Miscellaneous active electrical nonlinear devices – circuits – and – Specific identifiable device – circuit – or system – With specific source of supply or bias voltage
Reexamination Certificate
2000-07-10
2002-04-02
Kim, Jung Ho (Department: 2816)
Miscellaneous active electrical nonlinear devices, circuits, and
Specific identifiable device, circuit, or system
With specific source of supply or bias voltage
C327S538000
Reexamination Certificate
active
06366155
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to integrated circuit devices and operating methods, and more particularly to reference voltage generators and voltage generation methods for integrated circuits.
BACKGROUND OF THE INVENTION
Integrated circuit devices are widely used in consumer and commercial applications. In particular, integrated circuit memory devices continue to increase in integration density and speed, while allowing reduced power consumption. For example, synchronous Dynamic Random Access Memories (DRAMs) that can operate in synchronization with system clocks have been developed to allow high speed operation. Dual data rate (DDR) synchronous DRAMs also have been developed to allow high performance memory devices.
Electronic systems such as data processing systems, often use buses including a plurality of signal lines, to interconnect integrated circuit devices, so that the integrated circuit devices can communicate with one another. Output drivers are generally included in microprocessor, logic and/or memory integrated circuits in order to drive signals that are internally generated in the integrated circuit onto the bus. These output drivers are generally driven by voltage level signals.
Recently, however, in order to achieve high speed operations and/or other advantages, integrated circuit devices that include current mode output drivers have been provided. The use of current mode output drivers can reduce the peak switching current and signal reflections on the bus, to thereby allow low power, high performance communications between integrated circuits.
One technology that uses current mode output drivers is the Rambus technology that is marketed by Rambus, Inc., Mountain View, Calif. The Rambus technology is described in U.S. Pat. No. 5,473,575 to Farmwald et al., U.S. Pat. No. 5,578,940 to Dillon et al., U.S. Pat. No. 5,606,717 to Farmwald et al. and U.S. Pat. No. 5,663,661 to Dillon et al. Also see U.S. Pat. No. 6,072,747 to Yoon that is assigned to the assignee of the present invention. Integrated circuit devices that include current mode output drivers will also be referred to herein as Rambus devices.
Rambus devices may operate at high data rate, for example at data rates at up to 800 MHz or more. In order to operate at these high data rates, it may be desirable to control the output drivers of Rambus DRAMs. Moreover, large amounts of data may be simultaneously read from memory cell arrays in Rambus DRAMs, so that large amounts of power may be consumed. In order to reduce the power consumption, it is known to provide output drivers for Rambus DRAMs that have a current drive capability which varies according to the loads on the output drivers, for example on the output pads thereof. Other integrated circuit devices including logic and/or memory devices also may have output drivers that have a current drive capability that varies according to the output load.
FIG. 1
is a block diagram showing a conventional output driver control scheme that may be used, for example, in a Rambus DRAM. Referring to
FIG. 1
, a reference voltage regulator
13
generates a reference voltage and provides the reference voltage Vgate to a reference voltage distributor
12
. The reference voltage distributor
12
selectively activates output signals, referred to as gate enable signals Envg<
6
:
0
> to have the level of the reference voltage Vgate, in response to current drive capability control signals Ictl<
6
:
0
> during activation of an output enable signal Vgen. The current drive capability of an output driver
11
varies in response to the selective activation of the gate enable signals Envg<
6
:
0
>. The output driver
11
receives output signals q and q
1
and provides them to an output pad
15
. The current drive capability control signals Ictl<
6
:
0
> are generated by a current control circuit
14
that senses the load of the output pad
15
and controls the current drive capability of the output driver
11
.
However, since the gate enable signals Envg<
6
:
0
> may be applied to large numbers of output drivers in common, the lines used for transmitting the gate enable signals Envg<
6
:
0
> may be very long so that the loads of the lines may be large. Accordingly, when activating the lines used for transmitting the gate enable signals Envg<
6
:
0
> to the level of the reference voltage Vgate, a great deal of charge may be consumed, which may result in a drop of the output voltage of the reference voltage regulator
13
, referred to as the reference voltage Vgate. Consequently, it may take excessive time to stabilize the lines for transmitting the gate enable signals Envg<
6
:
0
> at the level of the reference voltage Vgate. This may cause the output operation of the Rambus DRAM or other integrated circuit to slow down and/or may cause the device to malfunction.
The current output capability of the reference voltage regulator
13
may be made very large to recover the drop of the reference voltage Vgate within a short time. Unfortunately, a high current reference voltage regulator
13
may consume excessive power, which can result in an increase of the power consumption of the integrated circuit.
SUMMARY OF THE INVENTION
Embodiments of the present invention provide reference voltage regulators and methods for integrated circuit output driver systems, by generating an initial supplementary current for the integrated circuit output driver system at the reference voltage for a predetermined time period in response to an output enable signal. Preferably, sufficient initial supplementary current is generated to compensate for an initial drop in the reference voltage that is generated by a reference voltage generator upon initial activation of the output driver system.
More specifically, reference voltage generators according to embodiments of the invention may be included in an integrated circuit output driver system that is responsive to a reference voltage and to an output enable signal, and that varies in current drive capability in response to a current drive control signal These embodiments of reference voltage regulators include a reference voltage generator that generates the reference voltage for the integrated circuit output driver system. A supplementary current generator generates an initial supplementary current for the integrated circuit output driver system at the reference voltage for a predetermined time period in response to the output enable signal In some embodiments, the supplementary current generator generates a fixed initial supplementary current for the integrated circuit output driver system. In other embodiments, the supplementary current generator generates a variable initial supplementary current for the integrated circuit output driver system at the reference voltage for the predetermined time period in response to the output enable signal, and that varies in response to the current drive control signal.
Embodiments of reference voltage regulators according to the present invention may be used with integrated circuits that include an output driver which varies in current drive capability in response to the selective activation of a plurality of gate enable signals. The integrated circuits also include a reference voltage distributor that receives a reference voltage and selectively activates the gate enable signals to provide a reference voltage in response to a plurality of current drive capability control signals during activation of an output enable signal. The integrated circuits also include a current control circuit that senses a load on the output driver and generates the current drive capability control signals. The reference voltage regulators include a reference voltage generator that generates the reference voltage and provides the reference voltage to the reference voltage distributor. The reference voltage regulators also include a reference voltage compensator that provides the current to an output terminal of the reference voltage generator for a predetermined period of time, to
Kang Mi-seon
Moon Byung-sick
Song Ho-sung
Kim Jung Ho
Myers Bigel & Sibley & Sajovec
Samsung Electronics Co,. Ltd.
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