WO2006090471A1 - プラグインユニット及び通信装置 - Google Patents
プラグインユニット及び通信装置 Download PDFInfo
- Publication number
- WO2006090471A1 WO2006090471A1 PCT/JP2005/003183 JP2005003183W WO2006090471A1 WO 2006090471 A1 WO2006090471 A1 WO 2006090471A1 JP 2005003183 W JP2005003183 W JP 2005003183W WO 2006090471 A1 WO2006090471 A1 WO 2006090471A1
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- WO
- WIPO (PCT)
- Prior art keywords
- cover member
- plug
- unit
- printed board
- shield cover
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K9/00—Screening of apparatus or components against electric or magnetic fields
- H05K9/0007—Casings
Definitions
- the present invention relates to a plug-in unit mechanically and electrically coupled to a sub-rack having a backplane having a connector and a communication device having a powerful plug-in unit, and more particularly to an electromagnetic wave in the plug-in unit.
- the present invention relates to a technique for reducing the influence of shielding and static electricity.
- Electromagnetic waves have adverse effects such as malfunction of neighboring devices and noise, or inability to wireless broadcasting and communication of television and radio, and noise.
- electronic devices become sensitive with high-performance products, and malfunctions caused by electromagnetic waves radiated from neighboring devices, etc., and destruction and malfunction of electronic components due to static electricity are more likely to occur. .
- These serious damages such as malfunctions and breakdowns caused by electromagnetic waves and static electricity are extremely important issues in the stable operation of electronic devices, and there is a high demand for shielding from electromagnetic shielding and static electricity. Increasing with performance.
- a printed wiring board (hereinafter referred to as a printed board) on which electronic components are mounted in the plug-in unit is made of a metal case.
- a technique for realizing electromagnetic shielding by covering with for example, see Patent Document 1 below.
- the communication device 100 having a conventional electromagnetic shielding mechanism will be described.
- the communication device 100 is a subrack device 120 having a book-shelf type configuration, A plurality of plug-in units 110 mounted on the subrack device 120 are provided. Note that the plug-in unit 110 before assembly is shown in FIG. 8 and FIG.
- the plug-in unit 110 includes a front panel 111, a printed board 112, and a shield cover 113.
- the front panel 111 covers the front surface (front face) of the printed board 112, and the shield cover 113 is printed.
- the plate 112 is configured to cover the upper and lower surfaces and both side surfaces.
- a card lever 114 for coupling with the shield cover 113 is disposed on the top and bottom of the front panel 111 so as to be rotatable.
- the printed board 112 of the plug-in unit 110 is interposed via arm members 115a and 115b arranged so as to extend along the upper and lower surfaces of the printed board 112.
- Each of the arm members 115a and 115b is interposed between the plates 115c and 115d that sandwich the printed board 112 between the side surfaces with a predetermined interval, and between the plates 115c and 115d.
- a pin 115e joined to 115c and 115d is provided.
- a notch 112a extending to the upper end surface of the printed board 112 is provided at a position corresponding to the pin 115e of the arm member 115a of the printed board 112, and the arm of the printed board 112 is provided.
- a notch 112a extending to the lower end of the printed board 112 is also provided at a position corresponding to the pin 115e of the member 115b.
- the length F of the notch 112a is set larger than the diameter D of the pin 115e.
- the plate 112 is movable in the vertical direction (bl-b2 direction).
- the plug-in unit 110 By configuring the plug-in unit 110 so that the printed board 112 can be moved in the vertical direction in this way, the backplane connector provided on the knock plane 121 (see FIG. 8) of the subrack device 120. 122 (see FIG. 8) and the plug-in unit connector 116 provided at the rear end of the printed circuit board 112 are affected by variations (tolerance accumulation) in the dimensions of each component of the plug-in unit 110 and the subrack device 120. Can be combined without
- FIGS. 10 (a)-(c) the installation sequence of the plug-in unit 110 to the subrack device 120 will be described with reference to FIGS. 10 (a)-(c).
- First, as shown in FIG. In the process of inserting the knit 110 into the subrack device 120, move the plug-in unit 110 in the insertion direction (al direction) along the lower rail 123 (see Fig. 8) of the subrack device 120. .
- the plug-in unit 110 is further inserted into the subrack device 120, and the guide protrusion 116a of the plug-in unit connector 116 and the guide hole 122a of the backplane connector 122 Abut.
