PROPOSAL FOR DRAFT AMENDMENTS TO REGULATION NO. 13, BRAKING / TRANSMITTED BY THE EXPERT FROM GERMANY
JUSTIFICATION
Supplement 5 to the 09 Series of amendments introduced new requirements into
paragraph 5.1.3.6., with respect to the use of the electrical energy by the
trailer, available through the ISO 7638 connector as follows:
The brakes and running gear functions shall be exclusively powered via the
ISO 7638 connector.
This meant that it was not possible to provide back-up powering from other
power sources in the event of a failure within the ISO 7638 connector. In
addition it did not prohibit the use of the electrical energy to power non-
brakes and running gear functions. (...) This proposal is intended to make clear that electrical energy available via
the ISO 7638 connector may be used to power a trailer information system for
the purpose of transmitting information.
Language:English
Score: 1175280.3
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daccess-ods.un.org/acce...TRANS/WP.29/GRRF/2001/6&Lang=E
Data Source: ods
PROPOSAL FOR DRAFT AMENDMENTS TO REGULATION NO. 48, INSTALLATION OF LIGHTING AND LIGHT-SIGNALLING DEVICES / TRANSMITTED BY THE EXPERT FROM GERMANY
With pointer instruments, the measuring range shall be
such that all readings are made in the upper third of the measuring scale.
1/ This method of measurement has been written for the case in which the socket of the
trailer connector is mounted on the towing vehicle. It applies equally to an articulated
vehicle in which the socket is mounted on the semi-trailer, for which case, however, the
words "plug" and "socket" should be interchanged wherever they refer to a trailer
connector (see figure 1 in ISO 3559 – (Date of version: 1976)).
(...) On vehicles, which are fitted with a trailer connector socket, these
measurements shall be made without an electrical load applied to the
connector socket.
4.2.4.2 On vehicles which are fitted with a trailer connector socket, additional
measurements shall be made in accordance with ISO 3559 – (Date of
version: 1976).
4.3 Measurement of working voltages on trailers
4.3.1 The trailer plug shall be coupled to a test socket conforming to Table 1 below.
(...) Table 1:
The state of standards is the following:
7 – pole connector, type 12N (normal)
ISO 1724, Third edition, 1997
12 V system:
7 – pole connector, type 12S (supplementary)
ISO 3732, third edition, 1997
7 – pole connector, type 24N (normal)
ISO 1185, Second edition, 1997
24 V system:
7 – pole connector, type 24S (supplementary)
ISO 3731, third edition, 1997
12 V system:
13 – pole connector
ISO 11 446, Second edition,
1995
24 V system:
15 – pole connector
ISO 12 098, First edition, 1994
"
* * *
TRANS/WP.29/GRE/2003/20/Rev.2
page 7
B.
Language:English
Score: 1174688.2
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daccess-ods.un.org/acce...WP.29/GRE/2003/20/REV.2&Lang=E
Data Source: ods
Networks for Prosperity
N4P at World Bank conference
Sidebar - Our focus
Creating shared prosperity
Advancing economic competitiveness
Safeguarding the environment
Strengthening Knowledge and Institutions
Cross-cutting services
Circular economy
Green Industry
Gender equality and the empowerment of women
Industrial policy advice, research and statistics
UNIDO and Small Island Developing States (SIDS)
South-South and Triangular Industrial Cooperation
Partnerships for prosperity
Cooperation with BRICS
Centre for South-South Industrial Cooperation
Global convener on South-South Cooperation
Networks, platforms and partnerships with South-South cooperation focus
Partnerships with international development organizations
Partnerships with the private sector
Technical cooperation projects
Networks, centres, forums and platforms
ITPO Network
National Cleaner Production Centres (NCPCs) & Networks
Networks for Prosperity
2014 Report
2013 Report
2012 Report
2011 Report
2011 Connectedness index
N4P at World Bank conference
Subcontracting and Partnership Exchange
UNIDO and the Global Environment Facility (GEF)
Standard-setting and compliance
Technical cooperation
Building a better future
Networks for Prosperity Initiative partnering globally
In the framework of the Conference and Knowledge fair "Mobilizing Knowledge Networks for Development", which was organized by the World Bank on 19 and 20 June 2012 in Washington DC, UNIDO presented its Network for Prosperity initiative .
