• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    various embodiments described herein are directed to a network system including: a connector comprising a housing comprising a length-extending slot in a housing surface; and a push-pull tab comprising a complementary slot, wherein the push-pull tab is detachably connected to the housing; and a receiving device comprising one or more holes for receiving the connector, one or more holes having an interchangeable attachment device including a first portion and a second portion; wherein the slot is configured to receive the first portion of the interchangeable fastener when the connector is inserted into the receiving element, and wherein the complementary slot is configured to receive the second portion of the interchangeable fastener when the connector is inserted into the receiving element. receiving element, the push-pull tab being configured to disengage the second portion of the interchangeable fastener from the complementary groove when the push-pull tab is moved in a direction away from the connector, thereby disengaging the first portion of the connector. interchangeable clamping device from the connector slot. other aspects are described and claimed.
    公开号:BR112019011432A2
    申请号:R112019011432
    申请日:2017-12-05
    公开日:2019-10-22
    发明作者:Gniadek Jeffrey;Takano Kazuyoshi;Wong Kimman;Kei Ma Siu
    申请人:Senko Advanced Components Inc;
    IPC主号:
    专利说明:

    CROSS REFERENCE TO RELATED ORDERS [001] This claim claims the priority benefit of the Order
    North American Provisional No. 62,457,150 filed on February 7, 2017, entitled “Narrow Width Adapters and Connectors with Modular Locking Arm”. North American Provisional Order No. 62 / 546,920 filed on August 23, 2017, entitled “Narrow Width Adapters and Connectors with Modular Locking Arm”, North American Provisional Order No. 62 / 452,147, filed on 20 January 2017, entitled “Narrow Width Adapters and Connectors with Modular Locking Arm”, North American Provisional Order No. 62 / 430,560, filed on December 6, 2016, entitled “Narrow Width Adapters and Connectors with Remote Release Spring Loaded ”, and North American Provisional Order No. 62 / 430,067 filed on December 5, 2016, entitled“ Narrow Width Adapters and Connectors with Spring Loaded Remote Release ”, each of which is incorporated into the present by reference in its entirety.
    FUNDAMENTALS [002] The present invention generally relates to connectors having remote release, and, more specifically, narrow-width adapters and connectors, such as narrow-pitch Lucent Connector (LC) duplex adapters and narrow-width multi-fiber connectors .
    [003] The prevalence of the Internet has led to an unprecedented growth in communication networks. Consumer demand for service and increased competition have caused network providers to continually find ways to improve quality of service while reducing cost.
    [004] Certain solutions have included the implementation of high density interconnection panels. High density interconnect panels
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    2/37 can be designed to consolidate the increasing volume of interconnections needed to support networks that grow rapidly in a compact form factor, thereby increasing quality of service and reducing costs, such as floor space and support overhead. However, the implantation of high density interconnection panels has not been completely carried out.
    [005] In communication networks, such as data centers and switching networks, numerous interconnections between conjugated connectors can be compacted into high density panels. Panel and connector producers can optimize such high densities by reducing the size of connectors and / or the spacing between adjacent connectors on the panel. While both proposals can be effective in increasing the density of panel connectors, reducing connector size and / or spacing can also increase support costs and decrease quality of service.
    [006] In a high density panel configuration, adjacent connectors and cable assemblies can obstruct access to the individual release mechanisms. Such physical obstructions can prevent an operator's ability to minimize the stresses applied to cables and connectors. For example, these stresses can be applied when a user reaches a dense group of connectors and pushes optical fibers and surrounding connectors to the side to access an individual connector release mechanism with their thumb and index finger. Overvoltage of cables and connectors can produce latent defects, compromise the integrity and / or reliability of the terminations, and potentially cause serious disruptions to network performance.
    [007] Although an operator may attempt to use a tool, such as a screwdriver, to reach a dense group of connectors and activate a release mechanism, adjacent cables and connectors can obstruct the operator's line of sight, making it difficult to guide the tool for
    Petition 870190051963, of 6/3/2019, p. 18/112
    3/37 the release mechanism without pushing the adjacent cables aside. In addition, even when the operator has a clear line of sight, tool guidance to the release mechanism can be a time-consuming process. Thus, the use of a tool may not be effective in reducing support time and increasing the quality of service.
    [008] Pluggable Transceivers with Small Form Factor (SFP) are currently used in telecommunications infrastructures inside copper to fiber media converters mounted in racks, and are also known as Ethernet switches and / or "patching hubs". This Ethernet infrastructure and fiber optic connections are rapidly evolving to increase connection density due to limited space for such equipment. Although fiber optic connectors have become smaller over the years, they are not designed to be smaller than necessary to connect commonly sized and easily available SFPs. However, as transceiver technologies develop, smaller SFPs will be used to create higher density switch and / or patching hub equipment. Consequently, there is a need for fiber optic connectors that should meet the needs of future developments in smaller SFPs.
    SUMMARY [009] In short, one aspect provides a connector comprising: a front body comprising: an upper and a lower part, a recess extending along the length of the upper part of the front body, and a rear body detachably connected to the body front forming a housing, in which a portion of the rear body fits within the front body when detachably connected; and a push-pull tab comprising a front portion, a rear portion, and one or more side portions, wherein the push-pull tab is
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    4/37 detachably connected to the housing using one or more side portions, where the front portion rests on the recess.
    [0010] Another aspect provides a receiving device comprising: one or more holes for receiving a connector having an upper part and a lower part; the one or more holes comprising at least a cutout at the top; and the one or more holes comprising at least one guide rail at the base, wherein the at least one cutout is configured to receive an interchangeable fixing device.
    [0011] Another aspect provides a network system comprising: a connector comprising a housing comprising a groove extending along its length on a surface of the housing; and a push-pull tab comprising a complementary groove, wherein the push-pull tab is detachably connected to the housing; and a receiving device comprising one or more holes for receiving the connector, the one or more holes having an interchangeable fixing device including a first portion and a second portion; where the groove is configured to receive the first portion of the interchangeable fixture when the connector is inserted into the receiving element, and where the complementary slot is configured to receive the second portion of the interchangeable fixture when the connector is inserted into the receiving element, the push-pull tab being configured to disengage the second portion of the interchangeable fixing device from the complementary groove when the push-pull tab is moved in a direction away from the connector, thus disengaging the first portion of the interchangeable fixing device from the connector slot.
