重庆分公司,新征程启航

为企业提供网站建设、域名注册、服务器等服务

gpibvb点虐 的简单介绍

VB编程实现对GPIB仪器控制

VB控制GPIB仪器的方式很简单,

创新互联秉承实现全网价值营销的理念,以专业定制企业官网,成都网站建设、做网站,小程序制作,网页设计制作,手机网站制作营销型网站帮助传统企业实现“互联网+”转型升级专业定制企业官网,公司注重人才、技术和管理,汇聚了一批优秀的互联网技术人才,对客户都以感恩的心态奉献自己的专业和所长。

1、你得先在你的电脑上安装一块GPIB接口卡,使之成为GPIB主控机,你需要根据你的电脑上安装接口,如果是较老的电脑,上面只有ISA总线,那么我推荐你选择电子科技大学自动化工程学院的ES1400GPIB接口卡或者Agilent公司的HP82335(但这两种接口卡都已停产,能不能找到就要看运气了,而且现在好像都升旁不再提供技术支持了);如果是较新的电脑,上面有USB接口,那我推荐仍然是上面两个地方出的EC1401-2/Agilent82357A型USB-GPIB接口,还有一款NI公司的USB-GPIB接口卡,具体型号我忘记了;

2、硬件装好后,如果是ES1400/HP82335,他们不需要安装驱动软件,直接将接口卡附带的函数库拷入你自己的工程目录下就可直接使用,但需要你的操作系统是WIN2000以下,WIN2000以上由于微软对IO操作进行了一系列封装,它们的函数库是无法正常运作的。如果是EC1401-2/Agilent82357A就简单了,它们闷笑岩都提供了相应的驱动软件,按提示进行安装就可以了;

3、驱动软件安装好后,接下来的程序设计就看自己的了,这些接口卡都提供了各种编程环境下的例程,你可以照葫芦画瓢写自己的,我推荐你使用VB配合NI CVI控件来进蚂御行设计,CVI提供了很多专门为仪器控制设计的控件,做出的程序界面漂亮而且符合仪器使用者习惯;

4、关于价格,ES1400(2600),EC1401-2(3600),HP82335(4300),Agilent82357A(5000以上),这些价格都是我记忆中的,不一定准确;

5、你还得根据你控制的仪器购买相应数目的GPIB接口电缆,电缆分1米、2米两种;

6、当然,也可以像楼上那样,直接用串口进行控制,一般的GPIB仪器都提供了RS232接口

matlab怎么添加zmap工具箱

很多有用的工具箱,转载自振动论坛,要赶紧收藏起来,免得过期后不能下载

ADCPtools - acoustic doppler current profiler data processing

AFDesign - designing analog and digital filters

AIRES - automatic integration of reusable embedded software

Air-Sea - air-sea flux estimates in oceanography

Animation - developing scientific animations

ARfit - estimation of parameters and eigenmodes of multivariate autoregressive methods

ARMASA - power spectrum estimation

AR-Toolkit - computer vision tracking

Auditory - auditory models

b4m - interval arithmetic

Bayes Net - inference and learning for directed graphical models

Binaural Modeling - calculating binaural cross-correlograms of sound

Bode Step - design of control systems with maximized feedback

Bootstrap - for resampling, hypothesis testing and confidence interval estimation

BrainStorm - MEG and EEG data visualization and processing

BSTEX - equation viewer

CALFEM - interactive program for teaching the finite element method

Calibr - for calibrating CCD cameras

Camera Calibration

Captain - non-stationary time series analysis and forecasting

CHMMBOX - for coupled hidden Markov modeling using maximum likelihood EM

Classification - supervised and unsupervised classification algorithms

CLOSID

Cluster - for analysis of Gaussian mixture models for data set clustering

Clustering - cluster analysis

ClusterPack - cluster analysis

COLEA - speech analysis

CompEcon - solving problems in economics and finance

Complex - for estimating temporal and spatial signal complexities

Computational Statistics

Coral - seismic waveform analysis

DACE - kriging approximations to computer models

DAIHM - data assimilation in hydrological and hydrodynamic models

Data Visualization

DBT - radar array processing

DDE-BIFTOOL - bifurcation analysis of delay differential equations

Denoise - for removing noise from signals

DiffMan - solving differential equations on manifolds

Dimensional Analysis -

DIPimage - scientific image processing

Direct - Laplace transform inversion via the direct integration method

DirectSD - analysis and design of computer controlled systems with process-oriented models

DMsuite - differentiation matrix suite

DMTTEQ - design and test time domain equalizer design methods

DrawFilt - drawing digital and analog filters

DSFWAV - spline interpolation with Dean wave solutions

DWT - discrete wavelet transforms

EasyKrig

Econometrics

EEGLAB

EigTool - graphical tool for nonsymmetric eigenproblems

EMSC - separating light scattering and absorbance by extended multiplicative signal correction

