Monitoring circuit for a data transmission network
First Claim
Patent Images
1. A monitoring circuit for a data transmission network having a plurality of transmissive and receptive network nodes and a double-line bus connecting the network nodes and serving for redundant double transmission of digital communications and having a first line and a second line via which communication pulses transferred in the form of time-spaced pulse sequences are transferred in synchronous manner in terms of time slot, the circuit comprising:
- a) at least one of the network nodes is configured to confirm the reception of the respective pulse sequence by sending a confirmation pulse during a predetermined time slot that is equal for all network nodes;
b) in at least one of the network nodes the first line (A) is connected via a first resistor to a network-node-inherent operating potential source and via a first controllable switch to a reference potential source, and the second line (B) is connected via a second resistor to the reference potential source and via a controllable second switch to the operating potential source;
c) the first and second switches are configured to simultaneously switch to a non-conducting state for transmitting a communication pulse having a first logic value and to simultaneously switch to the conducting state for transmitting a communication pulse having a second logic value;
d) a potential change detector is coupled to the two lines (A, B) to monitor for the presence of potential change activities and detect a condition in which, during a pulse sequence, potential change activities occur only on the first line, but not on the second line;
e) and a first time measuring circuit is coupled to the potential change detector and is configured to measure the duration of the condition, and when a predetermined duration of such a condition is exceeded, to generate an error signal, and to cause the second switch of the at least one network node to switch to the non-conducting state.
1 Assignment
0 Petitions
Accused Products
Abstract
A monitoring circuit for a data transmission network having a plurality of transmissive and receptive network nodes and a double-line bus connecting the network nodes and serving for redundant double transmission of digital communications, with a first line (A) and a second line (B) via which communication pulses transferred in the form of time-spaced pulse sequences are transferred in synchronous manner in terms of time slot, a potential change detector is provided by means of which the two lines can each be monitored for the presence of potential change activities and by means of which a condition can be detected in which, during a pulse sequence, potential change activities occur only on the first line, but not on the second line; and a first time measuring circuit is provided by means of which a time measurement of the duration of such a condition can be carried out, and when a predetermined duration of such a condition is exceeded, an error signal is generated.
53 Citations
22 Claims
-
1. A monitoring circuit for a data transmission network having a plurality of transmissive and receptive network nodes and a double-line bus connecting the network nodes and serving for redundant double transmission of digital communications and having a first line and a second line via which communication pulses transferred in the form of time-spaced pulse sequences are transferred in synchronous manner in terms of time slot, the circuit comprising:
-
a) at least one of the network nodes is configured to confirm the reception of the respective pulse sequence by sending a confirmation pulse during a predetermined time slot that is equal for all network nodes;
b) in at least one of the network nodes the first line (A) is connected via a first resistor to a network-node-inherent operating potential source and via a first controllable switch to a reference potential source, and the second line (B) is connected via a second resistor to the reference potential source and via a controllable second switch to the operating potential source;
c) the first and second switches are configured to simultaneously switch to a non-conducting state for transmitting a communication pulse having a first logic value and to simultaneously switch to the conducting state for transmitting a communication pulse having a second logic value;
d) a potential change detector is coupled to the two lines (A, B) to monitor for the presence of potential change activities and detect a condition in which, during a pulse sequence, potential change activities occur only on the first line, but not on the second line;
e) and a first time measuring circuit is coupled to the potential change detector and is configured to measure the duration of the condition, and when a predetermined duration of such a condition is exceeded, to generate an error signal, and to cause the second switch of the at least one network node to switch to the non-conducting state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
wherein the first time measuring circuit comprises an up/down counter that is caused to perform up-counting by potential changes on the first line signaled by the potential change detector, and to perform down-counting by potential changes on the second line signaled by the potential change detector and which issues a counter output signal serving as error signal when a predetermined count is reached. -
3. The monitoring circuit of claim 2,
wherein the potential change detector comprises a first comparator and a second comparator by means of which the potential of the second line and of the first line, respectively, can be compared to a first and a second mean potential respectively, that is between an operating potential and a reference potential, and wherein the up/down counter has an up-counting input coupled to a comparator output of the second comparator and a down-counting input coupled to a comparator output of the first comparator. -
4. The monitoring circuit of claim 3, further comprising a first differentiating member coupled between the first comparator and the up/down counter and a second differentiating member coupled between the second comparator and the up/down counter.
-
5. The monitoring circuit of claim 1, further comprising a resettable second time measuring circuit by means of which a time measurement of the error signal duration can be carried out, and which, when a predetermined error signal duration is exceeded, issues a switch control signal to cause the second switch to switch to the non-conducting state, and which can be reset to an initial state by a resetting signal.
