| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| GB/T 32659-2016 | English | RFQ |
ASK
|
3 days [Need to translate]
|
Technical requirements and measurement methods for Private Digital mobile Radio (PDR) equipment
| Valid |
GB/T 32659-2016
|
PDF similar to GB/T 32659-2016
Basic data | Standard ID | GB/T 32659-2016 (GB/T32659-2016) | | Description (Translated English) | Technical requirements and measurement methods for Private Digital mobile Radio (PDR) equipment | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | M36 | | Classification of International Standard | 33.060.20 | | Word Count Estimation | 460,443 | | Date of Issue | 2016-04-25 | | Date of Implementation | 2016-11-01 | | Quoted Standard | GB 4943.1; GB 9254-2008; GB/T 15844.2-1995; GB/T 17618-1998; GB/T 17626.2; GB/T 17626.3; GB/T 17626.4; GB/T 17626.5; GB/T 17626.6; GB/T 17626.11; IEC 62209-2-2010; IEC 62232-2011; IEEE C95.3-2010; IEEC C95.1-2005; ITU-TO.153-1992; ITU-T P.862-2001; EN 611 | | Regulation (derived from) | National Standard Announcement No | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This standard specifies a special digital intercom for use with time-division multiple access or frequency division multiple access (OFDM) for use in the 25 MHz to 1000 MHz range, with a channel spacing of 12.5 kHz for use in terrestrial, inland or coastal mobile communications or fixed communication networks. Equipment, the main technical parameters, limit requirements, measurement methods and air interface protocol and so on. This standard applies to dedicated digital intercom base station, forwarding station, mobile station (car, ship platform), handheld devices and other equipment. | GB/T 32659-2016: Technical requirements and measurement methods for Private Digital mobile Radio (PDR) equipment
---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Technical requirements and measurement methods for Private Digital mobile Radio (PDR) equipment
ICS 33.060.20
M36
National Standards of People's Republic of China
Technical requirements and test methods for dedicated digital intercom equipment
2016-04-25 released
2016-11-01 implementation
General Administration of Quality Supervision, Inspection and Quarantine of the People 's Republic of China
China National Standardization Management Committee released
Directory
Preface III
Introduction IV
1 Scope 1
2 normative reference document 1
3 terms, definitions and abbreviations 2
3.1 Terms and definitions 2
3.2 Abbreviations 6
4 Technical requirements 9
4.1 General technical requirements 9
4.2 RF performance requirements 10
4.3 Electromagnetic compatibility requirements 11
4.4 Electrical safety requirements 12
4.5 Electromagnetic Exposure Requirements
4.6 Environmental Adaptability Requirements 12
5 Test Method 13
5.1 RF performance parameters test method 13
5.2 Electromagnetic compatibility measurement method 26
5.3 Electrical safety measurement method 27
5.4 Methods of measurement of electromagnetic exposure
5.5 Environmental Adaptability Requirements
6 PDR Air Interface Protocol
6.1 General 28
6.2 System A Air Interface Protocol 28
6.3 System B Air Interface Protocol 236
6.4 System C Air Interface Protocol
7 Vigner 365
Appendix A (Normative Appendix) Guidelines for site placement of test sites and radiation testing
Appendix B (Normative Appendix) General Test Method for Radiation Spurs
Appendix C (Normative Appendices) System A Other Descriptions and Definitions
Appendix D (normative) System B Timer, constant definition, channel coding algorithm and transmit bit order 425
Appendix E (Normative Appendix) System C Standard User Interface
Appendix F (informative) ISELP vocoder 440
Appendix G (Informative Appendix) System A Working Sequence Example and Top Level State Description 449
Reference 456
Foreword
This standard is drafted in accordance with the rules given in GB/T 1.1-2009.
This standard is proposed by the Ministry of Industry and Information Technology of the People's Republic of China.
This standard is under the jurisdiction of the National Communications Standardization Technical Committee (SAC/TC485).
The main drafting of the standard units. the National Radio Monitoring Center, the sea can reach Communications Co., Ltd., Guangzhou Haige days legislation through information technology
Co., Ltd., Beijing Jiaotong University, Harbin Institute of Technology, Tsinghua University, Shenzhen Graduate School, Quanzhou Radio Recipes Industry Association, Fu
Jianlian Extension Technology Co., Ltd., Beijing Xun Guangda Communication Technology Co., Ltd., Tsinghua University, People's Liberation Army Polytechnic University, Motorola Systems (China)
Limited company.
