The Active-CV2100 ActiveX control allows programmers to quickly and easily communicate with the Keyence CV-2100 via Ethernet. The Active-CV2100 contains a single control named CV2100_Comm that encapsulates all of the Ethernet-based functionality of the Keyence CV-2100. The ActiveX provides support for a range of methods from sending low-level raw commands to execution of high-level CV-2100 functionality. The Active-CV2100 allows the application maximum CPU time when waiting for processes that take an extended period of time (e.g. screen captures). These methods are run in a background process while the main application maintains control. When the data is available from the ActiveX, an event is triggered to allow the application to access the received data.
Did you find this white paper useful?
23 out of 50 users found this white paper useful
Related white papers
BEA Makes Energy Reading Simpler and More Effective in Scandinavia
Telenor Cinclus AS is a total supplier of solutions for Automatic Meter Reading (AMR). The challenge for the organizations was to identify and deploy an application infrastructure solution which would...
Bit Allocation for Advanced Audio Coding Using Bandwidth-Proportional Noise-Shaping Criterion
The bandwidth-proportional noise-shaping criterion has been proposed to be the optimum bit allocation criterion in the sense of minimizing segmental masking-to-noise ratio. A single loop bit allocation has been developed...
An Efficient Programmable 10 Gigabit Ethernet Network Interface Card
This paper explores the hardware and software mechanisms necessary for an efficient programmable 10 Gigabit Ethernet network interface card. Network interface processing requires support for the following characteristics: a large...
GNET-1: Gigabit Ethernet Network Testbed
GNET-1 is a fully programmable network testbed. It provides functions such as wide area network emulation, network instrumentation, traffic shaping, and traffic generation at gigabit Ethernet wire speeds by programming...
Programmable Gigabit Ethernet Packet Processor Design Methodology
The design of domain specific processors that require high performance, low power and high degree of programmability is the bottleneck in many applications. In this paper, a novel design methodology...
UIML: An Appliance-Independent XML User Interface Language
Today’s Internet appliances feature user interface technologies almost unknown a few years ago: touch screens, styli, handwriting and voice recognition, speech synthesis, tiny screens, and more. This richness creates problems....
A Runtime System for Interactive Web Services
Interactive web services are increasingly replacing traditional static web pages. Producing web services seems to require a tremendous amount of laborious low-level coding due to the primitive nature of CGI...
