0160003.MR,0160003.MR,0160003.MR,016001.5MR,016001.5MR,016001.5MR,0160001.MR, 规格书,Datasheet 资料

基地医院卒中住院病例结构化数据库数据结构及规范(V-1.1)国家卫生计生委脑卒中筛查与防治工程委员会办公室中国卒中数据中心2014-2-19目录一、背景及适用范围 (3)二、住院卒中相关病例入选条件及流程说明 (3)2.1病例入选条件 (3)2.2病历数据集成归档流程 (4)2.3 卒中住院病例中间库数据结构 (4)2.4 卒中住院病例中间库数据集编目 (5)三、住院卒中病例中间数据库的数据内容 (7)3.1患者基本信息表 (7)3.2住院诊疗信息 (8)3.2.1病案首页 (8)3.2.2诊断信息 (12)3.2.3医嘱信息 (13)3.2.4用药信息表(收费信息系统) (15)3.2.5实验室检验信息 (16)3.2.6影像检查信息 (17)3.2.7手术信息 (19)3.3.8体格检查 (20)3.2.9入院记录 (21)3.2.10出院小结 (22)3.2.11病程记录 (23)3.2.12护理记录 (24)3.2.13专项评估信息 (25)3.2.14费用明细信息 (26)3.3门诊诊疗信息（含体检，待发布） (26)四、附录数据集值域标准 (27)FB001 医疗付款方式代码表 (27)FB002 性别代码表 (27)FB003 民族代码表 (27)FB004 职业代码表 (28)FB005 婚姻代码表 (28)FB006联系人关系代码表 (29)FB007入院途径代码表 (29)FB008入院情况代码表 (29)FB009 科别代码表 (29)FB010治疗结果代码_CV5501.11 (32)FB011 血型代码 (33)FB012 RH代码 (33)FB013 离院方式代码 (33)FB014 西医诊断类型_ CV5502.20 (33)FB015 中医诊断类型_ CV5502.21 (34)FB016 医嘱类别代码表_ CV5402.01 (34)FB017 中药使用类别代码_ CV5301.05 (34)FB018 药物类型代码_ CV5301.06 (34)FB019 药物剂型代码表_ CV5301.01 (39)FB020 用药途径代码表_CV06.00.102 (41)FB021 检验分类代码表 (42)FB022 标本类型代码表 (42)FB023 影像检查类型一级分类代码表 (43)FB024 手术级别代码表 (44)FB025 切口等级代码表 (44)FB026切口愈合等级代码表 (44)FB027 麻醉方式代码表_ CV5201.24 (44)FB028手术/操作体表部位代码CV5201.23 (45)FB029 手术类型代码表 (46)FB030 入院记录分类代码表 (47)FB031 护理等级代码表 (47)一、背景及适用范围针对我国慢性病特别是慢性心脑血管病的高发态势，为降低脑卒中的发病率和死亡率，加快推动脑卒中的筛查与防控，更好地维护人民群众的健康权益，2009年6月，“脑卒中筛查与防治工程”（以下简称“工程“）在卫生部正式启动。