The main drafters of this standard. Wang Junfeng, Song Qizhu, Chen Guocheng, Zhao Yang, Song Guowei, Xue Yonggang, Zhang Junchi, Jiang Xiongbiao, Yu Yuguang, Sun Xin,
Tan Xuezhi, right to enter the country, Hu Saigui, Zhang Lingyan, Hong Xiaobin, Cui Huijuan, Zou Xia, He Ping, Zhang Yingzhe.
Introduction
The issuer of this document draws attention to the fact that the statement is in compliance with this document and may involve 10 patents related to system A in 6.2
6.3 may involve six patents related to institution B, which may involve the use of two patents related to institution C at 6.4 may be in Appendix F
Can relate to the use of 14 patents related to vocoders.
The issuer of this document has no position on the authenticity, validity and scope of the patent.
The holder of the document has assured the issuing authority of this document that he is willing to cooperate with any applicant on reasonable and non-discriminatory terms and conditions,
Negotiate on patent licensing. The statement of the patent holder has been filed with the issuing authority of this document. Related information can be found below
Contact.
System A Patent holder name. Hai Nengda Communication Co., Ltd.
Address. Nanshan District, Shenzhen City, North Ring Road, No. 9108 sea to the building
System A Patent holder Name. Hangzhou Chenglian Communication Technology Co., Ltd
Address. 5th Floor, Building 8, No. 1 Wai Yip Road, Binjiang District, Hangzhou
System A Patent holder name. Motorola Systems
Address. Beijing Chaoyang District Wangjing East Road, No. 1 Motorola Building
System B Patent holders Name. Guangzhou Hagrid Talent Information Technology Co., Ltd
Address. No. 88, Haiyun Road, Science City, Guangzhou City
System C Patent holder Name. Fujian LianTuo Technology Co., Ltd
Address. Room 1518, Block B, Jinyun Building, No.43 North Street, Xizhimen, Haidian District, Beijing
Appendix FISELP vocoder patent holder name. Tsinghua University
Address. Room 9-102, 9th Floor, Roma House, Tsinghua University, Haidian District, Beijing
Please note that in addition to the above patents, some of the contents of this document may still involve patents, the issuer of this document does not assume recognition of these patents
Responsibility.
Technical requirements and test methods for dedicated digital intercom equipment
1 Scope
This standard provides for the ground, river or coastal for mobile communications or fixed communications dedicated network, the operating frequency of 25MHz ~
1000MHz range, the channel spacing of 12.5kHz, the use of time division multiple access or frequency division multiple access technology dedicated digital intercom equipment main
Technical parameters, limit requirements, measurement methods and air interface protocol and so on.
This standard applies to dedicated digital intercom base station, forwarding station, mobile station (car, ship platform), handheld devices and other equipment.
2 normative reference documents
The following documents are indispensable for the application of this document. For dated references, the only dated edition applies to this article
Pieces. For undated references, the latest edition (including all modifications) applies to this document.
Information technology - Safety of equipment - Part 1. General requirements
Information technology equipment - Radio disturbance thresholds and methods of measurement GB 9254-2008
Mobile communication FM radio - Environmental requirements and test methods GB/T 15844.2-1995
Information technology equipment - Immunity limits and measurement methods GB/T 17618-1998
Electromagnetic compatibility - Test and measurement techniques - Electrostatic discharge immunity test GB/T
Electromagnetic compatibility - Test and measurement techniques - Radio frequency electromagnetic field immunity immunity test GB/T
GB/T 17626.4 Electromagnetic compatibility test and measurement techniques Electrical fast transient burst immunity test
Electromagnetic compatibility - Testing and measurement techniques - Surge impact immunity test GB/T
GB/T 17626.6 Electromagnetic compatibility test and measurement techniques Radio frequency field sensing conducted disturbances Immunity
GB/T 17626.11 Electromagnetic compatibility test and measurement techniques Immunity test for voltage sags, short interruptions and voltage variations
IEC 62209-2..2010 Frequency range in the range of 30MHz ~ 6GHz, hand-held and the body wears the use of wireless communication equipment to the human body
Electromagnetic Irradiation - Human Models, Instruments and Procedures Part 2. Specific Absorption Rate (SAR) for Wireless Communication Equipment Near Body
Assurance procedures [HumanExposuretoRadioFrequencyFieldsfrom HandheldandBody-MountedWireless
CommunicationDevices-Humanmodels, Instrumentation, andProceduresPart 2. Proceduretode-