- the printed board 112 is configured to be freely movable in the vertical direction. Therefore, the printed board 112 is guided to the end faces of the guide protrusion 116a and the guide hole 112a and plugged in.
- the plug-in connector 116 can be securely coupled to the backplane connector 122 as shown in FIG. 10 (c).
- an optical module that exchanges an electrical signal and an optical signal mounted on a communication device is called a big till in which an optical fiber cable is connected to the optical module in an inseparable state.
- Modules are widely used (see, for example, Patent Document 3 below).
- FIG. 11 (a)-(c) show a plug-in unit 130 equipped with a conventional big-tilt type optical module 131.
- FIG. 11 (c) is a CC ′ cross-sectional view of the front portion of the plug-in unit 130 shown in FIG. 11 (a).
- the optical module 131 when using the optical module 131 in which the optical fiber cable 132 is connected in an inseparable state, the optical module 131 is fixed to the printed board 130a by soldering. Electrical coupling with printed board 130a Is done.
- the plug-in unit 130 has an optical fiber connection interface 140 on the front side, and the interface 140 includes both optical connectors.
- the optical adapter 141 that connects to and relays to the front panel 130b is placed on a swing 142 that can rotate with respect to the front panel 130b, and cannot be separated into an optical module 131 that converts electrical and optical signals.
- the other end force of the optical fiber cable 132 connected in such a state is connected to the optical adapter 141.
- the conventional plug-in unit 130 equipped with the big-tilt type optical module 131 has a boundary 133 between the printed board 130a and the swing 142 as shown in FIG. 11 (c). Thus, electromagnetic shielding is realized.
- a plug equipped with an optical module [for example, SFP (Small form Factor Pluggable)], in which an optical fiber cable and an optical module are connected to an optical connector so as to be insertable / removable. In-units are spreading.
- SFP Small form Factor Pluggable
- FIGS. 12 (a) and 12 (b) show a plug-in unit 150 in which an SFP 152 is mounted.
- the plug-in unit 150 has only a case (cage) 153 for housing the SFP 152 and an electrical connector (not shown) fixed to the printed board 151, and an SFP 152 force S case. 153 can be inserted and removed.
- the printed board 151 includes four SFPs 152 and four cases 153.
- the front panel 154 of the plug-in unit 150 is provided with an opening (hole) 155 for exposing the SFP 152 to the outside at a position corresponding to the SFP 152, whereby the S FP 152 is plugged. It is mounted so as to be detachable from the front of the in-unit 150.
- the front panel is configured so that the printed board 151 can be moved in the vertical direction (bl-b2 direction) for the reasons described above with reference to FIGS. 10 (a)-(c).
- the height of the opening 155 of the 154 (vertical opening length) is configured to be sufficiently higher (longer) than the height of the SFP 152 (vertical length)!
- the SFP 152 is configured to be detachable from the printed board 151, so that even if a type change such as a wavelength of an optical signal needs to be changed, an end user or the like can Simply pair the SFP152 with another optical module. It is possible to respond to various demands on the communication device.
- the plug-in unit 130 equipped with the big-tilt type optical module 131 can achieve electromagnetic shielding and the like.
- the plug-in unit 150 in which the SFP 152 is detachably mounted since the front panel 151 has the opening 155, the boundary of electromagnetic shielding with the outside is insufficient, and the influence of electromagnetic waves to the outside is easy to occur. Also susceptible to
- the present invention was devised in view of such a problem.
- the plug unit is provided in a communication device including a subrack and a plug-in unit electrically coupled to the subrack.
- the objective is to enable the module (for example, optical module) to be detachably mounted on the plug-in unit while reliably realizing electromagnetic shielding, and to reduce the effects of static electricity.
- the purpose is to do.
- Patent Document 1 Republished Patent No. WO00Z074454
- Patent Document 2 Japanese Patent Laid-Open No. 2002-050887
- Patent Document 3 Japanese Patent Laid-Open No. 2003-086967
- a plug-in unit includes a printed board on which an interface unit as an interface with the outside is mounted, and a first cover that covers each of the upper and lower surfaces and both side surfaces of the printed board. Covers the shield cover member and the portion of the interface portion where the front end surface force of the printed board also protrudes, and contacts the outer surface of the interface portion while contacting the peripheral surface of the interface portion.
