| PC bus system | PCI express |
PC bus plug-in card
You can find measurement boards for the PC bus as well as PXI and cPCI measurement boards in diribo under product type PC-bus plug-in boards.
The PXI (PCI eXtensions for instrumentation) boards are based on the PCI bus and are therefore listed under product type PC-bus measurement boards. The electrical specifications of the cPCI cards, also called CompactPCI, are likewise based on the PCI standard.... Read more
The PXI (PCI eXtensions for instrumentation) boards are based on the PCI bus and are therefore listed under product type PC-bus measurement boards. The electrical specifications of the cPCI cards, also called CompactPCI, are likewise based on the PCI standard.... Read more
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| PC bus system | PCI express |
| PC bus system | PCI express |
| PC bus system | PXI-Express |
| PC bus system | PCI express |
| PC bus system | PCI express |
| PC bus system | PCI express |
| PC bus system | PXI-Express |
| PC bus system | PCI express |
| PC bus system | PCI express |
| PC bus system | PCI express |
| PC bus system | PXI-Express |
| PC bus system | PCI express |
| Applications | Aerospace & Aviation |
| Resolution of the A/D converter | 14 bit |
| Sampling rate per channel (simultaneous recording) | 125 MSample/s |
| Analog input measured variables | DC signals AC signals |
| Applications | Aerospace & Aviation |
| Resolution of the A/D converter | 16 bit |
| Resolution of the D/A converter | 16 bit |
| Sampling rate per channel (simultaneous recording) | 1 GSample/s |
| Applications | Aerospace & Aviation |
| Resolution of the A/D converter | 16 bit |
| Resolution of the D/A converter | 16 bit |
| Sampling rate per channel (simultaneous recording) | 1 GSample/s |
| Applications | Aerospace & Aviation |
| Resolution of the A/D converter | 16 bit |
| Sampling rate per channel (simultaneous recording) | 25 MSample/s |
| Analog input measured variables | DC signals AC signals |
| Applications | Aerospace & Aviation |
| Resolution of the A/D converter | 12 bit |
| Sampling rate per channel (simultaneous recording) | 3 GSample/s |
| Number of channels, analog output channels | 2 Kanal |
| Applications | Aerospace & Aviation |
| Resolution of the A/D converter | 16 bit |
| Resolution of the D/A converter | 16 bit |
| Sampling rate per channel (simultaneous recording) | 1 GSample/s |
| Applications | Aerospace & Aviation |
| Resolution of the A/D converter | 12 bit |
| Resolution of the D/A converter | 12 bit |
| Sampling rate per channel (simultaneous recording) | 6 GSample/s |
PC bus plug-in cards are an important component in modern computers. They are used to incorporate additional functions or extensions into the computer. There are different types of PC bus plug-in cards, each developed for specific purposes. One of the best known is the graphics card, which is responsible for displaying images and videos on the screen. Another important plug-in card is the sound card, which is responsible for the computer's audio output. Other plug-in cards include network cards, which connect the computer to a network, and WLAN cards, which enable wireless Internet connections. There are also memory cards that expand the computer's memory and TV cards that allow you to watch TV programs on your computer. The installation of PC bus plug-in cards is generally simple. All you have to do is open the computer, insert the card into the appropriate slot and make sure that it is properly engaged. The computer must then be reassembled and the drivers for the plug-in cards installed.PC bus plug-in cards enable users to equip their computers with additional functions and improve their performance. They are a practical solution for adapting the computer to individual needs.
What are PC bus plug-in cards and what are they used for?
PC bus plug-in cards are expansion cards that are plugged into the expansion slots of a computer. These slots are usually located on the computer's motherboard and make it possible to add various functions and components.
Some common types of PC bus plug-in cards are:
1. Graphics cards: These maps enable graphics and images to be displayed on the computer screen. They are particularly important for gamers and users who run graphics-intensive applications.
2. Sound cards: Sound cards improve the audio quality of the computer and enable the output of high-quality sound via speakers or headphones. They are particularly relevant for users who want to consume multimedia content or create audio recordings.
