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• Electronics Line 3000 Port Devices Driver Windows 7
• Electronics Line 3000 Port Devices Driver Updater

LabVIEW is able to interface to many hardware items for control and monitoring.

Electronics Line 3000 Port Devices Driver Windows 7

Logic Probe Tutorial Includes:
What is LabVIEW?LabVIEW environmentLabVIEW VIsProgrammingDriversExample / tutorial

Download the Digital Viewer software to use your Plugable USB microscope, such as the USB2-MICRO-250X and USB-MICRO-800X.

LabVIEW is able to control devices and also receive responses from them. To achieve this, an interface is required enabling LabVIEW to connect to the device or instrument.

These interfaces are called LabVIEW drivers and there is an extensive library of these drivers that are available within the LabVIEW ecosystem.

Instrument drivers: the basics

An instrument driver provides the interface between the core LabVIEW software and the instrument or device that it needs to control or receive data from.

The LabVIEW instrument driver is essentially a set of software routines that enable data to be sent to an instrument or device and data received from it.

Within the overall driver there are individual sub-routines that enable various tasks to be performed. These include: configuring the device, reading from, writing to, and triggering the device or instrument. Instrument drivers simplify instrument control and reduce LabVIEW program development time by eliminating the need to learn the programming protocol for each instrument.

The LabVIEW driver takes the commands from LabVIEW and then converts them into the instructions required for that device, sending them over the relevant interface whether it be USB, serial, Wi-Fi, Ethernet, GPIB or any other interface applicable for that device.

LabVIEW drivers are developed for a host of differnet instruments. Some are developed by National Instruments, the company that develops and owns LabVIEW, but other drivers may be developed by third parties – possibly the manufacturers of the devices. Some LabVIEW drivers may incorporate all the remote controls applicable to the device and over a variety of interfaces applicable to the device. Others may have a limited set of instructions or capabilities. Additionally many are available free of charge, but for others there may be costs associated with them. It depends upon the devices, the manufacturers and the developers of the code. However most of them are available within the LabVIEW ecosystem without additional charge.

Overall LabVIEW provides extensive support for interfacing to devices using LabVIEW drivers. These instrument drivers may be written in a variety of ways: LabVIEW, LabWindows/CVI and they use either Virtual Instrumentation Software Architecture, VISA, or the Interchangeable Virtual Instrument, IVI, protocol.

LabVIEW driver availability

National Instruments makes thousands of device drivers available for download on the NI Instrument Driver Network, IDNet or directly from within LabVIEW.

Additionally many equipment manufacturers may also make drivers available via portals on their own sites. With many companies and organizations using LabVIEW, it pays these device and instrument manufacturers to make LabVIEW drivers available to increase the competitiveness of their products.

Using a LabVIEW Instrument Driver

Within LabVIEW and instrument driver is made up from a set of VIs, or Virtual Instruments. Each VI corresponds to a particular operation like configuring, reading, writing or triggering an instrument or device. By using this approach the programming of instruments or devices is considerably simplified as it overcomes the issue of programming in a low level language.

There are two main ways of finding and downloading pre-prepared LabVIEW drivers from within the NI LabVIEW ecosystem:

• NI Instrument Driver Finder: This method can be used on LabVIEW 8.0 or later. Select Tools » Instrumentation » Find Instrument Drivers to launch the Instrument Driver Finder. This tool searches IDNet to find the specified instrument driver.
• IDNet: For older versions of LabVIEW, prior to V 8.0 then it is necessary to directly search IDNet.

There is a huge variety of different LabVIEW instrument drivers providing the interface between LabVIEW and the peripheral hardware devices and instruments. These are a central element of the overall LabVIEW ecosystem and provide an easy method of controlling instruments and accessing data from them or from remote devices.

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USB or Universal Serial Bus is the most common and popular interface for connecting variety of devices to computer and it is also the fastest way to transfer huge amount of data from one device to another. We all use USB in our daily life and work whether it is in computers, smartphones, tablets, camera etc. There are various types of USB connectors and ports, in computers we see a larger USB port, in smartphones a tiny one and in printers, scanners and camera a different one. Now here comes new type of USB physical connector / port that is just been released known as USB Type-C, but first let us learn about the various older types of USB ports / connectors.

Contents

• 1 Types of USB Ports & Connectors
• 2 USB Type-C Explained in Detailed
  • 2.1 Advantages & Benefits of USB Type-C

Types of USB Ports & Connectors

Here are various USB types:

USB Type-A: Most popular USB Type that is found in computers, laptops and netbooks. It has the biggest size as compared to other USB types.

USB Type-B: They are generally found in printers, scanners etc. USB Type-B is further divided in three sub-types that being mentioned below:

• Mini-B: Generally found in SLR Digital cameras, scanners etc.
• Micro-B: They are widely used in smartphones, tablets and other small or mobile devices. Can also be seen in small digital cameras.
• Micro-B USB 3.0: Found in high speed USB 3.0 external Hard disks and some other high speed devices.
• Standard-B USB 3.0: In printers, scanners etc.