    BRIEF DESCRIPTION OF THE DRAWINGS [0012] Figure IA is a perspective view of a connector for
    SFP LC of 6.25 mm pitch, standard, of the prior art;
    Figure 1B is a perspective view of an LC adapter
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    5/37 standard 6.25 mm pitch from the prior art;
    figure 1C is a top view of the prior art adapter of figure 1B;
    figure 1D is a front view of the prior art adapter in figure 1B, showing the 6.25 mm pitch;
    Figure 2A is a perspective view of a prior art LC duplex connector;
    Figure 2B is a perspective view of a prior art LC duplex connector with a remote release pull tab;
    figure 2C is a top view of a prior art LC connector, used in the modalities shown in figures 2A and 2B;
    figure 2D is a side view of the prior art LC connector of figure 2C;
    Figure 3 is a perspective view of a future narrow-step SFP for receiving the connectors described here according to aspects of the present invention;
    Figure 4A is a perspective view of an embodiment of a narrow pitch LC adapter in accordance with aspects of the present invention;
    figure 4B is a top view of the narrow pitch LC adapter of figure 4A;
    figure 4C is a front view of the narrow pitch LC adapter of figure 4A, showing a 4.8 mm pitch;
    Figure 5 is a perspective view of a modality of a narrow-step LC duplex connector with remote release according to the aspects of the present invention;
    figure 6A is a top view of an LC connector used in the embodiment of figure 5 according to the aspects of the present invention;
    figure 6B is a side view of the LC connector of figure 6A of
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    6/37 according to aspects of the present invention;
    figure 7 is a perspective view of the narrow pitch LC duplex connector of figure 5, with the release mechanism being removed, according to the aspects of the present invention;
    figure 8 is an exploded perspective view of the narrow-step LC duplex connector of figure 5 according to the aspects of the present invention;
    Figure 9 is a perspective view of a standard prior art multi-fiber push / pull (MPO) SFP;
    Figure 10A is a perspective view of a standard prior art MPO connector;
    Figure 10B is a top view of the prior art MPO connector of Figure 10A, having a width of 12.4 mm;
    figure 10C is a front view of the prior art MPO connector of figure 10A;
    figure 11 is a perspective view of a future narrow width multi-fiber SFP for receiving connectors described here in accordance with aspects of the present invention;
    Figure 12A is a perspective view of an embodiment of a narrow-width, multi-fiber connector with remote release in accordance with aspects of the present invention;
    Figure 12B is a top view of the narrow width multi-fiber connector of Figure 12A, having a width of 9.6 mm according to the aspects of the present invention;
    figure 12C is a front view of the narrow-width multi-fiber connector of figure 12A according to aspects of the present invention;
    Figure 13A is a perspective view of a narrow-width multi-fiber connector inserted in a narrow-width SFP having
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    7/37 an SFP lock in accordance with aspects of the present invention;
    Figure 13B is a perspective view of a narrow-width multifiber connector inserted into a narrow-width adapter having an adapter lock in accordance with aspects of the present invention;
    figure 14 is a side view of a narrow width multi-fiber connector of figure 13A having a recess engaged with an SFP lock in a normal pull-tab position according to the aspects of the present invention; and figure 15 is a side view of the narrow width multi-fiber connector of figure 13A, with the SFP lock disengaged by retraction of the pull tab according to the aspects of the present invention.
    figure 16A is a perspective view of a narrow width multi-fiber connector having an adapter lock in accordance with aspects of the present invention;
    figure 16B is a disassembled perspective view of a narrow width multi-fiber connector having an adapter lock in accordance with aspects of the present invention;
    figure 17A is a front view of the narrow pitch adapter of figure 16A, showing a pitch of 3.80 mm;
    figure 17B is a side view of the narrow-width connector of figure 16A;
    Figure 17C is a side view of the plug frame fitting within an SFP in accordance with aspects of the present invention;
    figure 17D is a perspective view of the narrow width connector of figure 16A with the push / pull tab in a normal position in the SFP locking recess according to the aspects of the present invention;
    figure 17E is a perspective view of the wide connector
    Petition 870190051963, of 6/3/2019, p. 23/112
    8/37 of figure 16A with the push / pull tab in a pulled back position with respect to the SFP locking recess in accordance with aspects of the present invention;
    figure 18A is a perspective view of a small form factor transceiver according to aspects of the present invention;
    figure 18B and figure 18C are respective side views of the transceiver of figure 18A according to aspects of the present invention;
    figure 19 is a perspective view of the SFP having a connector inserted;
    figure 20A and figure 20B are side views of the SFP holding a connector according to the aspects of the present invention;
    figure 21 is a perspective view of the SFP having a connector inserted and with the push / pull tab retracted in accordance with aspects of the present invention;
    Figure 22A and Figure 22B are side views of the SFP lock in a raised position to unlock a connector in accordance with aspects of the invention;
    figure 23A is an exploded view of a connector in accordance with aspects of the present invention;
    figure 23B is a perspective view of a connector according to the aspects of the present invention;
    figure 24A is a top dimensional view of a connector according to the aspects of the present invention;
    figure 24B is a side dimensional view of a connector according to the aspects of the present invention;
    Figure 25A is a perspective view of a connector with the push-pull tab in the forward position in accordance with aspects of the present invention;
    figure 25B is a perspective view of a connector with the
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    9/37 push-pull tab in the back position according to the aspects of the present invention;
    figure 26A is a perspective view of a connector with the push-pull tab in accordance with aspects of the present invention;
    figure 26B is an enlarged perspective view of a connector with the push-pull tab in accordance with aspects of the present invention;
    figure 26C is another perspective view of a connector with the push-pull tab in accordance with aspects of the present invention;
    Figure 27A is a perspective view of a connector with the push-pull tab in accordance with aspects of the present invention;
    figure 27B is an enlarged perspective view of a connector with the push-pull tab in accordance with aspects of the present invention;
    Figure 27C is another perspective view of a connector with the push-pull tab in accordance with aspects of the present invention;
    Figure 28A illustrates an example of a CS connector according to some embodiments with two separate section areas identified;
    Figure 28B is a detailed sectional view of a CS connector in a first identified sectional area of the CS connector identified in Figure 28A;
    figure 28C is a detailed sectional view of a CS connector in the second identified sectional area of the CS connector identified in figure 28A;
    figure 29 is a perspective view of various connectors with the push-pull tabs of different lengths according to the aspects of the present invention;
    figure 30A is a detailed dimensional front view of a duplex adapter / transceiver according to the aspects of the present
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    10/37 invention;
    figure 30B is a detailed dimensional cross-sectional view of a duplex adapter / transceiver according to aspects of the present invention;
    figure 30C is another detailed dimensional cross-sectional view of a duplex adapter / transceiver according to aspects of the present invention;
    Figure 31A is a perspective view of a duplex adapter / transceiver with removable anchors installed;
    Figure 31B is a perspective view of a removable anchor device;
    Figure 31C is another perspective view of a removable anchor device;
    Figure 32A is another perspective view of a duplex adapter / transceiver with removable anchors installed;
    Figure 32B is another perspective view of a removable anchor device;
    figure 32C is another perspective view of a removable anchor device;
    Figure 33A is another perspective view of a duplex adapter / transceiver with removable anchors installed;
    Figure 33B is another perspective view of a removable anchor device;
    Figure 33C is another perspective view of a removable anchor device;
    figure 34 is a detailed dimensional cross-sectional view of a duplex adapter / transceiver with a removable anchor installed in accordance with aspects of the present invention;
    Figure 35A is another dimensional cross-sectional view
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    11/37 detailed a duplex adapter / transceiver with a removable anchor installed in accordance with aspects of the present invention;
    Figure 35B is a detailed dimensional cross-sectional view of a duplex adapter / transceiver with a removable anchor installed in accordance with aspects of the present invention;
    Figure 36A is a perspective view of a CS connector being inserted into an adapter / transceiver;
    figure 36B is a perspective view of a CS connector after being inserted into an adapter / transceiver;
    figure 37 is a side cropped view of a CS connector being inserted into an adapter / transceiver;
    figure 38 is a perspective view of a CS connector with a detailed view of the horizontal groove;
    Figure 39A is a side cutout view of a CS connector inserted into an adapter / receiver;
    Figure 39B is another side view of a CS connector inserted in an adapter / receiver;
    Figure 40 shows an illustrative top view of a CS connector inserted in an adapter / receiver and a side cropped view of a CS connector inserted in an adapter / receiver;
    Figure 41 shows an illustrative top view of the CS connector inserted in an adapter / receiver and a side cut-out view of a CS connector inserted in an adapter / receiver;
    Figure 42 shows a detailed dimensional view of the CS connector;
    Figure 43 shows another detailed dimensional view of the CS connector;
    Figure 44A shows a method of providing logic gate and cassette to distribute the connection to a slower version of the system.