Main Categories000.0000 General010.0010 Atmospheric and ocean optics020.0020 Atomic and molecular physics030.0030 Coherence and statistical optics040.0040 Detectors050.0050 Diffraction and gratings060.0060 Fiber optics and optical communications070.0070 Fourier optics and optical signal processing080.0080 Geometrical optics090.0090 Holography100.0100 Image processing110.0110 Imaging systems120.0120 Instrumentation, measurement and metrology130.0130 Integrated optic140.0140 Lasers and laser optics150.0150 Machine vision160.0160 Materials170.0170 Medical optics and biotechnology180.0180 Microscopy190.0190 Nonlinear optics200.0200 Optical computing210.0210 Optical data storage220.0220 Optical design and fabrication230.0230 Optical device240.0240 Optics at surfaces250.0250 Optoelectronics260.0260 Physical optics270.0270 Quantum optics280.0280 Remote sensing290.0290 Scattering300.0300 Spectroscopy310.0310 Thin films320.0320 Ultrafast optics330.0330 Vision and color340.0340 X-ray optics350.0350 Other areas of optics999.9999 Free-form terms gratingsComplete Listing000.0000 General000.1200 Announcements, awards, news, and organizational activities 000.1410 Biography000.1430 Biology and medicine000.1570 Chemistry000.1600 Classical and quantum physics000.1780 Conferences, lectures, and institutes000.2060 Education000.2170 Equipment and techniques000.2190 Experimental physics000.2690 General physics000.2700 General science000.2780 Gravity000.2850 History and philosophy000.3110 Instruments, apparatus, and components common to the sciences 000.3860 Mathematical methods in physics000.3870 Mathematics000.4430 Numerical approximation and analysis000.4920 Other life sciences000.4930 Other topics of general interest000.5360 Physics literature and publications000.5490 Probability theory, stochastic processes, and statistics 000.5920 Science and society000.6590 Statistical mechanics000.6800 Theoretical physics000.6850 Thermodynamics010.0010 Atmospheric and ocean optics010.1080 Adaptive optics010.1100 Aerosol detection010.1110 Aerosols010.1120 Air pollution monitoring010.1280 Atmospheric composition010.1290 Atmospheric optics010.1300 Atmospheric propagation010.1310 Atmospheric scattering010.1320 Atmospheric transmittance010.1330 Atmospheric turbulence010.2940 Ice crystal phenomena010.3310 Laser beam transmission010.3640 Lidar010.3920 Meteorology010.4030 Mirages and refraction010.4450 Ocean optics010.4950 Ozone010.7030 Troposphere010.7060 Turbulence010.7340 Water010.7350 Wave-front sensing020.0020 Atomic and molecular physics 020.1670 Coherent optical effects020.2070 Effects of collisions020.2930 Hyperfine structure020.3260 Isotope shifts020.3690 Line shapes and shifts020.4180 Multiphoton processes020.4900 Oscillator strengths020.5580 Quantum electrodynamics020.5780 Rydberg states020.6580 Stark effect020.7010 Trapping020.7490 Zeeman effect030.0030 Coherence and statistical optics 030.1640 Coherence030.1670 Coherent optical effects030.4070 Modes030.4280 Noise in imaging systems030.5260 Photon counting030.5290 Photon statistics030.5620 Radiative transfer030.5630 Radiometry030.5770 Roughness030.6140 Speckle030.6600 Statistical optics030.6610 Stellar speckle interferometry 030.7060 Turbulence040.0040 Detectors040.1240 Arrays040.1490 Cameras040.1520 CCD, charge-coupled device040.1880 Detection040.2480 FLIR, forward-looking infrared 040.2840 Heterodyne040.3060 Infrared040.3780 Low light level040.4200 Multiple quantum well040.5150 Photoconductivity040.5160 Photodetectors040.5190 Photographic film040.5250 Photomultipliers040.5350 Photovoltaic040.5570 Quantum detectors040.6040 Silicon040.6070 Solid state040.7190 Ultraviolet040.7290 Video040.7480 X-rays050.0050 Diffraction and gratings050.1220 Apertures050.1380 Binary optics050.1590 Chirping050.1930 Dichroism050.1940 Diffraction050.1950 Diffraction gratings050.1960 Diffraction theory050.1970 Diffractive optics050.2230 Fabry-Perot050.2770 Gratings050.5080 Phase shift050.7330 Volume holographic gratings060.0060 Fiber optics and optical communications 060.1660 Coherent communications060.1810 Couplers, switches, and multiplexers 060.2270 Fiber characterization060.2280 Fiber design and fabrication060.2290 Fiber materials060.2300 Fiber measurements060.2310 Fiber optics060.2320 Fiber optics amplifiers and oscillators 060.2330 Fiber optics communications060.2340 Fiber optics components060.2350 Fiber optics imaging060.2360 Fiber optics links and subsystems060.2370 Fiber optics sensors060.2380 Fiber optics sources and detectors 060.2390 Fiber optics, infrared060.2400 Fiber properties060.2410 Fibers, erbium060.2420 Fibers, polarization-maintaining060.2430 Fibers, single-mode060.2630 Frequency modulation060.2800 Gyroscopes060.2920 Homodyning060.4080 Modulation060.4230 Multiplexing060.4250 Networks060.4370 Nonlinear optics, fibers060.4510 Optical communications060.5060 Phase modulation060.5530 Pulse propagation and solitons060.7140 Ultrafast processes in fibers070.0070 Fourier optics and optical signal processing 070.1060 Acousto-optical signal processing070.1170 Analog optical signal processing070.2580 Fourier optics070.2590 Fourier transforms070.4340 Nonlinear optical signal processing070.4550 Optical correlators070.4560 Optical data processing070.4690 Optical morphological transformations070.4790 Optical spectrum analysis070.5010 Pattern recognition and feature extraction 070.5040 Phase conjugation070.6020 Signal processing070.6110 Spatial filtering070.6760 Talbot effect080.0080 Geometrical optics080.1010 Aberration theory080.1510 Caustics080.2710 Geometrical optics, inhomogeneous media 080.2720 Geometrical optics, mathematical methods 080.2730 Geometrical optics, matrix methods080.2740 Geometrical optics, optical design080.3620 Lens design080.3630 Lenses090.0090 Holography090.1000 Aberration compensation090.1760 Computer holography090.1970 Diffractive optics090.2820 Heads-up displays090.2870 Holographic display090.2880 Holographic interferometry090.2890 Holographic optical elements090.2900 Holographic recording materials090.2910 Holography, microwave090.4220 Multiplex holography090.5640 Rainbow holography090.7330 Volume holographic gratings100.0100 Image processing100.1160 Analog optical image processing100.1390 Binary phase-only filters100.1830 Deconvolution100.1930 Dichroism100.2000 Digital image processing100.2550 Focal-plane-array image processors100.2650 Fringe analysis100.2810 Halftone image reproduction100.2960 Image analysis100.2980 Image enhancement100.3010 Image reconstruction techniques100.3020 Image reconstruction-restoration100.3190 Inverse problems100.4550 Optical correlators100.5010 Pattern recognition and feature extraction 100.5070 Phase retrieval100.5090 Phase-only filters (kinoforms)100.5760 Rotation-invariant pattern recognition 100.6640 Superresolution100.6740 Synthetic discrimination functions100.6890 Three-dimensional image processing100.6950 Tomographic image processing100.7410 Wavelets110.0110 Imaging systems110.1220 Apertures110.1650 Coherence imaging110.2350 Fiber optics imaging110.2760 Gradient-index lenses110.2960 Image analysis110.2970 Image detection systems110.2990 Image formation theory110.3000 Image quality assessment110.3080 Infrared imaging110.3960 Microlithography110.0180 Microscopy110.4100 Modulation transfer function110.4190 Multiple imaging110.4280 Noise in imaging systems110.4500 Optical coherence tomography110.4850 Optical transfer functions110.4980 Partial coherence in imaging110.5100 Phased-array imaging systems110.5120 Photoacoustic imaging110.5200 Photography110.5220 Photolithography110.6150 Speckle imaging110.6760 Talbot effect110.6770 Telescopes110.6820 Thermal imaging110.6880 Three-dimensional image acquisition110.6960 Tomography110.6980 Transforms110.7050 Turbid media110.7170 Ultrasound110.7440 X-ray imaging120.0120 Instrumentation, measurement, and metrology 120.1680 Collimation120.1740 Combustion diagnostics120.1840 Densitometers, reflectometers120.1880 Detection120.2040 Displays120.2130 Ellipsometry and polarimetry120.2230 Fabry-Perot120.2440 Filters120.2650 Fringe