-
6. The monitoring circuit of claim 5, further comprising a resettable third time measuring circuit to which changes in potential difference between the two lines are signaled, and which, at each signaled potential difference change, can be reset to an initial state, and, upon expiration of a predetermined duration since the last resetting operation, can produce a resetting signal by means of which the second time measuring circuit can be reset to an initial state.
-
7. The monitoring circuit of claim 6,
comprising a third comparator coupled to the first and second lines and configured to compare the potentials of the first and second lines and having a comparator output coupled to a resetting input of the third time measuring circuit. -
8. The monitoring circuit of claim 7, further comprising an additional differentiating member coupled between the third comparator and the third time measuring circuit.
-
9. The monitoring circuit of claim 8,
wherein at least one of the differentiating members has both a differentiating and a rectifying effect. -
10. The monitoring circuit of claim 9,
wherein the respective differentiating member comprises: -
a D flipflop having a D input coupled to the output of the associated comparator, a clock input connected to a clock pulse source, and a Q output;
and an XOR element having a first input connected to the D input, a second input connected to the Q output, and an output constituting a differentiating member output.
-
-
11. The monitoring circuit of claim 3, further comprising, between the first and second lines and the up/down counter, a priority circuit by means of which, when potential changes occur on the first and second lines, down-counting is given priority over up-counting.
-
12. The monitoring circuit of claim 11,
wherein the priority circuit comprises an AND element, of which an inverting first input is connected to an output of the first differentiating member, a non-inverting second input is connected to an output of the second differentiating member, and an output is connected to the up-counting input of the up/down counter. -
13. The monitoring circuit of claim 6,
wherein the second time measuring circuit comprises a second counter having a clock input connected to a counting clock source, and a counting release input having the error signal applied thereto. -
14. The monitoring circuit of claim 13,
wherein the second counter has a resetting input coupled to an output of the third time measuring circuit. -
15. The monitoring circuit of claim 7,
wherein the third time measuring circuit comprises a third counter having a clock input connected to a counting clock source, and a resetting input coupled with an output of the third comparator.
-
-
16. A monitoring circuit for a dual-line bus having a first line and a second line for conducting first and second signals, respectively, the circuit comprising:
-
a selection switch circuit for selectively coupling the second line to an operating potential source when the selection switch circuit is conductive and uncouple the second line from the operating potential source when the selection switch circuit is non-conductive;
a detector circuit having first and second inputs coupled to the first and second lines, respectively, the detector circuit configured to receive the first and second signals and to detect a line fault condition on the second line, and to generate a detection signal at a detector circuit output upon detection of the line fault condition; and
a timer circuit coupled to the detector circuit, the timer circuit configured to output an error signal to the selection switch circuit when the line fault condition on the second line is detected to render the selection switch circuit non-conductive, wherein the detector circuit comprises a first comparator coupled to the first and second lines, a second comparator coupled to the first line and a first reference voltage source, a third comparator coupled to the second line and to a second reference voltage source, and a differentiator circuit coupled to the first, second, and third comparators; and
wherein the timer circuit is configured to generate an error signal when a line fault condition is detected on the second line and not when a line fault condition is detected on the first line.- View Dependent Claims (17, 18, 19)
-
-
20. A method for monitoring a circuit having a dual-line bus with a first line and a second line for conducting first and second signals, respectively, the method comprising:
-
comparing the first line to a first reference voltage and generating a first comparison signal;
comparing the second line to a second reference voltage and generating a second comparison signal;
converting the first comparison signal to a first countable pulse;
converting the second comparison signal to a second countable pulse;
counting the first countable pulses with one of either an up counter and a down counter in an up/down counter and counting the second countable pulses with the other of the up counter and the down counter in the up/down counter; and
generating a line fault signal when the up/down counter reaches a predetermined count in only one of the up and down counting directions. - View Dependent Claims (21, 22)
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeSTMicroelectronics GmbH (STMicroelectronics NV)
-
Original AssigneeSTMicroelectronics GmbH (STMicroelectronics NV)
-
InventorsHeinrich, Peter
-
Primary Examiner(s)Vo, Don N.
-
Application NumberUS09/330,539Time in Patent Office1,348 DaysField of Search375/224, 375/225, 375/226, 375/227, 375/257, 370/241, 370/242, 370/245, 370/247, 370/249, 324/76.48, 324/76.39, 714/25, 714/48, 379/26US Class Current375/224CPC Class CodesH04L 12/40026 Details regarding a bus gua...H04L 12/40032 Details regarding a bus int...H04L 12/40189 by using a plurality of bus...H04L 12/4135 using bit-wise arbitrationH04L 2012/40215 Controller Area Network CANH04L 43/00 Arrangements for monitoring...H04L 69/40 for recovering from a failu...