    Petition 870190051963, of 6/3/2019, p. 27/112
    12/37 figure 44B shows an alternative to distribute the connection to a slower version of the system without requiring a logical port method and / or a cassette.
    DETAILED DESCRIPTION [0013] This invention is not limited to particular systems, devices and methods, as these may vary. The terminology used in the description is only for the purpose of describing particular versions or modalities, and is not intended to limit the scope.
    [0014] When used in this document, the singular forms "one", "one", and "o", "a" include plural references, unless the context clearly dictates otherwise. Unless otherwise defined, all technical and scientific terms used here have the same meanings as those commonly understood by a person of ordinary skill in the art. Nothing in this description should be interpreted as an admission that the modalities described in that description are not entitled to prior disclosure by virtue of previous disclosure. When used in this document, the term "comprising" means "including, but is not limited to, the same".
    [0015] The following terms must have, for the purposes of this request, the respective meanings set out below.
    [0016] A connector, when used here, refers to a device and / or component thereof, which connects a first module or cable to a second module or cable. The connector can be configured for fiber optic transmission or electrical signal transmission. A connector can be any appropriate type now known or to be developed in the future, such as, for example, a ferrule connector (FC), a fiber distributed data interface connector (FDDI), an LC connector, a transfer connector mechanical (MT), a square connector (SC) connector, a duplex connector SC, or a straight-edge connector (ST). A connector can generally be defined by a body
    Petition 870190051963, of 6/3/2019, p. 28/112
    13/37 housing the connector. In some embodiments, the housing body may incorporate any or all of the components described here.
    [0017] A "fiber optic cable" or an "optical cable" refers to a cable that contains one or more optical fibers to conduct optical signals in light beams. Optical fibers can be constructed of any suitable transparent material, including glass, fiberglass and plastic. The cable may include a jacket or sheath material surrounding the optical fibers. In addition, the cable can be connected to a connector at one end or at both ends of the cable.
    [0018] Several modalities described here generally provide a remote release mechanism so that a user can remove the connectors from cable assemblies, which are closely spaced together in a high density panel, without damaging the surrounding connectors, without accidentally disconnecting the surrounding connectors, without interrupting transmissions through the surrounding connectors, and / or similar. Several modalities also provide narrow-pitch LC duplex connectors and narrow-width multi-fiber connectors, for use, for example, with future narrow-step SFPs and future narrow-width SFPs. Remote release mechanisms allow the use of narrow-pitch EC duplex connectors and narrow-width multi-fiber connectors in dense arrays of narrow-step SFPs and narrow-width multi-fiber SFPs.
    [0019] Figure IA shows a perspective view of a standard 6.25 mm pitch SFP EC connector from prior art 100. The SFP 100 is configured to receive a duplex connector and provides two receptacles 102, each to receive a corresponding EC connector. Step 104 is defined as the axis-to-axis distance between the central longitudinal geometric axes of each of the two receptacles 102. Figure 1B shows a perspective view of a standard prior art 6.25 mm pitch adapter 106 Adapter 106 is also configured to receive an
    Petition 870190051963, of 6/3/2019, p. 1/29
    14/37 duplex connector, and provides two receptacles 108, each for receiving a respective LC connector. Figure 1C is a top view of the adapter 106 of figure 1B. The pitch of adapter 106 is defined similarly to that of SFP 100, as the axis-to-axis distance between the central longitudinal geometric axes of each of the two receptacles 108, as illustrated in figure 1D, which shows a front view of the adapter 106.
    [0020] Figure 2A shows a prior art LC duplex connector 200, which can be used with a conventional SFP 100 and a conventional adapter 106. The LC 200 duplex connector includes two conventional LC connectors 202. Figure 2B shows another duplex connector Prior art LC 204 having a remote release PFL tab 206, and including two conventional LC connectors 208. As shown, the remote release pull tab includes two tabs 210, each configured to mate with extension element 212 of a respective LC connector 208. Figures 2C and 2D show top and side views, respectively, of a conventional LC connector 208, having a width of 5.6 mm, and still showing the extension element 212.
    [0021] Several modalities described here are configured for use with a future SFP, such as the narrow pitch SFP 300 shown in figure 3, having a pitch less than that of conventional 6.25 mm and 5.25 mm steps. Several modalities use optical fiber connectors of the LC type in duplex arrangements (having transmission and reception fibers), but with a distance from axis to axis of connector that is smaller than the conventional steps of 6.25 mm and 5.25 mm , as described in more detail below.
    [0022] According to another aspect, modalities of narrow pitch duplex LC adapters are described. Figures 4A to 4C show a modality of a narrow pitch adapter 400. The narrow pitch adapter 400 has receptacles 402 at opposite ends of it, configured to couple two narrow pitch LC duplex connectors.
    Petition 870190051963, of 6/3/2019, p. 1/30
    15/37 according to the aspects described here. Figure 4B shows a top view of adapter 400. Figure 4C shows a front view, further illustrating that adapter 400 has a 4.8 mm pitch. Adapter 400 is configured to receive a duplex LC connector, with an adapter pitch corresponding to the axis-to-axis distance between the LC connectors of the LC duplex connector. Although adapter 400 has a 4.8 mm pitch, several modalities of narrow pitch adapters, described here, may have a different pitch that is less than that of conventional pitch adapters, for example, less than 6.25 mm and less than about 5.25 mm. In some embodiments, the pitch can be about 4.8 mm or less. [0023] In addition to the need for narrow connectors, there is a need for remote unlocking of the narrow connectors used in dense narrow SFP arrays. This is because finger access to the connectors is almost impossible without disturbing the service of adjacent optical fibers. While there are current designs for remotely unlocking fiber optic connectors, as shown, for example, in Figure 2B, they have proven to be difficult to function as desired when connected to the die-cast construction, which is typical of all SFP's. The cast-molded SFP is not one that is always free of sharp edges and internal flashing (burrs), which can interfere with the normal flexing movement of the plastic locks of the fiber optic connectors. Interference between metal edges and burrs can prevent the plastic lock on the fiber optic connector from being fully engaged or easily disengaged, especially with locks that are remotely triggered by pull tabs that protrude a distance behind a connector in order to keep fingers unable to disturb adjacent optical fibers.
