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BS EN IEC 61076-3-122:2021

BS EN IEC 61076-3-122:2021

$167.15

Connectors for electrical and electronic equipment. Product requirements – Detail specification for 8-way, shielded, free and fixed connectors for I/O and data transmission with frequencies up to 500 MHz and current-carrying capacity in industrial environments

Published By Publication Date Number of Pages
BSI 2021 40
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IEC 61076-3-122:2021 covers 8-way, shielded, free and fixed rectangular connectors for I/O and data transmission with frequencies up to 500 MHz. It is intended to specify the common dimensions, mechanical, electrical and environmental characteristics and tests for this family of connectors. Connectors complying with this document provide an ingress protection level of IP20; however, they are particularly suited for industrial environments with a high level of vibration. There are two classes of connectors defined in this document, indicated by “class A” and “class B” which are distinguished by some electrical and mechanical characteristics to meet the particular sets of requirements of some industrial applications. Class A meets the requirements defined in Ed.1 of this document. With the two classes A and B, the two codings Type I and II, and the two sets of transmission requirements according to the component categories Cat 5 and Cat 6A as defined in ISO/IEC 11801-1, this document specifies 2 Ɨ 2 Ɨ 2 = 8 variants. All connectors covered by this document feature a current-carrying capacity beyond the minimum requirement of 0,75 A per pin for an ambient temperature of 60Ā° C as defined in ISO/IEC 11801 1. This second edition cancels and replaces the first edition published in 2017. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) Title modified. b) Introduction of two sets of requirements for connectors of “class A” and “class B” where class A matches the requirements defined in the previous edition. c) Definition of new performance requirements for frequencies up to 500 MHz in addition to the performance requirements up to 100 MHz provided with the previous edition. d) Re-structuring to reflect the commonalities of and differences between connector Type I and Type II. e) Revision of drawings to clarify some dimensions. e) The derating diagram has been corrected to align it with the upper limiting temperature in the climatic category, with no reduction of performance for the target applications.

PDF Catalog

PDF Pages PDF Title
2 undefined
5 Annex ZA(normative)Normative references to international publicationswith their corresponding European publications
9 English
CONTENTS
11 FOREWORD
13 Figures
Figure 1 ā€“ Product overview
14 1 Scope
2 Normative references
16 3 Terms and definitions
4 Mating information
4.1 General
17 Tables
Table 1 ā€“ Mating faces of the individual connector styles
18 4.2 Contacts ā€“ Mating conditions
4.3 Fixed connectors Type I and II
Figure 2 ā€“ Contact interface of a free male connector (right side) mated with a fixed female connector (left side)
19 Figure 3 ā€“ Fixed connectors
20 Table 2 ā€“ Dimensions for Figure 2 and Figure 3
21 4.4 Free connectors Type I and II
Figure 4 ā€“ Free connectors Type I (left) and Type II (right)
22 5 Characteristics
5.1 General
Table 3 ā€“ Dimensions for Figure 4
23 5.2 Pin and pair grouping assignment
Figure 5 ā€“ Fixed connector pin and pair grouping assignmentfor Type I and Type II, mating face view of connector
Table 4 ā€“ Pin and pair assignment for 10/100 Mbps Ethernet
Table 5 ā€“ Pin and pair assignment for 1/10 Gbps Ethernet
24 5.3 Classification into climatic category
5.4 Electrical characteristics
5.4.1 Voltage proof
5.4.2 Voltage rating
5.4.3 Creepage and clearance distances
Table 6 ā€“ Climatic category
Table 7 ā€“ Voltage proof
25 5.4.4 Current-temperature derating
Figure 6 ā€“ Connector derating curve
Table 8 ā€“ Creepage and clearance distances of the mating interface
26 5.4.5 Insulation resistance
5.5 Mechanical characteristics
5.5.1 Mechanical operation
5.5.2 Insertion and withdrawal forces
5.5.3 Vibration, sinusoidal
5.5.4 Shock
Table 9 ā€“ Vibration, sinusoidal
Table 10 ā€“ Shock
27 5.6 Transmission performance
5.6.1 General
5.6.2 Insertion loss
5.6.3 Return loss
5.6.4 Near-end cross talk (NEXT)
28 5.6.5 Far-end cross talk (FEXT)
5.6.6 Transverse conversion loss (TCL)
5.6.7 Transverse conversion transfer loss (TCTL)
5.6.8 Transfer impedance
5.6.9 Propagation delay
29 5.6.10 Delay skew
6 Tests and test schedule
6.1 General
6.2 Arrangement for input-to-output resistance test
30 6.3 Arrangement for vibration and shock test (test phase EP1)
Figure 7 ā€“ Arrangement for input-to-output resistance test
Figure 8 ā€“ Arrangement for vibration test
31 6.4 Test procedures and measuring methods
6.5 Preconditioning
6.6 Test schedules
6.6.1 General
6.6.2 Basic (minimum) test schedule
6.6.3 Full test schedule
32 Table 11 ā€“ Test group P
33 Table 12 ā€“ Test group AP
34 Table 13 ā€“ Test group BP
36 Table 14 ā€“ Test group CP
37 Table 15 ā€“ Test group DP
Table 16 ā€“ Test group EP
38 6.7 Mounting of specimens
Table 17 ā€“ Test group FP
39 Bibliography

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