- a second shield cover member having a first opening exposed to the front surface and a front cover having a second opening that covers the front surface of the printed board and exposes the connection portion of the interface portion to the outside.
- a communication device includes a subrack provided with a backplane having a connector, and the subrack electrically connected to the subplane via the connector of the backplane.
- a plug-in unit that is mounted in combination, and the plug-in unit A printed circuit board on which an interface unit as an interface with the outside is mounted; a first shield cover member that covers the upper and lower surfaces and both side surfaces of the printed circuit board; and a front end surface of the printed circuit board of the interface unit
- a second shield cover having a first opening that covers a portion from which the force also protrudes and exposes a connection portion to the outside provided at the front end of the interface portion while contacting the peripheral surface of the interface portion A member, a front cover member that covers the front surface of the printed board and that exposes the connection portion of the interface portion to the outside, and between the second shield cover member and the front cover member.
- a shield machine that covers a gap between the second opening of the front cover member and the outer peripheral surface of the second
- the standing wall portion that forms a groove in the peripheral surface of the second shield cover member with respect to the front cover member;
- the printed board includes a piece extending along the second opening on the inner surface of the front cover member and extending into the groove formed by the standing wall.
- Force is stored in the first shield cover member and the front cover member so as to be freely movable in the vertical direction, the second shield cover member is fixed to the printed board, and the groove formed by the standing wall portion includes: It is preferable that the inner dimension of the groove formed on the upper and lower surfaces of the second shield cover member is larger than the outer dimension of the piece of the front cover member extending into the groove.
- the second shield cover member is grounded. At this time, the second shield cover member force The front cover member and the communication device It is preferable to be grounded via the first shield cover member.
- the second shield cover member covers the portion of the interface portion where the front end surface force of the printed board also protrudes by the shield mechanism, and the second opening and the second shield cover of the front cover member are covered. Since the shield mechanism covers the gap with the outer peripheral surface of the member, even when the optical module is configured to be detachable at the interface section, electromagnetic shielding of the plug-in unit can be reliably realized and Reduction of the influence of can be realized.
- FIG. 1 is a perspective view showing a communication device as one embodiment of the present invention.
- FIG. 2 is an exploded perspective view for explaining the structure of the plug-in unit of the communication apparatus as one embodiment of the present invention.
- FIG. 3 is a perspective view showing a plug-in unit of a communication device as one embodiment of the present invention.
- FIG. 4 is an exploded perspective view showing a part of the shield mechanism of the plug-in unit of the communication device as one embodiment of the present invention.
- FIG. 5 is a diagram showing a plug-in unit of a communication apparatus as one embodiment of the present invention, (a) is a top view thereof, (b) is a side view thereof, and (c) is a front view thereof.
- FIG. 6 (a) is a cross-sectional view showing a cross section A of FIG. 5 (b), and (b) is a cross-sectional view showing an enlarged X portion of (a).
- FIG. 7 (a) is a cross-sectional view showing the BB ′ cross section of FIG. 5 (c), (b) is a cross-sectional view showing an enlarged Y part of (a), and (c) is (a). It is sectional drawing which expands and shows the Z section of.
- FIG. 8 is a perspective view showing a conventional communication device.
- FIG. 9 is an exploded perspective view for explaining the structure of the plug-in unit of the conventional communication device shown in FIG.
- FIG. 10 (a) and (c) are diagrams for explaining a sequence for installing the plug-in unit of the conventional communication device shown in FIG. 8 in the subrack device.
- FIG. 11 is a view showing a conventional plug-in unit having a big till, (a) is a perspective view thereof, (b) is a perspective view in which an interface portion with the outside is exposed, (c) Is a cross-sectional view of section (a).
- FIGS. 12A and 12B are diagrams showing a conventional plug-in unit having an interface part with the outside, where FIG. 12A is a perspective view and FIG. 12B is a perspective view showing a printed board.
- FIG. 1 is a block diagram showing a configuration of a communication apparatus as an embodiment of the present invention.
- the same reference numerals as those described above indicate the same or almost the same parts, and detailed description thereof will be omitted.