    [0024] To make locking / unlocking connectors from SFP more reliable, several modalities described here add a
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    16/37 spring force to the remote locking component (pull tab), for example, as shown and described with reference to figures 5, 7, 8 and 12 below, to ensure that the connector locks are allowed to return to the not shifted and are thus fully engaged within the SFP recess.
    [0025] Figure 5 shows a modality of a narrow pitch connector 500 according to the aspects described here. The narrow pitch connector 500 is a duplex LC connector including two LC 502 connectors. Each LC 502 connector includes a respective ferrule 503 and a corresponding extension element or locking arm 504. The connector 500 has a 4.8 pitch mm, defined as the axis-to-axis distance between the central geometric axes of LC 502 connectors. In other embodiments, the connector pitch can be less than that of conventional connector pitch, for example, less than 6.25 mm and less than about 5.25 mm. In some embodiments, the pitch can be about 4.8 mm or less.
    [0026] A connector 500 additionally includes a housing 506 having a lower housing 508 and an upper housing 510. The lower housing 508 includes side walls 512. In various embodiments, the housing 506 of a connector 500 can be a switchable housing. The side walls 512 can be configured to open in order to facilitate opening the housing 506, for example, to change the polarity of a connector 500. The side walls 512 can be raised towards the rear of the connector 500, as shown in figure 5. An advantage of raising the side walls 512 towards the rear of the connector 500 is easier access. In other embodiments, the side walls 512 can be raised elsewhere.
    [0027] The connector 500 additionally includes a pull tab 514 having a distal end 516 and a proximal end 518. Pull tab 514 additionally includes a spring 520 configured to provide a
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    17/37 forces so that the connector locking arms 504 return to the non-displaced position and are thus fully engaged within the recess of the SFP. The distal end 516 of the pull tab 514 can be pulled to remotely release connector 500 from an SFP or adapter. The proximal end 518 of the pull tab 514 is uniquely configured to engage with the single profile of the locking arms 504 of the LC 500 narrow pitch connector. The proximal end 518 engages both locking arms 504 of the duplex LC connector 500. That is, the proximal end 518 includes a single tongue configured to engage the locking arms of both connectors 502. At the proximal end 518 of the pull tab 514 there are pins pointing outwards 522 configured to rest directly on top and slide on along the semicircular surface of the locking arms 504 of the duplex LC connectors 502. The horizontal and backward direction of the pins 522 causes the semicircular profile of the connector locking arms 504 to flex downwards. Because pins 522 are not contained within ramp grooves in connector locking arms 504, the pull tab 514 can also be pushed down directly behind the LC 502 connectors, instead of pulling the tab in one motion backwards from a remote distance behind the connectors, such as the distal end 516. Pushing down the integral levers of the connectors or locking arms 504 unlocks a connector 500. In some cases, the horizontal movement of the pulling 514 may not be desirable. Thus, the locking arms of connector 504 can be pushed down without resulting in a horizontal movement of the pull tab 514.
    [0028] Figures 6A and 6B show top and side views, respectively, of the LC 502 connector of the narrow pitch connector 500. Figure 6A additionally shows that the LC 502 connector has a width of
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    18/37
    4.6 mm. Figure 6B shows the semicircular profile of the locking arm 504. [0029] Figure 7 shows a partially disassembled view of the narrow pitch connector 500 of figure 5. The upper housing 510 is separate from the lower housing 508. The pull tab 514 it is coupled to the upper housing 510 and configured to slide longitudinally along the length of a connector. The upper housing 510 also includes a clamp 524 configured to receive the pull tab 514.
    [0030] Figure 8 shows another disassembled view of the narrow pitch connector 500. Specifically, the pull tab 514 is shown to be separated from the upper housing 510, and the spring 520 is removed from the pull tab. The pull tab 514 includes a longitudinal recess 526 configured to receive the spring 520, and at least one clamp 528 configured to retain the spring. The upper housing 510 also includes a recess 530 configured to accommodate at least a portion of the pull tab 514, such as the spring 520 and the proximal end 518. In various embodiments, the pull tab can be removably attached to a connector by through the upper housing.
    [0031] Figure 9 shows a perspective view of a prior art standard MPO SFP 900. SFP 900 is configured to receive a standard MPO connector and provides a 902 receptacle for receiving an MPO connector having a conventional width, as shown for example in figures 10A to 10C.
    [0032] Figure 10A shows a perspective view of a conventional MPO connector 1000. As shown in figure 10B, a conventional MPO connector 1000 has a width of 12.4 mm. Figure 10C shows a front view of the MPO 1000 connector.
    [0033] Figure 11 shows an embodiment of a future narrow width multifiber SFP 1100 according to the aspects of the present invention. Several modalities described here are configured for use with
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    19/37 the narrow width 1100 multi-fiber SFP, having a width smaller than that of conventional MPO connectors, which is less than about 12.4 mm. The narrow width multifiber SFP has a receptacle 1102 configured to receive a narrow width multifiber connector, such as a narrow width connector having an MT bolt.
    [0034] Figure 12A shows a modality of a narrow width connector 1200 according to the aspects described here. The narrow-width connector 1200 is a multi-fiber connector including a multi-fiber MT / MPO ferrule 1202. The connector 1200 includes two extension elements or locking arms 1204. In other embodiments, a connector can include at least one locking arm. The connector 1200 has a width of 9.6 mm, as shown in the top view of a connector 1200 in figure 12B. In other embodiments, the width of the connector may be less than that of the width of conventional multi-fiber connectors, for example, less than the 12.4 mm of a conventional MPO connector, shown in figure 10B. In some embodiments, the width can be about 9.6 mm or less.
    [0035] The connector 1200 additionally includes a housing 1206 having a lower housing 1208 and an upper housing 1210. The lower housing 1208 includes side walls 1212. In various embodiments, housing 1206 of a connector 1200 can be a switchable housing. Side walls 1212 can be configured to open to facilitate opening of housing 1206, for example, to change the polarity of a connector 1200. Side walls 1212 can be raised towards the rear of a connector 1200. One The advantage of elevating side walls 1212 towards the rear of connector 1200 is easier access. The side walls 1212 can also be raised elsewhere.
    [0036] The connector 1200 additionally includes a pull tab 1214
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    20/37 having a distal end 1216 and a proximal end 1218. The pull tab 1214 additionally includes a spring 1220 configured to provide a force so that the connector locking arms 1204 return to the non-displaced position and are thus fully engaged inside the SFP recess. The distal end 1216 of the pull tab 1214 can be pulled to remotely release connector 1200 from an SFP or adapter. The proximal end 1218 of the pull tab 1214 is uniquely configured to engage with the single profile of the locking arms 1204 of the narrow-width multi-fiber connector 1200. The proximal end 1218 engages both locking arms 1204 of the multi-fiber connector 1200 That is, the proximal end 1218 includes a single tongue configured to engage the locking arms 1204. At the proximal end 1218 of the pull tab 1214 there are pins pointing outwards 1222 configured to rest directly on top and slide along the semicircular surface of the locking arms 1204. The horizontal and backward direction of pins 1222 causes the semicircular profile of connector locking arms 1204 to flex downwards. Because pins 1222 are not contained within ramp grooves in connector locking arms 1204, the pull tab 1214 can also be pushed down directly behind the locking arms 1204, rather than pulling the tab in one backward movement from a remote distance behind the connector, such as the distal end 1216. Pushing the integral connector levers or locking arms 1204 down unlocks a connector 1200. In some cases, the horizontal flap movement pull 1214 may not be desirable. Thus, the connector locking arms 1204 can be pushed down without resulting in a horizontal movement of the pull tab 1214.