Conference participants met to explore ways to become better providers and connectors of knowledge in a world where the sources of knowledge are increasingly diverse and dispersed.
Language:English
Score: 1171767.4
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https://www.unido.org/our-focu...initiative-partnering-globally
Data Source: un
United Nations EC
(b) Environmental protection shall be a minimum of IP 54
(c) The connector shall not be interchangeable with an existing
electrical connector currently used on the towing vehicle
i.e. (...) The electrically controlled steering system of the trailer shall continue to
function at a voltage of [19.2V] measured at the connector interface.
3.3. The nominal operating voltage is 24V
3.4. (...) (b) Environmental protection shall be a minimum of IP 54
(c) The connector shall not be interchangeable with an existing
electrical connector currently used on the towing vehicle i.e.
Language:English
Score: 1171369.4
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daccess-ods.un.org/acce...RANS/WP.29/GRRF/2013/25&Lang=E
Data Source: ods
PROPOSAL FOR DRAFT AMENDMENTS TO REGULATION NO. 48, INSTALLATION OF LIGHTING AND LIGHT-SIGNALLING DEVICES / TRANSMITTED BY THE EXPERTS FROM THE CZECH REPUBLIC AND GERMANY
On towing vehicles and trailers with 12 V system the installation of a 13-pole connector ISO
11 446 instead of or in addition to a 7–pole socket and plug is permissible.
5.26.2. On towing vehicles and trailers with 24 V system the installation of a 15-pole connector ISO
12 098 instead of or in addition to a 7–pole socket and plug is permissible.
5.26.3. (...) The state of standards is the following:
12 V system: 7 – pole connector, type 12N (normal) ISO 1724, Third edition, 1997
7 – pole connector, type 12S (supplementary) ISO 3732, Third edition, 1997
24 V system: 7 – pole connector, type 24N (normal) ISO 1185, Second edition, 1997
7 – pole connector, type 24S (supplementary) ISO 3731, Third edition, 1997
12 V system: 13 – pole connector ISO 11 446, Second edition, 1995, Amend.
1, 1997
24 V system: 15 – pole connector ISO 12 098, First edition, Corr.1, 2001
_________
Language:English
Score: 1170916.7
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daccess-ods.un.org/acce...WP.29/GRE/2003/22/REV.1&Lang=E
Data Source: ods
AddCapacityToTopologicalLinkEndInformation ::= RequestedPointCapacity AddCapacityToTopologicalLinkEndResult ::= SEQUENCE { resultingCapacity PointCapacity, resultingnetworkCTPs NWTPList, resultingProvisionedLinkEndCapacity PointCapacity } AddCapacityToTopologicalLinkInformation ::= RequestedCapacity AddCapacityToTopologicalLinkResult ::= SEQUENCE { resultingCapacity Capacity, resultingLinkConnections LinkConnectionList } AddNWTTPsToAccessGroupInformation ::= SEQUENCE { nwTTPs SET OF ObjectInstance, accessGroup ObjectInstance OPTIONAL } AddNWTTPsToAccessGroupResult ::= SEQUENCE { accessGroup ObjectInstance, addedNWTTPs SET OF ObjectInstance } AssignLinkConnectionOnLogicalLinkInformation ::= SEQUENCE { layerNetworkDomain ObjectInstance, requestedLinkConnections LinkConnectionList } AssignLinkConnectionOnLogicalLinkResult ::= LinkConnectionList AssignNetworkCTPOnLogicalLinkEndInformation ::= CTPList