CA1287680C - Housing arrangements for electrical or electronic equipment - Google Patents
Housing arrangements for electrical or electronic equipmentInfo
- Publication number
- CA1287680C CA1287680C CA000559535A CA559535A CA1287680C CA 1287680 C CA1287680 C CA 1287680C CA 000559535 A CA000559535 A CA 000559535A CA 559535 A CA559535 A CA 559535A CA 1287680 C CA1287680 C CA 1287680C
- Authority
- CA
- Canada
- Prior art keywords
- enclosure
- electrical
- electrical equipment
- screening
- units
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Landscapes
- Shielding Devices Or Components To Electric Or Magnetic Fields (AREA)
- Structure Of Telephone Exchanges (AREA)
Abstract
ABSTRACT
Housing arrangements for electrical or electronic equipment.
A housing arrangement for equipment, such as telephone exchange equipment or transmission equipment, in which individual circuit units are formed on printed circuit boards mounted side-by-side on a shelf unit, wherein the shelf unit forms a first electromagnetic screening enclosure, and interconnections between said circuit units, and exteral connections to those units, are made by way of a second electromagnetic screening enclosure having one face in common with the first enclosure.
Housing arrangements for electrical or electronic equipment.
A housing arrangement for equipment, such as telephone exchange equipment or transmission equipment, in which individual circuit units are formed on printed circuit boards mounted side-by-side on a shelf unit, wherein the shelf unit forms a first electromagnetic screening enclosure, and interconnections between said circuit units, and exteral connections to those units, are made by way of a second electromagnetic screening enclosure having one face in common with the first enclosure.
Description
1;~8~7680 20305-1266 Housing arrangements for electrical or electronic equipment The present invention relates to housing arrangements for electrical or electronic equipment.
In particular, although not exclusively, the invention is concerned with housing arrangements for electrical or electronic equipment, for example telephone exchange equipment or transmission equipment, in which individual electrical or electronic circuits or circuit units are formed on respective ones of a plurality of printed circuit boards mounted side-by-side in parallel planes on a common support structure, the circuits on the respective boards being arranged to be connected by way of respective plug and socket connectors to interconnecting circuits carried on a common back plane.
According to the present invention a housing arrangement for electrical equipment providing electromagnetic screening for said electrical equipment at frequencies up to a predeterm1ned upper frequency, comprises: first and second electromagnetic screening enclosures; fixing means utilized 1n assembling said enclosures which are spaced at intervals less than the wavelength of said upper frequency; a plurality of carrier means for units of said electrical B ,~
20~05-1266 equipment, each said carrier means including a front cover and respective first connector means; means detachably to mount said carrier means within said first enclosure such that said front covers of said plura1ity of carrier means to~ether make up a substantially electrically continuous front panel of said first enclosure; an electromagnetic screening member forming a rear face of said first screening enclosure and at least part of a front facing surface of said second screening enclosure; a plurality of second connector means co-operable with respective first connector means to extend connections from respective units of electrical equipment on respective carrier means in said first enclosure into said second enclosure; means to mount external connection means on said forward facing surface of said second enclosure; and means within said second enclosure to make connections between respective second connector means and said external connection means.
Housing arrangements for electronic equipment in accordance with the present invention will now be described by way of example with reference to the accompanying drawings, of which:-Figures 1 and 2 show schematically two different forms ofhousing arrangement, Figure 3 shows a part-sectional view of part of a housing arrangement, and F1gure 4 shows a detail isometric view of part of a housing arrangement.
In many forms of electronic equipment, such as that used in telephone exchange systems or in transmission systems, individual electronic circuits or circuit units are formed on printed circuit "cards" of standard sizes, which are interconnected and to which external connections are made by means of respective plug and socket type connectors. A plurality of these cards are arranged to be : :
, ~2~7680 supported side by slde on a shelf structure with their yeneral planes vertical and parallel to one another, the upper and lower edges of the cards be~ng located in guide members or runners into which the cards may be introduced by sliding movement from the front of the shelf structure. The respective plug connectors are disposed at the rear of the cards, as positioned within the shelf structure, while the corresponding socket connectors are mounted on a common transverse back-plane which also supports any required interconnecting wiring.
Where the equipment requires it several shelves of standard heights, depth and width may be supported one above the other in a rack framework, and two or more rack frameworks may stand side by side.
As the indiv~dual circuit units become more compact and as clock-pulse rates and signal frequencies become higher, sensitive circuits have to be screened more carefully from stray electromagnetic fields or radiation which could interfere with their operation, and potential sources have to be screened as far as possible to prevent such radiation from reaching sensitive circuits. Standards are now being set for the levels of radiation screening acceptable in newly installed equipment.