    [0037] Figures 12B and 12C show top and front views, respectively, of the narrow width multi-fiber connector 1200. Figure 12B
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    21/37 further shows that a connector 1200 has a width of 9.6 mm.
    [0038] In various modalities described above, the narrow width connectors have locking arms configured to engage with a fixed or immobile recess within a narrow width SFP or a narrow width adapter. In these embodiments, the pull tab of a connector moves the flexible locking arm of a connector to disengage the locking arm from the recess of the SFP or the adapter. For example, the locking arms bend downward when the pull tab is pulled back, in order to disengage a connector from the SFP or the adapter.
    [0039] In other modalities, as also described, for example, with respect to figures 13A, 13B, 14, and 15 below, the remote lock release pull tab can be configured to engage with a lock or hook inside adapter or SFP. In these embodiments, the flexible locking arm of a connector is moved into the main cavity of the SFP or adapter, and the lock of the SFP or adapter engages a recess in a connector when the pull tab is in a normal location that is pushed in forward by a spring. The pull tab can be configured to have a ramp area so that when the pull tab is pulled back, the SFP lock or adapter is lifted by the retracted pull tab, thus disengaging the SFP lock or the adapter from the connector.
    [0040] Figure 13A shows a 1300 narrow pitch multifiber connector inserted in a narrow pitch SFP 1302 so that a recess in a connector engages an SFP lock. Figure 13B shows the narrow pitch connector 1300 inserted into a narrow pitch adapter 1304 so that a recess in a connector engages an adapter latch.
    [0041] Figure 14 shows a side view of the narrow width connector 1300 of figure 13A, coupled to the narrow width SFP 1302.
    Coupling details are shown within circle 1400.
    Petition 870190051963, of 6/3/2019, p. 37/112
    22/37
    Specifically, SFP 1302 includes an SFP lock 1402. A connector 1300 includes a recess 1404. For example, the connector housing may comprise a recess 1404. The pull tab 1406 can be spring loaded, as described with respect to several modalities. This allows the pull tab 1406 to return to a position that will allow SFP lock 1402 to engage with connector recess 1404. When pull tab 1406 is in place of the normal pull tab, which is pushed forward by a spring, as shown in figure 14, SFP lock 1402 is engaged with connector recess 1404.
    [0042] Figure 15 shows a side view of the narrow width connector 1300 of figure 13A when it is disengaged from the narrow width SFP 1302. Details of the decoupling are shown inside the circle 1500. The pull tab 1406 includes a taper or an area on ramp 1502. When the pull tab 1406 is pulled back in the direction of arrow 1504, as shown, the SFP lock 1402 is raised by the ramp area 1502 of the retracted pull tab, thus disengaging the SFP lock 1402 from of the connector, as illustrated within circle 1500. The same effect described here in conjunction with figure 15 also occurs in other modalities of connectors coupled to a narrow width adapter as shown, for example, in figure 13A.
    [0043] Although figures 14 and 15 illustrate the coupling of a connector to a narrow width SFP, in other embodiments a connector can be coupled to a narrow width adapter having an adapter lock, similar to that of the SFP lock. In addition, although the embodiments shown in figures 13A, 13B, 14, and 15 include a narrow width multi-fiber connector, other embodiments may include narrow pitch EC connectors.
    [0044] Figures 16A - 22 are several views and details showing a narrow pitch multi-fiber connector, an SFP and a locking mechanism.
    Petition 870190051963, of 6/3/2019, p. 38/112 / 37 lock associated with it, according to various aspects of the invention.
    [0045] As discussed here, several types of connectors exist, with various methods of implementation. Referring now to Figure 23A, one embodiment of a CS connector is shown exploded to detail. It should be noted that this visual example is for the purpose of explanation, and that several alternative examples may exist, some of which are discussed here. In some embodiments, a CS connector can be a miniature single position plug, usually distinguished by a double spring loaded cylindrical contact ferrule (s) of approximately 1.25 mm in diameter, and a locking mechanism. push-pull coupling. In some embodiments, the optical alignment mechanism of the connectors is either a rigid hole or a resilient sleeve style.
    [0046] In some embodiments, the CS connector may comprise a front body (ie, plug frame) 2301, which houses the bolt (s) and flange bolts (2302). A rear body (ie, rear column) 2304 can connect to the rear of the front body 2301 and contain the bolt flange (s) 2302. The bolt flange (s) 2302 can be held in place using one or more springs 2303. The rear body 2304, as shown, may include a contraction ring 2305 affixed to the rear of the rear body. In some embodiments, a cable receiver 2306 can surround the shrink ring 2305. In some embodiments, and as shown, a dust cover 2307 can be placed over the front body 2301 in order to protect the bolts housed in the front body against damage and / or debris.
    [0047] In additional modalities, a 2310 push-pull tab can be attached to the CS connector, as discussed in more detail here. The push-pull tab 2310 may have a side portion 2312 and a central projection (i.e., 2313), which serves several functions discussed in more detail
    Petition 870190051963, of 6/3/2019, p. 39/112
    24/37 here. The push-pull tab 2310 can use a tab spring 2308 to apply a constant directional force to the push-pull tab to allow for various benefits that will be discussed here. With brief reference to figure 23B, a modality of a CS connector mounted with a push-pull tab is shown. In some embodiments, and as shown, the push-pull tab 2310 has a front portion 2314 which is located in a recess 2317 within the front body 2301. Thus, when the push-pull tab 2310 passes through a connector, as discussed in detail here, the front portion 2314 moves independently of the front body 2301.
    [0048] In one or more modalities, and as shown in figure 24A, a CS connector can have a total dimensional width of 7.95 mm. Additionally, in other embodiments, the CS connector can have a pitch of 3.8 mm. As discussed here, the pitch is defined as the axis-to-axis distance between the central geometric axes of the CS 2450 connectors. In addition, as shown in figure 24B, a modality can have a total dimensional height of 10.46 mm when the flap push-pull switch 2410 is attached to the front body 2401 and the rear body 2404.
    [0049] As described here, a connector (for example, a CS connector) can have a push-pull tab to allow easy insertion and extraction of an adapter. Referring now to figures 25A and 25B, in some embodiments, the push-pull tab 2510 can slide back and forth in a lengthwise manner relative to a connector, as indicated by the dashed double-sided arrow 2511. Figure 25A shows an embodiment in which the side portion 2512 of the push-pull tab 2510 contacts the rear body 2504. This contact between the side portion 2512 and the rear body 2504 is for forward movement of the push-pull tab 2510.
    [0050] In another mode, the push-pull tab 2510
    Petition 870190051963, of 6/3/2019, p. 40/112
    25/37 can be moved away from the rear body by a distance 2513 of about 1 mm to about 3 mm. The push-pull tab 2510 can have a central projection (such as 2314 in figure 23A) that makes contact with the rear body 2504. This contact between the central projection 2514 and the rear body 2504 can stop the backward movement of the push-pull 2510.