analysis120.2820 Heads-up displays120.2830 Height measurements120.2880 Holographic interferometry120.2920 Homodyning120.3150 Integrating spheres120.3180 Interferometry120.3620 Lens design120.3890 Medical optics instrumentation120.3930 Metrological instrumentation120.3940 Metrology120.4120 Moire' techniques120.4140 Monochromators120.4290 Nondestructive testing120.4530 Optical constants120.4570 Optical design of instruments120.4610 Optical fabrication120.4630 Optical inspection120.4640 Optical instruments120.4800 Optical standards and testing120.4820 Optical systems120.5050 Phase measurement120.5060 Phase modulation120.5240 Photometry120.5410 Polarimetry120.5630 Radiometry120.5700 Reflection120.5710 Refraction120.0280 Remote sensing120.5790 Sagnac effect120.5800 Scanners120.5820 Scattering measurements120.6150 Speckle imaging120.6160 Speckle interferometry120.6200 Spectrometers and spectroscopic instrumentation 120.6650 Surface measurements, figure120.6660 Surface measurements, roughness120.6710 Susceptibility120.6780 Temperature120.6810 Thermal effects120.7000 Transmission120.7250 Velocimetry120.7280 Vibration analysis130.0130 Integrated optics130.1750 Components130.2790 Guided waves130.3060 Infrared130.3120 Integrated optics devices130.3130 Integrated optics materials 130.3730 Lithium niobate130.3750 Logic devices130.4310 Nonlinear130.0250 Optoelectronics130.5990 Semiconductors130.6010 Sensors130.6750 Systems140.0140 Lasers and laser optics140.1340 Atomic gas lasers140.1540 Chaos140.1550 Chemical lasers140.1700 Color center lasers140.2010 Diode laser arrays140.2020 Diode lasers140.2050 Dye lasers140.2180 Excimer lasers140.2600 Free electron lasers140.3070 Infrared and far-infrared lasers 140.3210 Ion lasers140.3280 Laser amplifiers140.3290 Laser arrays140.3300 Laser beam shaping140.3320 Laser cooling140.3330 Laser damage140.3360 Laser eye protection140.3370 Laser gyroscopes140.3380 Laser materials140.3390 Laser materials processing140.3410 Laser resonators140.3430 Laser theory140.3440 Laser-induced breakdown140.3450 Laser-induced chemistry140.3460 Lasers140.3470 Lasers, carbon dioxide140.3480 Lasers, diode-pumped140.3490 Lasers, distributed-feedback 140.3500 Lasers, erbium140.3510 Lasers, fiber140.3520 Lasers, injection-locked140.3530 Lasers, neodymium140.3540 Lasers, Q-switched140.3550 Lasers, Raman140.3560 Lasers, ring140.3570 Lasers, single-mode140.3580 Lasers, solid-state140.3590 Lasers, titanium140.3600 Lasers, tunable140.3610 Lasers, ultraviolet140.4050 Mode-locked lasers140.4130 Molecular gas lasers140.4480 Optical amplifiers140.4780 Optical resonators140.5560 Pumping140.5680 Rare earth and transition metal solid-state lasers 140.5960 Semiconductor lasers140.6630 Superradiance, superfluorescence140.6810 Thermal effects140.7010 Trapping140.7090 Ultrafast lasers140.7240 UV, XUV, and X-ray lasers140.7300 Visible lasers150.0150 Machine vision150.2950 Illumination150.3040 Industrial inspection150.4620 Optical flow150.5670 Range finding150.6910 Three-dimensional sensing160.0160 Materials160.1050 Acousto-optical materials160.1190 Anisotropic optical materials160.1890 Detector materials160.2100 Electro-optical materials160.2120 Elements160.2220 F-center materials160.2260 Ferroelectrics160.2290 Fiber materials160.2540 Fluorescent and luminescent materials160.2750 Glass and other amorphous materials160.2900 Holographic recording materials160.3130 Integrated optics materials160.3220 Ionic crystals160.3380 Laser materials160.3710 Liquid crystals160.3730 Lithium niobate160.3820 Magneto-optical materials160.3900 Metals160.4330 Nonlinear optical materials160.4670 Optical materials160.4760 Optical properties160.4890 Organic materials160.5140 Photoconductive materials160.5320 Photorefractive materials160.5470 Polymers160.5690 Rare earth doped materials160.6000 Semiconductors, including MQW160.6030 Silica160.6060 Solgel160.6840 Thermo-optical materials160.6990 Transition metal-doped materials170.0170 Medical optics and biotechnology 170.1020 Ablation of tissue170.1420 Biology170.1460 Blood gas monitoring170.1470 Blood/tissue constituent monitoring 170.1530 Cell analysis170.1580 Chemometrics170.1610 Clinical applications170.1630 Coded aperture imaging170.1650 Coherence imaging170.1790 Confocal microscopy170.1850 Dentistry170.1870 Dermatology170.2150 Endoscopic imaging170.2520 Fluorescence microscopy170.2670 Gamma ray imaging170.2680 Gastrointestinal170.3010 Image reconstruction techniques 170.0110 Imaging systems170.3340 Laser Doppler velocimetry170.3650 Lifetime-based sensing170.3660 Light propagation in tissues170.3830 Mammography170.3880 Medical and biological imaging170.3890 Medical optics instrumentation170.0180 Microscopy170.4090 Modulation techniques170.4440 ObGyn170.4460 Ophthalmic optics170.4470 Ophthalmology170.4500 Optical coherence tomography170.4520 Optical confinement and manipulation170.4580 Optical diagnostics for medicine170.4730 Optical pathology170.4940 Otolaryngology170.5120 Photoacoustic imaging170.5180 Photodynamic therapy170.5270 Photon density waves170.5280 Photon migration170.5380 Physiology170.5660 Raman spectroscopy170.5810 Scanning microscopy170.6280 Spectroscopy, fluorescence and luminescence 170.6480 Spectroscopy, speckle170.6510 Spectroscopy, tissue diagnostics170.6900 Three-dimensional microscopy170.6920 Time-resolved imaging170.6930 Tissue170.6940 Tissue welding170.6960 Tomography170.7050 Turbid media170.7160 Ultrafast technology170.7170 Ultrasound170.7180 Ultrasound diagnostics170.7230 Urology170.7440 X-ray imaging180.0180 Microscopy180.1790 Confocal microscopy180.2520 Fluorescence microscopy180.3170 Interference microscopy180.5810 Scanning microscopy180.6900 Three-dimensional microscopy180.7460 X-ray microscopy190.0190 Nonlinear optics190.1450 Bistability190.1900 Diagnostic applications of nonlinear optics 190.2620 Frequency conversion190.2640 Frequency shifting190.3100 Instabilities and chaos190.3270 Kerr effect190.3970 Microparticle nonlinear optics190.4160 Multiharmonic generation190.4180 Multiphoton processes190.4350 Nonlinear optics at surfaces190.4360 Nonlinear optics, devices190.4370 Nonlinear optics, fibers190.4380 Nonlinear optics, four-wave mixing190.4390 Nonlinear optics, integrated optics190.4400 Nonlinear optics, materials190.4410 Nonlinear optics, parametric processes190.4420 Nonlinear optics, transverse effects in190.4710 Optical nonlinearities in organic materials 190.4720 Optical nonlinearities of condensed matter 190.4870 Optically induced thermo-optical effects 190.4970 Parametric oscillators and amplifiers190.5040 Phase conjugation190.5330 Photorefractive nonlinear optics190.5530 Pulse propagation and solitons190.5650 Raman effect190.5890 Scattering, stimulated190.5940 Self-action effects190.5970 Semiconductor nonlinear optics including MQW 190.7070 Two-wave mixing190.7110 Ultrafast nonlinear optics190.7220 Upconversion200.0200 Optical computing200.1130 Algebraic optical processing200.2610 Free-space digital optics200.3050 Information processing200.3760 Logic-based optical processing200.4260 Neural networks200.4490 Optical associative memories200.4540 Optical content addressable memory processors 200.4560 Optical data processing200.4650 Optical interconnects200.4660 Optical logic200.4690 Optical morphological transformations 200.4700 Optical neural systems200.4740 Optical processing200.4860 Optical vector-matrix systems200.4880 Optomechanics200.4960 Parallel processing210.0210 Optical data storage210.2860 Holographic and volume memories210.3810 Magneto-optical devices210.3820 Magneto-optical materials210.4590 Optical disks210.4680 Optical memories210.4770 Optical recording210.4810 Optical storage-recording materials220.0220 Optical design and fabrication220.1000 Aberration compensation220.1010 Aberration theory220.1140 Alignment220.1230 Apodization220.1250 Aspherics220.1770 Concentrators220.1920 Diamond machining220.2560 Focus220.2740 Geometrical optics, optical design 220.3620 Lens design220.3630 Lenses220.3740 Lithography220.4000 Microstructure fabrication220.4610 Optical fabrication220.4830 