Optical-electric hybrid connector for telecommunication—Part 2: Type duplex LC
1 Scope
This document specifies requirements of the classification, interface graphics and mating dimensions, endfaces, optical and electric performance, materials and environmental compliance, describes related test methods, and specifies quality assessment procedures, inspection rules, marking, packaging, transport and storage for Type duplex LC optical-electric hybrid connectors (hereinafter referred to as “optical-electric connectors”).
This document is applicable to the design, development, production and inspection of Type duplex LC optical-electric hybrid connector for telecommunication in the application scenarios of park/indoor wireless, office and monitoring. This document may apply to Type duplex LC optical-electric hybrid connector for telecommunication in other application scenarios.
2 Normative references
The following normative documents contain provisions which, through reference in this text, constitute provisions of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.
GB/T 2828.1-2012 Sampling procedures for inspection by attributes—Part 1: Sampling schemes indexed by acceptance quality limit (AQL) for lot-by-lot inspection
GB/T 26572-2011 Requirements of concentration limits for certain restricted substances in electrical and electronic products
GB/T 39560 (all parts) Determination of certain substances in electrical and electronic products
YD/T 1272.1-2018 Optical fiber connector—Part 1 : Type LC
YD/T 1272.3-2015 Optical fiber connector—Part 3 : Type SC
YD/T 2152-2010 The requirement of reliability and test methods for optical fiber connectors
YD/T 4305.1-2023 Optical-electric hybrid connector for telecommunication—Part 1: Type SC
SJ/T 11364-2014 Marking for the restriction of the use of hazardous substances in electrical and electronic product
3 Terms and definitions
For the purposes of this standard, the terms and definitions given in YD/T 2152—2010 and the following apply.
3.1
Type duplex LC optical-electric hybrid connector
LC plug-in connector composed of a twin-core plug and an adapter, which has both optical and electric connection characteristics and is intended to transmit signals and remotely supply centralized power to low-power (≤100W) terminal devices such as WLAN devices and cameras
3.2
reference plug, adapter
precision manufactured or selected plug and adapter for measurement purposes
[Source: YD/T 1272.1-2018, 3.2]
3.3
mating face dimensions
dimensions of a part for determining plug/receptacle fit between a set of optical-electric hybrid connector components
3.4
concentricity error
distance between the optical fiber mandrel and the ferrule axis
[Source: YD/T 1272.1-2018, 3.4]
3.5
angular alignment error
angular offset between the excitation beam axis and the ferrule axis
[Source: YD/T 1272.1-2018, 3.5]
3.6
physical contact (PC)
contact with the front endface of the pin polished to a spherical shape, so as to ensure that the physical endface of the fiber can fully contact when the endfaces of the two connectors are butted, and thus to eliminate the influence of Fresnel reflection from the fiber endface on the system and obtain a return loss greater than 40 dB
[Source: YD/T 1272.1-2018, 3.6]
3.7
ultra physical contact (UPC)
contact with the front endface of the pin polished to a spherical shape, and the fiber endface subject to required geometric dimensions, so as to ensure that the physical endface of the fiber can fully contact when the endfaces of the two connectors are butted, and thus to eliminate the influence of Fresnel reflection from the fiber endface on the system and obtain a return loss greater than 50 dB
[Source: YD/T 1272.1-2018, 3.7]
3.8
angled physical contact (APC)
contact with the front endface of the pin polished to an angled (8°) spherical shape, and the fiber endface subject to required geometric dimensions, so as to ensure that the physical endface of the fiber can fully contact when the endfaces of the two connectors are butted, and thus to eliminate the influence of Fresnel reflection from the fiber endface on the system and obtain a return loss greater than 60 dB
[Source: YD/T 1272.1-2018, 3.8]
3.9
radius of curvature
spherical radius of the front endface of the polished pin
[Source: YD/T 1272.1-2018, 3.9]
3.10
eccentricity of spherical endface top
distance between the vertex of convex spherical surface of ferrule and the ferrule axis
[Source: YD/T 1272.1-2018, 3.10]
3.11
fiber undercut/protrusion
undercut/protrusion of the fiber in the front endface of the polished ferrule relative to the ceramic face
[Source: YD/T 1272.1-2018, 3.11]
3.12
active device receptacle
receptacle for a connector plug intended for active devices, components and modules
[Source: YD/T 1272.1-2018, 3.12]
Contents
Foreword i
Introduction ii
1 Scope
2 Normative references
3 Terms and definitions
4 Requirements
4.1 Classification
4.2 Interface graphics and mating dimensions
4.3 Other dimensions
4.4 Reference optical-electric connectors
4.5 Appearance and endface of optical-electric connectors
4.6 Optical and electric performance of optical-electric connectors
4.7 Material
4.8 Environmental compliance
5 Quality assessment procedures
5.1 Classification
5.2 Qualification approval procedures
5.3 Quality consistency inspection
6 Parameter testing
6.1 Environmental requirements
6.2 Testing conditions
6.3 Testing methods
7 Environmental and mechanical reliability tests
7.1 Test environment requirements
7.2 High temperature aging test
7.3 Low temperature storage test
7.4 Thermal cycling test
7.5 Humidity aging test
7.6 Damp heat cycling test
7.7 Salt spray test
7.8 Vibration test
7.9 Mechanical shock
7.10 Bending test
7.11 Torsion test
7.12 Tensile strength test
7.13 Tail tension test
7.14 Collision test
7.15 Mechanical durability test
7.16 Repeatability
7.17 Insertion and removal
7.18 Interchangeability
7.19 Insertion and removal force
8 Inspection rules
8.1 Inspection duties and responsibilities
8.2 Inspection classification
8.3 End-of-manufacturing inspection
8.4 Type inspection
9 Signs, packaging, transport and storage
9.1 Signs
9.2 Packaging
9.3 Transport
9.4 Storage