    [0051] With reference to figures 26A-C, a CS connector according to some modalities is shown. As discussed here, the push-pull tab has a front portion 2614. In some embodiments, the front portion 2614 may comprise a tip 2630. Tip 2630 may comprise a slot or groove (not shown) that can slide over a portion of the front body 2601 in order to securely fix the front portion 2614 to the front body 2601. The slot or groove may, in some embodiments, be large enough to accommodate the movement of the push-pull tab, as discussed here. Mentioned differently, when the push-pull tab is pulled away from the front body (see figure 25B and corresponding description) the push-pull tab can slide along the front body (ie figure 26C), thus the slot or groove should be large enough to allow movement of the push-pull tab, while also ensuring a secure attachment in the non-retracted state (ie figure 26B).
    [0052] As shown in figure 27A, and discussed here, one embodiment can comprise a spring 2708 (i.e., figure 23A, 2308). Spring 2708 applies a tensioning force to the push-pull tab 2710 in the forward direction so that the groove in the front body 2701 and the groove in the push-pull tab 2710 align, as discussed here, and shown in figure 42 As shown in figure 27A, the hidden lines show the spring 2708 inside the push-pull tab 2710. In additional embodiments, the push-pull tab 2710 can comprise a wedge portion 2731. The wedge portion 2731 is configured form
    Petition 870190051963, of 6/3/2019, p. 41/112
    26/37 that can fit in the front body 2701 and slide / traverse the recess (see figure 23A in 2317) when the push-pull tab is moved along the housing (ie, front body and rear body).
    [0053] With reference now to figures 28A / B / C, a CS connector is shown including cross sections of various modalities. Figure 28A illustrates an example CS connector, according to some modalities, with two identified cross-sectional areas. The first cross-sectional area (ie, X-X) is further detailed in figure 28B. Figure 28B shows how the wedge portion 2831 fits into, or connects with, the front body 2801. It should be understood that this material resistance of the wedge portion 2831 ensures a secure connection to the front body 2801, while also allowing the push-pull tab 2810 moves along the length of the front body 2801, as discussed in more detail here. In addition to the wedge portion 2831, some embodiments may also have an additional gripping connection device comprising one or more clips 2832, which are formed as part of the push-pull tab. In some embodiments, and as shown, the one or more clips 2832 connect to, and fit into, the front body 2801 and positioned adjacent to the rear body 2804, which is inserted into the front body. It should be understood that these are non-limiting examples, and that various means of connection can be used to secure the push tab 2810 to the housing. Specifically, the wedge portion 2831 and the one or more clips 2832 can be located at various other locations on the push-pull tab 2810, as well as different locations on the front body 2801 and the rear body 2804.
    [0054] The connectors (for example, CS connectors) described here can be inserted into an adapter (for example, a fiber optic hole), such as, for example, in a fiber array or server. A non-limiting illustrative example of a typical adapter is shown in
    Petition 870190051963, of 6/3/2019, p. 42/112 / 37 figure 30A. Figure 30A illustrates a dual adapter to accept two connectors (for example, a double-bolt CS connector). It should be understood that the various dimensions provided here are for illustrative purposes only, and that several other dimensions may be possible in various implementations. Figures 30B and 30C show adapter-specific cross-section cuts shown in figure 30A. The various dimensions of figures 30A, 30B, and 30C are listed below in Table 1. As shown in figures 31, 32, and 33, and discussed here, the receiver / transceiver may allow insertion of a fixture.
    Reference Dimensions (mm)Maximum Maximum F1 6.5 6.7 F2 6.5 6.7 G1 3.8 G2 3.8 GA1 1.90 GA2 1.90 H1 a, b 2.87 2.97 H2 a, b 2.87 2.97 11 3.7 3.8 12 3.7 3.8 J1 5.75 5.85 J2 5.75 5.85 K 6.79 6.89 L 1.03 1.13 M 1.90 N 0.05 - P0.8 Q1.7 Frog1.25 s 0.55 0.75 T 4.0 4.1 u 0.3 V 1.4 1.5 w 2.7Y 0.4 0.5 z 3.7 3.8 AA 1.44 1.54 AB 4.35 4.55 AC1 0.5 AC2 0.5 AD 2.55 2.65 AF 9.24 9.38 AG 14.55 14.65 All 3.0 3.2 AI2 3.0 3.2 AJ 7.9 8.1 AK1 1.43 1.53
    Petition 870190051963, of 6/3/2019, p. 43/112
    28/37
    AK2 1.43 1.53 AL 90 AM 2.24 AN 2.65 2.75 TO 0 0.2 AP 2.1 2.3 AQ1 4.0 AQ2 4.0 AIR 15.38 AT 0.5 BA 8.22 8.62 BB 0.2 0.4 BC 1.1 1.3 BD (0.75) BE 3.5 3.7 BF (1.2) BG 0.8 1.0 P' 0.75 - Q ’ - 1.15 AD ’2.3 HERE 7.29 7.39 CB 1.65 1.75 CC 0.3 - CD 2.3 - CE (2.2) CF (2.95) CG 2.6 2.8 CH 2.45 2.55 Cl 1.95 2.05 F ’ 6.25 6.35 CJ 1.75 1.85 CK 5.35 5.45 CE 0.67 0.77 CM 1.95 2.05
    Table 1 [0055] It should be understood that several portions of a connector system (for example, CS connector system) can have adjustments made to accommodate various situations. A non-limiting example of these variations is shown in figure 29, which shows the push-pull tab 2910 being constructed with varying lengths.
    [0056] The modalities shown in figures 30A, 30B, and 30C illustrate an adapter capable of receiving various modifications. For example, and with reference to figures 31A, 31B, and 31C, in some embodiments, a removable adapter modification (for example, the hook system of figures 31B and 31C) can be inserted into the adapter shown in figure 31 A. removable modification device, such as the one shown in the figures
    Petition 870190051963, of 6/3/2019, p. 44/112
    29/37
    31B and 31C, may comprise a hook tip 3121 and a hook chute 3122, or a plurality of any of them (for example, as shown, the modifying device comprises two hook tips).
    [0057] It should be understood that the removable modification device (ie, interchangeable fixation device) can vary in style and design. Figures 32A, 32B and 32C provide an illustrative non-limiting example of a potential design for an interchangeable fixture. As discussed here, in some embodiments, a removable adapter modification (for example, the hook system of figures 32B and 32C) can be inserted into the adapter shown in figure 32A. The removable modification device, such as that shown in figures 32B and 32C, can comprise a hook tip 3221 and a hook ramp 3222, or a plurality of any of them (for example, as shown, the modification device comprises two hook ends).
    [0058] In another embodiment, and as shown in figures 33A, 33B, and 33C, a removable adapter modification (for example, the hook system in figures 33B and 33C) can be inserted into the adapter shown in figure 33A. The removable modification device, such as that shown in figures 33B and 33C, can comprise a hook tip 3321 and a hook ramp 3322, or a plurality of any of them (for example, as shown, the modification device comprises two hook ends).