Terminethespecificabsorptionrate (SAR) formobilewirelesscommunicationdevicesusedinclose
Proximitytothehumanbody (frequencyrangeof30MHzto6GHz)]
IEC 62232..2011 Method for determining radio intensity and SAR for radiofrequency near the radio base station (De-
TerminationofRFfieldstrengthandSARinthevicinityofradiocommunicationbasestationsforthe
Purposeofevaluatinghumanexposure
IEEEC95.1..2005 Safety level of human body subject to 3 kHz to 300 GHz radio frequency electromagnetic field (SafetyLevelswithRe-
SpecttoHumanExposuretoRadioFrequencyElectromagneticFields, 3kHzto300GHz)
IEEEC95.3..2010 Measurement and calculation method for radioactivity exposure of human radio in the frequency range of 100kHz ~ 300GHz radio
Suggestions (Recommended Recommended Practices for Freedom
FieldsWithRespecttoHumanExposuretoSuchFields, 100kHz ~ 300GHz)
ITU-TO.153..1992 Bit rate is lower than the primary group rate error performance measurement of the basic parameters (Basicparametersforthe
Measurementoferrorperformanceatbitratesbelowtheprimaryrate)
ITU-TP.862..2001 Voice Quality Perceptual Assessment (PESQ). End-to-end voice for narrowband telephone networks and voice codecs
Objective Evaluation of Quality Assessment [PESQ. (Perceptualevaluationofspeechquality) ITU-Tobjectivemethodforend-
To-endspeechqualityassessmentofnarrow-bandtelephonenetworksandspeechcodecs]
EN61162-1 Digital interfaces for navigation and radiocommunication equipment and systems - Part 1. Simple loudspeakers and composite listeners
(Maritimenavigationandradiocommunicationequipmentandsystems-Digitalinterfaces-Part 1.
Singletalkerandmutiplelisteners
3 terms, definitions and abbreviations
3.1 Terms and definitions
The following terms and definitions apply to this document.
3.1.1
Dedicated digital intercom equipment privatedigitalmobileradio
With an external antenna interface for the ground, river or coastal use for a dedicated mobile communication network, the operating frequency range of 25MHz ~
1000MHz, the channel spacing of 12.5kHz, the use of time division multiple access or frequency division multiple access technology, wireless digital intercom equipment, including the base
Station/forwarding station, mobile station (car, boat platform), handheld table and other equipment.
3.1.2
Base station basestation
Mobile communication, with an external antenna interface, as the central station fixed use of dedicated digital intercom equipment.
3.1.3
Relay station
With an external antenna interface, digital intercom equipment in the wireless signal transmission process to enhance the signal to expand the scope of the role of communication
Use digital intercom equipment.
3.1.4
Mobile station mobilestation
With external antenna interface, usually installed in the car, the ship and other vehicles on the power of the dedicated digital intercom equipment.
3.1.5
Handheld portablestation
With external antenna interface, easy to carry (portable or wear) and by the device built-in power supply dedicated digital intercom equipment.
3.1.6
Measurement uncertainty uncertainty
Characterize the dispersion of the measured value reasonably, and the parameters associated with the measurement.
3.1.7
Confidence probability
The probability that the error of the measurement result is within a certain range is the confidence probability of the result, and its value is between 0 and 1.
3.1.8
Burst burst
A limited number of consecutive bit streams on a physical channel.
3.1.9
Time slot
A burst of basic time unit.
3.1.10
Time division multiple access frame TDMA-frame
Consists of two consecutive time slots.
3.1.11
True double-slot true-two-slot
In the 12.5kHz bandwidth of the single-frequency support at the same time two-way business transmission mode.
3.1.12
Superframe superframe
Is composed of a plurality of successive frames.
3.1.13
Downbound outbound
From the base station to the mobile station or mobile station direction.
3.1.14
Upbound inbound
From the mobile station or handheld to the base station direction of transmission.
3.1.15
Physical channel physicalchannel
A modulated RF carrier that carries bit information in bursts.
3.1.16
Logical channel logicalchannel
Independent data channels between logical endpoints.
3.1.17
Forward channel forwardchannel
From the source to the destination.
3.1.18
Reverse channel reversechannel
From the destination to the source.
3.1.19
Receive signal strength indication receivedsignalstrengthindication/RSSI
The rms value of the signal power received by the receiver at the antenna.
3.1.20
1. 1 mode 1. 1mode
When the base station to send and receive different frequency, the dedicated digital intercom communication system can support a mobile station (or handheld) to the base station (or forwarding station)
Of a full-duplex call or a half-duplex call.
