ThunderLAN Registers

Chapter 2

ThunderLAN uses a variety of registers to perform its networking functions. These include peripheral component interface (PCI) registers, host registers, internal direct input/output (DIO) registers, media independent interface (MII) registers, and physical interface (PHY) registers. Access to these is a require- ment for setting up the ThunderLAN controller and any of the PHY devices at- tached to the MII. They must be accessed as well for transmission, initiation, and reception of data. Other activities which require the user to understand ThunderLAN's register spaces include determining the cause of event-driven interrupts and how to clear them and diagnostic functions. This chapter ex- plains register configurations and discusses control of these spaces through code examples.

Topic		Page

2.1	Register Addresses	. . 2-2
2.2	PCI Configuration Space	. . 2-4
2.3	Host Registers	. . 2-9
2.4	Internal Registers	. 2-11
2.5	MII PHY Registers	. 2-15
2.6	External Devices	. 2-25

2-1

TNETE110A, TNETE211, TNETE100A specifications

Texas Instruments has been a leader in developing innovative semiconductor solutions, and their Ethernet PHY (Physical Layer Transceiver) family, specifically the TNETE100A, TNETE211, and TNETE110A, exemplifies this commitment to excellence. These devices are designed to address the needs of a variety of applications, ranging from industrial automation to consumer electronics.

The TNETE100A is a highly versatile Ethernet PHY capable of supporting 10/100 Mbps Ethernet connectivity. One of its main features is the low power consumption, which makes it an ideal choice for battery-operated devices. It incorporates advanced power management technologies, ensuring that the device operates efficiently while maintaining high performance. The TNETE100A also supports Auto-Negotiation, allowing for seamless communication between devices at different speeds, thereby enhancing flexibility in network configurations.

Moving to the TNETE211, this device supports 10/100/1000 Mbps Ethernet, making it suitable for high-speed networking applications. This PHY integrates features such as Energy Efficient Ethernet (EEE), which reduces power consumption during low-traffic periods, aligning with the contemporary demand for energy efficiency in networking equipment. The TNETE211 is engineered with robust EMI (Electromagnetic Interference) performance and provides multiple interface options, making it a versatile choice for embedded systems and networking applications.

The TNETE110A stands out in the lineup as a sophisticated device that supports both Fast Ethernet and Gigabit Ethernet. This PHY utilizes advanced signal processing techniques to ensure superior link robustness and performance in noisy environments. Its features include an integrated transformer driver, which simplifies PCB design and allows for compact device layouts. Additionally, the TNETE110A is designed to be fully compliant with Ethernet standards, ensuring reliable interoperability with other network components.

All three PHYs leverage Texas Instruments' expertise in integrated circuit design, resulting in low jitter and high signal integrity, essential for modern communication standards. They are optimized for a wide range of temperatures, making them suitable for harsh industrial applications. With built-in diagnostic capabilities, these devices also enable efficient fault detection and troubleshooting in network infrastructures.

In summary, the Texas Instruments TNETE100A, TNETE211, and TNETE110A are exemplary Ethernet PHY devices, each tailored to meet specific networking needs while adhering to stringent efficiency and performance criteria. Their advanced features, technologies, and reliability make them pivotal components in today's fast-paced digital landscape.

Texas Instruments TNETE211, TNETE110A, TNETE100A manual ThunderLAN Registers

Models: TNETE110A TNETE211 TNETE100A

ThunderLAN Registers

TNETE110A, TNETE211, TNETE100A specifications