Time divison multiplex ring
First Claim
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1. A ring type data communications network comprising:
- (a) at least three nodes, each node containing a multiplexer and a demultiplexer, a means to transmit data and an alarm means for transmitting alarm signals;
(b) main and standby transmission paths connecting said nodes into a ring type transmission circuit;
(c) a first transmitter and receiver at each node in the main transmission path adapted to transmit and receive data and alarm signals in a first direction;
(d) a second transmitter and receiver at each node in the standby path normally unbridged one to another, adapted to transmit and receive data and alarm signals in a second direction opposite from said first direction;
(e) a bridging means in each node for forming a transmission path between the transmitter and receiver on the standby transmission path of each node responsive only to a first predetermined alarm signal originating from the alarm means in the node containing said bridging means;
(f) at least one switching means at each node responsive to the presence of a second predetermined alarm signal to switch the data and alarm means at each node from a connection where all transmission is utilized from the main transmission path to a connection whereby data and alarm signals are utilized from said standby path; and
(g) a multiplexer at each node to multiplex transmissions and a demultiplexer to demultiplex receptions.
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Abstract
A Time Divison Multiplex Ring (TDM Ring) comprising a plurality of nodes (central offices) connected together by interchange trunks (main and standby paths) in a ring type configuration. Each node contains a multiplexer, a demultiplexer, data, alarm, bridging, switching circuits, transmitters and receivers on the main and standby paths, all arranged so that (a) data and alarm signals are transmitted in a first direction on the main path and in an opposite direction on the standby path, (b) the bridging circuit forms a transmission path between the transmitter and receiver on the standby path of each node only in response to a predetermined alarm signal originating from an alarm circuit in another node received at a given node on the main transmission path and (c) the switching circuit is responsive to the presence of a predetermined alarm status to switch the data and alarm circuits at each node from a connection where all transmission is on the main path to a connnection whereby such signals are transmitted at least in part over the standby path.
59 Citations
10 Claims
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1. A ring type data communications network comprising:
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(a) at least three nodes, each node containing a multiplexer and a demultiplexer, a means to transmit data and an alarm means for transmitting alarm signals; (b) main and standby transmission paths connecting said nodes into a ring type transmission circuit; (c) a first transmitter and receiver at each node in the main transmission path adapted to transmit and receive data and alarm signals in a first direction; (d) a second transmitter and receiver at each node in the standby path normally unbridged one to another, adapted to transmit and receive data and alarm signals in a second direction opposite from said first direction; (e) a bridging means in each node for forming a transmission path between the transmitter and receiver on the standby transmission path of each node responsive only to a first predetermined alarm signal originating from the alarm means in the node containing said bridging means; (f) at least one switching means at each node responsive to the presence of a second predetermined alarm signal to switch the data and alarm means at each node from a connection where all transmission is utilized from the main transmission path to a connection whereby data and alarm signals are utilized from said standby path; and (g) a multiplexer at each node to multiplex transmissions and a demultiplexer to demultiplex receptions. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A ring communications network, comprising:
- main and standby oppositely directed, looped unidirectional transmission paths having at least three nodes connected in series along said transmission paths, each node connected to each said transmission path, each node comprising;
(a) a main transmitter and receiver adapted to transmit and receive, respectively, data and alarms on said main transmission path; (b) a standby transmitter and receiver adapted to transmit and receive, respectively, data and alarms on said standby transmission path; (c) a data source having an incoming signal path from a switch and having first and second outgoing signal paths, the first outgoing signal path connected to said main transmitter and the second outgoing signal path connected to a bridging means; (d) said switch, having an incoming signal path from said standby receiver and an incoming signal path from said main receiver, and having an outgoing signal path to said data source, adapted to connect said data source to said main receiver during normal operation and connect said data source to said standby receiver in response to a local alarm signal received from an alarm unit; (e) said bridging means, having an outgoing signal path to said standby transmitter and having a normally connected incoming signal path from said data source, adapted to disconnect said data source signal path and connect an incoming signal path from said standby receiver in response to a bypass signal received from said alarm unit; and (f) an alarm unit adapted to transmit (i) a local alarm to said switch within the same node when data is not properly received on said main receiver; (ii) remote alarms on said main and standby transmitters when data is not properly received on said main receiver; (iii) a bypass signal to said bridging means within the same node in response to a remote alarm signal received by said main receiver when no other local or remote alarms are received at the node; and (iv) a remote alarm on said main transmiid main receiver when no other local or remote alarms are received at the node; and (iv) a remote alarm on said main transmitter when a remote alarm is received on said main receiver.
- main and standby oppositely directed, looped unidirectional transmission paths having at least three nodes connected in series along said transmission paths, each node connected to each said transmission path, each node comprising;
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9. A method of operating a node in a ring communications network comprising main and standby oppositely directed, looped, unidirectional transmission paths having at least 3 nodes, each node connected in series along each said transmission path, comprising the steps of:
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(a) detecting faults in data received on the incoming transmission paths; (b) utilizing data received on the standby transmission path when a fault is detected on the main incoming transmission path, and utilizing data received on the main transmission path on other occasions; (c) transmitting an alarm on said main and standby transmission paths when a fault is detected in data received on said main incoming transmission path; (d) transmitting an alarm on the main transmission path when an alarm is received on the main transmission path; (e) repeating data received on the incoming standby transmission path over the outgoing standby transmission path when (i) an alarm is received on the main transmission path, but not the standby transmission path, and (ii) no faults are detected on said standby transmission path; (f) transmitting data over the main transmission path; and (g) transmitting data over the standby transmission path when said repeating step is not carried out. - View Dependent Claims (10)
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Specification
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Current AssigneeE. I. du Pont de Nemours and Company (Corteva, Inc.)
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Original AssigneeFiberlan Incorporated
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InventorsJones, J. Richard, Mann, Alan B.
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Primary Examiner(s)Yusko, Donald J.
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Application NumberUS06/663,360Time in Patent Office761 DaysField of Search340/825.05, 340/825.16, 340/825.02, 370/15, 370/16, 370/55, 370/65, 370/86, 370/87, 371/11US Class Current370/224CPC Class CodesH04L 12/437 Ring fault isolation or rec...