USB Type-C: The newest USB standard which is currently available in few devices but in future it will replace all other USB-Types in every device.

USB Versions / Revisions

USB Type-C Explained in Detailed

USB Type-C is the latest USB standard that is set to replace all the other USB Types in the future. The need for new USB Type arises because of the limitations of the other USB types whether it is in terms of speed, power output or size. USB Type-C port and connector is very small in size, yet it is very powerful of all other USB types. You can put a USB Type-C port in virtually any device whether it is a PC, Laptop Smartphone, Tablet or any other smaller mobile device.

Apple MacBook 2015 USB Type-C Port

Advantages & Benefits of USB Type-C

Here are main advantages or benefits of USB Type-3.

Smaller in Size

The first advantage of USB Type-C port or plug is that it is very small in size which means it will take less space on your devices. The size of a USB Type-C port is almost the same as that of a micro-B USB port but it is much powerful and advanced than a micro-B USB port.

Reversible Plug Orientation

USB Type-C has reverse plug orientation which means you can plug any USB Type-C connector end to any of the USB Type-C port in your devices. Also you don’t have to worry about plugging the USB Type-C connector upside or upside down as there is no given orientation to plug in a USB Type-C connector to a USB Type-C port, whereas in other USB Types there is a proper orientation and you have to put in a USB connector in only one orientation otherwise it will not go in or it may break.

Supports up to USB 3.1

As of now USB Type-C supports up to the latest USB 3.1 specification. This means if you have a high speed USB Type-C port in your computer or smartphone then you can enjoy data transfer speed up to 10Gbps. Well one thing to note here is that not all USB Type-C ports are USB 3.1 ready and it depends on the manufacturer what underlying technology (USB 2.0 / USB 3.0 / USB 3.1) they have implemented for the USB Type-C port in their device. We have seen this in past because Nokia N1 Tablet had USB Type-C port but it was only USB 2.0. But because we are moving to the future and not past we expect that the majority of upcoming devices with USB Type-C port will be USB 3.1 ready only.

Power Delivery (PD)

USB Type-C can deliver much greater amount of power as compared to all other USB Types. The maximum power output for USB Type-C port is 100W (20V X 5A) which can be used to charge bigger devices also, which includes Laptops, Netbooks etc. Also the direction of power in USB Type-C port is two ways or Bidirectional which means it can give and receive power through a single port only. This can bring a revolution in the area of battery charging because now we will be able to charge our laptops through a USB Type-C port only, and we do not require or have to carry those bulky power adapters and chargers. But it must be noted that for charging a bigger device, the Device (Laptops, Netbooks etc.) and USB Type-C Cable both must support Power Delivery (PD) feature.

One Cable for All

For devices with USB Type-C ports you only require one type of cable which has USB Type-C connectors on both the ends. You don’t have to use any conversion type cables anymore and only one cable is required for connecting all your devices having USB Type-C ports.

Backward Compatible (using adapters)

If you want to plug in your device having older USB Type in a computer with new USB Type-C port then you can do so by using Type A to Type C or Type A to Type C adapters and cables. Your device will work but it will not get the maximum performance which you can get with a device having the USB Type-C port.

USB Type-C to Type-A Female Cable

List of Devices with USB Type-C Port

Here is the list of laptops, tablets, hard drives and smartphones that comes with USB Type-C Port.

Nokia N1 Tablet

Apple MacBook 2015

Google’s second Chromebook Pixel

HP Pavilion X2 10.1-inch Detachable 2 in 1 Laptop

OnePlus 2 (Android Smartphone)

Xiaomi Mi 4c (Android Smartphone)

Xiaomi Mi5 (Android Smartphone)

Samsung Galaxy 7 (Android Smartphone)

Nexus 6P (Android Smartphone)

OnePlus X (Android Smartphone)

Nexus 5X (Android Smartphone)

ASUS ZenFone 3 (Android Smartphone)

Gionee Elife S Plus (Android Smartphone)

Xiaomi Mi Pad 2 (Android Tablet)

Xiaomi Mi5 (Android Phone)

Electronics Line 3000 Port Devices Driver Updater

Microsoft Lumia 950 & 950 XL (Windows Phone)

Xiaomi Redmi Note 3 (Android Smartphone)

Nexus 5X (Android Smartphone)

Meizu Pro 5 (Android Smartphone)

UMI Hammer S (Android Smartphone)

LeEco Le 1S (Android Smartphone)

Gionee Elife S8 (Android Smartphone)

Google Pixel C (Chromebook)

Gigabyte GA-Z170X-Gaming 6 Motherboard

SanDisk SSD’s (USB Type-C series only)

LaCie mobile drive (external hard disk)

Google Pixel C Tablet (Android Tablet)

iPad Pro