3.1.21
2. 1 mode 2. 1 mode
When the base station to send and receive different frequency, the dedicated digital intercom communication system can support two independent calls, can be mobile (or hand
Platform) to the base station (or forwarding station) full duplex call or half duplex call dual service channel mode.
3.1.22
Dual slot data transmission dualslotsdatatransmission
In the data transmission process at the same time occupy a carrier of the two time slots.
3.1.23
Pass mode directmodeoperation
The mobile station (or handset), in the case of a network coverage, does not utilize the base station (or the forwarding station), with one or more other mobile
Taiwan (or handheld) to communicate with the work mode.
3.1.24
Transit mode repeatermodeoperation
The mobile station (or handset) transmits the signal through the base station (or the forwarding station) within the network coverage, with the other one or more mobile
Taiwan (or handheld) to communicate with the work mode.
3.1.25
Extended address extendedaddress
The source address or destination address of a non-mobile station device (such as a PABX extension, PSTN number, or IP address).
3.1.26
Packet data packetdata
A packet of any length is split into packets, and then transmitted by packet.
3.1.27
Supplementary data transmission service supplementarydatatransferservice
For data transmission services between mobile stations or between mobile stations/base stations connected through a gateway.
3.1.28
User plane userplane/U-plane
The protocol stack handles the plane of the user's voice service.
3.1.29
Control plane/C-plane
The protocol stack handles the control functions and the plane of the data service.
3.1.30
Protocol data element protocoldataunit/PDU
An information element that contains protocol control information (signaling) or user data transmitted between peer layers.
3.1.31
Information unit informationelement
Constitute the basic unit of the PDU.
3.1.32
Payload payload
The valid bit information in the information unit.
3.1.33
Authority authority
Whether the dedicated digital intercom device entity has the right to perform a function.
3.1.34
Bearer service
Access points between the provision of information transmission capacity of the business.
3.1.35
Signaling signaling
Used to establish, control and manage the interactive information of the connection.
3.1.36
Broadcast call
A special group call that allows the caller to send voice or data during a call duration while prohibiting the called party from sending.
3.1.37
Dynamic reorganization dynamicgroupnumberassignment
The functions of the new group are programmed by controlling the mobile station (handset) via the air wireless signal.
3.1.38
Group hits into groupcallateentry
During the call of the group call, the mobile station (handset) that has not joined the group calls enters and participates in the group call.
3.1.39
Talk time calduration
The maximum number of calls allowed for a call.
3.1.40
Status message statusmessage
The mobile station (mobile station) transmits short coded information that is pre-set.
3.1.41
Distant halo/resurrection stun/revive
Use the air interface signaling to disable/disable the mobile station (handset) process.
3.1.42
Far away
The use of air interface signaling to disable the mobile station (handheld) process, the remote mobile station (handheld) can not be through the air interface signaling
Lifting the ban.
3.1.43
Frame synchronization
A special bit sequence located in a burst.
3.1.44
Authentication
Identify the process of legality of mobile stations, handhelds, base stations, and forwarding stations.
3.1.45
Identification number
Unified identification within the system management and call control base stations, mobile stations, handheld devices and other equipment identification code.
3.1.46
Base station code basestationidentification
A special identity code used to identify a base station device.
3.1.47
Group call code groupIDidentification
The identity code used to identify the group call.
3.1.48
User number usernumbering
In accordance with a number coding rules for encoding, user-friendly memory use, it is mapped with the identity code.
3.1.49
Vcoder
An analysis of speech, a synthesis coding and decoding device for voice analysis synthesis and voice band compression.
3.1.50
Linear prediction speech coding linearpredictionspeechcoding
Using the linear prediction technique, the value of the current sample is effectively estimated, and the prediction of the redundant signal is maximized. With the prediction of not less than 10
Coefficients and excitation signals to reconstruct the spectral structure of the speech signal.
3.1.51
Margin signal residualsignal
The speech signal is obtained by a linear predictive filter.
3.1.52
Margin spectrum residualspectrum
The signal spectrum obtained by Fourier transforming the margin signal.
3.1.53
Vector quantization vectorquantization
First K (K ≥ 2) samples to form a K-dimensional space RK in a vector, and then the vector once quantified.
3.2 Abbreviations
The following abbreviations apply to this document.