Optical systems design220.4840 Optical testing220.4880 Optomechanics220.5450 Polishing230.0230 Optical devices230.1040 Acousto-optical devices230.1150 All-optical devices230.1360 Beam splitters230.1480 Bragg reflectors230.0040 Detectors230.1950 Diffraction gratings230.1980 Diffusers230.2090 Electro-optical devices230.2240 Faraday effect230.3120 Integrated optics devices 230.3240 Isolators230.3670 Light-emitting diodes230.3720 Liquid-crystal devices230.3810 Magneto-optical devices230.3990 Microstructure devices230.4000 Microstructure fabrication 230.4040 Mirrors230.4110 Modulators230.4170 Multilayers230.4320 Nonlinear optical devices 230.0250 Optoelectronics230.4910 Oscillators230.5160 Photodetectors230.5170 Photodiodes230.5440 Polarization-sensitive devices 230.5480 Prisms230.5590 Quantum-well devices230.5750 Resonators230.6080 Sources230.6120 Spatial light modulators230.7020 Traveling-wave devices230.7370 Waveguides230.7380 Waveguides, channeled230.7390 Waveguides, planar230.7400 Waveguides, slab240.0240 Optics at surfaces240.4350 Nonlinear optics at surfaces 240.5420 Polaritons240.5450 Polishing240.5770 Roughness240.6490 Spectroscopy, surface240.6670 Surface photochemistry240.6680 Surface plasmons240.6690 Surface waves240.6700 Surfaces240.0310 Thin films240.7040 Tunneling250.0250 Optoelectronics250.1500 Cathodoluminescence250.2080 Electro-optic polymers250.3140 Integrated optoelectronic circuits 250.3680 Light-emitting polymers250.4480 Optical amplifiers250.5230 Photoluminescence250.5300 Photonic integrated circuits250.5460 Polymer waveguides-fibers250.5530 Pulse propagation and solitons250.5980 Semiconductor optical amplifiers250.7260 Vertical cavity surface emitting lasers 250.7270 Vertical emitting lasers250.7360 Waveguide modulators260.0260 Physical optics260.1180 Anisotropic media (crystal optics) 260.1440 Birefringence260.1560 Chemiluminescence260.1960 Diffraction theory260.2030 Dispersion260.2110 Electromagnetic theory260.2130 Ellipsometry and polarimetry260.2160 Energy transfer260.2510 Fluorescence260.3060 Infrared260.3090 Infrared, far260.3160 Interference260.3230 Ionization260.3800 Luminescence260.3910 Metals, optics of260.5130 Photochemistry260.5150 Photoconductivity260.5210 Photoionization260.5430 Polarization260.5740 Resonance260.5950 Self-focusing260.6580 Stark effect260.6970 Total internal reflection260.7190 Ultraviolet260.7200 Ultraviolet, extreme260.7210 Ultraviolet, far260.7490 Zeeman effect270.0270 Quantum optics270.1670 Coherent optical effects270.2500 Fluctuations, relaxations, and noise 270.3100 Instabilities and chaos270.3430 Laser theory270.4180 Multiphoton processes270.5290 Photon statistics270.5530 Pulse propagation and solitons270.5570 Quantum detectors270.5580 Quantum electrodynamics270.6570 Squeezed states270.6620 Strong-field processes270.6630 Superradiance, superfluorescence280.0280 Remote sensing280.1100 Aerosol detection280.1120 Air pollution monitoring280.1310 Atmospheric scattering280.1740 Combustion diagnostics280.1910 DIAL, differential absorption lidar 280.2470 Flames280.2490 Flow diagnostics280.3340 Laser Doppler velocimetry280.3400 Laser range finder280.3420 Laser sensors280.3640 Lidar280.4750 Optical processing of radar images 280.5110 Phased-array radar280.5600 Radar280.6730 Synthetic aperture radar280.7060 Turbulence280.7250 Velocimetry290.0290 Scattering290.1090 Aerosol and cloud effects290.1310 Atmospheric scattering290.1350 Backscattering290.1990 Diffusion290.2200 Extinction290.3030 Index measurements290.3200 Inverse scattering290.3700 Linewidth290.3770 Long-wave scattering290.4020 Mie theory290.4210 Multiple scattering290.5820 Scattering measurements290.5830 Scattering, Brillouin290.5840 Scattering, molecules290.5850 Scattering, particles290.5860 Scattering, Raman290.5870 Scattering, Rayleigh290.5880 Scattering, rough surfaces290.5890 Scattering, stimulated290.5900 Scattering, stimulated Brillouin290.5910 Scattering, stimulated Raman290.5930 Scintillation290.7050 Turbid media300.0300 Spectroscopy300.1030 Absorption300.2140 Emission300.2530 Fluorescence, laser-induced300.2570 Four-wave mixing300.3700 Linewidth300.6170 Spectra300.6190 Spectrometers300.6210 Spectroscopy, atomic300.6220 Spectroscopy, beam foil300.6230 Spectroscopy, coherent anti-Stokes Raman scattering 300.6240 Spectroscopy, coherent transient300.6250 Spectroscopy, condensed matter300.6260 Spectroscopy, diode lasers300.6270 Spectroscopy, far infrared300.6280 Spectroscopy, fluorescence and luminescence300.6290 Spectroscopy, four-wave mixing300.6300 Spectroscopy, Fourier transforms300.6310 Spectroscopy, heterodyne300.6320 Spectroscopy, high-resolution300.6330 Spectroscopy, inelastic scattering including Raman 300.6340 Spectroscopy, infrared300.6350 Spectroscopy, ionization300.6360 Spectroscopy, laser300.6370 Spectroscopy, microwave300.6380 Spectroscopy, modulation300.6390 Spectroscopy, molecular300.6400 Spectroscopy, molecular beam300.6410 Spectroscopy, multiphoton300.6420 Spectroscopy, nonlinear300.6430 Spectroscopy, optoacoustic and thermo-optic300.6440 Spectroscopy, optogalvanic300.6450 Spectroscopy, Raman300.6460 Spectroscopy, saturation300.6470 Spectroscopy, semiconductors300.6480 Spectroscopy, speckle300.6490 Spectroscopy, surface300.6500 Spectroscopy, time-resolved300.6520 Spectroscopy, trapped ion300.6530 Spectroscopy, ultrafast300.6540 Spectroscopy, ultraviolet300.6550 Spectroscopy, visible300.6560 Spectroscopy, x-ray310.0310 Thin films310.1210 Antireflection310.1620 Coatings310.1860 Deposition and fabrication310.2790 Guided waves310.3840 Materials and process characterization310.6860 Thin films, optical properties310.6870 Thin films, other properties320.0320 Ultrafast optics320.1590 Chirping320.2250 Femtosecond phenomena320.3980 Microsecond phenomena320.4240 Nanosecond phenomena320.5390 Picosecond phenomena320.5520 Pulse compression320.5540 Pulse shaping320.5550 Pulses320.7080 Ultrafast devices320.7090 Ultrafast lasers320.7100 Ultrafast measurements320.7110 Ultrafast nonlinear optics320.7120 Ultrafast phenomena320.7130 Ultrafast processes in condensed matter, including semiconductors320.7140 Ultrafast processes in fibers320.7150 Ultrafast spectroscopy320.7160 Ultrafast technology330.0330 Vision and color330.1070 Acuity330.1400 Binocular vision and stereopsis330.1690 Color330.1710 Color measurement330.1720 Color vision330.1730 Colorimetry330.1800 Contrast sensitivity330.1880 Detection330.2210 Eye movements330.3350 Laser eye damage330.3790 Low vision330.4060 Modeling of vision330.4150 Motion detection330.4270 Neurophysiology of vision systems330.4300 Noninvasive assessment of the visual system 330.4460 Ophthalmic optics330.5000 Pattern330.5020 Perception psychology330.5310 Photoreceptors330.5370 Physiological optics330.5380 Physiology330.5510 Psychophysics330.6100 Spatial discrimination330.6110 Spatial filtering330.6130 Spatial resolution330.6180 Spectral discrimination330.6790 Temporal discrimination330.7310 Vision330.7320 Vision adaptation340.0340 X-ray optics340.6720 Synchrotron radiation340.7430 X-ray coded apertures340.7440 X-ray imaging340.7450 X-ray interferometry340.7460 X-ray microscopy340.7470 X-ray mirrors340.7480 X-rays350.0350 Other areas of optics350.1260 Astronomical optics350.1270 Astronomy and astrophysics350.1370 Berry's phase350.1820 Damage350.2450 Filters, absorption350.2460 Filters, interference350.2660 Fusion350.2770 Gratings350.3250 Isotope separation350.3390 Laser materials processing350.3450 Laser-induced chemistry350.3850 Materials processing350.3950 Micro-optics350.4010 Microwaves350.4600 Optical engineering350.4800 Optical standards and testing350.4990 Particles350.5030 Phase350.5130 Photochemistry350.5340 Photothermal effects350.5400 Plasmas350.5500 Propagation350.5610 Radiation350.5720 Relativity350.5730 Resolution350.6050 Solar energy350.6090 Space optics350.6670 Surface photochemistry350.6830 Thermal lensing350.6980 Transforms350.7420 Waves999.9999 Free-form termsFree-form terms may be used if an appropriate term is not found. Use the code 999.9999 and write in your own term。