Engineering Vibration

FastICA - fixed-point algorithm for ICA and projection pursuit

FDC - flight dynamics and control

FDtools - fractional delay filter design

FlexICA - for independent components analysis

FMBPC - fuzzy model-based predictive control

ForWaRD - Fourier-wavelet regularized deconvolution

FracLab - fractal analysis for signal processing

FSBOX - stepwise forward and backward selection of features using linear regression

GABLE - geometric algebra tutorial

GAOT - genetic algorithm optimization

Garch - estimating and diagnosing heteroskedasticity in time series models

GCE Data - managing, analyzing and displaying data and metadata stored using the GCE data structure specification

GCSV - growing cell structure visualization

GEMANOVA - fitting multilinear ANOVA models

Genetic Algorithm

Geodetic - geodetic calculations

GHSOM - growing hierarchical self-organizing map

glmlab - general linear models

GPIB - wrapper for GPIB library from National Instrument

GTM - generative topographic mapping, a model for density modeling and data visualization

GVF - gradient vector flow for finding 3-D object boundaries

HFRadarmap - converts HF radar data from radial current vectors to total vectors

HFRC - importing, processing and manipulating HF radar data

Hilbert - Hilbert transform by the rational eigenfunction expansion method

HMM - hidden Markov models

HMMBOX - for hidden Markov modeling using maximum likelihood EM

HUTear - auditory modeling

ICALAB - signal and image processing using ICA and higher order statistics

Imputation - analysis of incomplete datasets

IPEM - perception based musical analysis

JMatLink - Matlab Java classes

Kalman - Bayesian Kalman filter

Kalman Filter - filtering, smoothing and parameter estimation (using EM) for linear dynamical systems

KALMTOOL - state estimation of nonlinear systems

Kautz - Kautz filter design

Kriging

LDestimate - estimation of scaling exponents

LDPC - low density parity check codes

LISQ - wavelet lifting scheme on quincunx grids

LKER - Laguerre kernel estimation tool

LMAM-OLMAM - Levenberg Marquardt with Adaptive Momentum algorithm for training feedforward neural networks

Low-Field NMR - for exponential fitting, phase correction of quadrature data and slicing

LPSVM - Newton method for LP support vector machine for machine learning problems

LSDPTOOL - robust control system design using the loop shaping design procedure

LS-SVMlab

LSVM - Lagrangian support vector machine for machine learning problems

Lyngby - functional neuroimaging

MARBOX - for multivariate autogressive modeling and cross-spectral estimation

MatArray - analysis of microarray data

Matrix Computation - constructing test matrices, computing matrix factorizations, visualizing matrices, and direct search optimization

[url=]MCAT[/url] - Monte Carlo analysis

MDP - Markov decision processes

MESHPART - graph and mesh partioning methods

MILES - maximum likelihood fitting using ordinary least squares algorithms

MIMO - multidimensional code synthesis

Missing - functions for handling missing data values

M_Map - geographic mapping tools

MODCONS - multi-objective control system design

MOEA - multi-objective evolutionary algorithms

MS - estimation of multiscaling exponents

Multiblock - analysis and regression on several data blocks simultaneously

Multiscale Shape Analysis

Music Analysis - feature extraction from raw audio signals for content-based music retrieval

MWM - multifractal wavelet model

NetCDF

Netlab - neural network algorithms

NiDAQ - data acquisition using the NiDAQ library

NEDM - nonlinear economic dynamic models

NMM - numerical methods in Matlab text

NNCTRL - design and simulation of control systems based on neural networks

NNSYSID - neural net based identification of nonlinear dynamic systems

NSVM - newton support vector machine for solving machine learning problems

NURBS - non-uniform rational B-splines

N-way - analysis of multiway data with multilinear models

OpenFEM - finite element development

PCNN - pulse coupled neural networks

Peruna - signal processing and analysis

PhiVis - probabilistic hierarchical interactive visualization, i.e. functions for visual analysis of multivariate continuous data

Planar Manipulator - simulation of n-DOF planar manipulators

PRTools - pattern recognition

psignifit - testing hyptheses about psychometric functions

PSVM - proximal support vector machine for solving machine learning problems

Psychophysics - vision research

PyrTools - multi-scale image processing

RBF - radial basis function neural networks

RBN - simulation of synchronous and asynchronous random boolean networks

ReBEL - sigma-point Kalman filters

Regression - basic multivariate data analysis and regression

Regularization Tools

Regularization Tools XP

Restore Tools

Robot - robotics functions, e.g. kinematics, dynamics and trajectory generation

Robust Calibration - robust calibration in stats

[url=]RRMT[/url] - rainfall-runoff modelling

SAM - structure and motion

Schwarz-Christoffel - computation of conformal maps to polygonally bounded regions

