IEEE 1451.0 : 2007
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
SMART TRANSDUCER INTERFACE FOR SENSORS AND ACTUATORS - COMMON FUNCTIONS, COMMUNICATION PROTOCOLS, AND TRANSDUCER ELECTRONIC DATA SHEET (TEDS) FORMATS
17-10-2023
01-01-2007
1 Overview
1.1 Scope
1.2 Purpose
1.3 Conformance
2 Normative references
3 Definitions, acronyms, and abbreviations
3.1 Definitions
3.2 Acronyms and abbreviations
4 Data types
4.1 Unsigned octet integer
4.2 Unsigned 16 bit integer
4.3 Signed 32 bit integer
4.4 Unsigned 32 bit integer
4.5 Single-precision real
4.6 Double-precision real
4.7 String
4.8 Boolean
4.9 IEEE1451Dot0::Args::TimeRepresentation
4.10 Data types for associated applications
4.11 Physical Units
4.12 Universal unique identification
4.13 Arbitrary octet array
4.14 String array
4.15 Boolean array
4.16 Array of 8 bit signed integers
4.17 Array of 16 bit signed integers
4.18 Array of 32 bit signed integers
4.19 Array of 8 bit unsigned integers
4.20 Array of 16 bit unsigned integers
4.21 Array of 32 bit unsigned integers
4.22 Array of single-precision real numbers
4.23 Array of double-precision real numbers
4.24 Array of TimeDuration data types
4.25 Array of TimeInstance data types
5 Smart transducer functional specification
5.1 IEEE 1451 family reference model
5.2 Plug-and-play capability
5.3 Addresses
5.4 Common characteristics
5.5 Transducer Electronic Data Sheets
5.6 TransducerChannel type descriptions
5.7 Embedded TransducerChannels
5.8 TransducerChannel groups
5.9 TransducerChannel proxy
5.10 Attributes and operating modes
5.11 Triggering
5.12 Synchronization
5.13 Status
5.14 Service request logic
5.15 Hot-swap capability
6 Message structures
6.1 Data transmission order and bit significance
6.2 Command message structure
6.3 Reply messages
6.4 TIM initiated message structure
7 Commands
7.1 Standard commands
7.2 Manufacturer-defined commands
8 TEDS specification
8.1 General format for TEDS
8.2 Order of octets in numeric fields
8.3 TEDS identification header
8.4 Meta-TEDS
8.5 TransducerChannel TEDS
8.6 Calibration TEDS
8.7 Frequency Response TEDS
8.8 Transfer Function TEDS
8.9 Text-based TEDS
8.10 End User Application Specific TEDS
8.11 User's Transducer Name TEDS
8.12 Manufacturer-defined TEDS
8.13 PHY TEDS
9 Introduction to the IEEE 1451.0 API
9.1 API goals
9.2 API design decisions
9.3 IEEE1451Dot0
10 Transducer services API
10.1 IEEE1451Dot0::TransducerServices::TimDiscovery
10.2 IEEE1451Dot0::TransducerServices::TransducerAccess
10.3 IEEE1451Dot0::TransducerServices::TransducerManager
10.4 IEEE1451Dot0::TransducerServices::TedsManager
10.5 IEEE1451Dot0::TransducerServices::CommManager
10.6 IEEE1451Dot0::TransducerServices::AppCallback
11 Module Communications API
11.1 IEEE1451Dot0::ModuleCommunication::Comm
11.2 IEEE1451Dot0::ModuleCommunication::P2PComm
11.3 IEEE1451Dot0::ModuleCommunication::NetComm
11.4 IEEE1451Dot0::ModuleCommunication::Registration
11.5 IEEE1451Dot0::ModuleCommunication::P2PRegistration
11.6 IEEE1451Dot0::ModuleCommunication::NetRegistration
11.7 IEEE1451Dot0::ModuleCommunication::Receive
11.8 IEEE1451Dot0::ModuleCommunication::P2PReceive
11.9 IEEE1451Dot0::ModuleCommunication::NetReceive
12 HTTP protocol
12.1 IEEE 1451.0 HTTP API
12.2 Discovery API
12.3 Transducer access API
12.4 TEDS Manager API
12.5 Transducer Manager API
Annex A (informative) Bibliography
Annex B (informative) Guidance to Transducer Services Interface
Annex C (informative) Guidance to Module Communication Interface
Annex D (informative) XML Schema for Text-based TEDS
Annex E (informative) Example Meta-Identification TEDS
Annex F (informative) Example TransducerChannel Identification TEDS
Annex G (informative) Example Calibration Identification TEDS
Annex H (informative) Example Commands TEDS
Annex I (informative) Example Location and Title TEDS
Annex J (informative) Example Units Extension TEDS
Annex K (informative) Examples of Physical Units
Annex L (informative) TEDS read and write protocols
Annex M (informative) Trigger logic configurations
Annex N (informative) Notation summary for IDL
Annex O (informative) TEDS implementation of a simple sensor
Describes the basic functions required to control and manage smart transducers, common communications protocols, and media-independent TEDS formats.