FANUC系统数控机床参数一、掌握数控机床参数的重要性：无论哪个公司的数控系统都有大量的参数，如日本的FANUC公司6T-B系统就有294项参数。

有的一项参数又有八位，粗略计算起来一套CNC系统配置的数控机床就有近千个参数要设定。

这些参数设置正确与否直接影响数控机床的使用和其性能的发挥。

特别是用户能充分掌握和熟悉这些参数，将会使一台数控机床的使用和性能发挥上升到一个新的水平。

实践证明充分的了解参数的含义会给数控机床的故障诊断和维修带来很大的方便，会大大减少故障诊断的时间，提高机床的利用率。

同时，一台数控机床的参数设置还是了解CNC系统软件设计指导思想的窗口，也是衡量机床品质的参考数据。

在条件允许的情况下，参数的修改还可以开发CNC系统某些在数控机床订购时没有表现出来的功能，对二次开发会有一定的帮助。

因此，无论是那一型号的CNC系统，了解和掌握参数的含义都是非常重要的。

另外，还有一点要说明的是，数控机床的制造厂在机床出厂时就会把相关的参数设置正确、完全，同时还给用户一份与机床设置完全符合的参数表。

然而，目前这一点却做的不尽如人意，参数表与参数设置不符的现象时有发生，给日后数控机床的故障诊断带来很大的麻烦。

对原始数据和原始设置没有把握，在鼓掌中就很难下决心来确定故障产生的原因，无论是对用户和维修者本人都带来不良的影响。

因此，在购置数控机床验收时，应把随机所带的参数与机床上的实际设置进行校对，在制造厂的服务人员没有离开之前落实此项工作，资料首先要齐全、正确，有不懂的尽管发问，搞清参数的含义，为将来故障诊断扫除障碍。

数控机床在出厂前，已将所采用的CNC系统设置了许多初始参数来配合、适应相配套的每台数控机床的具体情况，部分参数还需要调试来确定。

这些具体参数的参数表或参数纸带应该交付给用户。

在数控维修中，有时要利用机床某些参数调整机床，有些参数要根据机床的运行状态进行必要的修正，所以维修人员要熟悉机床参数。

电子病历共享工程信息采集项目说明本文件为电子病历共享工程项目需采集的项目、定义、分类说明文档。

包括每个采集项目的编码、名称、类型、长度及格式、是否必填项、指标定义、对应的指标分类标准。

电子病历共享工程需采集的信息包括医院所有门急诊信息和出院患者信息，具体信息采集和上报的统计口径如下：1.门急诊信息不包含体检、干保、急诊留观视同住院患者信息，出院患者信息包含急诊留观视同住院的患者、不包含干保患者信息。

2.门急诊信息接口标准中设有【就诊号-E08】数据项，该数据项是患者在院内一次就诊的唯一标识信息，建议各个医院在上报门急诊信息过程中认真填写该数据项，因为【姓名-A02】和【就诊号-E08】两个数据共同作为门急诊信息更新的唯一标识信息，对于信息上报错误或患者当日未完成本次门诊的全部诊疗过程，需要在下次整合完成一次就诊单元的全部信息后重新更新信息的情况下，可以采用上述两个字段更新前一次的门急诊填报信息；3.门诊、住院数据中费用类型代码，耗材的编码格式为：H001-本院编码，药品的编码采用海虹药品编码标准，其他项目编码采用北京市统一医疗服务收费标准的编码。

4.出院患者信息为患者一次住院结束后，围绕住院病案的信息，包括住院病案首页信息、检验检查、医嘱、出院小结等信息。

上传频度为每月初10个工作内上传上月出院患者信息。

第一部分：门急诊信息采集项目及说明（一）门急诊信息采集项目列表（二）门急诊信息采集项目定义及说明1. 患者基本信息1.患者编码类型：定义：患者就诊时所使用的卡的类型，有本市医保或农合卡的优先选择1或者4，外地患者可选择2、3、5、6、9。

1 本市医保卡号2.京医通卡号3.医联码4.本市新型农村合作医疗卡号5.外地医保卡号6.外地新型农村合作医疗卡号9. 院内就诊卡号2.患者编码：定义：与患者编码类型对应的卡号编码。

3.姓名:定义：个人具有法律效力的正式名称，包括：姓和名两个部分。

4.性别:定义：指个人的性别，按照GB/T2261执行0．未知的性别1.男性2.女性9.未说明的性别注1：0未知性别，用于真两性畸形或不确定者。

PLC 初级培训教材第一章 电气系统及PLC 简介一、设备电气系统结构简介 设备电气系统一般由以下几部分组成1、 执行机构：执行工作命令陶瓷行业中常见的执行机构有：电动机（普通、带刹车、带离合）、电磁阀（控制油路或气路的通闭完成机械动作）、伺服马达（控制调节油路、气路的开度大小）等。

2、 输入元件：从外部取入信息陶瓷行业中常见的输入元件有：各类主令电器（开头、按扭）、行程开关（位置）、近接开关（反映铁件运动位置）、光电开关（运动物体的位置）、编码器（反映物体运动距离）、热电偶（温度）、粉位感应器粉料位置）等。

控制中心：记忆程序或信息、执行逻辑运算及判断常见控制中心部件有各类PLC 、继电器、接触器、热继电器、等。

电源向输入元件、控制中心提供控制电源；向执行机构提供电气动力。

二、简单的单台电动机电气系统例：一台星——角启动的鼠笼式电动机的电气系统 1、一次线路图 2、二次线路图R JC1 SJ JC13、上图看出，二次回路图中为实现延时控制，要使用一个时间继电器，而在陶瓷行业中，星——角启动控制可说是一种非常简单的例子，若在陶瓷生产设备上全部采用继电器类来实现生产过程的自动控制，要使用许多的继电器、时间继电器等其它一些电气产品，而该类产品占空间大，且运行不是十分可靠。

三、PLC简介1、可编程序控制器早期的PLC只能做些开关量的逻辑控制，因而叫PLC，但近年来，PLC采用微处理器作为中央处理单元，不仅有逻辑控制功能，还有算术运算、模拟量处理甚至通信联网功能，正确应称为PC，但为了与个人计算机有所区别，仍称其为PLC。

2、PLC的特点1>、灵活、通用控制功能改变，只要改变软件及少量的线路即可实现。

2>、可靠性高、抗干扰能力强①硬件方面：采用微电子技术开关动作由无触点的半导体电路及大规模集成电路完成，CPU与输入输出之间，采用光电隔离措施，隔离了它们之间电的联系。

②软件方面：有自身的监控程序，对强干扰信号、欠电压等外界环境定期检查，有故障时，存现状态到存储器，并对其封闭以保护信息；监视定时器WTD，检查程序循环状态，超出循环时间时报警；对程序进行校验，程序有错误进输出报警信息并停止执行。

一、综合医疗服务类
本类说明：
1．本类包括一般医疗服务、一般检查治疗、社区卫生及预防保健项目和其它医疗服务
2．有下列情况之一者不另收挂号费和诊查费：①由医生指定在医院内换号诊断；②取
3．多科室共同使用的医疗服务项目列入本类之中，如护理、抢救、注射、换药等等。