- the communication apparatus 1 includes a subrack 10 and a plurality of plug-in units 20a to 20d, 110 installed on the subrack 10. Since the plug-in unit 110 is the same as the conventional plug-in unit 110 described above with reference to FIGS. 8 and 9, detailed description thereof is omitted here.
- the subrack 10 takes the form of a bookshelf type, and the plug-in units 20a-20d are arranged in parallel across the upper and lower left side (left side in Fig. 1) force toward the front side of the subrack 10. Yes. Specifically, plug-in units 20a and 20b are installed on the upper stage of the subrack 10, and plug-in units 20c and 20d are installed on the lower stage.
- a plurality (seven in this case) of plug-in units 110 are provided in a row in parallel in the subrack 10.
- the subrack 10 includes a backplane 11 on the back surface, and the backplane 11 includes a plurality of backplane connectors (connectors) 12.
- plug-in units 20a-20d (hereinafter simply indicated by the symbol 20 unless otherwise distinguished) 20a, 20b, 20c, 20d and plugs A guide rail 13 for inserting the in-unit 110 is provided.
- a plurality of backplane connectors 12 and guide rails 13 of the subrack 10 are provided corresponding to the plurality of plug-in units 20 and 110, respectively.
- the plug-in unit 20 in FIG. 1 shows a state in which an external optical fiber cable 90 is connected to an interface section 60a-60d (not shown in FIG. 1, for example, see FIG. 2) described later! Talk!
- FIGS. 2 is a diagram showing the plug-in unit 20 before assembly.
- the plug-in unit 20 shown in FIG. 3 has an interface portion 60a-60d (see FIG. 3) In this case, it is connected to (!) Simply indicated by 60).
- the plug-in unit 20 comprises a printed wiring board (printed board) 30, a shield cover (first shield cover member) 40, and a front panel (front cover member) 50.
- the plug-in unit connector 31 is coupled to the backplane connector 12.
- the plug-in unit 20 and the subrack 10 are electrically coupled.
- the shield cover 40 covers the upper and lower surfaces and both side surfaces of the printed board 30.
- It has a cylindrical or box shape with open front and rear end surfaces.
- the front panel 50 covers the front face (front face) of the printed board 30 and has an opening (connector part) 61 that exposes the outside of the interface part 60 mounted on the printed board 30 to the outside ( (Second opening) 51.
- the shield cover 40 and the front panel 50 are made of a conductive material such as aluminum or stainless steel.
- the assembly method of the plug-in unit 20 will be described. First, the front panel 50 and the arm members 32 arranged so as to extend along the upper and lower surfaces of the printed board 30,
- the arm members 32 and 33 are also made of a conductive material.
- the force that the interface part 60 protrudes from the front end of the printed board 30 Since the opening 51 is provided at a position corresponding to the interface part 60 of the front panel 50, the connection part 61 of the interface part 60 is externally connected.
- Printed board 30 and The front panel 50 can be combined.
- the printed board 30 is provided in the shield cover 40 via the arm members 32 and 33, and the front panel 50 and the shield cover 40 are coupled by screws 22a and 22b to be plugged in.
- Unit 20 is assembled.
- the plug-in unit 20 is installed on the subrack 10 using the card levers 52a and 52b of the front panel 50.
- the plug-in unit 20 has the same configuration as that of the conventional plug-in unit 110 described above with reference to FIGS. 10 (a) to 10 (c) (that is, the arm member is notched on the printed board, etc.) ) Is stored in the printed board 30 force shield cover 40 and the front panel 50 so as to be freely movable in the vertical direction (vertical direction; bl-b2 direction).
- the notches 34a and 34b are provided in the corresponding positions of the pins 32a and 33a of the arm bracing material 32 and 33 of the pudding plate 30, respectively.
- the lengths of the notches 34a and 34b are set to be larger than the diameters of the pins 32a and 33a, and the printed board 30 can be moved in the vertical direction (bl-b2 direction).
- the printed board 30 covers a portion where the front end portion force of the printed board 30 of the interface section 60 mounted on the printed board 30 also protrudes, and while contacting the peripheral surface of the interface section 60, the interface section A grounding plate (second shield cover member) 70 having an opening (first opening) 71 that exposes an external connection 61 provided at the front end of 60 to the outside is fixed.
- the ground plate 70 is also made of a conductive material such as aluminum or stainless steel.
