Find the standard you are looking for at Engineering360. Documents are available for purchase from the IHS Standards Store.

1 - 17 of 17 results

DS/EN 50288-8 - MULTI-ELEMENT METALLIC CABLES USED IN ANALOGUE AND DIGITAL COMMUNICATION AND CONTROL - PART 8: SPECIFICATION FOR TYPE 1 CABLES CHARACTERISED UP TO 2 MHZ Organization: DS
Date: 2012-04-24
Description: This European Standard defines 1 to 7 multi-pair cables for use in analogue, digital telecommunication networks and control with their relative definitions and requirements.
CEI EN 50288-8 - MULTI-ELEMENT METALLIC CABLES USED IN ANALOGUE AND DIGITAL COMMUNICATION AND CONTROL PART 8: SPECIFICATION FOR TYPE 1 CABLES CHARACTERISED UP TO 2 MHZ Organization: CEI
Date: 2013-02-01
Description: This European Standard defines 1 to 7 multi-pair cables for use in analogue, digital telecommunication networks and control with their relative definitions and requirements.
CENELEC - EN 50288-8 - MULTI-ELEMENT METALLIC CABLES USED IN ANALOGUE AND DIGITAL COMMUNICATION AND CONTROL - PART 8: SPECIFICATION FOR TYPE 1 CABLES CHARACTERISED UP TO 2 MHZ Organization: CENELEC
Date: 2012-03-01
Description: This European Standard defines 1 to 7 multi-pair cables for use in analogue, digital telecommunication networks and control with their relative definitions and requirements.
DS/EN 50290-1-1 - COMMUNICATION CABLES - PART 1-1: GENERAL Organization: DS
Date: 2001-12-11
Description: This Part 1-1 harmonizes the standardisation of symmetrical, coaxial and optical cables used for the infrastructure of communication, multimedia and control networks. Most of the cables covered by this Part 1-1 are primarily intended to be used in IT networks.
DS/CEN/TS 15525 - POSTAL SERVICES - STANDARD INTERFACES - INTERFACE BETWEEN MACHINE CONTROL AND BAR CODE PRINTERS Organization: DS
Date: 2007-01-23
Description: In this case, the printers can optionally share access to a single Ethernet network, but each requires its own patch cables. This standard does not support the connection of a single printer to multiple sorting system control units.
ARINC 809 - 3GCN – SEAT DISTRIBUTION SYSTEM - 2007; INCLUDES SUPPLEMENT 1-3 Organization: ARINC
Date: 2011-06-14
Description: Appropriate definitions are also provided for other electrical devices associated with the seat control and position mechanism. The related seat control/position equipment consists of the Seat Control Unit (SCU), Seat Automation Controller (SAC), and seat actuator motor(s).
ISO/IEC 8482 - INFORMATION TECHNOLOGY - TELECOMMUNICATIONS AND INFORMATION EXCHANGE BETWEEN SYSTEMS - TWISTED PAIR MULTIPOINT INTERCONNECTIONS - SECOND EDITION Organization: ISO
Date: 1993-12-15
Description: This International Standard specifies the physical medium characteristics for - twisted pair multipoint interconnections in either 2-wire or 4-wire network topology in order to provide for half duplex or duplex data transmission capability, respectively; - a binary and bi-directional signal transfer of the interconnected endpoint systems; - the electrical and mechanical design of the endpoint system branch cables and the common trunk cable, which may be up to 1 200 m in length; - the component measurements of the integrated circuit type generators and receivers within the endpoint systems; - the applicable data signalling rate up to 12,5 Mbit/s.
DS/EN 50411-3-8 - FIBRE ORGANIZERS AND CLOSURES TO BE USED IN OPTICAL FIBRE COMMUNICATION SYSTEMS - PRODUCT SPECIFICATIONS - PART 3-8: FIBRE MANAGEMENT SYSTEM, TERMINAL EQUIPMENT BOX TYPE 1 FOR CATEGORY C Organization: DS
Date: 2016-01-13
Description: This should be maintained using a recognised quality assurance programme. 1.5 Allowed fibre and cable types All EN 60793-2-50 fibres can be stored in the Terminal Equipment Box with a minimum storage radius of 20 mm (up to a length of maximum 2 m).
ISO/IEC 9314-3 - INFORMATION PROCESSING SYSTEMS - FIBRE DISTRIBUTED DATA INTERFACE (FDDI) - PART 3: PHYSICAL LAYER MEDIUM DEPENDENT (PMD) - FIRST EDITION Organization: ISO
Date: 1990-10-15
Description: PMD includes the following: —The optical power budgets for cable plants using 62,5/125 μm fibre optic cables and optical bypass switches.
DS/EN 50411-3-5 - FIBRE ORGANISERS AND CLOSURES TO BE USED IN OPTICAL FIBRE COMMUNICATION SYSTEMS - PRODUCT SPECIFICATIONS - PART 3-5: WALL OUTLET Organization: DS
Date: 2016-01-07
Description: Smaller storage radii down to 15 mm are possible with the EN 60793-2-50 B6_a fibre types, but in this case the reduction in mechanical reliability should be taken into account (see 4.2). If hybrid cable is used then only the fibre portion is considered in this product specification.
CENELEC - EN 50411-3-5 - FIBRE ORGANISERS AND CLOSURES TO BE USED IN OPTICAL FIBRE COMMUNICATION SYSTEMS - PRODUCT SPECIFICATIONS - PART 3-5: WALL OUTLET Organization: CENELEC
Date: 2015-12-01
Description: Smaller storage radii down to 15 mm are possible with the EN 60793-2-50 B6_a fibre types, but in this case the reduction in mechanical reliability should be taken into account (see 4.2). If hybrid cable is used then only the fibre portion is considered in this product specification.