4. 住院床位费按日计算的，计入不计出（即入院当日按一日计算收费，出院当日不计收费）。

5. 患者结算时，门诊医药费用清单和住院病人医药费用明细清单不得另外收费。

疗服务项目，共计四类86项。

本类编码为
；②取化验及各种检查结果；③病人一次门诊医
等等。

出院当日不计收费）。

外收费。

DescriptionThe Velomitor CT Velocity Transducer is a low-frequencyversion of our standard Velomitor Piezo-velocity Sensor. Itsdesign specifically measures casing vibration velocity oncooling tower and air-cooled heat-exchanger fan assembliesthat operate at or above 90 rpm (100 to 300 rpm typical).The Velomitor CT Transducer can measure vibrationamplitudes at these frequencies as well as the vibrationfrequencies generated by the fan motor and speed reducer.Most common machine malfunctions (unbalance,misalignment, etc.) occur on the rotor andoriginate as an increase (or at least a change) inrotor vibration. For any individual casingmeasurement to be effective for overall machineprotection, the system must continually transmit asignificant amount of rotor vibration to themachine casing, or mounting location of thetransducer.In addition, be careful to install the accelerometer transduceron the bearing housing or machine casing. Improperinstallation may decrease the transducer amplitude andfrequency response and/or generate false signals that do notrepresent actual vibration. Refer to the appropriateinstruction manuals and Application Notes.Upon request, Bently Nevada provides engineering servicesthat can identify the appropriate machine housingmeasurements and installation assistance if needed.190501Velomitor CT Transducer DatasheetBently Nevada Machinery Condition Monitoring141636Rev.ADSpecificationsParameters are specified from +20°C to +30°C (+68°F to +86°F) and 100 Hz unless otherwise indicated.Operating the transducer outside thespecified limits will result in falsereadings or loss of machinemonitoring.ElectricalSensitivity 3.94 mV/mm/s (100 mV/in/s)±5%.Frequency Response 3.0 Hz to 900 Hz(180 to 54,000 cpm) ±1.0 dB 1.5 Hz to 1.0 kHz(90 to 60,000 cpm) ±3.0 dBTemperature Sensitivity -8% to +5% typical over the operating temperature range.Velocity Range 63.5 mm/s pk (2.5 in/s pk) see Operating Range for Metric Units on page 13.See Operating Range for English Units on page 14.. Vibration components in excess of 10g pk above 1 kHz can significantly reduce this range.Transverse Response Less than 5% of the axial sensitivity.Amplitude Linearity ±2% to 63.5 mm/s pk (2.5 in/s pk)Mounted Resonant Frequency 9 kHz, minimum (stud mounted, except quick disconnect)Output Bias Voltage 10.1 Vdc ± 1.0 Vdc, Pin A referenced to Pin BDynamicOutputImpedance<400 Ω typical Broadband 0.229 mm/s (0.009 in/s) pk.Noise Floor(1.5 Hz to 1kHz)For more information, seeTypical Low Frequency NoiseFloor on page 15.Base StrainSensitivity0.43 mm/s/μstrain (0.017in/s/μstrain).Grounding Internal electronics are isolatedfrom case.MaximumCableLength305 metres (1,000 ft.) of cable(part number 02173006) withno degradation of signal.Maximum continuous length ofcable available is 91.44 metres (300ft.) If longer lengths are requiredthey must be spliced or have aconnector installed on them.Environmental LimitsOperatingTemperature-40°C to +85°C(-40°F to +185°F).StorageTemperature-40°C to +100°C(-40°F to +212°F).Shock Limit5000 g pk, maximum. HumidityLimit100% condensing,non-submerged.MagneticFieldSusceptibility<0.0068 mm/s/gauss (0.268mil/s/gauss) @ 50 gauss, 50-60HzMechanicalWeight<297 g (10.5 oz.), typical.Mounting Surface 33 mm diameter (1.3 in diameter).Height82 mm (3.2 in).CaseMaterial316L stainless steelConnector2-pin 316L stainless steel MIL-C-5015, top.Mounting Torque 4.5 N-m ± 0.6 N-m (40 in–lbf ± 5 in-lbf).Polarity Pin A goes positive with respect to Pin B when velocity is from base to top of the transducer.MountingAngle Any orientation.For more information on this product, please refer to the Velomitor CT Piezo-Velocity Transducer User Guide (document 125389).Compliance and CertificationsFCCThis device complies with part 15 of theFCC Rules. Operation is subject to thefollowing two conditions:l This device may not cause harmfulinterference.l This device must accept anyinterference received, includinginterference that may causeundesired operation.EMCEMC Directive 2014/30/EURoHSRoHS Directive 2011/65/EU Hazardous Area ApprovalsFor the detailed listing of country andproduct specific approvals, refer tothe Approvals Quick Reference Guide(108M1756) available from . CSA/NRTL/C190501 (Agency Approval Options 01 through 04)IntrinsicallySafeEx ia IIC T4:Class I, Div 1, Groups A, B, C, D.Class II, Group E, F and GClass IIIAEx ia IIC T4:Class I, Div 1, Groups A, B, C, D;Class II, Groups E, F, GClass IIIInstall per drawing 167536T4 @ -40°C ≤ Ta ≤ +100°C(-40°F ≤ Ta ≤ +212°F)IntrinsicallySafe andNon-IncendiveEx nL IIC T4Class I, Division 2, Groups A, B, Cand DAEx nA T4Class I, Division 2, Groups A, B, Cand DInstall per drawing 167536T4 @ -40°C ≤ Ta ≤ +100°C(-40°F ≤ Ta ≤ +212°F)ATEX/IECEx190501 Entity ParametersII 1 G Ex ia IIC T4 GaII 3 DEx na IIC T4 GcEx tc IIIC T130°C DcT4@ Ta = -55°C to 121°CZone 0/1 Zone 2 Ui= 30V Ui= 30V Ii= 200mA Ii= 200mA Pi= 0.75W Pi= 1.14W Ci-27.2nF Li= 0Hazardous Area Conditions of Safe UseATEX/IECExZone 0/1:Equipment must be connected to equipment, which meets the abovelisted entity parameters.The cables type A or B (in compliance with EN 60079-25) must respect the cable parameters listed with the entity parameters.Zone 2 :The supply electrical parameters shall not exceed the values mentioned in the tables above.Ordering Information Velomitor CT Velocity Transducer 190501 - AA - BB - CCA: Mounting Hardware Option0 0No stud0 1Stud 3/8-in 24 to 3/8-in 240 2Stud 3/8-in 24 to 1/2-in 200 3Adhesive Stud 3/8-in 240 4Stud M6x1 with 3/8-in 24 adapter0 5Adhesive Stud M6x1 with 3/8-24adapter0 6Stud 3/8-in 24 to 1/4-in 280 7Plate Stud 3/8-in 24 to 3/8-in 24 0 8Plate Stud 3/8-in 24 to 1/2-in 200 9Plate Stud 3/8-in 24 to 1/4-in NPT1 0Plate Stud M6x1 to M6x1with 3/8-in 24 adapter1 1Plate Stud 3/8-in 24 to 1/4-in 28 1 2Plate Stud 3/8-in 24 to M8x11 3Quick disconnect stud1 4Adapter, 3/8-in 24 to 1/4-in 20 1 5Adapter, 3/8-in 24 to 5/16-in 18 1 6Adapter, 3/8-in 24 to 3/8-in 24 1 7Adapter, 3/8-in 24 to 3/8-in 16 1 8Adapter, 3/8-in 24 to 1/2-in 131 9Adapter, 3/8-in 24 to 1/4-in 18NPT2 0Adapter, 3/8-in 24 to 3/8-in 18NPT2 1Adapter, 3/8-in 24 to 1/2-in 14NPT2 2Adapter, 3/8-in 24 to 3/4-in 14NPT2 3Adapter, 3/8-in 24 to 1.0-in 11.5NPT2 4Adapter, 3/8-in 24 to 1.25-in 11.5NPTB: Connection Option0 0MIL-C-5015 connection interface 9 9Unit with included 32-foot cable C: Agency Approval Option0 0No Approvals0 1 through0 4CSA/NRTL/C (Class I, Division 1),ATEX/IECEx/CSA (Class I, Zone0/1)Interconnect CableCB2W100 - AAADescription: Connectors: MIL-C 5015, 2 Socket, Splash Proof, Premium, isolated to blunt cut, Cable: 20 AWG, twisted pair, shielded, yellow Teflon jacket. LOCKING RING, ADAPTER SEAL, AND O-RING ARE INCLUDED.A: Length0 1 515 feet (4.57 metres)0 3 232 feet (9.75 metres)0 6 464 feet (19.5 metres)1 1 2112 feet (34.1 metres)1 2 5125 feet (38.1 metres)1 5 0150 feet (45.7 metres)2 0 0200 feet (61.0 metres)2 5 0250 feet (76.2 metres)Accessories128608-021/2-in NPT conduit adapter04284020-01Adhesive mount base kit. The adhesive mount base kit design is for machines with thin casings that do not permit drilling and tapping a mounting hole. Kit contains material (adhesive and bases) for 2 each 3/8-in 24 UNF adhesive-mount bases. One kit can outfit 2 Velomitor CT Transducers.Spare Mounting AdaptersAll mounting adapters are made from 300 series stainless steel.Standard Studs043656573/8-in 24 to 3/8-in 24 stud 87910-013/8-in 24 to 1/2-in 20 stud87931-01M6x1 to M6x1 metric stud(requires metric adapter) 87055-013/8-in 24 to M6x1 metric adapter 89139-013/8-in 24 to 1/4-in 28 stud Hex Plate Studs107756-013/8-in 24 to 3/8-in 24 plate stud 107755-013/8-in 24 to 1/2-in 20 plate stud 107754-013/8-in 24 to 1/4-in NPT plate stud107757-01M6x1 to M6x1 plate stud (requiresmetric adapter)125094-013/8-in 24 to M8x1 metric platestud128038-013/8-in 24 to 1/4-in 28 Plate Stud Quick Disconnect ComponentsThe following three components are included with the quick disconnect mounting option for the Velomitor CT Transducer. The quick disconnect option allows you to remove the transducer without rotating it, allowing you to keep the cable connected to the transducer.128689-013/8-in 24 to 1¾-in 16 quickdisconnect stud base. Attachedto the machine.43055-011¾-in 16 mounting base nut.Interface between stud baseand transducer piece. 128690-013/8-in 24 quick disconnect studtransducer piece. Attached tothe Velomitor CT Transducer. FittingsConduit fittings allow connection of flexible, metal, liquid-tight conduit or armor to the conduit adapter.038392011/2-in NPT straight male conduitfitting. For connecting flexible,liquid-tight conduit to theconduit adapter or aweatherproof enclosure. 038500001/2-in NPT straight, malecompression-type fitting. Forconnecting Teflon™-coated3/8-in stainless steel armor tothe transducer or aweatherproof enclosure. Fittingwill fit Teflon™-coated armorwith a maximum outer diameterof 13.8 mm (0.543 in) (includingTeflon™ thickness).Teflon-Coated Stainless Steel Armor106924-AAThis part includes the Teflon-coatedarmor but not the cable. You willrequire 2 1/2-in NPT compressionfittings (part number 03850000) toattach the armor to the conduitadapter and terminate it at anenclosure.A: Armor Length Option in FeetOrder in increments of 10 ft (3.0 m) Minimum Length: 10 ft (3.0 m)Maximum Length: 60 ft (18.3 m) Flexible Metal Conduit14847-AAA: Flexible Conduit Length Option in Feet Order in increments of 1 ft (0.3 m) Minimum Length: 01 ft (0.3 m)Maximum Length: 99 ft (30.2 m)106769-01Terminal housing. Provides a convenient interface between the transducer signal cable and monitor signal cable.Graphs and FiguresNote: All dimensions shown are in millimeters (inches) unless noted otherwise.1. 1/2” NPT x 12.2 DP (1/2” NPT x 0.48 DP)2. 35.6 (1.40) diameter3. Cable (not included)4. Conduit adaptor P/N 128608-02 (not included)5. 31.8 (1.25) hex flat6. 31.5 (1.24) diameter7. 3/8-24 UNF X 8.9 DP (3/8-24 UNF X 0.35 DP)Figure 1: Velomitor CT Outline DrawingSpare Mounting AdaptersAll mounting adapters are made from 300 series stainless steel. Illustrations shown are not to scale.Table 1: Standard StudsTable 2: Adhesive StudsTable 3: 1-3/8 Hex Plate StudsTable 4: Quick Disconnect StudsIllustrationGraphsFigure 2: Typical Phase ResponseFigure 3: Typical Amplitude Response1. Velocity axis (mm/s peak-peak)2. Displacement axis (mm peak-peak)3. Acceleration axis (m/s2 peak-peak)Figure 4: Operating Range for Metric Units1. Velocity axis (in./s peak-peak)2. Displacement axis (in. peak-peak)3. Acceleration axis (g peak-peak)Figure 5: Operating Range for English UnitsFigure 6: Typical Low Frequency Noise FloorCopyright 2021 Baker Hughes Company. All rights reserved.Bently Nevada, Adapt, Velomitor and Orbit Logo are registered trademarks of Bently Nevada, a Baker Hughes Business, in the United States and other countries. The Baker Hughes l ogo is a trademark of Baker Hughes Company. All other product and company names are trademarks of their respective holders. Use of the trademarks does not imply any affiliation with or endorsement by the respective holders.Baker Hughes provides this information on an “as is” basis for general information purposes. Baker Hughes does not make any representation as to the accuracy or completeness of the information and makes no warranties of any kind, specific, implied or oral, to the fullest extent permissible by law, including those of merchantability and fitness for a particular purpose or use. Baker Hughes hereby disclaims any and all liability for any direct, indirect, consequential or special d amages, claims for lost profits, or third party claims arising from the use of the information, whether a claim is asserted in contract, tort, or otherwise. Baker Hughes reserves the right to make changes in specifications and features shown herein, or discontinue the product described at any time without notice or obligation. Contact your Baker Hughes representative for the most current information.The information contained in this document is the property of Baker Hughes and its affiliates; and is subject to change without prior notice. It is being supplied as a service to our customers and may not be altered or its content repackaged without t he express written consent of Baker Hughes. This product or associated products may be covered by one or more patents. See /legal.1631 Bently Parkway South, Minden, Nevada USA 89423Phone: 1.775.782.3611 (US) or /support。

