Integrated circuit containing a number of subcircuits

Static information storage and retrieval – Read/write circuit – Having fuse element

Reexamination Certificate

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C365S230020

Reexamination Certificate

active

06438058

ABSTRACT:

BACKGROUND OF THE INVENTION
Field of the Invention
The present invention relates to an integrated circuit containing a number of subcircuits, in which each of the subcircuits has a drive circuit for driving in each case at least one controllable voltage source on the basis of a reference value.
Integrated circuits frequently exhibit a number of subcircuits for certain applications, which subcircuits are integrated into one system on a chip. Such subcircuits can be, for example, memory circuits that are constructed, for example, as dynamic random access memory circuits, so-called DRAMs. Such memory circuits are also called “embedded DRAMs”, eDRAMs for short. To be able to use such memory circuits in a multiplicity of applications, they are structured as modules in most cases. Thus, each of the memory circuits exhibits, for example, a circuit configuration for supplying its own voltage.
In the operation of the integrated circuit, a supply voltage of an eDRAM memory circuit should assume a value defined in the configuration process. When this value is set, influences of the operating voltage of the integrated circuit, process fluctuations and temperature fluctuations, in particular, must be taken into consideration. Such memory circuits, therefore, have drive circuits via which the respective supply voltage can be set in each case within a certain range by a reference value. Therefore, the respective value of the supply voltage is in each case set separately for each of the subcircuits, and thus adapted, during the production of an integrated circuit containing a number of subcircuits. For this purpose, the reference value is suitably changed for each of the subcircuits in such a manner that, for example, the influence of process fluctuations is compensated for. At least one controllable voltage source, the so-called “bandgap source”, is driven via the respective drive circuit, which is also called a so-called “bandgap reference”. The voltage source is trimmed on the basis of the reference value of the respective driver circuit in such a manner that the supply voltage corresponds to the predetermined value even when the parameters of the integrated circuit change as a consequence of process fluctuations.
The reference value is stored, for example, in each of the subcircuits. For this purpose, the respective driver circuit has a memory unit that contains, for example, programmable elements in the form of laser fuses. The reference value can be set in each of the memory units by individual programming of the laser fuses. For this purpose, a so-called laser cutter is placed in a suitable position for each of the subcircuits in order to program the laser fuses of each of the memory units during the production of the integrated circuit. If the integrated circuit exhibits a multiplicity of subcircuits for which the reference value must be programmed in each case for setting the supply voltage, the time needed for producing the integrated circuit increases noticeably since the laser must be set with new coordinates for each of the subcircuits.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide an integrated circuit containing a number of subcircuits which overcomes the above-mentioned disadvantages of the prior art devices of this general type, in which the period of time needed for setting the respective reference values of the subcircuits is relatively short.
With the foregoing and other objects in view there is provided, in accordance with the invention, an integrated circuit. The integrated circuit contains controllable voltage sources and a number of subcircuits connected to the controllable voltage sources. Each of the subcircuits includes a driver circuit for driving in each case at least one of the controllable voltage sources in dependence on a reference value. The driver circuit has a memory unit for storing a first reference value and at least one terminal for outputting the first reference value and for inputting a second reference value. A signal line is provided for transmitting at least one signal and is connected to the terminal of the driver circuit of each of the subcircuits.
The object is achieved by an integrated circuit containing a number of subcircuits. Each of the subcircuits contains a driver/control circuit for driving in each case at least one controllable voltage source (i.e. controllable bandgap source) on the basis of a reference value. The driver circuit has a memory unit for storing the (first) reference value and at least one terminal for outputting the reference value or for inputting a further (second) reference value. A signal line for transmitting at least one signal, which line is connected to the terminal of the driver circuit of each of the subcircuits.
The integrated circuit according to the invention enables the respective reference values of all subcircuits or, respectively, driver circuits to be set almost simultaneously. In this configuration, it is assumed that the process technology within the integrated circuit is subject to only relatively insignificant fluctuations in comparison with process fluctuations over the entire wafer or in various production batches. Controllable voltage sources are therefore driven by the driver circuit of each subcircuit on the basis of a common reference value of the integrated circuit. This reference value is transmitted over the signal line that is connected to the driver circuit of each of the subcircuits.
For this purpose, a so-called master/slave concept is used. A subcircuit or, respectively, its driver circuit is selected which, as the so-called master, determines the respective reference value and transmits it to the signal line. The other subcircuits of the integrated circuit or, respectively, their driver circuits, as so-called slaves, receive the reference value of the master driver circuit via the signal line. The reference value to be transmitted is stored in the memory unit of the master driver circuit. This reference value is output to the signal line via a terminal of the driver circuit. The reference value present on the signal line is input by the slave driver circuit via a corresponding terminal. These drive the respective voltage sources on the basis of the reference value input.
In the interest of achieving the greatest possible modularity, each of the driver circuits of the subcircuits in each case has the memory unit for storing the reference value and a terminal which is used either for outputting the stored reference value or for inputting a reference value to be input. Each of the driver circuits can, therefore, be used both as the master driver circuit and as the slave driver circuit. In this configuration, it can be established in advance, for example, in the configuration process which of the driver circuits acts as the master driver circuit and which of the driver circuits act as the slave driver circuits.
The integrated circuit according to the invention distinctly shortens the time taken for programming the reference values since it is now only necessary to program the programmable elements of the master driver circuit, for example by use of a laser. Since all driver circuits have the same structure, extensive modularity of the subcircuits is ensured. Therefore, the memory unit has programmable elements in the form of laser fuses.
Since the reference value is generally present as a logic value and this value only needs to be output once to the signal line for transmission, the signal line is suitably constructed as a static logical signal bus for transmitting a logical signal. In contrast to, for example, an analog bus for transmitting a stable supply voltage, this bus does not need to be shielded which brings about noticeable advantages in the production of the integrated circuit. One of these advantages is generally that a shorter time is required in the configuration process of the integrated circuit since, furthermore, unrestricted automatic wiring is possible during the production of the integrated circuit.
In a further development of the inv

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