Siemens user manual Technical data for IP-Module CFVA-IP

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Technical data

5 Technical data

5.1Technical data for IP-Module CFVA-IP

Electrical supply

12 V DC/24 V AC

Power requirement

max. 6.0 W

Operating temperature range

-10 – +45 °C, max. relative humidity 90%

Storage temperature range

-20 – +60 °C

Dimensions (H x Ø)

35.5 x 140 mm

Weight

400 g

Material

Aluminum

System requirements

All systems, which feature TCP/IP network functions and

 

provide an http browser (Microsoft Internet Explorer from

 

version 5.5 with Java plug-in or Mozilla or Netscape from

 

version 7.0).

Protocols

ARP, BOOTP/DHCP, TCP/IP, HTTP, ICMP, SNMP, FTP

 

and DNS

Installation

IP address configurable via ARP, BOOTP/DHCP,

 

connection to twisted-pair RJ45 Ethernet.

Network connection

10BaseT Ethernet or 100BaseTX Fast Ethernet, auto-

 

sensing, full/half duplex

Image formats

QCIF (176x144),

 

CIF (352x288),

 

4CIF (704x576) (interlaced).

Image transmission

Motion JPEG (multipart/x-mixed-replace content type),

 

user configurable JPEG single image frame quality,

 

streaming up to 25 images per second with QCIF and

 

CIF or up to 10 images per second with 4CIF.

Security

Separate passwords for image access and system

 

configuration.

Hardware

8 MB RAM, 16 MB flash ROM

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Contents IP-Module IP-Module CFVA-IP IP-Module CVVA-IP Page Contents Page About this manual IntroductionGeneral Safety Precautions Ordering data Ordering data for IP-Module CFVA-IPOrdering data for IP-Module CVVA-IP EU Directive Norms and DirectivesTechnical data for IP-Module CFVA-IP Technical dataTechnical data for IP-Module CVVA-IP Installing IP-Module type CFVA-IP Installing the IP-ModuleInstallation and connection of the dome camera IP-Module fixingExploded view of IP-Module CVVA-IP Installing IP-Module type CVVA-IPIP-Module fixing Changing the IP address of the client PC Establishing initial communication with the deviceMapping a network route Control panel Network connectionsEstablishing initial communication with the device Ping xxx.xxx.xxx.xxx xxx.xxx.xxx.xxx = Checking device accessibilityUsing Internet Explorer Using the Web-Cam IP Manager Device homepageCalling up the device homepage Click on the Home page of selected device... button Device homepage Components of the device homepageConfiguring network settings Automatic address designation by the Dhcp or Bootp server Changing the device IP addressManual IP address and subnet mask allocation Example Changing the IP address using the Web-Cam IP ManagerConfiguring network settings Configuring image parameters Configuring general image parametersConfiguring text overlay Overlay text Configuring Jpeg encoder settingsOverlay text position Overlay text colorPAL/CCIR NTSC/EIA Setting the date and time Factory set user names Configuring user names and passwordsManual restart Restarting the IP ModuleRestart by Ping Watchdog Activate the Enable restart by Ping-Watchdog check boxLive video Displaying live videoDisplaying live video Storing still pictures Setting live video resolutionLow StandardConnecting to internet Establishing access to the device via internetStatic IP address Dynamic IP addressEstablishing access to the device via internet Example of access using a dynamic IP addressEmbedding live video images Embedding live video images in a dedicated HtmlExample for an executable Html Embedding still picturesService mode Index Configuring user namesDokument Nr. A24205-A336-B383

CFVA-IP specifications

Siemens CFVA-IP is an advanced control system designed for industrial automation, combining performance, flexibility, and reliability to meet the diverse demands of modern manufacturing processes. This system is engineered to operate seamlessly across various industries, including automotive, food and beverage, and pharmaceuticals.

One of the primary features of the CFVA-IP is its integration capability with existing infrastructure. It supports a wide array of communication protocols, allowing for easy connection with legacy systems and new components alike. This ensures a smooth transition and interoperability within the industrial ecosystem, reducing downtime and enhancing productivity.

The CFVA-IP utilizes state-of-the-art technologies, such as Ethernet and IP-based communication, to facilitate high-speed data transfer and real-time control. This enables operators to monitor processes and make informed decisions quickly. The system is equipped with advanced diagnostic tools that provide insights into operational performance, helping to identify potential issues before they escalate into significant problems.

A notable characteristic of the Siemens CFVA-IP is its modular design. This allows for easy customization and scalability, enabling manufacturers to expand their systems as needed without significant overhauls. Users can select from various input/output modules, communication interfaces, and power supplies to tailor the system to their specific applications and requirements.

Additionally, the CFVA-IP features comprehensive safety measures, including built-in redundancy and support for safety protocols. It complies with international safety standards, ensuring that operations can continue securely even in critical scenarios. This feature is particularly essential in industries where safety and regulatory compliance are paramount.

Another significant advantage of the Siemens CFVA-IP is its user-friendly interface. The system includes intuitive software tools designed to ease programming and control. The graphical interface simplifies configuration and monitoring, allowing even less technically inclined users to operate the system efficiently. Moreover, training tools and extensive documentation are available, ensuring that staff can quickly adapt to the new system.

In conclusion, Siemens CFVA-IP stands out as a versatile and robust solution for industrial automation. Its combination of integration capability, advanced technologies, modular design, safety features, and user-friendly interface makes it an ideal choice for companies looking to modernize their manufacturing processes while maintaining efficiency and reliability. The CFVA-IP not only meets current automation needs but is also poised to adapt to future challenges in the ever-evolving industrial landscape.