注册登陆后可查看附件和大图,以及购买相关内容
您需要 登录 才可以下载或查看,没有账号?注册会员
x
Windows系统下(Linux和MAC系统下请自行了解清楚)NI的各种软件、模块、工具包、驱动程序,使用NI许可证管理器来激活的,绝大部分的都可以使用NI Lincense Activator来激活:NI序列号Serial Number生成激活工具NI License Activator,LabVIEW/VBAI/VDM/VAS等软件模块工具包破解工具不限版本http://visionbbs.com/thread-490-1-1.html
视觉论坛的各种NI资源,除了视觉相关的模块有使用外,大部分的都不会使用,仅提供资源不提供技术支持。资源的下载地址一般会同时提供NI官方和百度网盘的地址。某些工具包NI地址失效或没有NI地址,只能使用百度网盘地址;如果百度网盘地址失效过期,可联系论坛客服更新。NI的服务器在美国,有时候速度很慢或下载容易出错,这样会造成安装时各种错误而无法安装。建议在下载完成后,对下载资源做校验和(NI一般会提供MD5或SHA256等)验证,与官方或视觉论坛提供的校验和对比,一致就可以安装;如不一致,则需要重新下载。视觉论坛早期下载上传的资源,基本上都是正常下载的资源;2019后下载的资源,都与NI的正确校验和对比过,保证是正确的资源才上传到百度网盘。校验和工具下载地址:文件Hash计算器FHash,文件校验和验证下载文件正确性验证,MD5值计算、SHA1值计算、SHA256值计算、CRC32值计算http://visionbbs.com/thread-26524-1-1.html
NI-DMM 1.6 Driver Win32/64Eng NI数字万用表驱动程序1.6下载
NI-DMM
NI-DMM支持使用NI数字万用表的客户。
NI-DMM是与所有NI可编程数字万用表(DMM)进行通信必需的NI仪器驱动程序。NI-DMM是一种兼容可互换虚拟仪器(IVI)的仪器驱动程序,提供了一系列操作和属性,可以执行波形或信号发生器的功能,而且包含了交互式软件前面板和示例。
Win32/64Eng
1.6
文件大小: 8092168 字节 (7.72 MB)
修改日期: 2010-04-25 03:20
版本: 1.6.0.0
MD5: d15dd0b59d7c5aba0a97a8d5ed5ef5c0(官方正确)
SHA1: bb6f580c6abd4e81fb15bd884470e3cd5862ebb8
SHA256: 006dc2e5b4d5a8bf73779e7ba588b936065b5f4295352780aaf854e5e96246d5
CRC32: 3cce951c
百度网盘与NI官方下载地址:
DMM1.6.txt
(577 Bytes, 下载次数: 0, 售价: 10 元)
NI-DMM Software Readme File Trademarks: CVI, LabVIEW, National Instruments, ni.com, PXI, and SCXI are trademarks of National Instruments Corporation. Product and company names mentioned herein are trademarks or trade names of their respective companies. Thank you for using NI-DMM for Windows 2000/NT/Me/9x. This particular installation of NI-DMM installed the above files.
Uninstalling the Instrument Driver
Version 1.6 installs new combined NI-DMM and NI-SWITCH examples under \VXIPnP\Win[95|NT]\DMM Scanning Switches Examples when both NI-DMM and NI-SWITCH are installed at the same time.
Supported Hardware
You can find documentation for NI-DMM in Start\Programs\National Instruments\NI-DMM\Documents. Also, refer to the Where to Start document that came with your hardware. This document describes how to install and set up the hardware and software, as well as the software options.
Using NI-DMM interactively
To start programming NI-DMM with LabVIEW, launch Labview and open a new VI. Open the block diagram, and select Window\Show Functions Palette. Select the niDMM Getting Started example located in the Instrument Drivers\NI-DMM subpalette. To start programming NI-DMM with LabWindows/CVI, launch LabWindows/CVI and select File\Open\Project. Open any of the projects from \VXIPnP\Win[95|NT]\NIDMM\examples\CVI. These projects link to the nidmm_32.dll in \VXIPnP\Win[95|NT]\bin.
Programming in Microsoft Visual C++ 5.0 or higher
To start programming NI-DMM with Microsoft Visual Basic, launch the Microsoft Visual Basic environment and select File\Open Project. Open any of the projects from \VXIPnP\Win[95|NT]\NIDMM\examples\VisualBasic. These projects link to the nidmm_32.dll in \VXIPnP\Win[95|NT]\NIDMM\bin.
Using NI-DMM with the NI 4060
- Launch Measurement and Automation Explorer from your desktop.
- Double-click Devices and Interfaces.
- Right-click on your NI 4060 instrument and select Properties. In the System window, note the device number that has been assigned. You will need to use this device number when you program your instrument.
- From the System window, click Test Resources to test the NI 4060 resources. A dialog box appears and indicates if the resource test has passed.
- From the System window, click Run Test Panels to run functional test panels. Connect your signal to an input channel on your attached accessory and select your Input Limits, Data Mode, and Y-Scale Mode settings. Your NI 4060 instrument immediately starts to acquire data.
- When you finish testing, click Close and then OK in the Configuring Devices window.