Referring now to Figures I and 2, which show in outline two different shelf structures, the circuit cards (not shown) supported by the shelf structures are housed within a first enclosure I, while the back plane (not shown) is enclosed within a second enclosure 2. In the case of the structure outlined in Figure I the circuit cards occupy the whole width of the structure, and the enclosure 2 is prov~ded with a downward extension 3 which provides a forward facing surface for external connection points. This extension 3 may have the same depth as the enclosure 2, as shown in outline, or may extend forward as indicated by the chain-dotted outline 4. The enclosure 2 may alternatively be extended upwards (not shown) to provide the requ1red forward facing surface.
In the case of the structure outlined ln Figure 2, where the circuit cards do not occupy the full width of the structure, so that the enclosure I is narrower than the enclosure 2, the unoccupied forward facing surfaces of the enclosure 2 may provide sufficient area for the required external connections. The structure may be provided with side frames 7 at full shelf width, for example for mounting purposes.
.
lZ87~80 As far as possible the two enclosures 1 and 2 are divided from one another by an internal electromdgnetic screen member (not shown). The front face of the enclosure 1 is made up of individual front panels 6 associated with the individual circuit cards. The enclosure 1, and the enclosure 2 if necessary, may be provided with apertures 8 to provide for a flow of cooling air. These apertures 8 may for example be provided in the upper and lower faces of the enclosure 1, and may be arranged in a regular pattern of which only a small part is indicated in Figures 1 and 2.
Referring now to Figures 3 the enclosure 1 is made up of upper and lower shelf screen members 9 and 10 which extend between upper and lower horizontal aluminium alloy extrusion members 11, 12, 13 and 14. An internal screen member 15 is secured to the upper and lower screen members 9 and 10, this member 15 being pierced substantially only by the apertures required for socket connectors 16, which are secured to a back plane member 17, and for the rear ends of card runners 18. The enclosure 2 is formed by the member 15, the rear edges of the members 9 and 10, the extrusion members 12 and 14 and a rear shelf screen 19.
The front panel 6 of each printed circuit card 20 is secured to the upper and lower extrusion members 11 and 13 by card retaining screws 21. As shown in Figure 4 each front panel 6 has its edges 22 formed to lie parallel with its printed circuit card 20 and with the edges of adjacent panel members 6, and electrically conductive spring finger strip, say, of beryllium copper (not shown) is secured to these edges 22 to provide electrical continuity between the front panels 6.
The intervals between any fixing screws or rivets (not shown) used in the assembly of the enclosures 1 and 2, and the di a nsions of the apertures 8, are chosen to be much smaller than the wavelength of the highest frequencies expected to be produced or utilised within the enclosures 1 and 2, or those to which electronic circuits within these enclosures may be sensitive, in order to reduce to a specified level any leakage out or in at these or lower frequencies. In a particular example the intervals between screws or rivets was SOmm or less, and the apertures 8 were 10mm wide and 20mm long, the enclosures providing screening attenuation of 50-60dB up to frequencies of 20MHz.
lZ876~i~
The 1arger apertures ln the screen member 15, dictated by the dimensions of the sockets 16, may give rise to some leakage, but the effects of this are minimised either by the screening effect of the second enclosure 2, by filtering, or by the use of intermediate screens such as 23 (Figure 3).
While electromagnetic screening is provided by the almost total enclosure described above, electrostatic screening requires that all the members forming the enclosures 1 and 2 be in good electrically conductive contact with one another. For this purpose the screen members, which may be fabricated for example from aluminium alloy, and the extrusion members, are coated with an electrically conductive corrosion resistant finish.
Any indicator lights, switches or connectors provided in the front panels 6 in general require only small holes in the panels, causing substantially no leakage or radiation at the higher frequenc~es.
Shelf structures of the forms described above may either be arranged as stand-alone units or may be dimensioned for mounting on any standard rack framework. The front panels 6 may be covered by a full-width transparent cover.
-.:
.
In particular, although not exclusively, the invention is concerned with housing arrangements for electrical or electronic equipment, for example telephone exchange equipment or transmission equipment, in which individual electrical or electronic circuits or circuit units are formed on respective ones of a plurality of printed circuit boards mounted side-by-side in parallel planes on a common support structure, the circuits on the respective boards being arranged to be connected by way of respective plug and socket connectors to interconnecting circuits carried on a common back plane.
According to the present invention a housing arrangement for electrical equipment providing electromagnetic screening for said electrical equipment at frequencies up to a predeterm1ned upper frequency, comprises: first and second electromagnetic screening enclosures; fixing means utilized 1n assembling said enclosures which are spaced at intervals less than the wavelength of said upper frequency; a plurality of carrier means for units of said electrical B ,~
20~05-1266 equipment, each said carrier means including a front cover and respective first connector means; means detachably to mount said carrier means within said first enclosure such that said front covers of said plura1ity of carrier means to~ether make up a substantially electrically continuous front panel of said first enclosure; an electromagnetic screening member forming a rear face of said first screening enclosure and at least part of a front facing surface of said second screening enclosure; a plurality of second connector means co-operable with respective first connector means to extend connections from respective units of electrical equipment on respective carrier means in said first enclosure into said second enclosure; means to mount external connection means on said forward facing surface of said second enclosure; and means within said second enclosure to make connections between respective second connector means and said external connection means.