海明码希赛视频例题000海明码是一种可以纠正一位差错的编码。

它是利用在信息位为k位，增加r位冗余位，构成一个n=k+r位的码字，然后用r个监督关系式产生的r个校正因子来区分无错和在码字中的n个不同位置的一位错。

它必需满足以下关系式:2^r=n+1或2^r=k+r+1海明码的编码效率为:R=k/(k+r)(式中k为信息位位数，r为增加冗余位位数)名词解释码字:表示1个帧包括的k个数据位，r个校验位，n=k+r，则此n比特单元称为n位码字。

码距:两个码字之间不同的比特位数目。

例如，000与010的码距为1;000与110的码距为2;000与111的码距为3。

2.海明码的原理在数据中间加入几个校验码，将玛距均匀拉大，将数据的每个二进制位分配在几个奇偶校验组里，当某一位出错，会引起几个校验位的值发生变化。

海明不等式:校验码个数为K，2的K次幂个信息，1个信息用来指出"没有错误"，其余2K-1个指出错误发生在那一位，但也可能是校验位错误，故有N=2的K次-1-K 能被校验。

3海明码的编码规则1.每个校验位Ri被分配在海明码的第2的i次的位置上，2.海明玛的每一位(Hi)是由多个/1个校验值进行校验的，被校验码的位置码是所有校验这位的校验位位置码之和。