- the ground plate 70 is connected to a ground wire 72 having an end connected to the arm member 32.
- the plug-in unit 20 is grounded by contacting the subrack 10 grounded by the shield cover 40, and as described above, the arm member 32, the front panel 50, the shield cover 40, and the subrack 10 are grounded. Since all of the black 10 is made of a conductive material, the ground plate 70 is grounded via the arm member 32, the front panel 50, the shield cover 40, and the subrack 10 by the ground wire 72.
- the interface unit 60 functions as an interface with the outside, and is a module having a connection unit 61 with the outside [for example, SFP (Small form Factor Pluggable)] 6
- a case (cage) 63 for storing 2 in a removable manner and an electrical connector (not shown) are provided.
- the case 63 and the electrical connector are fixed to the printed board 30, and the module 62 is electrically connected to the printed board 30 through the electrical connector by being installed on the case 63.
- the opening 71 of the ground plate 70 is connected to the ground plate 70 (here, the opening of the ground plate 70).
- Shield finger (contact part) 64 is provided in contact with the inner surface of part 71.
- the shield finger 64 is formed by cutting and raising a part of the case 63.
- This shield finger 64 is also made of a conductive material, so that the gap between the opening 71 of the ground plate 70 and the outer peripheral surface of the interface 60 (here, the case 63) is electromagnetically caused by the shield finger 64. As a result, the electromagnetic wave generated in the plug-in unit 20 is prevented from coming out of the gap between the opening 71 of the grounding plate 70 and the outer peripheral surface of the interface 60 (here, the case 63). Can do.
- the shield finger 64 is connected to the opening part 71 of the ground plate 70 and the interface part 60 (
- the case 63) is electrically connected to the outer peripheral surface, and since the grounding plate 70 is grounded by the ground wire 72, static electricity does not flow into the printed circuit board 30 and goes to the ground side. The influence of flow and static electricity can be reliably reduced.
- the case 63 contacts the opening 71 of the ground plate 70 while the shield finger 64 of the case 63 contacts the inner surface of the opening 71 of the ground plate 70. It is installed so as to penetrate from the inside of the printed board 30.
- the mounting arm members 75a and 75b of the ground plate 70 are fixed to the printed board 30 with screws or the like, so that the case 63 is clamped by the ground plate 70. While being fixed to the printed board 30! RU
- the shield finger 64 is configured with a panel mechanism having a pressing force with respect to the ground plate 70, thereby suppressing the wobbling and displacement of the case 63 in the opening 71 of the ground plate 70.
- the ground plate 70 can firmly hold the case 63.
- the configurations of the front panel 50 and the ground plate 70 are further described. Detailed description. Note that the notch R in FIG. 4 is for showing the inside of the front panel 50 and is not provided in the actual front panel 50. In addition, as indicated by a two-dot chain line in the notch portion R, pieces 53a and 54a described later originally extend into the notch portion R.
- standing wall portions 73 a to 73 d are provided on the peripheral surface of the ground plate 70. These standing wall portions 73a to 73d are also made of a conductive material such as aluminum or stainless steel.
- the standing wall portions 73a and 73b are arranged in the vertical direction (bl-b2 direction) along the side surface of the ground plate 70, and have a groove L with respect to the front panel 50 (see FIGS. 6 (a) and (b) described later). Is formed.
- the standing wall portion 73c is located in the left-right direction (depth direction; cl c2 direction) along the upper surface of the ground plate 70, and has a groove M (see FIG. 7 (a), (see (b)), and the standing wall portion 73d is located along the lower surface of the ground plate 70 in the left-right direction (depth direction; cl-c2 direction) and has a groove with respect to the front panel 50. N (see Fig. 7 (a) and (c) described later).
- the front panel 50 is provided with pieces 53a to 53d along the opening 51 inside the front panel 50.
- These pieces 53a to 53d are also made of a conductive material such as aluminum or stainless steel.
- Each of these pieces 53a-53d is formed toward a forceful groove (here, in the direction of al-a2) so as to extend into the corresponding groove L, M, N formed by the standing wall portions 73a-73d. Yes.
- the piece 53a that runs along the side of the opening 51 on the inner surface of the opening 51 of the front panel 50 in the vertical direction (bl-b2 direction) has an end at the standing wall 73a.
