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本文(CAN CSA-C22 2 NO 182 4-M90-1990 Plugs Receptacles and Connectors for Communication Systems (First Edition General Instruction No 1 May 1990 General Instruction No 2 January 1992 Ge.pdf)为本站会员(explodesoak291)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

CAN CSA-C22 2 NO 182 4-M90-1990 Plugs Receptacles and Connectors for Communication Systems (First Edition General Instruction No 1 May 1990 General Instruction No 2 January 1992 Ge.pdf

1、CAN/CSA-C22.2 No.182.4-M90A National Standard of Canada(reaffirmed 2015)Plugs, Receptacles, and Connectors for Communication SystemsLegal Notice for StandardsCanadian Standards Association (operating as “CSA Group”) develops standards through a consensus standards development process approved by the

2、 Standards Council of Canada. This process brings together volunteers representing varied viewpoints and interests to achieve consensus and develop a standard. Although CSA Group administers the process and establishes rules to promote fairness in achieving consensus, it does not independently test,

3、 evaluate, or verify the content of standards.Disclaimer and exclusion of liabilityThis document is provided without any representations, warranties, or conditions of any kind, express or implied, including, without limitation, implied warranties or conditions concerning this documents fitness for a

4、 particular purpose or use, its merchantability, or its non-infringement of any third partys intellectual property rights. CSA Group does not warrant the accuracy, completeness, or currency of any of the information published in this document. CSA Group makes no representations or warranties regardi

5、ng this documents compliance with any applicable statute, rule, or regulation. IN NO EVENT SHALL CSA GROUP, ITS VOLUNTEERS, MEMBERS, SUBSIDIARIES, OR AFFILIATED COMPANIES, OR THEIR EMPLOYEES, DIRECTORS, OR OFFICERS, BE LIABLE FOR ANY DIRECT, INDIRECT, OR INCIDENTAL DAMAGES, INJURY, LOSS, COSTS, OR E

6、XPENSES, HOWSOEVER CAUSED, INCLUDING BUT NOT LIMITED TO SPECIAL OR CONSEQUENTIAL DAMAGES, LOST REVENUE, BUSINESS INTERRUPTION, LOST OR DAMAGED DATA, OR ANY OTHER COMMERCIAL OR ECONOMIC LOSS, WHETHER BASED IN CONTRACT, TORT (INCLUDING NEGLIGENCE), OR ANY OTHER THEORY OF LIABILITY, ARISING OUT OF OR R

7、ESULTING FROM ACCESS TO OR POSSESSION OR USE OF THIS DOCUMENT, EVEN IF CSA GROUP HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES, INJURY, LOSS, COSTS, OR EXPENSES.In publishing and making this document available, CSA Group is not undertaking to render professional or other services for or on beh

8、alf of any person or entity or to perform any duty owed by any person or entity to another person or entity. The information in this document is directed to those who have the appropriate degree of experience to use and apply its contents, and CSA Group accepts no responsibility whatsoever arising i

9、n any way from any and all use of or reliance on the information contained in this document. CSA Group is a private not-for-profit company that publishes voluntary standards and related documents. CSA Group has no power, nor does it undertake, to enforce compliance with the contents of the standards

10、 or other documents it publishes. Intellectual property rights and ownershipAs between CSA Group and the users of this document (whether it be in printed or electronic form), CSA Group is the owner, or the authorized licensee, of all works contained herein that are protected by copyright, all trade-

11、marks (except as otherwise noted to the contrary), and all inventions and trade secrets that may be contained in this document, whether or not such inventions and trade secrets are protected by patents and applications for patents. Without limitation, the unauthorized use, modification, copying, or

12、disclosure of this document may violate laws that protect CSA Groups and/or others intellectual property and may give rise to a right in CSA Group and/or others to seek legal redress for such use, modification, copying, or disclosure. To the extent permitted by licence or by law, CSA Group reserves

13、all intellectual property rights in this document.Patent rightsAttention is drawn to the possibility that some of the elements of this standard may be the subject of patent rights. CSA Group shall not be held responsible for identifying any or all such patent rights. Users of this standard are expre

14、ssly advised that determination of the validity of any such patent rights is entirely their own responsibility.Authorized use of this documentThis document is being provided by CSA Group for informational and non-commercial use only. The user of this document is authorized to do only the following:I

15、f this document is in electronic form:sLOADTHISDOCUMENTONTOACOMPUTERFORTHESOLEPURPOSEOFREVIEWINGITsSEARCHANDBROWSETHISDOCUMENTANDsPRINTTHISDOCUMENTIFITISIN0$ it consisted of 23 pages, each dated May 1990. Amendments in the form of replacement pages were published in January 1 992 (see General Instru