3. Network cards: These cards enable the computer to be connected to a network, whether via a wired Ethernet or a wireless connection such as WLAN. They are essential for Internet access and network communication.
4. TV tuner cards: These cards enable the computer to receive and display live TV signals. They are used to turn the computer into a television or DVR (Digital Video Recorder).
5. USB cards: USB plug-in cards expand the number of USB ports on the computer. They are useful if the computer does not have enough integrated USB ports or if additional devices need to be connected.
The use of PC bus plug-in cards enables users to expand the functions of their computer and adapt them to their specific needs. They offer a way to improve the performance and functionality of a computer and customize it for different tasks and applications.
Some common types of PC bus plug-in cards are:
1. Graphics cards: These maps enable graphics and images to be displayed on the computer screen. They are particularly important for gamers and users who run graphics-intensive applications.
2. Sound cards: Sound cards improve the audio quality of the computer and enable the output of high-quality sound via speakers or headphones. They are particularly relevant for users who want to consume multimedia content or create audio recordings.
3. Network cards: These cards enable the computer to be connected to a network, whether via a wired Ethernet or a wireless connection such as WLAN. They are essential for Internet access and network communication.
4. TV tuner cards: These cards enable the computer to receive and display live TV signals. They are used to turn the computer into a television or DVR (Digital Video Recorder).
5. USB cards: USB plug-in cards expand the number of USB ports on the computer. They are useful if the computer does not have enough integrated USB ports or if additional devices need to be connected.
The use of PC bus plug-in cards enables users to expand the functions of their computer and adapt them to their specific needs. They offer a way to improve the performance and functionality of a computer and customize it for different tasks and applications.
What different types of PC bus plug-in cards are there?
There are different types of PC bus plug-in cards that can be used for different purposes. Here are some of the most common types of insert cards:
- Graphics cards: Graphics cards are responsible for displaying graphics and videos and are plugged into the PCIe slot of the motherboard. They offer powerful graphics capabilities for gaming, 3D modeling and other graphics-intensive applications.
- Sound cards: Sound cards improve the sound quality and offer extended audio functions. They are usually plugged into the PCIe or PCI slot of the motherboard and provide connections for speakers, microphones and other audio devices.
- Network cards: Network cards enable connection to a network, whether wired or wireless. They are usually plugged into the PCIe or PCI slot of the motherboard and provide an Ethernet or WLAN connection.
- USB expansion cards: USB expansion cards allow the USB ports of a computer to be expanded. They are usually plugged into the PCIe or PCI slot of the motherboard and provide additional USB ports for connecting peripheral devices such as keyboards, mice, printers and external hard disks.
- SATA expansion cards: SATA expansion cards allow the SATA ports of a computer to be expanded. They are usually plugged into the PCIe or PCI slot of the motherboard and provide additional ports for connecting hard disks, SSDs and other storage devices.
- TV tuner cards: TV tuner cards allow you to watch and record TV programs on a computer. They are usually plugged into the PCIe or PCI slot of the motherboard and provide connections for connecting a TV cable or antenna.
- WLAN cards: WLAN cards enable wireless connection to a network. They are usually plugged into the PCIe or M.2 slot of the motherboard and provide a WLAN connection.
These are just a few examples of PC bus plug-in cards, but there are many other specializations and extensions, depending on the individual needs and requirements of the user.
- Graphics cards: Graphics cards are responsible for displaying graphics and videos and are plugged into the PCIe slot of the motherboard. They offer powerful graphics capabilities for gaming, 3D modeling and other graphics-intensive applications.
- Sound cards: Sound cards improve the sound quality and offer extended audio functions. They are usually plugged into the PCIe or PCI slot of the motherboard and provide connections for speakers, microphones and other audio devices.
- Network cards: Network cards enable connection to a network, whether wired or wireless. They are usually plugged into the PCIe or PCI slot of the motherboard and provide an Ethernet or WLAN connection.