- the piece 53b that is formed so as to enter the groove L formed in the vertical direction (bl-b2 direction) along the side surface of the opening 51 on the inner surface of the opening 51 is Is formed so as to enter the groove L formed by the standing wall portion 73b.
- the edge 53c of the piece 53c that runs along the upper side of the opening 51 in the left-right direction (depth direction; cl-c2 direction) is the standing wall 73c.
- Formed in the groove M formed by the A piece 53d that lies in the left-right direction (depth direction; cl c2 direction) along the lower side of the mouth 51 is formed so that its end enters the groove N formed by the standing wall 73d.
- the standing wall portions 73a-73d provided on the peripheral surface of the ground plate 70 and the pieces 53a-53d provided on the inner surface of the front panel 50 are the openings 51 of the ground plate 70 and the front panel 50.
- a shield mechanism S that covers the gap between the opening 51 of the front panel 50 and the outer peripheral surface of the ground plate 70.
- the standing wall 73a-73d and the pieces 53a-53d as the shield mechanism S are interposed between the opening 51 of the front panel 50 and the opening 51 of the front panel 50 and the outer peripheral surface of the ground plate 70.
- the electromagnetic force generated in the plug-in unit 20 can be reliably prevented from coming out of the plug-in unit 20, and electromagnetic waves from the outside can be Can be prevented from entering.
- the side edges of the opening 51 of the front panel 50 are provided with pieces 54a and 54b extending toward the center of the opening along the vertical direction (bl-b2 direction) of the opening 51. These pieces 54a and 54b are also made of a conductive material.
- the gap between the opening 51 of the front panel 50 and the peripheral surface of the interface 60 exposed from the opening 51 can be closed by the pieces 54a and 54b by the length of the plug unit 20 Leakage of electromagnetic waves generated inside and external entry of electromagnetic waves into the plug-in unit 20 can be suppressed to some extent.
- FIG. 5 is a view showing the plug-in unit 20, (a) is a top view thereof, (b) is a side view thereof, and (c) is a front view thereof.
- FIGS. 6 (a) and 6 (b) are cross-sectional views taken along the line A in FIG. 5 (b)
- FIGS. 7 (a) to 7 (c) are cross-sectional views taken along the line BB ′ in FIG.
- the standing wall portions 73a and 73b are provided so as to form a groove L with respect to the front panel 50, and each of the standing wall portions 73a and 73b has a cross-sectional force shape. It is composed like this.
- the piece 53a is formed so as to enter the inside of the groove L so that the end of the piece 53a and the end of the standing wall 73a overlap each other, and the piece 53b is an end of the piece 53b. And the end portion of the standing wall portion 73b are formed so as to enter the inside of the groove L so that they overlap each other.
- FIG. 6 (b) is an enlarged view of the circle X in FIG. 6 (a).
- the inner dimension e of the groove L formed by the standing wall parts 73a, 73b is configured to be slightly larger than the outer dimension; f of the end parts of the pieces 53a, 53b.
- the printed board 30 is prevented from floating in the depth direction (cl c2 direction) of the plug-in unit 20 with respect to the front panel 50.
- the standing wall portions 73c and 73d are provided so as to form a groove M or a groove N with respect to the front panel, respectively, and the standing wall portions 73c and 73d are respectively
- the section is bent (bent) so that it forms a U-shape.
- the inner dimension g of the groove M formed by the standing wall 73c is configured to be sufficiently larger than the outer dimension h of the end of the piece 53c. .
- the inner dimension j of the groove N formed by the standing wall part 73d is configured to be sufficiently larger than the outer dimension k of the end part of the piece 53d. .
- the printed board 30 can move freely in the vertical direction (bl-b2 direction) of the plug-in unit 20 with respect to the front panel 50.
- 53d is formed sufficiently large with respect to the outer dimensions h and k of the end portion, and as described above, the lengths of the notches 34a and 34b of the printed board 30 are the pins 3 2a, Because it is formed larger than the diameter of 33a, it is provided on the backplane 11 of the sub-rack 10 without being affected by variations in the dimensions of the components of the plug-in unit 20 and sub-rack 10 (tolerance accumulation).
