Intel 21143 manual LED Status Signals, 1 3.3 V Power Supply

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Intel® 21143 PCI/CardBus 10/100Mb/s Ethernet LAN Controller

Intel also recommends that the connector’s shield of the adapter should be connected to the PC chassis.

5.1.13.3 V Power Supply

The 21143 operates with a power supply of 3.3 V. At least eight decoupling capacitors are recommended and should contain the following values:

Three each at 0.1 µF

Three each at 0.01 µF

One each at 10 µF (tantalum)

One each at 47 µF (tantalum)

5.2LED Status Signals

The LED connection requires a serial resistor that is connected to ground. This resistor value should be calculated according to the type of LED used. A typical 2 mA LED requires a 750 resistor. For implementations using the boot ROM, the LED current should not exceed 2 mA. For LED indication and programming information, refer to the CSR15 definition in the 21143 PCI /CardBus 10/100 Mb/s Ethernet LAN Controller Hardware Reference Manual.

The 21143 requires LED time-stretching logic for a visible indication of the activity signal. Figure 11 shows how to implement this circuit.

Figure 11. LED Time-Stretcher Circuit

 

 

+5 V

 

100 k

 

Active Low

1N14B

750

 

74

 

 

 

 

HCT132

 

 

22 nF

 

1N14B

+5 V

Active High

750

 

74

 

 

 

 

HCT132

 

100 k

22 nF

 

 

 

 

LJ-04061.AI4

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Design Guide

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Contents Intel 21143 PCI/CardBus 10/ 100Mb/s Ethernet LAN Controller Design GuideDesign Guide Contents Date Revision Description TablesRevision History 001 First release21143 Overview Signal gep0/auibnc DescriptionFunctional Overview Network InterfaceMII-Based PHY Block Diagram SYM-Based PHY Block DiagramSignal Pin Number AUI SignalsTwisted-Pair Signals 21143 PortsMII Signals SYM SignalsNetwork Connection 10BASE-T Twisted-Pair Network PortBASE-T Network Connection with Buffers BASE-T Network Connection Without Buffers Ready Designs Minimum Components Required for 10BASE-TDesign Features Description of 100-Ready Daughtercard Block DiagramInternal vs. External Design Features Internal Optional Daughtercard5 MII/SYM Pin Listing Description of 100-Ready External Module Block Diagram3 100-Ready External Module Design MII/SYM Pinout Sheet 1AUI Network Port MII/SYM Pinout Sheet 2AUI 10BASE5 Network and Pin Connections AUI 10BASE2 Network Connection BASE-T Media-Specific Components Access Type Components Available Part NumbersMedia-Specific Components BASE2 and 10BASE5 Media-Specific ComponentsUnused Jtag Port Requirements Pin Requirements When Not Using the Jtag Port21143 Requirements Current Reference and Capacitor Input RequirementsSpecification Value Units Crystal SpecificationsCrystal and Crystal Oscillator Connections Signal Routing and Placement Ground and Power PlanesLED Status Signals 1 3.3 V Power SupplyDesigning the Ethernet Corner on Motherboards Suggestions for Quiet Ground and Power PlanesDesign Considerations Suggestions for FCC ComplianceSuggestions for Routing

21143 specifications

The Intel 21143 is a widely recognized Ethernet controller that has played a significant role in the development of networking technology throughout the late 1990s and early 2000s. This controller, part of Intel's line of networking solutions, was designed primarily for desktop and server systems, catering to the needs of both home and enterprise-level networking.

One of the main features of the Intel 21143 is its support for the IEEE 802.3 standard, allowing it to facilitate Ethernet networking at speeds of up to 100 Mbps. The 21143 supports both the 10Base-T and 100Base-TX Ethernet standards, making it versatile for different network environments. Its ability to auto-negotiate between these speeds ensures compatibility with a wide range of network devices, enhancing its utility in mixed-speed networks.

The Intel 21143 employs an advanced shared memory architecture that enables efficient data transfer and reduces CPU overhead. This feature ensures that the controller can handle higher throughput while allowing the CPU to focus on other tasks. Additionally, the controller supports a direct memory access (DMA) transmission capability, providing further enhancements in data handling and overall system performance.

An important characteristic of the Intel 21143 is its onboard processor, which allows it to offload certain networking tasks from the host CPU. This results in improved overall system performance, as the main processor is freed from handling all network traffic. The controller supports Full Duplex operation, enabling simultaneous sending and receiving of data, effectively doubling the potential bandwidth for each connection.

Another notable technology integrated into the Intel 21143 is its built-in support for TCP/IP checksum calculations. By offloading this computationally intensive task from the CPU, the controller enhances network performance, particularly in data-intensive applications such as file transfers and video streaming.

The Intel 21143 was primarily used in PCI (Peripheral Component Interconnect) applications, which facilitated ease of integration into existing systems. Its compatibility with various operating systems, including Windows and Linux, made it a popular choice among developers and users alike.

Overall, the Intel 21143 Ethernet controller has been instrumental in evolving networking technology. Its impressive features, efficient architecture, and robust performance have solidified its position in the market, paving the way for future advancements in Ethernet networking. Even today, the principles and technologies introduced with the Intel 21143 continue to influence modern networking solutions.