Cable Only. 1. 2. 38mm ± 6mm. (~1.5 in.) Page 2. 11.
  24. [24]
    [PDF] TERA™
    While current specifications characterize connector performance up to 600 MHz, TERA delivers over 1.2 GHz of bandwidth per pair.Missing: physical | Show results with:physical
  25. [25]
    [PDF] Instruction - TERA® 4-pair outlet termination - Siemon
    To assist safe installations, comply with the following: A. Use caution when installing or modifying telecommunications circuits.
  26. [26]
    [PDF] Instruction - TERA® 4-pair outlet termination - Siemon
    To assist safe installations, comply with the following: A. Use caution when installing or modifying telecommunications circuits.Missing: connector procedure
  27. [27]
    [PDF] Trading Floor IT Infrastructure - Siemon
    Utilizing the category 7A interface based on Siemon's TERA outlet, up to four applications can be supported over a single cable and outlet. The connector's four ...
  28. [28]
    [PDF] Adapter patch cords PS-TERA / RJ45 - Luckins
    PS-TERATM connectors guarantee highest flexibility: Each port of one 4P module can be used for a separate patch. This allows for simultaneous transmission of TV ...
  29. [29]
    [PDF] TERA® Outlet
    Jul 9, 2013 · TERA connecting hardware ensures that critical contact seating surfaces are not damaged when unmated under remote powering current loads per IEC.<|control11|><|separator|>
  30. [30]
    ISO/IEC 11801-1:2017(en), Information technology
    This document specifies: a) the fundamental structure and configuration of generic cabling requirements within the types of premises defined by the other parts ...Missing: TERA | Show results with:TERA
  31. [31]
    Copper Cabling - Datanetwork Knowledge compact - Telegärtner
    It is backwards compatible to all all other categories including 7 and 7A, but specifies a plug that is not compatible to RJ45 jacks, e.g. the TERA connector of ...
  32. [32]
    What Ever Happened to Category 7 Cable | Fluke Networks Blog
    Dec 5, 2018 · Category 7 can be terminated with RJ45-compatible GG45 connectors or TERA ... Category 7A bumped the 600 MHz frequency of Category 7 up to 1000 ...Missing: bandwidth | Show results with:bandwidth
  33. [33]
    The Cabling Conspiracy: What Happened to Cat 7? - Comfinity
    Jun 15, 2025 · Connector Confusion - Instead of the industry standard RJ45 connector, Cat 7 used GG45 or TERA connectors, making it incompatible with most ...
  34. [34]
    Siemon introduces TERA Category 8.2 copper cabling system
    The system is founded on Siemon's TERA connector that was originally chosen as the ISO/IEC 11801 interface for category 7A/Class FA and that also now meets ...Missing: development history<|control11|><|separator|>
  35. [35]
    [PDF] Cabling Lifecycles and Total Cost of Ownership - Siemon
    Feb 24, 2012 · TERA -Cat 7A/Class FA. $8,282.95. 15 ... On the copper side however, the cost will be about 3x the cost of a gigabit port or roughly one.Missing: connector | Show results with:connector
  36. [36]
    Cat7 Ethernet Cable: What You Need to Know
    Sep 12, 2025 · Connectors: GG45 & TERA vs RJ45 · Availability & price: GG45/TERA patch panels, jacks, and cords have longer lead times and higher cost than RJ45 ...
  37. [37]
    Cat6 vs Cat6A vs Cat7 vs Cat8: Speed & Distance (2025)
    TERA is specifically designed for Cat.7A cables, and has a unique footprint that is different from RJ45s on the market. GG45 connectors can be considered as a ...Missing: share | Show results with:share<|separator|>
  38. [38]
    https://hkcablemachine.com/cat6-vs-cat7-vs-cat8-which-network-cable-fits-best/
  39. [39]
    Running 10GBASE-T Over Cat6 vs Cat6a vs Cat7 Cabling?
    Jul 22, 2021 · Cat6 Ethernet cable supports 10GBASE-T over a distance only between 37 and 55 meters depending on the alien crosstalk environment. Compared ...Missing: limit | Show results with:limit
  40. [40]
    6 Things to Consider When Choosing CATx Ethernet Cables
    When used for 10GBASE-T, the maximum length of a CAT6 cable reduces to 55 m. After this distance the rate drops to 1GBASE-T. To be able to run 10GBASE-T ...Missing: limit | Show results with:limit
  41. [41]
    [PDF] LANmark-7 GG45 Connector
    LANmark-7 GG45 is a standardised High Speed '2 in 1' Snap-In Connector, which contains a full Cat 6 (RJ45) Interface as well as a full Cat 7 Interface, ...
  42. [42]
    https://www.mouser.com/datasheet/2/643/belf_s_a0001060030_1-2290133.pdf
  43. [43]
    LANmark-7 GG45 Connector - Nexans
    LANmark-7 GG45 is a standardised High Speed '2 in 1' Snap-In Connector, which contains a full Cat 6 (RJ45) Interface as well as a full Cat 7 Interface.
  44. [44]
    ARJ45 Category 7 A Conn System - Stewart Connector - DigiKey
    $$16.99 delivery 30-day returnsOct 4, 2013 · In addition, the ARJ45 connectors are interface-compatible with the Nexans' GG45 Category 7 connector system. This makes the ARJ45/GG45 ...