SDH - smoothed data histogram

SeaGrid - orthogonal grid maker

SEA-MAT - oceanographic analysis

SLS - sparse least squares

SolvOpt - solver for local optimization problems

SOM - self-organizing map

SOSTOOLS - solving sums of squares (SOS) optimization problems

Spatial and Geometric Analysis

Spatial Regression

Spatial Statistics

Spectral Methods

SPM - statistical parametric mapping

SSVM - smooth support vector machine for solving machine learning problems

STATBAG - for linear regression, feature selection, generation of data, and significance testing

StatBox - statistical routines

Statistical Pattern Recognition - pattern recognition methods

Stixbox - statistics

SVM - implements support vector machines

SVM Classifier

Symbolic Robot Dynamics

TEMPLAR - wavelet-based template learning and pattern classification

TextClust - model-based document clustering

TextureSynth - analyzing and synthesizing visual textures

TfMin - continous 3-D minimum time orbit transfer around Earth

Time-Frequency - analyzing non-stationary signals using time-frequency distributions

Tree-Ring - tasks in tree-ring analysis

TSA - uni- and multivariate, stationary and non-stationary time series analysis

TSTOOL - nonlinear time series analysis

T_Tide - harmonic analysis of tides

UTVtools - computing and modifying rank-revealing URV and UTV decompositions

Uvi_Wave - wavelet analysis

varimax - orthogonal rotation of EOFs

VBHMM - variation Bayesian hidden Markov models

VBMFA - variational Bayesian mixtures of factor analyzers

VMT - VRML Molecule Toolbox, for animating results from molecular dynamics experiments

VOICEBOX

VRMLplot - generates interactive VRML 2.0 graphs and animations

VSVtools - computing and modifying symmetric rank-revealing decompositions

WAFO - wave analysis for fatique and oceanography

WarpTB - frequency-warped signal processing

WAVEKIT - wavelet analysis

WaveLab - wavelet analysis

Weeks - Laplace transform inversion via the Weeks method

WetCDF - NetCDF interface

WHMT - wavelet-domain hidden Markov tree models

WInHD - Wavelet-based inverse halftoning via deconvolution

WSCT - weighted sequences clustering toolkit

XMLTree - XML parser

YAADA - analyze single particle mass spectrum data

ZMAP - quantitative seismicity analysis

在vb点虐 中,用什么类型代替vb6.0中的any类型啊?我用object代替时,总是显示"只不

请参考:

当我把一些旧的VB6项目转变成VS2008时会出现, “Declare”语句中不支持“As Any”的错误说明, 例如在National Instrument中有一个VBib-32.vb中有大量的这样一类的语句:

Declare Function ibcmda32 Lib "Gpib-32.dll" Alias "ibcmda" (ByVal ud AsInteger, ByRef sstr As Any, ByVal cnt As Integer) As Integer

如何办?

有两种办法:

一, 使用具体的参数

例如字符串, 就用string, 那么上面的ByRef as Any, 就写成ByRef as string, 或者

二, 使用特殊说明MarshalAsAttribute

System.Runtime.InteropServices.MarshalAsAttribute(System.Runtime.InteropServices.UnmanagedType.AsAny)

把这段语句放在相应之处, 然后把Any改成祥磨Object, 于是最上面的说明语句滑歼写成谨让斗

Declare Function ibcmda32 Lib "Gpib-32.dll" Alias "ibcmda" (ByVal ud AsInteger, System.Runtime.InteropServices.MarshalAsAttribute(System.Runtime.InteropServices.UnmanagedType.AsAny) ByRef sstr As Object, ByVal cnt As Integer) As Integer

对于ByVal也是一样

Public Declare Function GetPrivateProfileString Lib "kernel32" Alias"GetPrivateProfileStringA" (ByVal lpApplicationName As String, System.Runtime.InteropServices.MarshalAsAttribute(System.Runtime.InteropServices.UnmanagedType.AsAny) ByVal lpKeyName As Object, ByVal lpDefault As String,ByVal lpReturnedString As String, ByVal nSize As Integer, ByVal lpFileName AsString) As Integer

MSDN官方说明, 可以简写成:

Declare Sub SetData Lib "..\LIB\UnmgdLib.dll" ( ByVal x As Short, MarshalAsAttribute(UnmanagedType.AsAny)ByVal o As Object)

这种方法本人实际使用, 可行.

请教如何用VB来编写GPIB控制软件

你需要了解硬件和软件问题

1)硬件:你先确认一下,光谱仪和计羡虚算机是通过什么接口兄迹燃来通讯的(例如RS232 RS485 RS422 等)

2)州扰软件:通讯协议(例如Modbus canbus Profibus control-net 等)

或者光谱仪供应商提供驱动程序(DLL动态连接库)

然后再用VB VC 等编程软件来开发你的控制程序


文章名称:gpibvb点虐 的简单介绍
网站路径:http://cqcxhl.com/article/ddppoei.html

其他资讯

在线咨询
服务热线
服务热线:028-86922220
TOP