4FSK four-phase frequency shift keying 4-levelFrequencyShiftKeying
AI Air Interface
AIF Additional Information Field AdditionalInformationField
ARP Address Resolution Protocol AddressResolutionProtocol
ARQ automatic retransmission request AutomaticRetransmissionrequest
AT Access Type AccessType
BCD binary coded decimal BinaryCodedDecimal
BER bit error rate BitErrorRate
BF blocks blocks BlockstoFolow
BOC call starts BeginningofCal
BOR Forward Start BeginningofRepeat
BOT transmission begins BeginningofTransmission
BPTC grouping product Turbo code BlockProductTurboCode
BS base station BaseStation
CACH public address channel CommonAnnouncementChannel
CC color code ColorCode
CCF Burst Control Channel Domain ControlChannelField
CCH control channel ControlCHannel
CCL Call Control Layer CalControlLayer
CCL_1 Call Control Layer. Slot 1 Process CalControlLayer. Slot1process
CCL_2 Call Control Layer. Slot 2 Process CalControlLayer. Slot2process
CCL_BS Call Control Layer. Dual Slot Process CalControlLayer. BothSlots
CLI Caller ID Confirmation CalerLineIdentity
CRC Cyclic Redundancy Check Codes CyclicRedundancyChecksum
CSBK control signaling block ControlSignalingBlock
CSBKO Control Signaling Block Opcode CSBKOpcode
CT_CSBK Control Signaling Block Channel Timing ChannelTimingCSBK
CTO channel timing opcode ChannelTimingOpcode
DBSN data block serial number DataBlockSerialNumber
DGNA Dynamic Reorganization DynamicRegroupNumberAssign
DLL data link layer DataLinkLayer
DMO passthrough mode DirectModeOperation
DP data location DataPosition
DPF data packet format DataPacketFormat
DRT Diagnostic Prosody Test DiagnosticRhythmTest
DT Data Type Transfers DataTransmissiontype
EMB Embedded Signaling Field EMBeddedsignalingfield
EOC Call End EndofCal
EOR Forward End EndRepeat
End of the EOT transmission EndofTransmission
ESN electronic serial number ElectronicSerialNumber
ET End frame type EndType
FDMA Frequency Division Multiple Access FrequencyDivisionMultipleAccess
FEC Forward Error ForwardErrorCorrection
FN frame number FrameNumbering
FID feature set identifier FeaturesetIDentification
FLCO Full Link Control Opcode FulLinkControlOpcode
FS Frame Synchronization
FS1 voice frame synchronization FrameSYNC1
FS2 data frame synchronization FrameSYNC2
FSM finite state machine finiteStateMachine
FSN Fragment Serial Number FragmentSequenceNumber
FTC frame type code FrameTypeCode
GB SID global base station address GlobalBaseStationIDentity
GF Galois field, used to calculate the RS code parity bit GaloisFiel
Grp_V_Ch_Usr Group Call Voice Channel User GroupVoiceChannelUser
HC header HeaderCompression
HI header information HeaderInformation
HMSC high-level message sequence diagram HighLevelMessageSequenceChart
HT Header Type HeaderType
ID Identifier IDentifier
IP Internet Protocol InternetProtocol
IPV Internet Protocol version InternetProtocolVersion
ISELP Advanced Sine Excitation Linear Prediction ImprovedSinusoidalOcettingLinearPrediction
LB last data block LastBlock
Listen ListenBeforeTransmit before sending LBT
LC Link Control LinkControl
LCSS link control start/end LinkControlStart/Stop
LDI Leader Dynamic Indicator LeaderDynamicIdentifier
LLID logical link identifier LogicalLinkIDentification
LPC Linear Predictive Coding LinearPredictionCoding
LSB least significant bit LeastSignificantBit
LSF line spectrum frequency LineSpectrumFrequency
LSO least significant byte LeastSignificantOctet
LSP Line Spectrum to LineSpectrumPair
MAC media access control MediumAccessControl
MBC multi-block control package MultipleBlockControlpacket
MFID Manufacturer Function Set Identifier Manufacturer'sFID
MI Message Message MessageInformation
MOS Mean Opinion MeanOpinionScore
MPE maximum allowable exposure MaximumPermissibleExposure
MS mobile station MobileStation
MSB Most Significant Bit MostSignificantBit
MSO Most Significant Byte MostSignificantOctet
OACSU automatically goes off-hook to call OffAirCalSetUp
Opcode Opcode OperationCode
OVCM Open voice channel mode OpenVoiceChannelMode
PABX user switch PrivateAutomaticBrancheXcha
PAR parameter data PARameterdata
...
|