    [0059] Figure 34 illustrates a double adapter for accepting two connectors (for example, a double bolt CS connector), similar to that shown in figure 30A, however, figure 34 includes two removable modifying devices 3420. It should be understood that the various dimensions provided here are for illustrative purposes only, and that several other
    Petition 870190051963, of 6/3/2019, p. 45/112
    30/37 dimensions may be possible in several implementations. Figures 35A and 35B show adapter-specific cross-section cuts shown in figure 34, and thus the dimensions identified from figures34, 35A and 35B are also listed in Table 1.
    [0060] Referring now to figures 36A and 36B, illustrative examples of a CS connector being inserted into an adapter are shown. As discussed here, the adapter shown in the illustrative embodiment comprises the modifying device that engages with portions of the CS connector, as discussed in detail below. Figure 37 shows a CS connector being inserted into an adapter. The 3720 modification device impacts and interacts with the CS connector when the connector is inserted into the adapter housing. In some embodiments, when the CS connector is inserted, the front part of the CS connector contacts the hook ramp (figure 35C in 3522, figures 32B and 32C in 3222, and figures 33B and 33C to 3322) that elevates the portion of the modification that is interacting with the CS connector.
    [0061] Still with reference to figure 37, the movement of the modification device is shown in enlarged detail views 3731 and 3732. As shown, the hidden line (for example, dashed) represents the profile of the hook ramp 3122, 3222, and 3322, and the solid lines represent the profile of the hook tips 3121, 3221, and 3321. Hooks 3121, 3221, and 3321 rise above the surface of a connector, allowing insertion of a connector into the adapter. Once when the connector reaches the predetermined destination inside the adapter (for example, when a secure fiber connection is made), the hook ends 3121, 3221, and 3321 lock with a recess 3709 in a connector. This locking action secures an adapter housing connector by the tab during the push-in action.
    [0062] With reference now to figure 38, it is important to note that the front portion 3814 of the push-pull tab 3810 moves
    Petition 870190051963, of 6/3/2019, p. 46/112
    31/37 independently of the front body 3801, as discussed here. Consequently, the front portion 3814 of the push-pull tab 3810, which is shown in detail, can line up with the recesses 3816 of the front body 3801. In this configuration, the hook ends 3121, 3221, and
    3321 are able to securely attach the connector to the adapter. However, depending on the mode, the push-pull tab 3810 can be moved in the forward or backward direction (see figures 31, 32, and 33) thus taking the 3816 recesses out of alignment with the push tab recess. . When the front portion 3814 of the push-pull tab 3810 is moved out of alignment, it interacts with the hook ramp 3122, 3222, and
    3322 via ramp 3815. Consequently, in some embodiments, the movement of the push-pull tab 3810 independently of the front body 3801 may allow the ramp area 3815 to apply a force to the hook ramp 3122, 3222, and 3322, raising thus the hook tips 3121, 3221, and 3321. Once the hook tips 3121, 3221, and 3321 are raised, a connector can be safely removed from the adapter and / or transceiver.
    [0063] Figures 39 to 41 show other detailed and cross-sectional illustrations of a connector interacting with an adapter and / or transceiver. Additionally, figures 42 and 43 show another possible detail and dimensions of a modality, see Table 2 ._______________
    Reference Dimensions (mm)Minimum Maximum BA’a 8.7 8.9 GIVES 8.28 8.48 DB 7.45 7.6 A.D 5.2 5.4 DD 5.5 5.7 IN 5.5 5.7 AG ’ 13.75 14.05 AM ’ 2.08 2.18 AN ’ 2.08 2.18 AC’lb - 0.5 AC’2b - 0.5 Z'b 3.32 3.72 AR’c 6.88 7.28 DFc - 0.5 G ’ 3.8
    Petition 870190051963, of 6/3/2019, p. 47/112
    32/37
    DG 6.86 7.06 Γ 5.5 5.7 DL 7.75 7.95 DJ (0.81) DK (3.57) DL (1.3) DM d 1.45 - DN (6.24) AA ’ 1.4 1.6 AB ’ 9.33 9.53 OF (2.92) DP (3.22) DQa 5.14 5.26 Ί ” 3.3 3.4 H' 3.0 3.2 AF’l (2.80) AF’2 (2.80) AK ’ 1.78 1.94 DR - 0.5 DS 1.60 1.72
    Table 2 [0064] The use of a CS connector allows a compact fiber implementation, as well as improved flexibility. For example, in some existing systems, as shown in figure 44A, a 20G 4401 transceiver module can receive an MPO 4402 connector. The MPO connector can then be divided using an additional tool, such as a 4403 logic port or a cassette. 4406. Once the cable is split, it can be connected to a 100G module device (for example, a single LC receiver, as shown) 4404. The 100G 4404 module device can then be inserted into a 100G 4405 transceiver.
    [0065] Alternatively, in some embodiments, and as shown in figure 44B, a plurality of CS 4406 connectors are inserted into a 20G 4401 transceiver module. Each CS 4406 connector can then independently connect to 100, as shown in figure 44A, a 440G 20G transceiver module can receive a 4402 MPO connector. The MPO connector can then be split using an additional tool, such as a 4403 logic port or a 4406 cassette. Once the cable is split, it can be connected to a 100G module device (for example, a single LC receiver as shown) 4404. The
    Petition 870190051963, of 6/3/2019, p. 48/112
    33/37 100G 4404 module can then be inserted into a 100G 4405 transceiver module.
    [0066] A specific example using multi-wire cables is shown in figure 14 for explanation purposes only, and it should be understood that alternatives and modifications close to infinity are possible. As shown, a switch (for example, 100G switch) 1430 is shown with a transceiver (for example, 100G transceiver) 1431. Transceiver 1431 has an adapter to receive two duplex CS 1432 mini connectors. From each of the two connectors duplex 1432, a 1433 four-fiber cable extends to connect to several other connectors and transceivers. As shown, a four-fiber cable 1433 is divided into two fiber cables 1434, which are then attached to a single CS 1435 simplex connector and placed on a 1436 transceiver (for example, the 25G transceiver). As also shown, one of the four-fiber cables 1437 is connected to a single mini duplex connector CS 1438, which is then inserted into another transceiver (eg 50G transceiver) 1439.
    [0067] In the detailed description above, reference is made to the attached drawings, which form a part of it. In the drawings, similar symbols typically identify similar components, unless context dictates otherwise. The illustrative embodiments described in the detailed description, drawings, and claims are not intended to be limiting. Other modalities can be used, and other changes can be made, without departing from the spirit or scope of the material presented here. It will be readily understood that aspects of the present invention, as generally described here, and illustrated in the figures, can be arranged, replaced, combined, separated, and designed in a wide variety of different configurations, all of which are explicitly contemplated here.
    [0068] The present invention should not be limited in terms of the particular modalities described in that application, which are intended for
    Petition 870190051963, of 6/3/2019, p. 49/112
    34/37 illustrations of various aspects. Many modifications and variations can be made without departing from the spirit and scope, as will be apparent to those specialized in the technique. Functionally equivalent methods and apparatus within the scope of the description, in addition to those listed here, will be apparent to those skilled in the art from the preceding descriptions. Such modifications and variations are intended to fall within the scope of the attached claims. The present invention should be limited only by the terms of the appended claims, together with the full scope of equivalents, to which such claims are intended to protect. It should be understood that this description is not limited to particular methods, reagents, compounds, compositions, or biological systems, which can, of course, vary. It should also be understood that the terminology used here is for the purpose of describing particular modalities only, and is not intended to be limiting.