- When you finish configuring and testing your NI 4060, launch the NI-DMM Soft Front Panel from Start/Programs/National Instruments/NI-DMM. Use the NI-DMM Soft Front Panel to use your NI 4060 without any programming.
Using NI-DMM with the NI 4050
- Launch Measurement and Automation Explorer from your desktop.
- Double-click Devices and Interfaces.
- Right-click on your NI 4050 instrument and select Properties. In the System window, note the device number that has been assigned. You will need to use this device number when you program your instrument.
- From the System window, click Test Resources to test the NI 4050 resources. A dialog box appears and indicates if the resource test has passed.
- From the System window, click Run Test Panels to run functional test panels. Connect your signal to an input channel on your attached accessory and select your Input Limits, Data Mode, and Y-Scale Mode settings. Your NI 4050 instrument immediately starts to acquire data.
- When you finish testing, click Close and then OK in the Configuring Devices window.
- When you finish configuring and testing your NI 4050, launch the NI-DMM Soft Front Panel from Start/Programs/National Instruments/NI-DMM. Use the NI-DMM Soft Front Panel to use your NI 4050 without any programming.
New Triggering Model in NI-DMM Version 1.5
NI-DMM supported two types of triggering: Trigger and Sample Trigger. Trigger is defined as the start trigger that starts a finite or a continuous acquisition. Sample Trigger is defined as the sample clock that controls the conversion rate. In the old triggering model, Sample Count has to be set to 1 and Sample Trigger has to be set to Immediate. Trigger Count represents the number of points to acquire, one for each Start Trigger event. Trigger Source can be set to Immediate, External, or one of the TTL lines.
The New Triggering Model (Available in NI-DMM Versions 1.5 and greater)
While in the old model you had to set Sample Count to 1 and Sample Trigger to Immediate, the new model allows you to select any positive integer as Sample Count, and if Sample Trigger is set to Interval, it allows you to directly control the Sample Interval. The following functions were made obsolete in version 1.5: Obsolete | Replacement | niDMM_Configure | Replaced by niDMM_ConfigureMeasurement | niDMM_ConfigureMeasurementComplete | Replaced by niDMM_ConfigureMeasCompleteDest | niDMM_ConfigureStartTrigger | This function is not needed anymore, there is no replacement | niDMM_SetAutoZero | Replaced by niDMM_ConfigureAutoZeroMode | niDMM_SendSWTrigger | Replaced by niDMM_SendSoftwareTrigger |
The following functions were introduced in version 1.5: Function | Description | niDMM_ConfigureMeasurement | This function configures the common attributes of the DMM. These attributes include the measurement function, maximum range, and resolution. | niDMM_ConfigureMeasCompleteDest | This function specifies the destination of the DMM voltmeter complete signal. | niDMM_ConfigurePowerLineFrequency | This function configures powerline frequency. | niDMM_ConfigureACBandwidth | This function configures the AC minimum frequency and the AC maximum frequency attributes of the DMM. | niDMM_ConfigureAutoZeroMode | When Auto Zero Mode is On, the DMM internally disconnects the input signal following each measurement and takes a zero reading. It then subtracts the zero reading from the preceding reading. This prevents offset voltages present on the input circuitry of the DMM from affecting measurement accuracy. When Auto Zero Mode is Off, the DMM does not compensate for zero reading offset. | niDMM_SendSoftwareTrigger | This function sends a command to trigger the DMM. Call this function if you pass NIDMM_VAL_SW_TRIG_FUNC for the Trigger Source parameter of the NIDMM_ConfigureTrigger function. | niDMM_IsOverRange | This function takes a measurement value from a previous NI-DMM VI and determines if the value is a valid measurement or a value indicating that an overrange condition occurred. | niDMM_ConfigureTriggerSlope | This function sets the Trigger Slope to either rising edge or falling edge. | niDMM_GetAutoRangeValue | This function returns the actual range that the DMM is using, even when auto ranging is on. | niDMM_GetAutoZeroMode | This function returns the Auto Zero Mode (On/Off). | niDMM_ConfigureSampleDelayMode | This function sets the Sample Delay Mode. Sample Delay Mode has the following meaning: 0 = Unset, 1 = Set. If Sample Delay Mode = Set, then NIDMM_ATTR_SAMPLE_INTERVAL is used as a delay after any type of Sample Trigger. This setting is not IVI compliant. If Sample Delay Mode = Unset, then NIDMM_ATTR_SAMPLE_INTERVAL is only used when the Sample Trigger is set to Interval. This setting is IVI compliant. | niDMM_ReadStatus | This function returns information regarding backlog and acquisition status for analog input data from the internal data buffer. | niDMM_FormatMeasAbsolute | This function formats the measurement according to the measurement function, range, and resolution. It outputs the formatted data, range, and mode strings. | niDMM_ConfigureMeasCompleteSlope | This function sets the Measurement Complete Signal Slope to either rising edge or falling edge. | niDMM_ConfigureSampleTriggerSlope | This function sets the Sample Trigger Slope to either rising edge or falling edge. |
Changes to the Documentation
Installing CVI 5.5.1 after installing NI-DMM 1.6 will cause the CVI installation to hang. A workaround is to install CVI 5.5.1 first and then install NI-DMM 1.6. |