- the interface unit 60 is mounted on the printed board 30 so that the module 62 can be inserted into and removed from the plug-in unit 20. Even if this is the case, the grounding plate 70 covers the portion of the interface 60 where the front end surface force of the printed board 30 also protrudes, and the gap between the opening 51 of the front panel 50 and the outer peripheral surface of the grounding plate 70 is shielded. Since the pieces 53a-53d and the standing wall portions 73a-73d that function as the cover are covered, the electromagnetic shielding of the plug-in unit 20 against the printed board 30 can be reliably realized and the influence of static electricity can be reduced. .
- the shield finger 64 provided in the case 63 as the outer peripheral surface of the interface unit 60 is configured to contact the ground plate 70, the opening 71 of the ground plate 70 and the interface unit 60 are arranged.
- the leakage and entry of electromagnetic waves from the gap with the outer peripheral surface of (case 63) can be suppressed, and the electromagnetic shielding of plug-in unit 20 can be realized more reliably.
- each of the pieces 53a to 53d is configured to enter the corresponding grooves L, M, and N formed by the force standing wall portions 73a to 73d. At this time, the end portions of the pieces 53a to 53d and the standing wall portion 73a Therefore, the electromagnetic gap between the opening 51 of the front panel 50 and the outer peripheral surface of the ground plate 70 is eliminated. As a result, the electromagnetic shielding of the plug-in unit 20 can be more reliably realized.
- the force configured such that the printed board 30 is slidably stored in the shield cover 40 and the front panel 50 is not limited to this.
- it may be configured to be fixed in the cover 40 and the front panel 50.
- the grooves M, N formed by the standing walls 73c, 73d along the upper and lower surfaces of the ground plate 70 are formed.
- the inner dimensions g, j should be configured to be slightly larger than the outer dimensions h, k at the ends of the corresponding pieces 53a, 53b.
- the ground plate 70 is grounded by the ground wire 72.
- the present invention is not limited to this, and the ground plate 70 may be grounded by some method.
- the pieces 53a-53d and the standing wall portions 73a-73d are configured to function as the shield mechanism S.
- the shield mechanism S is a front mechanism. If it covers the gap between the opening 51 of the panel 50 and the outer peripheral surface of the ground plate 70 so as to electromagnetically shield it!
- the shapes of the pieces 53a-53d and the standing wall portions 73a-73d are not limited to the above-described embodiments.
- the pieces 53a-53d form a groove with respect to the standing wall portions 73a-73d.
- the grooves of the pieces 53a-53d and the grooves of the standing wall portions 73a-73d may be configured to overlap and fit with each other, or the pieces 53a-53d and the standing wall portions 73a-73d may both be fitted together.
- Ends of each of the pieces 53a-53d and the standing walls 73a-73d without forming a groove 1S are bent at right angles or acute angles covering the gap between the opening 51 of the front panel 50 and the outer peripheral surface of the ground plate 70. In these cases where the ends of the pieces 53a-53d and the ends of the standing wall portions 73a-73d may be overlapped with each other, the same effects as those of the above-described embodiment can be obtained.
- the shield finger 64 is formed by cutting and raising the case 63
- Any electromagnetic shield can be used in the gap between the outer peripheral surface of the case 63 (here, the case 63).
