Transceiver interface
First Claim
1. In a network node having an intelligent cell and a transceiver, the transceiver coupled to a communications medium for communicating with other nodes of the network, a method for exchanging information between the cell and the transceiver and transmitting information on the communications medium comprising the steps of:
- (a) supplying the transceiver with a bit clock generated by the cell;
(b) supplying the transceiver with a frame clock generated by the cell;
(c) transferring successive frames of transceiver-bound information from the cell to the transceiver during respective successive cycles of the frame clock;
(d) transferring successive frame of cell-bound information from the transceiver to the cell substantially concurrently with the transfer of corresponding frames of transceiver-bound information, wherein each frame of said transceiver-bound and cell-bound information both comprise a plurality of status bits and a plurality of data bits transferred in synchronism with the bit clock;
(e) transmitting the field of data bits of at least one frame of transceiver-bound information on the communications medium.
1 Assignment
0 Petitions
Accused Products
Abstract
An interface between a network cell and an associated network communications transceiver passes both network information and command/control information between the cell and the transceiver. The interface is designed to minimize the number of control lines between the cell and the transceiver. A protocol between the two devices is established to deal with configuration and error reporting as well as the passage of network data. This protocol consists of the cell and the transceiver each exchanging 8 bits of status and 8 bits of data simultaneously and continuously at rates up to 1.25 MBPS. Only a single version of cell firmware is required since a fixed amount of configuration information is sent from the cell to the transceiver, and a fixed amount of status information is returned from the transceiver to the cell.
44 Citations
16 Claims
-
1. In a network node having an intelligent cell and a transceiver, the transceiver coupled to a communications medium for communicating with other nodes of the network, a method for exchanging information between the cell and the transceiver and transmitting information on the communications medium comprising the steps of:
-
(a) supplying the transceiver with a bit clock generated by the cell; (b) supplying the transceiver with a frame clock generated by the cell; (c) transferring successive frames of transceiver-bound information from the cell to the transceiver during respective successive cycles of the frame clock; (d) transferring successive frame of cell-bound information from the transceiver to the cell substantially concurrently with the transfer of corresponding frames of transceiver-bound information, wherein each frame of said transceiver-bound and cell-bound information both comprise a plurality of status bits and a plurality of data bits transferred in synchronism with the bit clock; (e) transmitting the field of data bits of at least one frame of transceiver-bound information on the communications medium. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. In a network node having an intelligent cell and a transceiver, the transceiver coupled to a communications medium for communicating with other nodes of the network, a method for exchanging information between the cell and the transceiver and comprising the steps of:
-
(a) supplying the transceiver with a bit clock generated by the cell; (b) supplying the transceiver with a frame clock generated by the cell; (c) transferring successive frame of transceiver-bound information from the cell to the transceiver during respective successive cycles of the frame clock; (d) transferring successive frames of cell-bound information from the transceiver to the cell substantially concurrently with the transfer of corresponding frame of transceiver-bound information, wherein each frame of said transceiver-bound and cell-bound information both comprise a plurality of status bits and a plurality of data bits transferred in synchronism with the bit clock; and
wherein a first frame of transceiver-bound information includes a transmit request flag for requesting the transceiver to transmit on the communications medium and a first frame of cell-bound information includes a first status bit to clear the transmit request flag; and(e) listening for carrier on the communications medium before the transceiver responds to said request. - View Dependent Claims (10, 11)
-
-
12. In a network node having an intelligent cell and a transceiver, the transceiver coupled to a communications medium for communicating with other nodes of the network, a method for exchanging information between the cell and the transceiver comprising the steps of:
-
(a) supplying the transceiver with a bit clock generated by the cell; (b) supplying the transceiver with a frame clock generated by the cell; (c) transferring transceiver-bound information form the cell to the transceiver including a transceiver status request flag and a register address during a first frame of the frame clock; (d) transferring cell-bound information from the transceiver to the cell including data contained in a transceiver register identified by the register address and a status acknowledgement flag during a second frame of the frame clock, wherein the second frame immediately follows the first frame.
-
-
13. In a network node having an intelligent cell and a transceiver, the transceiver coupled to a communications medium for communicating with other nodes of the network, an apparatus for exchanging information between the cell and the transceiver comprising:
-
first interconnection means for transferring first information from the cell to the transceiver; second interconnection means for transferring second information from the transceiver to the cell substantially concurrent with the transfer of first information; third interconnection means for supplying the transceiver with a bit clock generated by the cell; fourth interconnection means for supplying the transceiver with a frame clock generated by the cell; wherein said first and second information both comprise a plurality of data bits and eight status bits.
-
-
14. In a network node having an intelligent cell and a transceiver, the transceiver coupled to a communications medium for communicating with other nodes of the network, an apparatus for exchanging information between the cell and the transceiver comprising:
-
first interconnection means for transferring first information from the cell to the transceiver; second interconnection means for transferring second information from the transceiver to the cell substantially concurrent with the transfer of first information; third interconnection means for supplying the transceiver with a bit clock generated by the cell; fourth interconnection means for supplying the transceiver with a frame clock generated by the cell; wherein said first and second information both comprise a plurality of status bits and eight data bits. - View Dependent Claims (15, 16)
-
Specification