Housing arrangements for electronic equipment in accordance with the present invention will now be described by way of example with reference to the accompanying drawings, of which:-Figures 1 and 2 show schematically two different forms ofhousing arrangement, Figure 3 shows a part-sectional view of part of a housing arrangement, and F1gure 4 shows a detail isometric view of part of a housing arrangement.
In many forms of electronic equipment, such as that used in telephone exchange systems or in transmission systems, individual electronic circuits or circuit units are formed on printed circuit "cards" of standard sizes, which are interconnected and to which external connections are made by means of respective plug and socket type connectors. A plurality of these cards are arranged to be : :
, ~2~7680 supported side by slde on a shelf structure with their yeneral planes vertical and parallel to one another, the upper and lower edges of the cards be~ng located in guide members or runners into which the cards may be introduced by sliding movement from the front of the shelf structure. The respective plug connectors are disposed at the rear of the cards, as positioned within the shelf structure, while the corresponding socket connectors are mounted on a common transverse back-plane which also supports any required interconnecting wiring.
Where the equipment requires it several shelves of standard heights, depth and width may be supported one above the other in a rack framework, and two or more rack frameworks may stand side by side.
As the indiv~dual circuit units become more compact and as clock-pulse rates and signal frequencies become higher, sensitive circuits have to be screened more carefully from stray electromagnetic fields or radiation which could interfere with their operation, and potential sources have to be screened as far as possible to prevent such radiation from reaching sensitive circuits. Standards are now being set for the levels of radiation screening acceptable in newly installed equipment.
Referring now to Figures I and 2, which show in outline two different shelf structures, the circuit cards (not shown) supported by the shelf structures are housed within a first enclosure I, while the back plane (not shown) is enclosed within a second enclosure 2. In the case of the structure outlined in Figure I the circuit cards occupy the whole width of the structure, and the enclosure 2 is prov~ded with a downward extension 3 which provides a forward facing surface for external connection points. This extension 3 may have the same depth as the enclosure 2, as shown in outline, or may extend forward as indicated by the chain-dotted outline 4. The enclosure 2 may alternatively be extended upwards (not shown) to provide the requ1red forward facing surface.
In the case of the structure outlined ln Figure 2, where the circuit cards do not occupy the full width of the structure, so that the enclosure I is narrower than the enclosure 2, the unoccupied forward facing surfaces of the enclosure 2 may provide sufficient area for the required external connections. The structure may be provided with side frames 7 at full shelf width, for example for mounting purposes.
.
lZ87~80 As far as possible the two enclosures 1 and 2 are divided from one another by an internal electromdgnetic screen member (not shown). The front face of the enclosure 1 is made up of individual front panels 6 associated with the individual circuit cards. The enclosure 1, and the enclosure 2 if necessary, may be provided with apertures 8 to provide for a flow of cooling air. These apertures 8 may for example be provided in the upper and lower faces of the enclosure 1, and may be arranged in a regular pattern of which only a small part is indicated in Figures 1 and 2.
Referring now to Figures 3 the enclosure 1 is made up of upper and lower shelf screen members 9 and 10 which extend between upper and lower horizontal aluminium alloy extrusion members 11, 12, 13 and 14. An internal screen member 15 is secured to the upper and lower screen members 9 and 10, this member 15 being pierced substantially only by the apertures required for socket connectors 16, which are secured to a back plane member 17, and for the rear ends of card runners 18. The enclosure 2 is formed by the member 15, the rear edges of the members 9 and 10, the extrusion members 12 and 14 and a rear shelf screen 19.
The front panel 6 of each printed circuit card 20 is secured to the upper and lower extrusion members 11 and 13 by card retaining screws 21. As shown in Figure 4 each front panel 6 has its edges 22 formed to lie parallel with its printed circuit card 20 and with the edges of adjacent panel members 6, and electrically conductive spring finger strip, say, of beryllium copper (not shown) is secured to these edges 22 to provide electrical continuity between the front panels 6.
