This relates to a cable assembly with an inner shell and metal foil, the cable assembly having improved electromagnetic shielding and structural integrity.
A cable assembly includes cable components and connector components. Cable components may include one or more electrical conductors (e.g., wires), and connector components may include a receptacle and/or a plug having electrical contacts configured for physical coupling with corresponding electrical contacts in devices configured to connect with the receptacle and/or the plug. In some instances, the interface between the cable and connector components may be a source of structural weakness and/or noise (e.g., electromagnetic interference (EMI) and/or radio frequency interference (RFI)). Such noise may cause degradation in sensitivity (desense) of wireless communication components in proximity to the connector components.
This disclosure describes a cable assembly with improved structural integrity and shielding. A connector of the cable assembly provides improved structural support at the interface between cable and connector components. The connector also provides improved shielding, thereby reducing the amount of desense-causing noise that may negatively affect wireless communication components in proximity to the connector.
In one aspect, a cable assembly includes a connector head electrically coupled to a plurality of conductors disposed in a cable, the connector head having a plug receiver and a conductor interface. The cable assembly further includes a metal shell including a first shell portion encasing the conductor interface of the connector head, and a second shell portion encasing a portion of the cable. The cable assembly further includes a metal foil that wraps conformably around an exterior of the metal shell, wherein the metal foil covers substantially all of the exterior of the metal shell, including (i) a first foil portion that covers the first shell portion, (ii) a second foil portion that covers and extends beyond the second shell portion and onto shielding of the cable (also referred to as a grounding layer of the cable) surrounding the plurality of conductors at a location on the plurality of conductors that is proximate to the conductor interface, and (iii) a third foil portion that extends beyond the first shell portion and onto a portion of the plug receiver. The cable assembly further includes a solder layer disposed about the metal foil, wherein the solder layer bonds and electrically couples: (i) the first foil portion to itself, (ii) the second foil portion to the shielding of the cable at the location on the plurality of conductors that is proximate to the conductor interface, and (iii) the third foil portion to the plug receiver. The cable assembly further includes an electrically insulating layer that encases the metal shell, the metal foil, and the solder layer.
The following figures depict various views of implementations described in the Detailed Description below. Features shared between figures are similarly numbered.
In some implementations, the receptacle 102 is a High-Definition Multimedia Interface (HDMI) receptacle, the plug 104 is an HDMI plug, and the cable 106 includes a plurality of conductors in accordance with the HDMI standard. Such a cable assembly 100 may be referred to as an HDMI cable extender, the use of which increases the distance between a device that may be sensitive to interference and is connected to the receptacle 102 (e.g., a wireless streaming dongle, not shown) and a device that may cause interference and is connected to the plug 104 (e.g., a television, not shown). The increased distance, when combined with the shielding features described below, decreases the sensitivity of the device that may be sensitive to interference, thereby increasing performance of such a device (e.g., resulting in fewer dropped packets).
A metal shell 206 (also referred to as a shielding frame) is disposed about, and in contact with, a portion of the connector head 204. Specifically, the metal shell 206 includes a first shell portion 206a encasing the conductor interface 204b of the connector head 204, and a second shell portion 206b encasing a portion of the cable 106 that is proximate to the conductor interface 204b (e.g., a portion of the cable 106 including the exposed shielding 202). The metal shell 206 is a structural support for the interface region 102a (
The receptacle 102 includes a metal foil 208 (also referred to as a shielding foil) disposed about, and in contact with, the metal shell 206. Specifically, the metal foil 208 wraps around the exterior surfaces of the metal shell 206 and the connector head 204. As a result of the wrapping, the metal foil 208 conforms to the surfaces of the underlying metal shell 208 and connector head 204. The metal foil 208 provides another layer of shielding to the conductors 203 at the conductor interface 204b. As such, in order to seal any gaps between the connector head 204 and the metal shell 206, the metal foil 208 covers substantially all of the exterior of the metal shell 206. Stated another way, the metal foil 208 extends to the full extent of the metal shell 206 and extends beyond the metal shell 206 in the direction of the plug receiver 204a and in the direction of the cable shielding 202. The combination of metal shell 206 and metal foil 208 form a double shield around the conductor interface 204b.
The metal foil 208 includes three portions: a first foil portion 208a covers the first shell portion 206a, a second foil portion 208b covers and extends beyond the second shell portion 206b and onto the shielding 202 surrounding the conductors 203 at a location proximate to the conductor interface 204b, and a third foil portion 208c extends beyond the first shell portion 206a and onto a portion of the plug receiver 204a. Since all three foil portions 208a, 208b, and 208c are portions of the same piece of foil, the metal foil 208 (i) completely covers the first and second shell portions 206a and 206b, (ii) extends past the first shell portion 206a to close any gaps between the first shell portion 206a and the plug receiver 204a, and (iii) extends past the second shell portion 206b to close any gaps between the second shell portion 206b and the cable shielding 202. In some implementations, the metal foil 208 comprises copper, aluminum, gold, or any other metallic sheet or foil material that is electrically conductive.
The receptacle 102 includes an overmold 212 disposed about the receptacle components described above. Specifically, the overmold 212 is an electrically insulating layer that encases the plug receiver 204a and the conductor interface 204b of the connector head 204, the metal shell 206, and the metal foil 208. In some implementations, the overmold 212 comprises a thermoplastic elastomer (TPE), or any other material with thermoplastic and/or elastomeric properties. In some implementations, an inner mold 210 is disposed about the metal foil 208 before the overmold 212 is applied, thereby protecting the double seal provided by the metal shell 206 and the metal foil 208 during application of the overmold 212. The inner mold 210 may also comprise a TPE (e.g., having a type requiring a lower temperature during application as compared to the TPE type used for the overmold 212), or any other material with thermoplastic and/or elastomeric properties.
While the double shielding and sealing features are described above with reference to the receptacle 102, the aforementioned features apply equally to the plug 104. Specifically, referring to
Each of the aforementioned parts of the plug 104 has the same features as its corresponding part of the receptacle 102, except for minor differences in shape (e.g., due to the plug 104 having a different form factor compared to the receptacle 102). Specifically, the metal shell 256 and the metal foil 258 form a double shield around the conductors 253 in the conductor interface 254b (as described above with reference to the double shield in the receptacle 102), and the double shield is sealed with a solder layer to the plug 254a and the cable shielding 252 (as described above with reference to the solder layer in the receptacle 102).
The metal shell 206/256, metal foil 208/258, and solder layer 302, when disposed in a cable assembly 100 as described above with reference to
The foregoing description has been described with reference to specific implementations. However, the illustrative discussions above are not intended to be exhaustive or to limit the claims to the precise forms disclosed. Many variations are possible in view of the above teachings. The implementations were chosen and described to best explain principles of operation and practical applications, to thereby enable others skilled in the art.
The various drawings illustrate a number of elements in a particular order. However, elements that are not order dependent may be reordered and other elements may be combined or separated. While some reordering or other groupings are specifically mentioned, others will be obvious to those of ordinary skill in the art, so the ordering and groupings presented herein are not an exhaustive list of alternatives.
As used herein: the singular forms “a”, “an,” and “the” include the plural forms as well, unless the context clearly indicates otherwise; the term “and/or” encompasses all possible combinations of one or more of the associated listed items; the terms “first,” “second,” etc. are only used to distinguish one element from another and do not limit the elements themselves; the term “if” may be construed to mean “when,” “upon,” “in response to,” or “in accordance with,” depending on the context; and the terms “include,” “including,” “comprise,” and “comprising” specify particular features or operations but do not preclude additional features or operations.
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