AssignNetworkCTPOnLogicalLinkEndResult ::= CTPList AvailableSignalRateList ::= SET OF SignalRate Bandwidth ::= SEQUENCE OF SEQUENCE {ingress INTEGER, egress INTEGER} Boolean ::= BOOLEAN Capacities ::= SEQUENCE { availableLinkCapacity Capacity, maxProvisionableCapacity Capacity, potentialLinkCapacity Capacity, provisionedLinkCapacity Capacity } Capacity ::= CHOICE { numberOfLinkConnections [0] INTEGER, bandwidth [1] Bandwidth } Channels ::= SET OF Channel Channel ::= INTEGER ComponentPointers ::= SET OF ObjectInstance CompositePointer ::= RelatedObjectInstance ConfiguredConnectivity ::= ENUMERATED { sourceConnect(0), sinkConnect(1), bidirectionalConnect(2), noConnect(3) } ConnectionList ::= SET OF ObjectInstance ConnectivityEndPoint ::= CHOICE { sncTp [1] ObjectInstance, linkEnd [2] ObjectInstance, accessGroup [3] ObjectInstance } ConnectivityPointer ::= RelatedObjectInstance ControlActionType ::= ENUMERATED { closeContinuously(0), openContinuously(1), closeMomentarily(2), openMomentarily(3)} ControlResult ::= ENUMERATED { complete(0), alreadyInCondition(1), fail-InvalidControlActionType(2), fail-ReasonUnknown(3)} ControlState ::= ENUMERATED {closed(0), open(1)} Count ::= INTEGER CTPList ::= NWTPList DeassignLinkConnectionFromLogicalLinkInformation ::= LinkConnectionList DeassignNetworkCTPFromLogicalLinkEndInformation ::= CTPList ExternalPointMessage ::= GraphicString Implicit ::= BOOLEAN(TRUE) Integer ::= INTEGER LinkConnectionList ::= ConnectionList LinkDirectionality ::= ENUMERATED { unidirectional(0), bidirectional(1), undefined(2)} LinkEnd ::= CHOICE { subnetwork [0] ObjectInstance, accessGroup [1] ObjectInstance, linkEnd [2] ObjectInstance } MappingList ::= SEQUENCE OF PayloadLevel NeAssignmentPointer ::= CHOICE { notAvailable NULL, relatedObject ObjectInstance, string GraphicString } None ::= NULL NWTPList ::= SET OF ObjectInstance PayloadLevel ::= CharacteristicInformation PointCapacity ::= CHOICE { numberOfTPs [0] INTEGER, bandwidth [1] Bandwidth } PointDirectionality ::= ENUMERATED {sink(1), source(2), bidirectional(3)} PortAssociations ::= SET OF PortAssociation PortAssociation ::= SEQUENCE { portId NameType, portTrail PointerOrNull -- the choice of NULL means unassigned } PortSignalRateAndMappingList ::= SET OF SEQUENCE {portId NameType, signalRate SignalRate, mappingList MappingList OPTIONAL} PtoPoint ::= SEQUENCE {aEnd ConnectivityEndPoint, zEnd ConnectivityEndPoint } QofConnectivityService ::= ObjectInstance RemoveCapacityFromTopLinkEndInformation ::= RequestedPointCapacity RemoveCapacityFromTopLinkEndResult ::= SEQUENCE { resultingCapacity PointCapacity, resultingLinkConnections LinkConnectionList } RemoveCapacityFromTopologicalLinkInformation ::= RequestedCapacity RemoveCapacityFromTopologicalLinkResult ::= Capacity RequestedPointCapacity ::= CHOICE { specificTPs [1] NWTPList, capacity [2] PointCapacity } RequestedCapacity ::= CHOICE { specificChannels [1] SEQUENCE OF Channel, capacity [2] Capacity } ResetError ::= ENUMERATED {resetFail(0), entityInService(1), ... } ResetLevel ::= CHOICE {completeReset NULL, partialReset INTEGER } ServiceAffectingErrorParameter ::= ENUMERATED {affectingExistingService(0), ... } SignalId ::= CHOICE { simple [0] CharacteristicInformation, bundle [1] Bundle, complex [3] SEQUENCE OF Bundle } SignalRate ::= CHOICE { objectClass [0] OBJECT IDENTIFIER, characteristicInformation [1] CharacteristicInformation } SubNetworkConnectionPointerList ::= SEQUENCE OF RelatedObjectInstance TopologicalEndDirectionality ::= ENUMERATED { undefined(0), sink(1), source(2), bidirectional(3)} TPList ::= SET OF ObjectInstance TrafficDescriptor ::= ObjectInstance UsageCost ::= INTEGER(0..255) UserIdentifier ::= NameType ValidControlType ::= ENUMERATED {momentaryOnly(0), continuousOnly(1), both(2)} ConnectorType ::= INTEGER -- currently defined values for ConnectorType are fcConnectorType ConnectorType ::= 1 -- Fibre Connector lcConnectorType ConnectorType ::= 2 -- Lucent connector scConnectorType ConnectorType ::= 3 -- Subscriber Connector PhysicalPortSignalRateAndMappingList ::= CHOICE { diverse SEQUENCE {downstream SignalRateAndMappingList, upStream SignalRateAndMappingList}, uniform SignalRateAndMappingList } PortNumber ::= INTEGER SignalRateAndMappingList ::= SET OF SEQUENCE { -- only one member in the case of TDM signalRate SignalRate, mappingList MappingList OPTIONAL, wavelength WaveLength OPTIONAL} -- used for WDM -- the SignalRateAndMappingList is a SET OF to accommodate multiple wavelengths on a single TTP Reach ::= INTEGER WaveLength ::= INTEGER END -- Generated by Asnp, the ASN.1 pretty-printer of France Telecom R&D
Language:English
Score: 1170682
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https://www.itu.int/wftp3/Publ...-amd8/M3100ASN1TypeModule2.asn
Data Source: un
AddCapacityToTopologicalLinkEndInformation ::= RequestedPointCapacity
AddCapacityToTopologicalLinkEndResult ::= SEQUENCE { resultingCapacity PointCapacity , resultingnetworkCTPs NWTPList , resultingProvisionedLinkEndCapacity PointCapacity } AddCapacityToTopologicalLinkInformation ::= RequestedCapacity
AddCapacityToTopologicalLinkResult ::= SEQUENCE { resultingCapacity Capacity , resultingLinkConnections LinkConnectionList } AddNWTTPsToAccessGroupInformation ::= SEQUENCE { nwTTPs SET
OF
ObjectInstance , accessGroup ObjectInstance
OPTIONAL } AddNWTTPsToAccessGroupResult ::= SEQUENCE { accessGroup ObjectInstance , addedNWTTPs SET
OF
ObjectInstance } AssignLinkConnectionOnLogicalLinkInformation ::= SEQUENCE { layerNetworkDomain ObjectInstance , requestedLinkConnections LinkConnectionList } AssignLinkConnectionOnLogicalLinkResult ::= LinkConnectionList
AssignNetworkCTPOnLogicalLinkEndInformation ::= CTPList
AssignNetworkCTPOnLogicalLinkEndResult ::= CTPList
AvailableSignalRateList ::= SET
OF
SignalRate
Bandwidth ::= SEQUENCE
OF
SEQUENCE {ingress INTEGER , egress INTEGER } Boolean ::= BOOLEAN
Capacities ::= SEQUENCE { availableLinkCapacity Capacity , maxProvisionableCapacity Capacity , potentialLinkCapacity Capacity , provisionedLinkCapacity Capacity } Capacity ::= CHOICE { numberOfLinkConnections [0]
INTEGER , bandwidth [1]
Bandwidth } Channels ::= SET
OF
Channel
Channel ::= INTEGER
ComponentPointers ::= SET
OF
ObjectInstance
CompositePointer ::= RelatedObjectInstance
ConfiguredConnectivity ::= ENUMERATED { sourceConnect(0), sinkConnect(1), bidirectionalConnect(2), noConnect(3) } ConnectionList ::= SET
OF
ObjectInstance