The intervals between any fixing screws or rivets (not shown) used in the assembly of the enclosures 1 and 2, and the di a nsions of the apertures 8, are chosen to be much smaller than the wavelength of the highest frequencies expected to be produced or utilised within the enclosures 1 and 2, or those to which electronic circuits within these enclosures may be sensitive, in order to reduce to a specified level any leakage out or in at these or lower frequencies. In a particular example the intervals between screws or rivets was SOmm or less, and the apertures 8 were 10mm wide and 20mm long, the enclosures providing screening attenuation of 50-60dB up to frequencies of 20MHz.
lZ876~i~
The 1arger apertures ln the screen member 15, dictated by the dimensions of the sockets 16, may give rise to some leakage, but the effects of this are minimised either by the screening effect of the second enclosure 2, by filtering, or by the use of intermediate screens such as 23 (Figure 3).
While electromagnetic screening is provided by the almost total enclosure described above, electrostatic screening requires that all the members forming the enclosures 1 and 2 be in good electrically conductive contact with one another. For this purpose the screen members, which may be fabricated for example from aluminium alloy, and the extrusion members, are coated with an electrically conductive corrosion resistant finish.
Any indicator lights, switches or connectors provided in the front panels 6 in general require only small holes in the panels, causing substantially no leakage or radiation at the higher frequenc~es.
Shelf structures of the forms described above may either be arranged as stand-alone units or may be dimensioned for mounting on any standard rack framework. The front panels 6 may be covered by a full-width transparent cover.
-.:
.
Claims (3)
1. A housing arrangement for electrical equipment providing electromagnetic screening for said electrical equipment at frequencies up to a predetermined upper frequency, comprising: first and second electromagnetic screening enclosures; fixing means utilized in assembling said enclosures which are spaced at intervals less than the wavelength of said upper frequency; a plurality of carrier means for units of said electrical equipment, each said carrier means including a front cover and respective first connector means; means detachably to mount said carrier means within said first enclosure such that said front covers of said plurality of carrier means together make up a substantially electrically continuous front panel of said first enclosure; an electromagnetic screening member forming a rear face of said first screening enclosure and at least part of a front facing surface of said second screening enclosure; a plurality of second connector means co operable with respective first connector means to extend connections from respective units of electrical equipment on respective carrier means in said first enclosure into said second enclosure; means to mount external connection means on said forward facing surface of said second enclosure; and means within said second enlosure to make connections between respective second connector means and said external connection means.
2. Electrical apparatus in accordance with Claim 1, wherein said electrical equipment units comprise electric circuit cards.
3. Electrical apparatus in accordance with Claim 1, wherein said second connector means are mounted to as to extend through said electromagnetic screening member.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000559535A CA1287680C (en) | 1988-02-23 | 1988-02-23 | Housing arrangements for electrical or electronic equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000559535A CA1287680C (en) | 1988-02-23 | 1988-02-23 | Housing arrangements for electrical or electronic equipment |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1287680C true CA1287680C (en) | 1991-08-13 |
Family
ID=4137500
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000559535A Expired - Lifetime CA1287680C (en) | 1988-02-23 | 1988-02-23 | Housing arrangements for electrical or electronic equipment |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1287680C (en) |
-
1988
- 1988-02-23 CA CA000559535A patent/CA1287680C/en not_active Expired - Lifetime
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US4903170A (en) | Housing arrangements for electrical or electronic equipment | |
| US5737194A (en) | Input/output module assembly | |
| AU596291B2 (en) | Compact packaging of electronic equipment within a small profile enclosure | |
| US8164906B2 (en) | Modular electronic enclosure | |
| US6301095B1 (en) | System and method of distributing power to a plurality of electronic modules housed within an electronics cabinet | |
| US5023754A (en) | Double-sided backplane assembly | |
| US6347963B1 (en) | Interchangeable backplane interface connection panel | |
| US5430615A (en) | Printed circuit board assembly | |
| WO2003045073A3 (en) | Telecommunications patch panel | |
| WO2003045072A3 (en) | Telecommunications patch panel | |
| US12388239B2 (en) | Network element equipment shelf with configurable power location | |
| JP2809507B2 (en) | Electronic communication function unit | |
| US5565654A (en) | Printed circuit board for plug-type connections | |
| US20020090844A1 (en) | Segmented replaceable backplane system for electronic apparatus | |
| US3147404A (en) | Packaging of electrical equipment | |
| EP0169598A1 (en) | Ventilation panel for electromagnetic shielding | |
| US6621708B1 (en) | Electronics assembly including a protective shield | |
| CA1287680C (en) | Housing arrangements for electrical or electronic equipment | |
| GB1508832A (en) | Mounting arrangements | |
| US4896248A (en) | Module frame for receiving insertable electrical printed circuit boards | |
| US4928208A (en) | Housing and connection device for electronic modules | |
| US6510055B1 (en) | Backplane and shelf arrangement with front access features | |
| RU2231940C2 (en) | Device for electromagnetic protection of draw-out unit | |
| US3462649A (en) | Framework wiring arrrangement for component modules insertable into the framework | |
| RU2034418C1 (en) | Instrument section |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKLA | Lapsed |