| DevelopmentNote |
Supersedes IEEE DRAFT 1451.0. (10/2007)
|
| DocumentType |
Standard
|
| PublisherName |
Institute of Electrical & Electronics Engineers
|
| Status |
Withdrawn
|
| Supersedes |
| 12/30232747 DC : DRAFT JAN 2013 | BS ISO/IEC 29182-4 - INFORMATION TECHNOLOGY-SENSOR NETWORKS: SENSOR NETWORK REFERENCE ARCHITECTURE (SNRA) - PART 4: ENTITY MODELS |
| BS ISO 17363:2013 | Supply chain applications of RFID. Freight containers |
| 13/30232757 DC : 0 | BS ISO/IEC 29182-7 - REFERENCE ARCHITECTURE FOR SENSOR NETWORK APPLICATIONS AND SERVICES - PART 7: INTEROPERABILITY GUIDELINES |
| 11/30244105 DC : 0 | BS ISO 17363 - SUPPLY CHAIN APPLICATIONS OF RFID - FREIGHT CONTAINERS |
| IEEE 1451.7-2010 | IEEE Standard for Smart Transducer Interface for Sensors and Actuators--Transducers to Radio Frequency Identification (RFID) Systems Communication Protocols and Transducer Electronic Data Sheet Formats |
| ISO 17363:2013 | Supply chain applications of RFID Freight containers |
| IEEE 1451.5 : 2007 | SMART TRANSDUCER INTERFACE FOR SENSORS AND ACTUATORS - WIRELESS COMMUNICATION PROTOCOLS AND TRANSDUCER ELECTRONIC DATA SHEET (TEDS) FORMATS |
| ISO/IEC 29182-4:2013 | Information technology Sensor networks: Sensor Network Reference Architecture (SNRA) Part 4: Entity models |
| BS ISO/IEC 29182-4:2013 | Information technology. Sensor networks: Sensor Network Reference Architecture (SNRA) Entity models |
| SAE ARP 5120 : 2016 | AIRCRAFT GAS TURBINE ENGINE HEALTH MANAGEMENT SYSTEM DEVELOPMENT AND INTEGRATION GUIDE |
| IEEE 21451-001-2017 | IEEE Recommended Practice for Signal Treatment Applied to Smart Transducers |
| IEEE 1149.1-2013 REDLINE | IEEE Standard for Test Access Port and Boundary-Scan Architecture |
| IEEE 1451.4 : 2004 | A SMART TRANSDUCER INTERFACE FOR SENSORS AND ACTUATORS - MIXED-MODE COMMUNICATION PROTOCOLS AND TRANSDUCER ELECTRONIC DATA SHEET (TEDS) FORMATS |
| ISO 639:1988 | Code for the representation of names of languages |
| IEEE 1451.2 : 1997 | SMART TRANSDUCER INTERFACE FOR SENSORS AND ACTUATORS - TRANSDUCER TO MICROPROCESSOR COMMUNICATION PROTOCOLS AND TRANSDUCER ELECTRONIC DATA SHEET (TEDS) FORMATS |
| IEEE 802.3-2012 | IEEE Standard for Ethernet |
| ISO 8601:2004 | Data elements and interchange formats Information interchange Representation of dates and times |
| IEEE 1451.1 : 2007 | IEEE STANDARD FOR A SMART TRANSDUCER INTERFACE FOR SENSORS AND ACTUATORS - NETWORK CAPABLE APPLICATION PROCESSOR (NCAP) INFORMATION MODEL |
| IEEE 1451.5 : 2007 | SMART TRANSDUCER INTERFACE FOR SENSORS AND ACTUATORS - WIRELESS COMMUNICATION PROTOCOLS AND TRANSDUCER ELECTRONIC DATA SHEET (TEDS) FORMATS |
| ISO/IEC 14750:1999 | Information technology Open Distributed Processing Interface Definition Language |
| IEEE 754-2008 REDLINE | IEEE Standard for Floating-Point Arithmetic |
| IEEE 1588-2008 REDLINE | IEEE Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems |
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