ConnectivityEndPoint ::= CHOICE { sncTp [1]
ObjectInstance , linkEnd [2]
ObjectInstance , accessGroup [3]
ObjectInstance } ConnectivityPointer ::= RelatedObjectInstance
ControlActionType ::= ENUMERATED { closeContinuously(0), openContinuously(1), closeMomentarily(2), openMomentarily(3)} ControlResult ::= ENUMERATED { complete(0), alreadyInCondition(1), fail-InvalidControlActionType(2), fail-ReasonUnknown(3)} ControlState ::= ENUMERATED {closed(0), open(1)} Count ::= INTEGER
CTPList ::= NWTPList
DeassignLinkConnectionFromLogicalLinkInformation ::= LinkConnectionList
DeassignNetworkCTPFromLogicalLinkEndInformation ::= CTPList
ExternalPointMessage ::= GraphicString
Implicit ::= BOOLEAN ( TRUE )
Integer ::= INTEGER
LinkConnectionList ::= ConnectionList
LinkDirectionality ::= ENUMERATED { unidirectional(0), bidirectional(1), undefined(2)} LinkEnd ::= CHOICE { subnetwork [0]
ObjectInstance , accessGroup [1]
ObjectInstance , linkEnd [2]
ObjectInstance } MappingList ::= SEQUENCE
OF
PayloadLevel
NeAssignmentPointer ::= CHOICE { notAvailable NULL , relatedObject ObjectInstance , string GraphicString } None ::= NULL
NWTPList ::= SET
OF
ObjectInstance
PayloadLevel ::= CharacteristicInformation
PointCapacity ::= CHOICE { numberOfTPs [0]
INTEGER , bandwidth [1]
Bandwidth } PointDirectionality ::= ENUMERATED {sink(1), source(2), bidirectional(3)} PortAssociations ::= SET
OF
PortAssociation
PortAssociation ::= SEQUENCE { portId NameType , portTrail PointerOrNull -- the choice of NULL means unassigned } PortSignalRateAndMappingList ::= SET
OF
SEQUENCE {portId NameType , signalRate SignalRate , mappingList MappingList
OPTIONAL } PtoPoint ::= SEQUENCE {aEnd ConnectivityEndPoint , zEnd ConnectivityEndPoint } QofConnectivityService ::= ObjectInstance
RemoveCapacityFromTopLinkEndInformation ::= RequestedPointCapacity
RemoveCapacityFromTopLinkEndResult ::= SEQUENCE { resultingCapacity PointCapacity , resultingLinkConnections LinkConnectionList } RemoveCapacityFromTopologicalLinkInformation ::= RequestedCapacity
RemoveCapacityFromTopologicalLinkResult ::= Capacity
RequestedPointCapacity ::= CHOICE { specificTPs [1]
NWTPList , capacity [2]
PointCapacity } RequestedCapacity ::= CHOICE { specificChannels [1]
SEQUENCE
OF
Channel , capacity [2]
Capacity } ResetError ::= ENUMERATED {resetFail(0), entityInService(1), ... } ResetLevel ::= CHOICE {completeReset NULL , partialReset INTEGER } ServiceAffectingErrorParameter ::= ENUMERATED {affectingExistingService(0), ... } SignalId ::= CHOICE { simple [0]
CharacteristicInformation , bundle [1]
Bundle , complex [3]
SEQUENCE
OF
Bundle } SignalRate ::= CHOICE { objectClass [0]
OBJECT IDENTIFIER , characteristicInformation [1]
CharacteristicInformation } SubNetworkConnectionPointerList ::= SEQUENCE
OF
RelatedObjectInstance
TopologicalEndDirectionality ::= ENUMERATED { undefined(0), sink(1), source(2), bidirectional(3)} TPList ::= SET
OF
ObjectInstance
TrafficDescriptor ::= ObjectInstance
UsageCost ::= INTEGER (0..255)
UserIdentifier ::= NameType
ValidControlType ::= ENUMERATED {momentaryOnly(0), continuousOnly(1), both(2)} ConnectorType ::= INTEGER
-- currently defined values for ConnectorType are fcConnectorType ConnectorType ::= 1 -- Fibre Connector