4海明码的特点1.如果两个码字之间的码距为d，则需要d个比特就可以把一个码字转换成另一个码字2.为了检查出d个错误(单比特错)，需要使用的码距为d+1个编码3.为了纠正d个错误，需要使用码距离为2d+1的编码5编码步骤(1)根据信息位数，确定校验位数，2的k次方≥k+r+1，其中，k为信息位数，r为校验位数。

求出满足不等式的最小r，即为校验位数。

(2)计算机校验位公式。

表1-3校验位公式表121110位数I8I7I6I5I4I3I2I1信息位r3r2r1r0校验位表1-3其实可以当成一个公式来套用，如有已经编码的数据110010010111。

EPSON打印机报错集EPSON-4000/4800/7400/7600/7800/9600/9800/9400报错全集2010-08-25 15:23:28| 分类：EPSON打印机| 标签：epson |字号大中小订阅大幅面维修专区--报错全集0100 废墨垫寿命少（少于1%）00000100 废墨垫寿命到，必须更换00000101 墨管寿命到00010000 PF马达Encoder报错00010001 PF马达步进错误00010002 PF马达过载00010003 PF马达延时错误00010004 CR马达Encoder报错00010005 CR马达步进错误00010006 CR马达过载00010007 CR马达延时错误00010008 马达控制延时错误00010009 离合器控制延时错误0001000A CR初试位置传感器错误0001000C PG初试位置传感器错误0001000D Cover传感器报错（右侧）0001000E Cover传感器报错（左侧）00010010 PF马达控制错误00020000 NVRAM 错误00020001 初始化RAM错误00020002 SRAM报错00020003 DRAM报错10000004 CPU 报错10000006 CPU 报错10000009 CPU 报错1000000A CPU 报错1000000B CPU 报错100000 CPU 报错全新整理ＥＰＳＯＮ报错全集（珍藏版）：0100 废墨垫寿命少（少于1%）00000100 废墨垫寿命到，必须更换00000101 CR（光栅）马达到达了寿命00010000 PF（进纸）编码器检查错误00010001 PF 马达是在步进错误00010002 PF马达过载00010003 PF马达延时错误00010004 CR 编码器检查错误00010005 CR马达步进错误00010008 马达控制延时错误00010009 离合器控制延时错误0001000A CR初试位置传感器错误0001000C PG初试位置传感器错误00010014 加压失败0001001B 打印头温度错误（检查头缆线的位置和接触）0001001D CR传感器报错（右侧）0001001E PF传感器报错（左侧）00010020 CSIC reading/writing 错误（检查CSIC板的接触）00010023 RTC 分析错误00010026 RTC 通信错误00010027 压力泵浦微空气泄漏错误00010028 打印头错误0001002A CR ASIC ECU 错误0001002D 清洁单位到达了它寿命00010035 清洁泵侦查错误00010036 类型B 委员会设施错误p.19600010037 顶头热敏电阻错误（检查头缆线位置和接触，以及打印头是否匹配）00010038 支晶体管热敏电阻错误0001003E 压力传感器失败0001003F 压力马达到达了它的什么寿命00010040 打印的位置误差00020000 NVRAM 错误00020002 SDRAM 错误00020003 起动节目总和错误0002000A 程序装载错误0002000B 内存是不足的0Dxxxxxx 一个误差编码为调试RTC 定时器的0Exxxxxx A time-lag100000E0 CPU 地址错误(装载)10000100 个CPU 地址错误10000180 个CPU 后备的指令编码例外错100001A0 CPU 槽孔未定义命令例外错误100001.C0 交流电能被关闭100005C0 CPU DMA 地址错误10000xxx CPU 错误0001000F CR马达控制错误00010010 PF马达控制错误00020000 NVRAM 错误00020001 初始化RAM错误00020002 SRAM报错00020003 DRAM报错10000004 CPU 报错10000006 CPU 报错10000009 CPU 报错1000000A CPU 报错1000000B CPU 报错100000 CPU 报错00000101 The CR Motor reached its end of life. p.186 ******** PF Encoder check error p.18700010001 The PF Motor is out of step. p.188 ******** Overcurrent occurred on the PF Motor. p.188 ******** The PF Motor out of position time-out error p.189 ******** CR Encoder check error p.18900010005 CR Motor is out of step. p.190 00010007 The CR Motor out of position time-out error p.190 00010008 Servo interrupt watchdog time-out error p.191 00010009 System interrupt watchdog time-out error p.191 0001000A Carriage home position detection error p.191 0001000C PG home position detection error p.19200010014 Failure of pressurizing p.192 0001001B Head driver (TG) temperature error p.193 0001001D CR servo parameter error p.1930001001E PF servo parameter error p.19400010020 CSIC reading/writing error p.19400010023 RTC analyzing error p.19400010026 RTC communication error p.195 00010027 Pressure pump micro air-leak error p.19500010028 Head error p.1950001002A CR ASIC ECU error p.1950001002D The Cleaning Unit reached its end of life. p.195 00010035 Pump phase detection error p.19600010036 Type-B board installation error p.19600010037 Head thermistor error p.19600010038 Transistor thermistor error p.1960001003E Pressure Senso* **ilure p.196 0001003F The Pressure Motor reached its end of life. p.197 00010040 Printing position error p.19700020000 NVRAM error p.19700020002 SDRAM error p.19700020003 Boot program sum error p.1980002000A Program load error p.1980002000B The internal memory is insufficient. p.1980Dxxxxxx An error code for debugging p.1980Exxxxxx A time-lag of the RTC timer p.199100000E0 CPU address error (load) p.19910000100 CPU address error (store) p.19910000180 CPU reserved command code exception error p.199100001A0 CPU slot undefined command exception error p.200100001C0 The AC power is shut off. p.200100005C0 CPU DMA address error p.20010000xxx CPU error p.200首先是一些7600/9600上机器错误代码的分析7600/9600 Field Repair Guide00000101 CR motor life字车电机寿命00010000 PF motor encoder check error马达直流电机传感器错误00010001 PF motor out of step马达直流电机00010002 PF motor overcurrent00010003 PF motor in-position time-out00010004 CR motor encoder check error00010005 CR motor out of step00010006 CR motor overcurrent00010007 CR motor in-position time-out00010008 Servo interrupt watchdog time-out00010009 System interrupt watchdog time-out0001000A CR home position sensor error0001000B PF home position sensor error 0001000C Head slide (PG) home podition sensor error 0001000F CR motor PWM output faulty00010010 PF motor PWM output faulty 0001001B Head driver(TG) temperature error 0001001D CR servo parameter error 0001001E PF servo parameter error00010020 CSIC reed/right error 00010022 Ink type error(setting on printer body side) 00010023 RTC analysis error 00010025 CSIC communication error00010028 HEAD error00010029 Unidentified NMI0001002A CR ASIC ECU error0001002B PF ASIC ECU error00020000 NVRAM error00020002 SDRAM error00020003 BOOT program SUM error00020009 Flash memory SUM error0002000A Program load error0002000B Internal memory shortage error0002000C Review error100000E0 CPU address error (load misalignment) 10000100 CPU address error (storage misalignment) 10000180 CPU reserve command code exception error 100001A0 CPU slot illegal command exception error 100005C0 CPU DMA address error 10000xxx CPU error7800/9800错误代码分析//------------------------// Printer Status//------------------------00010000=打印机状态00010001=墨水存量(%)00010002=切纸器寿命(%)00010003=介质对切纸器的寿命有很大的影响。