- USB expansion cards: USB expansion cards allow the USB ports of a computer to be expanded. They are usually plugged into the PCIe or PCI slot of the motherboard and provide additional USB ports for connecting peripheral devices such as keyboards, mice, printers and external hard disks.
- SATA expansion cards: SATA expansion cards allow the SATA ports of a computer to be expanded. They are usually plugged into the PCIe or PCI slot of the motherboard and provide additional ports for connecting hard disks, SSDs and other storage devices.
- TV tuner cards: TV tuner cards allow you to watch and record TV programs on a computer. They are usually plugged into the PCIe or PCI slot of the motherboard and provide connections for connecting a TV cable or antenna.
- WLAN cards: WLAN cards enable wireless connection to a network. They are usually plugged into the PCIe or M.2 slot of the motherboard and provide a WLAN connection.
These are just a few examples of PC bus plug-in cards, but there are many other specializations and extensions, depending on the individual needs and requirements of the user.
What advantages do PC bus plug-in cards offer over other hardware expansions?
PC bus plug-in cards offer several advantages over other hardware extensions:
1. Simple installation: Plug-in cards can simply be inserted into the corresponding expansion slot of the computer, making installation quick and easy. In contrast, other hardware extensions may require more complicated installation processes.
2. Compatibility: Plug-in cards are generally designed for use in PCs and offer a high level of compatibility with various computers and operating systems. This means that they can be used in most cases without any problems.
3. Versatility: There are various types of plug-in cards that can offer different functions and extensions. Examples include graphics cards, sound cards, network cards and memory expansion cards. This versatility allows users to expand their computing power and capabilities as needed.
4. Updatability: Plug-in cards can be easily replaced or upgraded to improve the hardware capabilities of the computer. This allows users to customize and improve their computer performance and features over time without having to replace the entire computer.
5. Cost efficiency: Compared to buying a new computer, plug-in cards can be a more cost-effective way to improve the performance and functions of a computer. Users can buy only the specific plug-in cards they need instead of purchasing a complete computer.
In summary, PC bus plug-in cards offer easy installation, high compatibility, versatility, upgradeability and cost efficiency compared to other hardware extensions.
1. Simple installation: Plug-in cards can simply be inserted into the corresponding expansion slot of the computer, making installation quick and easy. In contrast, other hardware extensions may require more complicated installation processes.
2. Compatibility: Plug-in cards are generally designed for use in PCs and offer a high level of compatibility with various computers and operating systems. This means that they can be used in most cases without any problems.
3. Versatility: There are various types of plug-in cards that can offer different functions and extensions. Examples include graphics cards, sound cards, network cards and memory expansion cards. This versatility allows users to expand their computing power and capabilities as needed.
4. Updatability: Plug-in cards can be easily replaced or upgraded to improve the hardware capabilities of the computer. This allows users to customize and improve their computer performance and features over time without having to replace the entire computer.
5. Cost efficiency: Compared to buying a new computer, plug-in cards can be a more cost-effective way to improve the performance and functions of a computer. Users can buy only the specific plug-in cards they need instead of purchasing a complete computer.
In summary, PC bus plug-in cards offer easy installation, high compatibility, versatility, upgradeability and cost efficiency compared to other hardware extensions.
How are PC bus plug-in cards installed and connected in a computer?
To install and connect PC bus plug-in cards in a computer, you must follow the steps below:
1. Make sure that the computer is switched off and the power cable is unplugged to prevent it from being accidentally switched on during installation.
2. Open the housing of the computer. Depending on the enclosure model, this can be done by removing screws or loosening latches on the back of the enclosure.
3. Locate the appropriate slot for the plug-in card on the motherboard. This can be a PCI, PCI Express or AGP slot. Make sure you are using the correct slot for the specific plug-in card you want to install.
4. Carefully remove the cover or panel of the slot by loosening the corresponding screws or carefully pushing them outwards.