lcConnectorType ConnectorType ::= 2 -- Lucent connector
scConnectorType ConnectorType ::= 3 -- Subscriber Connector
PhysicalPortSignalRateAndMappingList ::= CHOICE { diverse SEQUENCE {downstream SignalRateAndMappingList , upStream SignalRateAndMappingList }, uniform SignalRateAndMappingList } PortNumber ::= INTEGER
SignalRateAndMappingList ::= SET
OF
SEQUENCE { -- only one member in the case of TDM signalRate SignalRate , mappingList MappingList
OPTIONAL , wavelength WaveLength
OPTIONAL } -- used for WDM
-- the SignalRateAndMappingList is a SET OF to accommodate multiple wavelengths on a single TTP Reach ::= INTEGER
WaveLength ::= INTEGER
END
-- Generated by Asnp , the ASN.1 pretty-printer of France Telecom R&D
Language:English
Score: 1170682
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https://www.itu.int/wftp3/Publ...amd8/M3100ASN1TypeModule2.html
Data Source: un
PROPOSAL FOR A DRAFT AMENDMENT TO UN REGULATION NO. 86
The 13-pole connector specified in ISO
11446-1:2012 (Road vehicles - Connectors for the electrical connection of
towing and towed vehicles - Part 1: 13-pole connectors for vehicles with
12 V nominal supply voltage not intended to cross water fords) or ISO
11446-2:2012 (Road vehicles - Connectors for the electrical connection of
towing and towed vehicles - Part 2: 13-pole connectors for vehicles with
12 V nominal supply voltage intended to cross water fords) may be used
alternatively. In addition, a 7-pole connector specified in ISO 3732:2003
(Road vehicles - Connectors for the electrical connection of towing and
towed vehicles - 7-pole connector type 12 S (supplementary) for vehicles
with 12 V nominal supply voltage) may be installed."
(...) The supplementary 7-pole connector according to ISO 3732:2003 should also be
permitted.
6.
Language:English
Score: 1166058.5
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https://daccess-ods.un.org/acc.../TRANS/WP.29/GRE/2020/7&Lang=E
Data Source: ods
Open Pluggable Specification :– An integrated modular DS media player solution that interconnects with the display panel via a standard mating internal connector interfaceinternal connector interface
Functional Block Diagram
Docking
Board Power Supply
Unit TMDS
DisplayPort
Pluggable module
8 0 p in JA E T X 2 5
Board
Panel Control
Board
USB for Touch-screen,
Camera, RFID device etc
HDMI/DVI
Audio
UART
Panel
8 0 p in JA E T X 2 4
Legend: Display panel components
DP Sink
Audio
3*USB 2.0
Power
DisplayPort
UART
Control
Signals
DC+12~+19V
Legend: Display panel components
Pluggable Module Prototype
Compact dimension (mm): 180
119
30
1st Fan-less solution for up to Intel® Core™ i7 LV Processor (25W)
200 119
X Intel® Active Management Technology (AMT6.0) enabled for OOB remote manageability
Interconnect Features
1.JAE TX25 Plug & TX24 Receptacle Connectors
Blind-mate type - higher tolerance on mating misalignment
80 pin circuits – 40 top and 40 bottom contacts
500 Insertion Lifecycle
2. Supported Interfaces Power
HDMI/DVI and DisplayPort
AudioAudio
USB2.0/3.0
UART
OPS Control Signals
OPS Technologies Value Added Made Easy
Lower Total Cost of Ownership
Increased Return of Investment
O P E X I M P A C T Installation & Usage
•Higher Implementation Cost
Upgradability
