Abstract: A bus arbiter that ensures high priority transfers complete and allows high-priority data transfers with specific latency requirements, such as 802.11 requirements, to be prioritized above data transfers with lower latency requirements. As an example, the arbiter closely manages all transactions and guarantees sufficient latencies by pre-empting lower-priority data transfers with higher priority data transfers. All devices on the bus are configured with a latency timer setting of zero or a non-zero value which guarantees required data transfer latencies are met which means that any device will terminate bus-master transfers quickly upon the bus grant signal being de-asserted. To ensure a transfer completes, bus grant for the priority transfer is asserted until entire data transfer completion is imminent, enabling transfers, such as high priority transfers, to complete uninterrupted.

Abstract: In one embodiment, a powered device is configured to determine module population and the appropriate power requirements for installed modules. The power requirements can be communicated to the power sourcing equipment for the powered device. Optionally, the powered device can receive data representative of available power from the power sourcing equipment and the powered device is responsive to operate accordingly.

Abstract: A system and method for increasing accuracy of transmitter power detection over a larger range of output power levels wherein a diode detector is followed by a series cascade of 2 op amps. The first op amp functions as a differential/buffer amplifier, which improves temperature performance. The second op amp has two selectable gain factors. The output of the second op amp is routed to the ADC. A single control can is connected to a controllable switching device that configures the second op amp for high gain or low gain.

Abstract: A bus arbiter that ensures high priority transfers complete and allows high-priority data transfers with specific latency requirements, such as 802.11 requirements, to be prioritized above data transfers with lower latency requirements. As an example, the arbiter closely manages all transactions and guarantees sufficient latencies by pre-empting lower-priority data transfers with higher priority data transfers. All devices on the bus are configured with a latency timer setting of zero or a non-zero value which guarantees required data transfer latencies are met which means that any device will terminate bus-master transfers quickly upon the bus grant signal being de-asserted. To ensure a transfer completes, bus grant for the priority transfer is asserted until entire data transfer completion is imminent, enabling transfers, such as high priority transfers, to complete uninterrupted.

Abstract: A switching interface comprising a switch having an input and a plurality of outputs, and a memory associated with the switch. The switch is adapted to receive a packet from the input, the packet to be forwarded to a destination device coupled to a one of the plurality of outputs. The switch is responsive to store the packet in the associated memory. The switch is further responsive to a signal from the destination device to forward the packet from the associated memory to the destination device through the one of the plurality of outputs. Optionally, the switching interface may further comprise a packet encryption engine coupled between the input and the associated memory. Typically, the output devices coupled to the plurality of outputs will each have its own separate encryption process; in these scenarios the encryption engine will have logic for determining the appropriate encryption for the output device.