16、ction No. 2).* *Jf you do not have General Instruction No. 2, please contact CSA, Standards Sales. An erratum to Clause 4.6.2 is incorporated (and identified by a vertical line in the margin) in the attached replacement pages. CSA Standard CANICSA-C22.2 No. 1 82.4-M90 now consists of the following p

17、ages: 314 and 1723 dated May 1990; and 15 and 16 dated March 1992. These replacement pages are to be inserted into your copy of the Standard; the pages replaced should be kept for reference. 4.5.3.4 An insulating lining or barrier used where spacings would otherwise be unacceptable shall be not less

18、 than 0.8 mm thick except as follows: (a) an insulating material not less than 0.4 mm thick may be used in conjunction with an air spacing of not less than 50% of the spacing required for air alone; (b) snap or plugin type connectors such as shown in Figure 2 shall maintain a spacing between live co

19、nductors or parts of opposite polarity of not less than 0.36 mm; (c) wire insulation displacement or piercing type terminals requiring insertion tools shall maintain a minimum spacing of 1.2 mm between terminals; and (d) wire wrap type terminals shall maintain a spacing between live conductors or pa

20、rts of opposite polarity of not less than 3.2 mm. 4.5.3.5 Spacings less than specified in Clause 4.5.3.4 shall be permitted if a device meets the dielectric strength test specified in Clause 6.6. 4.6 Contacts 4.6.1 A receptacle or connector rated above 30 V rms that is intended for use external to e

21、quipment shall have no exposed live contacts and terminals, when assembled as intended, as determined by the probe test of Clause 6.8.1. 4.6.2* When tested in accordance with Clause 6.8.2, mating devices shall not have exposed live contacts during engagement or withdrawal. *Effective Date-March 31,

22、1992 4.6.3* When tested in accordance with Clause 6.8.3, the contact pins of a modular type receptacle that are accessible without the use of a tool and can be contacted by the probe in Figure lB shall be positioned, shaped, recessed, or the like to reduce the risk of injury to persons. *Effectjve D

23、ate-January 31, 1992 4.7 Polarization A polarized device incorporating two or more contacts shall be keyed or of such design that any intended polarization will not be defeated by improper assembly during installation. 5. Marking 5.1 Marking on Product The manufacturers name or other recognized iden

24、tification symbol shall be marked on each device in a permanent manner. CAN/CSA-C22.2 No. l82.4M90 - March 1992 Page 15 (Replaces p. 15, Jan. 1992) 5.2 Marking on Package The following shall be marked on the smallest unit container or carton: (a) the catalogue designation; (b) the electrical rating

25、in both volts and amperes; and (c) whether ac or dc, if restricted. Assembly or tooling instructions and a reference to an appropriate parts list shall be provided, if applicable. 6. Tests 6.1 Accelerated Aging 6.1.1 Where required by Clause 4.2.5, an accelerated aging test shall be performed on mou

26、lded rubber insulating material as specified in Clauses 6.1.2 and 6.1.3 or as specified in Clause 6.1.4 for materials other than rubber. 6.1.2 A moulded rubber component shall show no apparent deterioration nor any greater change in hardness than five numbers, when, gauged as described in Clause 6.1

27、.3, it is exposed for 96 h to oxygen at a pressure of 2070 70 kPa and a temperature of 70 1C. 6.1.3 Where possible, the complete component shall be tested. The hardness of the rubber shall be determined as the average of five readings with a suitable gauge such as the Rex Hardness Gauge or the Shore

28、 Durometer. The component shall be exposed to oxygen for 96 h, in accordance with CSA Standard C22.2 No. 0.3, Clause 4.3.2, using the method for exposure to accelerated aging (oxygen pressure) of extruded insulation, jackets, and similar coverings. The device shall be allowed to condition at room te

29、mperature for 4 h or more after removal from the oxygen bomb. The hardness shall be determined again as the average of five readings. The difference between the average original hardness reading and the average reading taken after exposure to oxygen shall be the change in hardness. 6.1.4* A device t

30、hat has a body of moulded material other than rubber shall show no cracks or other visible signs of deterioration as the result of exposure for 7 d in a circulating air oven at a temperature of 70 1C. *Effective DateJanuary 31, 1992 6.2 Lead Security The termination of individual leads shall be capa

31、ble of withstanding a direct pull at the value of the force as specified in Table 1 for a period of 1 mm, without separation or damage to the connection. The pull shall be applied gradually and in the direction most likely to cause failure of the connection. CAN/CSA-C22.2 No. 182.4M90 March 1992 Pag

32、e 16 (Replaces p. 16, Jan. 1992) General Instruction No. 2 CAN/CSA-C22.2 No. 182.4-M90 January 1992 CSA Standard CAN/CSA-C22.2 No. 1 82.4-M90, Plugs, Receptacles, and Connectors for Communication Systems, was published in May 1990; it consisted of 23 pages, each dated May 1990. Amendments to Clauses