5. Alignment of the plug-in card: Orient the plug-in card so that the card connector (usually a gold contact strip) matches the slot on the motherboard. Carefully press the plug-in card into the slot until it is fully inserted. Make sure that it is pressed straight and evenly into the slot.
6. Attach the insert card: Some motherboards have screw holes to secure the plug-in card. Check the motherboard instructions to find out whether screws are required and whether they are included with the motherboard. Fasten the insert card securely to prevent it from slipping or falling.
7. Connect the cables: Some plug-in cards may require additional power supply or have special connections for other devices. Check the instructions for the plug-in card to find out which cables or connections are required and connect them accordingly. Ensure that all cables are firmly and securely connected.
8. Close the computer housing and fasten it again with the appropriate screws or bolts.
9. Switch on the computer and check that the plug-in card is recognized correctly. If necessary, install the drivers or software supplied with the plug-in card.
Please note that the exact procedure may vary depending on the computer model and plug-in card variant. It is advisable to read the instructions of the motherboard and the plug-in card for specific instructions and requirements.
1. Make sure that the computer is switched off and the power cable is unplugged to prevent it from being accidentally switched on during installation.
2. Open the housing of the computer. Depending on the enclosure model, this can be done by removing screws or loosening latches on the back of the enclosure.
3. Locate the appropriate slot for the plug-in card on the motherboard. This can be a PCI, PCI Express or AGP slot. Make sure you are using the correct slot for the specific plug-in card you want to install.
4. Carefully remove the cover or panel of the slot by loosening the corresponding screws or carefully pushing them outwards.
5. Alignment of the plug-in card: Orient the plug-in card so that the card connector (usually a gold contact strip) matches the slot on the motherboard. Carefully press the plug-in card into the slot until it is fully inserted. Make sure that it is pressed straight and evenly into the slot.
6. Attach the insert card: Some motherboards have screw holes to secure the plug-in card. Check the motherboard instructions to find out whether screws are required and whether they are included with the motherboard. Fasten the insert card securely to prevent it from slipping or falling.
7. Connect the cables: Some plug-in cards may require additional power supply or have special connections for other devices. Check the instructions for the plug-in card to find out which cables or connections are required and connect them accordingly. Ensure that all cables are firmly and securely connected.
8. Close the computer housing and fasten it again with the appropriate screws or bolts.
9. Switch on the computer and check that the plug-in card is recognized correctly. If necessary, install the drivers or software supplied with the plug-in card.
Please note that the exact procedure may vary depending on the computer model and plug-in card variant. It is advisable to read the instructions of the motherboard and the plug-in card for specific instructions and requirements.
Which important technical specifications should be considered when selecting a PC bus plug-in card?
When selecting a PC bus plug-in card, you should pay attention to the following important technical specifications:
1. Compatibility: Make sure that the plug-in card is compatible with the correct PC bus standard, e.g. PCI, PCI Express or AGP.
2. Connections: Check whether the plug-in card has the required connections to connect it to other devices or components. For example, a graphics card usually requires an HDMI, DVI or VGA connection.
3. Speed: Check the transfer speed of the plug-in card to ensure that it meets your requirements. This can be specified in the form of data transfer rates such as gigabits per second (Gbps) for network cards or megahertz (MHz) for graphics cards.
4. Memory: Check the memory capacity of the plug-in card if it has such a function. This is particularly important for graphics cards or sound cards, as a larger memory capacity can lead to better performance.
5. Power supply: Make sure that the plug-in card has the correct power supply and that your computer has sufficient power reserves to operate it. Some powerful plug-in cards may also require a separate power supply via an additional connection.
6. Compatibility with the operating system: Check whether the plug-in card is compatible with your operating system. This is particularly important for older plug-in cards, which may not be compatible with newer operating systems or drivers.
7. Dimensions: Make sure that the plug-in card physically fits into your computer. Check the dimensions of the card and compare them with the available slots in your computer.
By taking these technical specifications into account, you can ensure that you select a PC bus plug-in card that meets your requirements and is compatible with your computer.