    [0069] With respect to the use of substantially any plural and / or singular terms here, those who have expertise in the technique may translate from the plural to the singular and / or from the singular to the plural, when appropriate for the context and / or application . The various permutations of singular / plural can be expressly exposed here for clarity.
    [0070] It will be understood by those within the art that, in general, the terms used here, and especially in the appended claims (for example, bodies of the appended claims) are generally intended as "open" terms (for example, the term "including ”Should be interpreted as“ including, but not limited to ”, the term“ having ”should be interpreted as“ having at least ”, the term“ includes ”should be interpreted as“ includes, but is not limited to ”, et Cetera ). Although various compositions, methods, and devices are described in terms of "comprising", various components or steps (interpreted to mean "including, but not limited to"), compositions, methods, and devices may also "consist of
    Petition 870190051963, of 6/3/2019, p. 50/112
    35/37 essentially in ”or“ consisting of ”the various components and steps, and such terminology should be interpreted as defining essentially closed groups of elements. It will also be understood by those skilled in the art that if a specific number of an introduced claim recitation is intended, such an intention will be explicitly recited in the claim, and in the absence of such a recitation none of such intention is present. For example, as an aid to understanding, the following appended claims may contain the use of the introductory phrases “at least one” and “one or more” to enter claim claims. However, the use of such phrases should not be interpreted to imply that the introduction of a claim recitation by the indefinite articles "one" or "one" limits any particular claim that contains such a recitation of the introduced claim to modalities that contain only such a recitation. , even when the same claim includes the introductory phrases “one or more” or “at least one” and indefinite articles, such as “one” or “one” (for example, “one” and / or “one” should be interpreted to mean “at least one” or “one or more”); the same is true for the use of defined articles used to introduce claim claims. In addition, even if a specific number of an entered claim recitation is explicitly recited, those skilled in the art will recognize that such recitation must be interpreted to mean at least the recited number (for example, the mere recitation of “two recitations”, without other modifiers, means at least two recitations, or two or more recitations). Furthermore, in those cases, in which a conventional analogue to “at least one of A, B, and C, et Cetera” is used, in general such a construction is intended in the sense that a person having expertise in the technique would understand the convention (for example, "a system having at least one of A, B, and C" would include, but would not be limited to, systems that have A alone, B alone, C alone, A and B together, A and C together, B and Ç
    Petition 870190051963, of 6/3/2019, p. 51/112
    36/37 together, and / or A, B, and C together, et Cetera). In those cases where the convention analogous to “at least one of A, B, or C, et Cetera” is used, in general such a construction is intended in the sense that a person having expertise in the technique would understand the convention (for example, "A system having at least one of A, B, or C" would include, but would not be limited to, systems that have A alone, B alone, C alone, A and B together, A and C together, B and C together, and / or A, B, and C together, et Cetera). It will also be understood by those within the technique that virtually any disjunctive word and / or phrase presenting two or more alternative terms, or in the description, claims, or drawings, must be understood to contemplate the possibilities of including one of the terms, any of the terms, or both of the terms. For example, the phrase "A or B" will be understood to include the possibilities of "A" or "B" or "A and B".
    [0071] Furthermore, when features or aspects of the invention are described in terms of Markush groups, those skilled in the art will recognize that the invention is also described here in terms of any individual member or subgroup of the Markush group.
    [0072] As will be understood by a person skilled in the art, for any and all purposes, such as in terms of providing a written description, all ranges described here also comprise any and all possible sub-ranges and combinations of sub-ranges of same. Any track listed can easily be recognized as describing sufficiently and allowing the same track to be broken down into at least equal halves, thirds, quarters, quarters, fifths, tenths parts, et Cetera. As a non-limiting example, each track discussed here can easily be broken down into a lower third, central third and upper third, et Cetera. As will also be understood by a person specialized in the technique, every language, such as "up to", "at least", and similar includes the recited number and refers to tracks
    Petition 870190051963, of 6/3/2019, p. 52/112
    37/37 which can subsequently be broken down into sub-bands, as discussed above. Finally, as will be understood by a person skilled in the art, a banner includes each individual element. Thus, for example, a group having 1-3 cells refers to groups having 1, 2, or 3 cells. Similarly, a group having 1-5 cells refers to groups having 1, 2, 3, 4, or 5 cells, and so on.
    [0073] Several of the features and functions described above, and others, or alternatives to them, can be combined in many other different systems or applications. Various alternatives, modifications, variations, or improvements, currently unpredictable or unforeseen, can subsequently be made by those skilled in the art, each of which is also intended to be included by the described modalities.
    权利要求:
    Claims (5)
    [1]
    1. Connector, characterized by the fact that it comprises:
    a front body comprising:
    an upper and a lower part, a recess extending along the length of the upper part of the front body, and a rear body detachably connected to the front body forming a housing, in which a portion of the rear body fits within the front body when detachable connected; and a push-pull tab comprising a front portion, a rear portion, and one or more side portions, wherein the front portion of the push-pull tab rests on the recess; and in which a front body additionally comprises a groove extending along the length of the upper part of the front body, and in which the push-pull flap additionally comprises a complementary groove extending along the length of the front portion of the push-pull flap.
    [2]
    2. Connector according to claim 1, characterized in that the groove of the front body and the complementary push-pull flap line up when the push-pull tab is connected to the housing.
    [3]
    3. Connector according to claim 2, characterized in that the push-pull tab is movable along the length of the housing when connected to the housing, and in which the front body groove and the push-flap groove complementary pulls move out of alignment when the push-pull tab is moved along the length of the housing.
    [4]
    4. Connector according to claim 3, characterized
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    2/2 due to the fact that the rear portion allows a user to move the push-pull tab along the length of the housing without tools.
    [5]
    5. Connector according to claim 1, characterized by the fact that the push-pull tab is detachably connected to the housing using one or more side portions.
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    CN112731596A|2021-04-30|
    AU2020294252A1|2021-01-28|
    WO2018111617A2|2018-06-21|
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    KR20210031789A|2021-03-22|
    CN111596417A|2020-08-28|
    KR20210031788A|2021-03-22|
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    WO2018111617A3|2020-01-02|
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    法律状态:
    2021-10-13| B350| Update of information on the portal [chapter 15.35 patent gazette]|
    优先权:
    申请号 | 申请日 | 专利标题
    US201662430067P| true| 2016-12-05|2016-12-05|
    US201662430560P| true| 2016-12-06|2016-12-06|
    US201762452147P| true| 2017-01-30|2017-01-30|
    US201762457150P| true| 2017-02-09|2017-02-09|
    US201762546920P| true| 2017-08-17|2017-08-17|
    US15/720,980|US10228521B2|2016-12-05|2017-09-29|Narrow width adapters and connectors with modular latching arm|
    PCT/US2017/064643|WO2018111617A2|2016-12-05|2017-12-05|Narrow width adapters and connectors with modular latching arm|
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