标准号:BS EN 61076-4-110-2002
中文标准名称:直流低频模拟和数字高速数据设备用经质量评定的连接器.印制板连接器.2.0 mm基本栅级的并具有完全屏蔽和锁定功能的锁定电缆连接器系统详细规范
英文标准名称:Connectors with assessed quality, for use in d.c., low-frequency analogue and in digital high speed data applications. Printed board connectors. Detail specification for latched cable connector system having a basic grid of 2,0 mm including full shielding
标准类型:L23
发布日期:2002/3/22 12:00:00
实施日期:2002/3/22 12:00:00
中国标准分类号:L23
国际标准分类号:31.220.10
适用范围:Connectors for electronic equipment —Part 4-110: Printed board connectors with assessed quality —Detail specification for latched cable connector system having a basic grid of 2,0 mm including full shielding and latching function
1 General data
1.1 Recommended method of mounting
1.1.1 Number of signal contacts and contact cavities
1.2 Ratings and characteristics
1.3 Normative references
1.4 Marking
1.5 IEC type designation
1.6 Ordering information
2 Technical information
2.1 Definitions
2.2 Surveys of styles and variants
2.2.1 Styles of connectors
2.2.2 Survey of termination variants
2.2.3 Survey of cable diameters
2.3 Information on application
2.3.1 Complete connectors (pairs)
2.3.2 Fixed board connectors
2.3.3 Free cable connectors
2.3.4 Shielding and grounding
3 Dimensional information
3.1 General
3.2 Isometric view and common features
3.2.1 Common features
3.2.2 Reference system
3.2.3 Height dimensions
3.2.4 Width dimensions
3.2.5 Depth dimensions
3.3 Mating information
3.3.1 Engaging direction contacts range
3.3.2 Perpendicular to engaging direction
3.3.3 Inclination
3.4 Fixed board connectors
3.4.1 Common dimensions
3.4.2 Dimensions of signal contacts
3.4.3 Termination of signal contacts
3.5 Free cable connectors
3.5.1 Dimensions of the free connectors
3.5.2 Terminations
3.6 Accessories
3.6.1 Latching devices
3.7 Mounting information for fixed board connectors
3.7.1 Straight version
3.7.2 Right-angle version
3.8 Gauges
3.8.1 Gauge for mating part of shielding (fixed connector)
3.8.2 Test gauge for static load
4 Characteristics
4.1 Climatic category
4.2 Electrical
4.2.1 Creepage and clearance distances
4.2.2 Voltage proof
4.2.3 Current carrying capacity
4.2.4 Initial contact resistance
4.2.5 Initial insulation resistance
4.3 Mechanical
4.3.1 Mechanical operation
4.3.2 Engaging and separating forces
4.3.3 Contact retention in insert
4.3.4 Static load, transverse
4.3.5 Gauge retention force
4.3.6 Vibration (sinusoidal)
4.3.7 Shock
4.3.8 Polarizing method
4.3.9 Latch retention in housing (axial) - Effectiveness of coupling devices
4.3.10 Cable clamp resistance to cable rotation
4.3.11 Cable clamp robustness
4.3.12 Cable clamp resistance to cable pulling
4.3.13 Cable clamp resistance to cable torsion
4.3.14 Shielding contact spring holding force
4.4 Electromagnetic compatibility (EMC)
4.4.1 Shielding effectiveness of connectors
5 Test schedule
5.1 General
5.1.1 Arrangement for contact resistance measurement
5.1.2 Arrangement for dynamic stress tests
5.1.3 Arrangements for testing static load, transverse
5.1.4 Arrangement for voltage proof and polarization voltage
5.1.5 Arrangement for shielding effectiveness test
5.2 Test schedule tables
5.2.1 Basic test schedule
5.2.2 Full test schedule
6 Quality assessment procedures
6.1 Qualification approval testing
6.1.1 Method 1
6.1.2 Method 2
6.2 Quality conformance inspection
6.2.1 Lot-by-lot tests
6.2.2 Periodic tests
6.3 Delayed delivery, re-inspection
Annex ZA (normative) Normative references to international publications with their
corresponding European publications
Figure 1 - Recommended installation
Figure 2 - Survey of free cable connector styles
Figure 3 - Survey of fixed connectors styles
Figure 4 - Contact designation for different applications
Figure 5 - Co-ordination dimensions of the right-angle fixed board connector
Figure 6 - Co-ordination dimensions of the straight fixed board connector
Figure 7 - Height dimensions
Figure 8 - Width dimensions
Figure 9 - Depth dimensions
Figure 10 - Contact range
Figure 11 - Permitted misalignment in transverse and longitudinal axis
Figure 12 - Permitted inclination from transverse and