IEEE 1505 2007

$58.50

IEEE Standard for Receiver Fixture Interface

Published By	Publication Date	Number of Pages
IEEE	2007	138

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Description

New IEEE Standard – Inactive – Superseded. A mechanical and electrical specification for implementing a common interoperable mechanical quick-disconnect interconnect system for use by industry for interfacing large numbers of electrical signals (digital, analog, RF, power, etc.) is provided. These large interface panels (receiver and fixture panels) are employed primarily in test systems between stimulus/measurement assets and a related unit-under-test (UUT), although any application involving high-density contacts requiring a quick disconnect interface could benefit. The receiver is a receptacle that is mounted to test system mates with multiple fixtures, which serve as the buffer between the UUT and automatic test equipment (ATE). Fixtures translate standard input/output (I/O) signal routing offered at the receiver to a wiring interface that directly connects to the UUT. These UUT interfaces can represent cable connectors, direct plug-in (printed circuit board edge connectors), sensor monitoring, or manual feedback from the test technician. The primary objectives of this standard are: (a) to establish interface standards that permit interchangeability of mechanical/electrical receiver/fixture/connector product assemblies from various manufacturers under an open architecture; and (b) to develop within this framework a defined set(s) of interconnecting connector and mechanical specifications that supports available, accepted, low-cost commercial technology to reduced dependence on proprietary designs and extend life-cycle availability.

PDF Catalog

PDF Pages	PDF Title
3	Title Page
4	Abstract/keywords
6	Introduction
7	Notice to users
8	Participants
11	CONTENTS
19	1. Overview 1.1 Scope
20	1.2 Purpose 2. Normative references
24	2.1 Conventions
25	3. Definitions
27	4. Qualification requirements 4.1 Responsibility for inspection
28	4.2 General requirements
31	4.3 Qualification inspections 4.4 Inspection conditions
32	4.5 Qualification inspection
33	4.6 Method of examination and test
42	5. Framework specification 5.1 Framework specification introduction
43	5.2 Definitions 5.3 Conventions 5.4 Framework general specification
46	5.5 Materials 5.6 Restricted materials 5.7 Dissimilar metals 5.8 Workmanship 5.9 Design and construction 5.10 Framework assembly
57	5.11 Framework alignment/keying cavities 5.12 Framework ball-lock mechanism
58	5.13 Framework ball-lock/safety-lock pin devices
59	5.14 Framework protective cover 5.15 Method of mounting
60	5.16 Interchangeability 5.17 Framework stroke
62	5.18 Framework engagement and separation forces 5.19 Framework fixture support weight rating 5.20 Electrical conditional requirements
63	5.21 Framework durability 5.22 Environmental requirements
64	5.23 Auxiliary parts 5.24 Riveting, upsetting, and spinning over 6. Connector module specification 6.1 Connector module specification introduction
65	6.2 Connector specification system 6.3 Definitions 6.4 Conventions
66	6.5 Quality 6.6 General and specific connector/contact specification relationships
67	6.7 Materials 6.8 Reference materials, platings, and processes
68	6.9 Design and construction 6.10 Connector assembly
69	6.11 Interchangeability
70	6.12 Oversized pin exclusion test
71	6.13 Contact engagement and separation forces 6.14 Connector mating and unmating
72	6.15 Contact rating 6.16 Contact resistance
73	6.17 Contact retention 6.18 Dielectric withstanding voltage 6.19 Signal low-level circuit 6.19 Signal low-level circuit 6.21 Contact durability/cycle test 6.22 Environmental requirements
74	6.23 Contacts supplied in reels 6.23 Contacts supplied in reels
75	6.25 Contact resistance to soldering heat/flammability 6.26 Contact crimp tensile strength 6.27 Auxiliary parts 6.28 Marking 6.29 Workmanship 7. Signal module 7.1 Introduction 7.2 General specifications
78	7.3 Design and construction requirements
79	7.4 Electrical specifications
80	7.5 Method of examination and test
82	8. Power size 8 and 16 connector module(s) 8.1 Introduction
83	8.2 General specifications 8.3 Design and construction requirements
88	8.4 Electrical specifications for 23 A power contact
89	8.5 Electrical specifications for 45þA power contact
91	8.6 Method of examination and test
92	9. Coax size 16 connector module(s) 9.1 Introduction 9.2 General specifications
93	9.3 Design and construction requirements
97	9.4 Coax 5 GHz contact electrical specifications
99	9.5 Coax 3 GHz contact electrical specifications
101	9.6 Method of examination and test
102	10. RFI mixed power connector module, 28-10 A and 16-20 A positions 10.1 Introduction 10.2 General specifications
104	10.3 Design and construction requirements
105	10.4 Electrical specifications
106	11. Universal size 8 connector D-Sub compatible module, 24 position 11.1 Introduction 11.2 General specifications
107	11.3 Design and construction requirements 11.3 Design and construction requirements
110	11.4 Coax 40 GHz, size 8, D-Sub compatible, contact 11.5 Power 45-A, size 8, D-Sub compatible contact
111	11.6 Pneumatic, size 8, D-Sub compatible, contact 11.7 Fiber-optic, size 8, D-Sub compatible, contact specifications 12. High-speed signal module 12.1 Introduction 12.2 General specifications
114	12.3 Design and construction requirements
115	12.4 Electrical specifications
116	12.5 Method of examination and test
118	Annex A(informative) Receiver Fixture Interface (RFI) Tutorial A.1 Scope A.2 Receiver fixture interface overview
121	A.3 Receiver fixture interface approaches
123	A.4 IEEE 1505 RFI framework design
128	A.5 RFI fixture enclosures overview
131	A.6 RFI connector modules and contacts
134	A.7 Receiver fixture interface assessment and trade-offs
135	Annex B (informative) Critical Interface Working Group (CIWG) report
136	Annex C(informative) Bibliography