1. Compatibility: Make sure that the plug-in card is compatible with the correct PC bus standard, e.g. PCI, PCI Express or AGP.
2. Connections: Check whether the plug-in card has the required connections to connect it to other devices or components. For example, a graphics card usually requires an HDMI, DVI or VGA connection.
3. Speed: Check the transfer speed of the plug-in card to ensure that it meets your requirements. This can be specified in the form of data transfer rates such as gigabits per second (Gbps) for network cards or megahertz (MHz) for graphics cards.
4. Memory: Check the memory capacity of the plug-in card if it has such a function. This is particularly important for graphics cards or sound cards, as a larger memory capacity can lead to better performance.
5. Power supply: Make sure that the plug-in card has the correct power supply and that your computer has sufficient power reserves to operate it. Some powerful plug-in cards may also require a separate power supply via an additional connection.
6. Compatibility with the operating system: Check whether the plug-in card is compatible with your operating system. This is particularly important for older plug-in cards, which may not be compatible with newer operating systems or drivers.
7. Dimensions: Make sure that the plug-in card physically fits into your computer. Check the dimensions of the card and compare them with the available slots in your computer.
By taking these technical specifications into account, you can ensure that you select a PC bus plug-in card that meets your requirements and is compatible with your computer.
What common applications or areas of use are there for PC bus plug-in cards?
There is a wide range of applications and areas of use for PC bus plug-in cards. Here are some common examples:
1. Graphics cards: One of the best-known applications of PC bus plug-in cards are graphics cards. They enable graphics, videos and games to be displayed on the screen and can significantly improve the graphics performance of a computer.
2. Sound cards: Sound cards are used to improve the sound of a computer. They enable the playback of music, movies and games in high quality and often offer advanced audio functions such as 5.1 or 7.1 surround sound.
3. Network cards: Network cards enable a computer to be connected to a network, whether via Ethernet, WLAN or other types of connection. They allow you to access the Internet, share files and resources on the network and often also offer advanced functions such as Gigabit Ethernet or wireless AC.
4. TV tuner cards: TV tuner cards enable a computer to receive and display television signals. They can receive digital or analog TV signals and often offer additional functions such as recording TV programs or displaying teletext.
5. Video capture cards: Video capture cards enable video signals from external sources such as video cameras or DVD players to be recorded on the computer. They can be used to edit, convert or stream videos.
6. RAID controller: RAID controller cards enable RAID arrays to be set up and managed. They offer enhanced data security and performance by merging multiple hard disks into a single logical drive.
7. USB expansion cards: These cards provide additional USB ports for computers that do not have enough USB ports of their own. They enable the connection of additional USB devices such as printers, cameras or external hard disks.
8. FireWire cards: FireWire cards offer additional FireWire ports for connecting FireWire devices such as external hard disks or video cameras.
9. SATA controller: SATA controller cards allow additional SATA hard disks or SSDs to be connected to the computer. You can expand the storage capacity or the performance of the system.
10. USB sound cards: USB sound cards offer an external way to improve the sound of a computer. They are particularly useful for laptops or desktops that do not have internal sound cards.
These are just a few examples of the diverse applications and areas of use for PC bus plug-in cards. There are many other specialized cards for specific tasks or requirements.
1. Graphics cards: One of the best-known applications of PC bus plug-in cards are graphics cards. They enable graphics, videos and games to be displayed on the screen and can significantly improve the graphics performance of a computer.
2. Sound cards: Sound cards are used to improve the sound of a computer. They enable the playback of music, movies and games in high quality and often offer advanced audio functions such as 5.1 or 7.1 surround sound.
3. Network cards: Network cards enable a computer to be connected to a network, whether via Ethernet, WLAN or other types of connection. They allow you to access the Internet, share files and resources on the network and often also offer advanced functions such as Gigabit Ethernet or wireless AC.
4. TV tuner cards: TV tuner cards enable a computer to receive and display television signals. They can receive digital or analog TV signals and often offer additional functions such as recording TV programs or displaying teletext.
