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JJF 1174-2017 English PDF

JJF 1174: Evolution and historical versions

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JJF 1174-2017EnglishRFQ ASK 3 days [Need to translate] Calibration Specification for Vector Signal Generators Valid JJF 1174-2017
JJF 1174-2007EnglishRFQ ASK 7 days [Need to translate] Calibration Specification for Digital Signal Generator Obsolete JJF 1174-2007

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Basic data

Standard ID JJF 1174-2017 (JJF1174-2017)
Description (Translated English) Calibration Specification for Vector Signal Generators
Sector / Industry Metrology & Measurement Industry Standard
Classification of Chinese Standard A56
Word Count Estimation 106,122
Date of Issue 2017-11-20
Date of Implementation 2018-05-20
Older Standard (superseded by this standard) JJF 1174-2007
Regulation (derived from) AQSIQ Notice 2017 No. 103
Issuing agency(ies) General Administration of Quality Supervision, Inspection and Quarantine

JJF 1174-2017: Calibration Specification for Vector Signal Generators

---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.
Calibration Specification for Vector Signal Generators National Metrology Technical Specification of the People's Republic Vector signal generator calibration specification Released on.2017-11-20 2018-05-20 implementation The General Administration of Quality Supervision, Inspection and Quarantine issued Vector signal generator calibration specification Replace JJF 1174-2007 Focal Point. National Radio Measurement Technology Committee Drafting unit. Electronic Fifth Institute of the Ministry of Industry and Information Technology China Institute of Metrology This Code entrusts the National Radio Measurement Technical Committee to explain The main drafters of this specification. Yang Qiaoxin (Electronics Fifth Institute of the Ministry of Industry and Information Technology) He Zhao (China Institute of Metrology) Zhang Yichi (China Institute of Metrology) Participate in the drafters. Wang Yong (Electronics Fifth Institute, Ministry of Industry and Information Technology) Liu Junrong (Electronics Fifth Institute of the Ministry of Industry and Information Technology)

table of Contents

Introduction (III) 1 Scope (1) 2 References (1) 3 terms and units of measurement (1) 3.1 Pilot error vector magnitude (1) 3.2 Data error vector magnitude (1) 4 Overview (1) 5 Measurement characteristics (1) 6 Calibration conditions (3) 6.1 Environmental conditions (3) 6.2 Measurement standards and other equipment (3) 7 Calibration items and calibration methods (5) 7.1 Appearance and normality check (6) 7.2 Internal Crystal Oscillator (6) 7.3 Output signal frequency (6) 7.4 Output Level (7) 7.5 Harmonics, subharmonics and non-harmonics (8) 7.6 Single Sideband Phase Noise (8) 7.7 Residual amplitude modulation and residual frequency modulation of carrier (9) 7.8 Amplitude Modulation and Modulation Demodulation of Amplitude Modulation (9) 7.9 Frequency offset and modulation and demodulation distortion (10) 7.10 Phase modulation and modulation and demodulation distortion of phase modulation (10) 7.11 Pulse modulation on-off ratio and rise/fall time (11) 7.12 Internal modulation signal generator output frequency and amplitude (12) 7.13 TDMA digital modulation quality parameters (13) 7.14 CDMA digital modulation quality parameters (13) 7.15 WLAN Digital Modulation Quality Parameters (15) 7.16 Bluetooth Digital Modulation Quality Parameters (19) 7.17 LTE Digital Modulation Quality Parameters (21) 7.18 WiMAX Digital Modulation Quality Parameters (22) 7.19 User-Defined Digital Modulation Quality Parameters (23) 8 Calibration result expression (24) 9 re-study interval (24) Appendix A Calibration Record Form (25) Appendix B Calibration Certificate Page Format (58) Appendix C Example of Measurement Uncertainty Evaluation (89) Appendix D WLAN 802.11 Parameter List (97)