Description
Claims
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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JP2007504603A JP4399497B2 (ja) | 2005-02-25 | 2005-02-25 | プラグインユニット及び通信装置 |
PCT/JP2005/003183 WO2006090471A1 (ja) | 2005-02-25 | 2005-02-25 | プラグインユニット及び通信装置 |
US11/842,378 US7738262B2 (en) | 2005-02-25 | 2007-08-21 | Plug-in unit and communication apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/JP2005/003183 WO2006090471A1 (ja) | 2005-02-25 | 2005-02-25 | プラグインユニット及び通信装置 |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/842,378 Continuation US7738262B2 (en) | 2005-02-25 | 2007-08-21 | Plug-in unit and communication apparatus |
Publications (1)
Publication Number | Publication Date |
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WO2006090471A1 true WO2006090471A1 (ja) | 2006-08-31 |
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ID=36927122
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2005/003183 WO2006090471A1 (ja) | 2005-02-25 | 2005-02-25 | プラグインユニット及び通信装置 |
Country Status (3)
Country | Link |
---|---|
US (1) | US7738262B2 (ja) |
JP (1) | JP4399497B2 (ja) |
WO (1) | WO2006090471A1 (ja) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2010171292A (ja) * | 2009-01-26 | 2010-08-05 | Fujitsu Telecom Networks Ltd | 光モジュール用ケージの接地構造 |
Families Citing this family (8)
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JP5593714B2 (ja) * | 2010-01-29 | 2014-09-24 | 富士通株式会社 | 電子素子のシールド構造及びこれを備えた電子装置 |
DE102011017386A1 (de) * | 2011-03-30 | 2012-10-04 | Fujitsu Technology Solutions Intellectual Property Gmbh | Baugruppenträger, Server sowie Anordnung mit einem derartigen Baugruppenträger und zumindest einem Server |
US9095056B2 (en) * | 2012-05-02 | 2015-07-28 | General Electric Company | Module for use with a monitoring system and method of assembling same |
US8894438B2 (en) * | 2012-07-11 | 2014-11-25 | Tyco Electronics Corporation | Receptacle assembly having angled receptacle guide frames |
ITRM20130540A1 (it) * | 2013-10-04 | 2015-04-05 | Ecm S P A | Posto periferico di controllo di enti di piazzale ferroviario e metodo di installazione di detto posto periferico |
CN107122016B (zh) * | 2016-02-25 | 2020-07-31 | 纬创资通(中山)有限公司 | 机壳与服务器 |
US10390114B2 (en) * | 2016-07-22 | 2019-08-20 | Intel Corporation | Memory sharing for physical accelerator resources in a data center |
US10750250B1 (en) * | 2019-05-21 | 2020-08-18 | Fujitsu Limited | Grounding assembly for optical modules |
Citations (4)
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JPS6112291U (ja) * | 1984-06-27 | 1986-01-24 | 株式会社ピーエフユー | プラスチツクケ−スのシ−ルド安定構造 |
JPH08125373A (ja) * | 1994-10-27 | 1996-05-17 | Hitachi Ltd | 電子機器 |
JP2002313495A (ja) * | 2001-04-12 | 2002-10-25 | Oki Electric Ind Co Ltd | 前面コネクタのシールド構造及びシールドケース |
JP2004235301A (ja) * | 2003-01-29 | 2004-08-19 | Fujitsu Ltd | 電子回路ユニット |
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JPS6112291A (ja) | 1984-06-27 | 1986-01-20 | Taisho Pharmaceut Co Ltd | 生理活性物質pi−885 |
US5218519A (en) * | 1987-09-08 | 1993-06-08 | Digital Equipment Corporation | Card cage system |
JP4502560B2 (ja) | 1999-05-31 | 2010-07-14 | 富士通株式会社 | 通信装置及びプラグユニット |
JP4299958B2 (ja) | 2000-07-31 | 2009-07-22 | 富士通株式会社 | 通信装置及びプラグインユニット |
JP3910815B2 (ja) | 2001-09-07 | 2007-04-25 | 富士通株式会社 | 光ユニット |
-
2005
- 2005-02-25 JP JP2007504603A patent/JP4399497B2/ja not_active Expired - Fee Related
- 2005-02-25 WO PCT/JP2005/003183 patent/WO2006090471A1/ja not_active Application Discontinuation
-
2007
- 2007-08-21 US US11/842,378 patent/US7738262B2/en not_active Expired - Fee Related
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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JPS6112291U (ja) * | 1984-06-27 | 1986-01-24 | 株式会社ピーエフユー | プラスチツクケ−スのシ−ルド安定構造 |
JPH08125373A (ja) * | 1994-10-27 | 1996-05-17 | Hitachi Ltd | 電子機器 |
JP2002313495A (ja) * | 2001-04-12 | 2002-10-25 | Oki Electric Ind Co Ltd | 前面コネクタのシールド構造及びシールドケース |
JP2004235301A (ja) * | 2003-01-29 | 2004-08-19 | Fujitsu Ltd | 電子回路ユニット |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2010171292A (ja) * | 2009-01-26 | 2010-08-05 | Fujitsu Telecom Networks Ltd | 光モジュール用ケージの接地構造 |
Also Published As
Publication number | Publication date |
---|---|
US7738262B2 (en) | 2010-06-15 |
JPWO2006090471A1 (ja) | 2008-07-24 |
US20070293065A1 (en) | 2007-12-20 |
JP4399497B2 (ja) | 2010-01-13 |
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