O P S S O L U T IO N
Simplify Installation
• Less cabling
• Space saving
• Consolidated H/W, Image Sensor, NFC, Touch etc
Seamless Upgradability
Improved OPEX with OPS
O P E X I M P A C T
•Difficult to Upgrade
Reliability
•Connection & Wiring Reliability
Serviceability
•Hard to Access & O P S S O L U T IO N
Seamless Upgradability
• Modularity and Scalability
• Interchangeable
Improved Reliability
• Less cabling with JAE Connector
• Reduced liability - Less tangible components e.g Power Supply
Improved Serviceability
Open Pluggable Specification (OPS)9
•Hard to Access & Maintenance O P S S O L U T IO N
Improved Serviceability
• Active management capability
• Easy swap OPS modules
• HW KVM for POP and HDMI CEC for POD
Agenda
• Digital Signage Open Pluggable Specification (OPS) Introduction
• Digital Signage Open Pluggable Specification (OPS) Update
OPS Business Model
• EBM designs, manufactures & ships pluggable modules based on Open Pluggable Specification
• Industry Alliance
EBMs/OEMs/Standard Bodies Embedded
Open Pluggable Specification
•SI/Network Operators
EBMs/OEMs/Standard Bodies Embedded Board
Manufacturer (EBM)
• Co-develop
• Provide samples for test and Validation
De-facto
Standard
• Buys pluggable module from Intel’s enabled EBMs
• Integrates module into OEM displays
Display OEM
DS DISPLAY OEM:
• Faster TTM on new DS player adoption/migration
• Better product scalability and offering
• Easier & faster distribution for the market
OPS Standardization Benefits
EBM & IA ODM:
• Increase high volume business opportunities
• Driving standard reference design for pluggable module – high volume lower costs
ECOSYSTEM & DS ADOPTERS:ECOSYSTEM & DS ADOPTERS:
• Increased reliability between DS Player & display
• Space saving + easier deployment
• Modularity and scalability
• Improved maintenance process
OPS Plug Fest Update
• Objective: • Ensure OPS modules produced by ODMs/OEMs can work seamlessly with OPS displays for OPS broad market engagementengagement
• Date: Jan 9th -10th, 2012 (two-day event)
• Time: 9:30AM – 16:30PM
• Venue: Regent Hotel, Taipei
• Participants as of Dec. 1, 2011 • 6 OPS module manufactures • 8 OPS display manufactures
http://edc.intel.com/Applications/Digital-Signage/OPS/
To download the spec and for more information on OPS go to:
Questions on OPS?
Language:English
Score: 1165936.6
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https://www.itu.int/dms_pub/it.../06/5B/T065B00000B0063PDFE.pdf
Data Source: un
ADDITIONAL PROPOSAL FOR DRAFT SUPPLEMENT 2 TO THE 09 SERIES OF AMENDMENTS TO REGULATION NO. 13, BRAKING / TRANSMITTED BY THE WORKING PARTY ON BRAKES AND RUNNING GEAR (GRRF)
This function shall be automatic.
____________
*/ The ISO 7638:1997 connector may be used for 5 pin or 7 pin applications, as
appropriate."
(...) ISO 11992 Trailer simulator
The simulator shall:
3.1.1. have a connector meeting ISO 7638:1997 (7 pin) to connect to the
vehicle under test. (...) A signal should also be
transmitted via Pin 5 of the ISO 7638:1997
connector (yellow warning).
4.2.2.2. Failure warning
4.2.2.2.1.
Language:English
Score: 1165072.6
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daccess-ods.un.org/acce...&DS=TRANS/WP.29/2000/31&Lang=E
Data Source: ods