5. Video capture cards: Video capture cards enable video signals from external sources such as video cameras or DVD players to be recorded on the computer. They can be used to edit, convert or stream videos.
6. RAID controller: RAID controller cards enable RAID arrays to be set up and managed. They offer enhanced data security and performance by merging multiple hard disks into a single logical drive.
7. USB expansion cards: These cards provide additional USB ports for computers that do not have enough USB ports of their own. They enable the connection of additional USB devices such as printers, cameras or external hard disks.
8. FireWire cards: FireWire cards offer additional FireWire ports for connecting FireWire devices such as external hard disks or video cameras.
9. SATA controller: SATA controller cards allow additional SATA hard disks or SSDs to be connected to the computer. You can expand the storage capacity or the performance of the system.
10. USB sound cards: USB sound cards offer an external way to improve the sound of a computer. They are particularly useful for laptops or desktops that do not have internal sound cards.
These are just a few examples of the diverse applications and areas of use for PC bus plug-in cards. There are many other specialized cards for specific tasks or requirements.
How has the development of PC bus plug-in cards changed over time?
The development of PC bus plug-in cards has changed considerably over time. Here are some of the most important changes:
1. Introduction of ISA: The first widely used plug-in card was the Industry Standard Architecture (ISA) card, which was introduced in the 1980s. ISA enabled the connection of expansion cards such as graphics cards, sound cards and modems.
2. Emergence of PCI: The Peripheral Component Interconnect (PCI) bus was introduced in the 1990s. PCI was faster and more powerful than ISA and enabled the connection of high-performance components such as graphics cards and network cards.
3. Further development of PCI: Over time, various iterations of PCI have been developed, including PCI-X and PCI Express (PCIe). These versions offered higher transfer rates and extended functions for modern applications.
4. Extinction of ISA: With the further development of PCI and PCIe, ISA gradually became obsolete and disappeared completely in the 2000s. Modern motherboards normally no longer support ISA cards.
5. Compatibility and standards: The development of PC bus plug-in cards was driven by the introduction of standards and compatibility guidelines. This made it easier to select and use expansion cards on different motherboards.
6. Integration on the motherboard: In recent years, the trend towards integrating functions on the motherboard has increased. Many functions that previously required separate plug-in cards are now available directly on the motherboard, such as sound, graphics and networking.
Overall, the development of PC bus plug-in cards has evolved over time from simpler and slower ISA cards to faster and more powerful PCI and PCIe cards. At the same time, the trend towards integration on the motherboard has continued in order to save space and reduce complexity.
1. Introduction of ISA: The first widely used plug-in card was the Industry Standard Architecture (ISA) card, which was introduced in the 1980s. ISA enabled the connection of expansion cards such as graphics cards, sound cards and modems.
2. Emergence of PCI: The Peripheral Component Interconnect (PCI) bus was introduced in the 1990s. PCI was faster and more powerful than ISA and enabled the connection of high-performance components such as graphics cards and network cards.
3. Further development of PCI: Over time, various iterations of PCI have been developed, including PCI-X and PCI Express (PCIe). These versions offered higher transfer rates and extended functions for modern applications.
4. Extinction of ISA: With the further development of PCI and PCIe, ISA gradually became obsolete and disappeared completely in the 2000s. Modern motherboards normally no longer support ISA cards.
5. Compatibility and standards: The development of PC bus plug-in cards was driven by the introduction of standards and compatibility guidelines. This made it easier to select and use expansion cards on different motherboards.
6. Integration on the motherboard: In recent years, the trend towards integrating functions on the motherboard has increased. Many functions that previously required separate plug-in cards are now available directly on the motherboard, such as sound, graphics and networking.
Overall, the development of PC bus plug-in cards has evolved over time from simpler and slower ISA cards to faster and more powerful PCI and PCIe cards. At the same time, the trend towards integration on the motherboard has continued in order to save space and reduce complexity.