Introduction

This specification is a revision of JJF 1174-2007 "Digital Signal Generator Calibration Specifications". In the field of communications, digital signal generators are widely used, and the digital signal generators used are vectors. A vector signal generator for modulation (also known as complex modulation or IQ modulation) scheme. Vector modulation is a powerful tone The scheme can generate arbitrary carrier phase and amplitude. In this modulation scheme, the baseband digital information is separated into two Independent components, I (in-phase) and Q (quadrature) components, which are then combined to form a baseband modulation Signal. In recent years, the world famous electronic measuring instrument manufacturer, its digital signal generator, the name Has been replaced with "VectorSignalGenerator", the Chinese name is "vector signal generator", based on this specification The calibration object is a vector signal generator, and the revised specification name is "Vector Signal Generator Calibration Specification". This specification is drafted and revised in accordance with JJF 1071-2010 “Rules for the Preparation of National Metrology Calibration Specifications”. Harmony and adoption of JJF 1001-2011 "General Measurement Terms and Definitions", measurement uncertainty basis JJF 1059.1-2012 "Measurement and Expression of Measurement Uncertainty" was prepared. This specification is compared with JJF 1174-2007 "Digital Signal Generator Calibration Specification", except for editorial modifications. The technical changes are as follows. ---The name of the specification was changed from the original "Digital Signal Generator Calibration Specification" to "Vector Signal Generator Calibration Specification" Fan --- The frequency range has been expanded, and the frequency range has been extended from 250 kHz to 6 GHz to 250 kHz. 44GHz; --- Adjusted the type of communication system being calibrated, adding WLAN, Bluetooth, LTE, WiMAX new communication standard calibration method, no longer retains the calibration of PHS, IS-95CDMA old communication system method. In the WLAN 802.11 communication system, multiple modulation methods are involved, and each modulation method corresponds to multiple The same data rate (see Appendix D) is very complicated. In this specification, the higher the data rate, the higher the index. Each modulation method only requires calibration of the digital modulation quality parameters at its highest data rate. The release of previous versions of this specification. ---JJF 1174-2007. Vector signal generator calibration specification

1 Scope

This specification applies to the calibration of vector signal generators with a frequency range of 250 kHz to 44 GHz, other frequency bands. Can refer to the implementation.

2 reference files

This specification refers to the following documents. JJG180-2002 quartz crystal oscillator in electronic measuring instrument IEEEStd802.16.1-2012 broadband wireless access system with wireless advanced metropolitan area network (MAN) space connection (IEEEStandardforWirelessMAN-AdvancedAirInterfaceforBroadbandWireless AccessSystems) For dated references, only dated versions apply to this specification; undated quotations The latest version (including all amendments) applies to this specification.

3 terms and units of measure

3.1 pilot error vector magnitude piloterrorvectormagnitude; pilotEVM Refers to all orthogonal frequency division multiplexing (orthogonalfrequencydivisionmultiple- in the entire burst) The root mean square of the error vector magnitude of the pilot subcarriers of the xing, abbreviated OFDM) symbol Value in dB. 3.2 data error vector magnitude dataerrorvectormagnitude; dataEVM Refers to the error vector of data subcarriers of all orthogonal frequency division multiplexing symbols in the entire burst. The root mean square value of the amplitude in dB.

4 Overview

The vector signal generator is composed of an internal crystal oscillator, a frequency synthesizing unit, a level control unit, a modulation unit, and the like. A comprehensive signal generator consisting of a sine wave signal and a standard and custom vector Modulate the wave signal. It is widely used in research and development, manufacturing, measurement and other departments.

5 Measurement characteristics

5.1 Internal Crystal Oscillator Boot characteristics. 1 × 10-6 ~ 1 × 10-11; Daily frequency fluctuation. 1×10-6~1×10-11; Daily aging rate. 1×10-6~1×10-11; 1s frequency stability. 1 × 10-6 ~ 1 × 10-11; Frequency reproducibility. 1 × 10-6 ~ 1 × 10-11;