33、 4.6.2, 4.6.3, and 6.1 .4 have been approved and are incorporated (and identified by a vertical line in the margin) in the attached replacement pages. CSA Standard CAN/CSA-C22.2 No. 1 82.4-M90 now consists of the following pages: 314 and 1723 dated May 1990; and 15 and 16 dated January 1992. These r

34、eplacement pages are to be inserted into your copy of the Standard; the pages replaced should be kept for reference. 4.5.3.4 An insulating lining or barrier used where spacings would otherwise be unacceptable shall be not less than 0.8 mm thick except as follows: (a) an insulating material not less

35、than 0.4 mm thick may be used in conjunction with an air spacing of not less than 50% of the spacing required for air alone; (b) snap or plugin type connectors such as shown in Figure 2 shall maintain a spacing between live conductors or parts of opposite polarity of not less than 0.36 mm; (C) wire

36、insulation displacement or piercing type terminals requiring insertion tools shall maintain a minimum spacing of 1.2 mm between terminals; and (d) wire wrap type terminals shall maintain a spacing between live conductors or parts of opposite polarity of not less than 3.2 mm. 4.5.3.5 Spacings less th

37、an specified in Clause 4.5.3.4 shall be permitted if a device meets the dielectric strength test specified in Clause 6.6. 4.6 Contacts 4.6.1 A receptacle or connector rated above 30 V rms that is intended for use external to equipment shall have no exposed live contacts and terminals, when assembled

38、 as intended, as determined by the probe test of Clause 6.8.1. 4.6.2* When tested in accordance with Clause 6.8.2, mating devices shall not have exposed live contacts during engagement or withdrawal, as determined by the probe test of Clause 6.8.1. *Effective Date-January 31, 1992 4.6.3* When tested

39、 in accordance with Clause 6.8.3, the contact pins of a modular type receptacle that are accessible without the use of a tool and can be contacted by the probe in Figure lB shall be positioned, shaped, recessed, or the like to reduce the risk of injury to persons. *Effective DateJanuary 31, 1992 4.7

40、 Polarization A polarized device incorporating two or more contacts shall be keyed or of such design that any intended polarization will not be defeated by improper assembly during installation. 5. Marking 5.1 Marking on Product The manufacturers name or other recognized identification symbol shall

41、be marked on each device in a permanent manner. CAN/CSAC22.2 No. 182.4M90 - Jan. 1992 - Page 15 (Replaces p. 15, May 1990) 5.2 Marking on Package The following shall be marked on the smallest unit container or carton: (a) the catalogue designation; (b) the electrical rating in both volts and amperes

42、; and (C) whether ac or dc, if restricted. Assembly or tooling instructions and a reference to an appropriate parts list shall be provided, if applicable. 6. Tests 6.1 Accelerated Aging 6.1.1 Where required by Clause 4.2.5, an accelerated aging test shall be performed on moulded rubber insulating ma

43、terial as specified in Clauses 6.1.2 and 6.1.3 or as specified in Clause 6.1.4 for materials other than rubber. 6.1.2 A moulded rubber component shall show no apparent deterioration nor any greater change in hardness than five numbers, when, gauged as described in Clause 6.1.3, it is exposed for 96

44、h to oxygen at a pressure of 2070 70 kPa and a temperature of 70 1C. 6.1.3 Where possible, the complete component shall be tested. The hardness of the rubber shall be determined as the average of five readings with a suitable gauge such as the Rex Hardness Gauge or the Shore Durometer. The component

45、 shall be exposed to oxygen for 96 h, in accordance with CSA Standard C22.2 No. 0.3, Clause 4.3.2, using the method for exposure to accelerated aging (oxygen pressure) of extruded insulation, jackets, and similar coverings. The device shall be allowed to condition at room temperature for 4 h or more

46、 after removal from the oxygen bomb. The hardness shall be determined again as the average of five readings. The difference between the average original hardness reading and the average reading taken after exposure to oxygen shall be the change in hardness. 6.1.4* A device that has a body of moulded

47、 material other than rubber shall show no cracks or other visible signs of deterioration as the result of exposure for 7 d in a circulating air oven at a temperature of 70 1C. *Effectjve Date-January 31, 1992 6.2 Lead Security The termination of individual leads shall be capable of withstanding a di

48、rect pull at the value of the force as specified in Table 1 for a period of 1 mm, without separation or damage to the connection. The pull shall be applied gradually and in the direction most likely to cause failure of the connection. CAN/CSAC22.2 No. 182.4M90 Jan. 1992 Page 16 (Replaces p. 16, May 1990)

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