Electronic digital logic circuitry – Signal sensitivity or transmission integrity – Bus or line termination
Reexamination Certificate
2002-06-24
2004-09-21
Tan, Vibol (Department: 2819)
Electronic digital logic circuitry
Signal sensitivity or transmission integrity
Bus or line termination
C326S086000, C327S112000, C327S108000
Reexamination Certificate
active
06794894
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a method and a system for bidirectional signal transmission of an electrical signal from a transmitter at a first location to a receiver at a second location, and from a transmitter at the second location to a receiver at the first location via a common transmission line. Each receiver has a line termination for terminating the common transmission line and for matching the signal which is received from the common transmission line.
In conventional bidirectional signal transmission systems, the transmission drivers and the line terminations are separate circuit configurations and have mutually independent circuit functions. Each circuit configuration is connected or can be connected to the transmission line at different locations. The transmission drivers and receiver/termination circuits which are connected or can be connected through the use of the transmission line are provided in a single semiconductor chip or else are each provided in separate semiconductor chips. Furthermore, it is possible, for example, for the transmission driver to be formed on one semiconductor chip, while the termination circuit configuration is located outside that chip.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a method and a system for bidirectional signal transmission which overcome the above-mentioned disadvantages of the heretofore-known methods and systems of this general type and which simplify the complexity of integrated semiconductor circuits, improve the capability to test the functionality of a bidirectional transmission system, and reduce the price of semiconductor circuits or semiconductor circuit assemblies having bidirectional transmission systems.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method for bidirectional signal transmission, the method includes the steps of:
providing a transmission/termination circuit configuration at a first location and a further transmission/termination circuit configuration at a second location, the transmission/termination circuit configurations being operatively connected via a common transmission line, each of the transmission/termination circuit configurations having a transmission operating mode and a reception/termination operating mode;
supplying a respective operating mode control signal to the transmission/termination circuit configurations in order to switch between the transmission operating mode and the reception/termination operating mode; and
switching the transmission/termination circuit configurations depending on the respective operating mode control signal supplied thereto such that each of the transmission/termination circuit configurations is selectively switched to the transmission operating mode for transmitting an electrical signal via the common transmission line and to the reception/termination operating mode for forming a line termination such that an electrical signal received via the common transmission line is matched with the line termination.
Another mode of the method according to the invention includes providing control circuits separate from the transmission/termination circuit configurations; and producing the respective operating mode control signal with the control circuits respectively at the first and second locations.
Yet another mode of the method according to the invention includes, producing the respective operating mode control signal with a control circuit common to all of the transmission/termination circuit configurations.
Another mode of the method according to the invention includes setting a desired terminating impedance in each of the transmission/termination circuit configurations in the reception/termination operating mode based on the respective operating mode control signal.
A further mode of the method according to the invention includes producing, with a control circuit, the operating mode control signal in a number of different discrete values; and setting a respective terminating impedance in each of the transmission/termination circuit configurations in the reception/termination operating mode such that the respective terminating impedance corresponds to a respective value of the operating mode control signal.
Another mode of the method according to the invention includes providing a plurality of impedance circuits in each of the transmission/termination circuit configurations such that the impedance circuits can be selectively connected in parallel and in series; and setting a desired terminating impedance in the reception/termination operating mode with the impedance circuits selectively connected in parallel and in series.
In other words, according to the invention, each transmission driver and each line termination for a bidirectional signal transmission method is in the form of a combined transmission/termination circuit configuration, which can be operated in two operating modes, to be precise in a transmission operating mode when the circuit configuration is acting as a transmission driver and in which it can transmit a signal via the transmission line to a receiver, or in a reception/termination operating mode, in which it receives a signal from the transmission line and provides a termination. It is possible to switch between these two operating modes of the combined transmission/termination circuit configuration through the use of an operating mode control signal which is produced by a control circuit. The control circuit may either be provided at the location of each transmission/termination circuit configuration or, instead of this, may also be formed by one control circuit, which is common to all the transmission/termination circuit configurations. In this case, the transmission line may be located on one semiconductor chip together with the transmission/termination circuit configurations, or else outside that chip. The transmission/termination circuit configuration may have a number of impedance circuits which can be connected in parallel and may have a combination of active and passive impedances.
The number of parallel-connected impedance circuits governs the value of the terminating impedance. The operating mode control signal may be supplied from the control circuit such that it determines how many or which impedance circuits are connected in parallel. The operating mode control signal thus governs not only the switching of the operating mode from the transmission operating mode to the receiver/termination operating mode but, in a corresponding manner, its value also governs the value of the respective terminating impedance.
It is clear to the person skilled in the art that a terminating impedance may have not only resistive components but also inductive and capacitive components.
The transmission/termination circuit configurations and the transmission lines may be configured such that, in principle, the transmission line may connect any desired number of transmission/termination circuit configurations.
With the objects of the invention in view there is also provided, a system for a bidirectional signal transmission of an electrical signal, including:
a transmission/termination circuit configuration disposed at a first location and a further transmission/termination circuit configuration disposed at a second location;
a common transmission line connecting the transmission/termination circuit configurations to one another;
the transmission/termination circuit configurations each having a transmission operating mode for transmitting an electrical signal via the common transmission line and a reception/termination operating mode for receiving an electrical signal via the common transmission line and for providing a line termination for matching the electrical signal received via the common transmission line;
a control circuit configuration operatively connected to at least one of the transmission/termination circuit configurations for producing an operating mode control signal; and
the transmission/terminati
Greenberg Laurence A.
Infineon - Technologies AG
Mayback Gregory L.
Stemer Werner H.
Tan Vibol
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