UL 2734 OUTLINE - UL OUTLINE FOR INVESTIGATION CONNECTORS FOR USE WITH ON-BOARD ELECTRICAL VEHICLE (EV) CHARGING SYSTEMS - ISSUE 3 Organization: UL
Date: 2015-02-27
Description: This outline does not cover: a) Plugs, receptacles, and couplers for electric vehicles covered by the Standard for Plugs, Receptacles and Couplers for Electric Vehicles, UL 2251; b) Plugs, receptacles, and cable connectors, of the pin and sleeve type covered by the Standard for Plugs, Receptacles, and Cable Connectors, of the Pin and Sleeve Type, UL 1682; c) Devices molded integrally with flexible cord or cable that are covered by the Standard for Cord Sets and Power-Supply Cords, UL 817; d) Attachment plugs, cord connectors, and receptacles that are covered by the Standard for Attachment Plugs and Receptacles, UL 498; e) Single and multi-pole connectors, which may include 3 or more pilot contacts, intended for connection to copper conductors, for use in data, signal, control and power applications within and between electrical equipment, where exposed, that are covered by the Standard for Component Connectors for Use in Data, Signal, Control and Power Applications, UL 1977; f) Devices intended for use in hazardous (Classified) locations that are covered by the Standard for Explosion-Proof and Dust-Ignition-Proof Electrical Equipment for Use in Hazardous (Classified) Locations UL 1203; g) Devices consisting of wiring terminals and supporting blocks intended for the connection of wiring that are covered by the Standard for Terminal Blocks, UL 1059; h) Devices such as modular jacks and plugs that are intended for use with telecommunications networks, that are covered by the Standard for Information Technology Equipment Safety - Part 1: General Requirements, UL 60950-1, and the Standard for Communications-Circuit Accessories, UL 1863; i) Devices such as wire connectors and soldering lugs that are covered by the Standard for Wire Connectors, UL 486A-486B; the Standard for Splicing Wire Connectors, UL 486C; or the Standard for Equipment Wiring Terminals for Use with Aluminum and/or Copper Conductors, UL 486E; or j) Devices such as quick-connect terminals that are covered by the Standard for Electrical Quick-Connect Terminals, UL 310.
DS/EN 50532 - COMPACT EQUIPMENT ASSEMBLY FOR DISTRIBUTION SUBSTATIONS (CEADS) Organization: DS
Date: 2010-05-27
Description: This European Standard specifies the service conditions, rated characteristics, general structural requirements and test methods of the prefabricated assembly of the main electrical functional units of a HV/LV Distribution Substation, duly interconnected, for alternating current of rated operating voltages above 1 kV and up to and including 52 kV on the HV side, service frequency 50 Hz. This assembly is to be cable-connected to the network.This Compact Equipment Assembly for Distribution Substation (CEADS) as defined in this standard is designed and tested to be a single product with a single serial number and one set of documentation.
CSA ISO/IEC 9314-4 - INFORMATION TECHNOLOGY - FIBRE DISTRIBUTED DATA INTERFACE (FDDI) - PART 4: SINGLE-MODE FIBRE PHYSICAL LAYER MEDIUM DEPENDENT (SMF-PMD) Organization: CSA
Date: 2002-01-01
Description: SMF-PMD includes the following: i) The optical power budgets for two (2) categories of Active Output and Active Input Interfaces using single-mode fibre optic cables and optical bypass switches ii) The MIC Receptacle mechanical mating requirements including the keying features iii) The single-mode fibre optic cable requirements iv) The services provided by PMD to PHY and SMT 2) A Physical Layer Protocol (PHY), which provides connection between multimode or singlemode PMD and the Data Link Layer (DLL).
CENELEC - EN 50532 - COMPACT EQUIPMENT ASSEMBLY FOR DISTRIBUTION SUBSTATIONS (CEADS) Organization: CENELEC
Date: 2010-04-01
Description: This European Standard specifies the service conditions, rated characteristics, general structural requirements and test methods of the prefabricated assembly of the main electrical functional units of a HV/LV Distribution Substation, duly interconnected, for alternating current of rated operating voltages above 1 kV and up to and including 52 kV on the HV side, service frequency 50 Hz. This assembly is to be cable-connected to the network. This Compact Equipment Assembly for Distribution Substation (CEADS) as defined in this standard is designed and tested to be a single product with a single serial number and one set of documentation.
ATIS 0600009 - ROHS – COMPLIANT PLATING STANDARD FOR STRUCTURAL METALS, BUS BARS AND FASTENERS Organization: ATIS
Date: 2007-05-01
Description: The purpose of this standard is to provide technical guidance for the specification, design and construction of mechanical hardware, cable assemblies, and printed wiring boards.
IEEE 1596 - STANDARD FOR SCALABLE COHERENT INTERFACE (SCI) - IEEE COMPUTER SOCIETY DOCUMENT Organization: IEEE
Date: 1992-03-19
Description: (The intent of that limitation was to make clear that this is not yet-another Local Area Network.)The real distinction between SCI and a network has more to do with the memory-access-based model SCI uses and the distributed cache-coherence model.

1 - 17 of 17 results