Electronic digital logic circuitry – Signal sensitivity or transmission integrity – Bus or line termination
Reexamination Certificate
2000-05-30
2002-03-12
Tokar, Michael (Department: 2819)
Electronic digital logic circuitry
Signal sensitivity or transmission integrity
Bus or line termination
C326S026000, C326S027000, C326S083000, C326S086000
Reexamination Certificate
active
06356104
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to terminators which are applicable to metal oxide semiconductor on insulator (MOS-soi) with triple wells integrated circuit technology and which are particularly useful for terminator networks.
This related application(s) and the present application are owned by one and the same assignee, International Business Machines Corporation of Armonk, N.Y.
The descriptions set forth in these co-pending applications are hereby incorporated into the present application by this reference.
Trademarks S/390 and IBM are registered trademarks of International Business Machines Corporation, Armonk, N.Y., U.S.A. Other names may be registered trademarks or product names of International Business Machines Corporation or other companies.
BACKGROUND
For signal interfaces between devices terminators have been used, as described for instance in U.S. Pat. No. 4,748,426, : entitled “Active termination circuit for computer interface use”, granted May 31, 1988 to Alexander Stewart for Rodime PLC, in an active termination circuit for a computer interface for reducing line reflection of logic signals. Such terminators have used a first and second resistor combination to permanently connect to a signal line that couples a plurality of peripheral devices to one another. The other ends of the first and second resistors are connected through a switching device to a positive voltage supply line and to logic ground, respectively. When termination of multiple devices was required, a plurality of resistor combinations were provided but on/off control of the switch in this example was achieved by one control that is located remote from the termination circuit systems. Integrated circuit interconnection structures have also used precision terminating resistors, as illustrated by U.S. Pat. No. 4,228,369, granted in October, 1980 to Anantha et al. for IBM.
As will be illustrated for chip interconnection, when resistor terminators are used in thin film semiconductor integrated circuits such as those used in metal oxide semiconductors (e.g.CMOS) today, they create hot spots which cannot be adequately cooled, so such resistor terminator circuits which create hot spots cannot be used in metal oxide semiconductor applications to provide terminators for chip to chip connections on chips using IBM's new sub-micron MOS (CMOS) technologies where because of the high currents used in these networks it is difficult or impossible to meet all the cooling and reliability requirements required for commercial performance. It has become necessary to invent a solution to interfacing devices which can be used in such environments on chips, and used for terminators in networks of chips and devices where there is a need to transmit digital data therebetween without overshoot and undershoot in signal transmission between the chips and devices or systems. These connections need to operate at a faster speed, accommodating data rate speeds ranging into hundreds of Mhz and Ghz.
The creation of a terminator which particularly may be fabricated for high speed metal oxide semiconductor on insulator (MOS-soi) applications with triple wells in integrated circuits is needed.
SUMMARY OF THE INVENTION
The invention provides a CMOS terminator circuit which able to control and adjust the impedance of the terminator so that it can operate as a part in different packages as well as in a system tuning for perfect termination. This will allow a part to have multiple usage's. This can be a much needed cost saving chips part number reduction or a high volume ASIC OEM useful circuit.
The CMOS terminator circuit illustrated enables adjusting the center voltage of the terminator so that a maximum signal can be received and the signal does not create skew between the zero and one logic levels in case of mixed signal interfaces.
In accordance with the preferred embodiment, I have provided a CMOS terminator circuit for CMOS small signal switchable and adjustable terminator networks which uses a reference voltage and the present preferred embodiment allows adjustment of the Vcenter reference voltage so that it can tune out any process mis-tracking of the control devices in the terminator input circuit and enables the reference terminator voltage to be re-centered. This is useful for fast transmission of digital data, eliminating or reducing overshoot and undershoot in signal transmission between chips and between systems, in serial links and data buses, for minimizing ringing and similar noise problems, for providing electrostatic discharge (ESD) protection, particularly in high speed metal oxide semiconductor (MOS) integrated circuit applications, and mixed vender technology interface communications.
The present invention provides a terminator network adapted for MOS that can match the characteristic impedance of the line, is fast and suitable for small signal swings and may also in a mixed technologies communication, has low current flow and low power consumption, and provides ESD protection at the input of an attached circuit.
An important feature of the preferred embodiment is that it enables switching into high impedance so that the driver can take control of the line and drive out for the bi-directional data buses used in all computer systems today.
The preferred embodiment able to turnoff all currents to support the CMOS leakage test so that chips with defects can be found quickly and easily.
The preferred embodiment provides an adjustment section which enables adjustment of the impedance of the terminator so that this circuit can have multiple usage.
It also enables fine tuning of the terminator to have the desired reflection for the nets. This is to overcome any process tolerances.
Adjusting the Vcenter voltage allows tune out of any process mis-tracking and re-centering of the terminator voltage, so that maximum input signal voltages can be obtained without creating skew between the zero and one logic levels.
These and other improvements are set forth in the following detailed description. For a better understanding of the invention with advantages and features, refer to the description and to the drawings.
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Augspurger Lynn L.
Paik Steven S.
Tokar Michael
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