Active solid-state devices (e.g. – transistors – solid-state diode – Gate arrays – With particular signal path connections
Reexamination Certificate
2002-07-23
2004-05-11
Tran, Minhloan (Department: 2826)
Active solid-state devices (e.g., transistors, solid-state diode
Gate arrays
With particular signal path connections
C257S685000, C257S686000, C361S626000, C361S628000, C361S629000, C361S630000, C361S837000
Reexamination Certificate
active
06734474
ABSTRACT:
BACKGROUND OF THE INVENTION
FIELD OF THE INVENTION
The invention relates to an integrated semiconductor circuit including a substrate body, on whose first main area are disposed a multiplicity of contact points for feeding signals to be processed, to which functional elements are connected in each case. The invention additionally relates to a configuration including at least two such integrated semiconductor circuits that are connected to one another.
Endeavors are made to combine integrated semiconductor circuits into modules. From semiconductor memories, in particular, memory modules are formed by stacking individual memory chips one above the other. In such a case, it is necessary to individually address individual memory chips within a memory module.
For such a purpose, by way of example, the semiconductor chips are provided with contact points, so-called connection pads, on the front side and on the rear side. A connection led through the substrate body of the semiconductor chip couples the connection pads on the front side to those on the rear side. Finally, mutually opposite connection pads on the rear side of one of the chips are contact-connected to corresponding connection pads on the front side of the other of the chips. What is problematic in this case is addressing individual chips individually within a module.
Existing in the prior art is provision of a rewiring plane between these stacked semiconductor chips. As a result, such a contact point that is provided for receiving a selection signal for one of the chips is connected to a line in the rewiring plane that, for its part, is led out laterally from the stack of semiconductor chips. From there, the line can be led along the outside of the chip stack to a contact point on an accessible surface of the stack. The assigned semiconductor chip is activated or deactivated by the application of a selection signal to the accessible contact point at the surface of the chip stack. However, the insertion of the rewiring plane between the semiconductor chips of a chip stack is laborious and complicated.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide an integrated semiconductor circuit having contact points and configuration having at least two such circuits that overcome the hereinafore-mentioned disadvantages of the heretofore-known devices of this general type and that makes the semiconductor chip more suitable for stacking.
With the foregoing and other objects in view, there is provided, in accordance with the invention, an integrated semiconductor circuit, including a substrate body having a first main area and a second main area opposite the first main area, first contact points for feeding signals to be processed, the first contact points disposed at the first main area, functional elements disposed in the substrate body, a respective one of the functional elements being connected to a respective one of the first contact points, programmable switching elements each having an output side and a programming, a respective one of the programmable switching elements either forwarding or blocking an externally fed selection signal dependent upon the programming of the respective one of the programmable switching elements, at least two second contact points each respectively connected to one of the programmable switching elements, further contact points disposed at the second main area, one of the further contact points being connected to a respective one of the first and the second contact points, at least one coupling node for conveying an internal selection signal, the output side of the programmable switching elements being coupled to the at least one coupling node and being connected to the functional elements, and the functional elements being controllable dependent upon the internal selection signal present at the at least one coupling node.
With the objects of the invention in view, there is also provided an integrated semiconductor circuit, including a substrate body having a first main area and a second main area opposite the first main area, contact points for feeding signals to be processed, the contact points disposed at the first main area, functional elements disposed in the substrate body, a respective one of the functional elements being connected to a respective one of the contact points, further contact points disposed at the second main area, the further contact points and the contact points connected to one another, programmable switching elements each having an output side and a programming, at least two of the contact points respectively connected to one of the programmable switching elements, the programmable switching elements either forwarding or blocking an externally fed selection signal at the at least two of the contact points dependent upon the programming of the programmable switching elements, and the programmable switching elements being coupled at the output side and generating an internal selection signal at the output side, a control of the functional element being dependent upon the internal selection signal.
In the case of a semiconductor chip or semiconductor circuit according to the invention, at least two selection contact points or selection pads are provided that are coupled to respective programmable switching elements. The programmable switching elements are preset or programmed such that they are either transmissive or blocked for a signal input externally. As in the prior art, connection pads are provided on the front side and the rear side of a chip, and are connected to one another. During the stacking of the semiconductor chips, the relevant connection pads are connected in parallel with one another. Through suitable programming of the switching elements, care is taken to ensure that when a selection signal is applied, either one or the other semiconductor chip is activated. The switching elements are expediently input drivers that can be turned off or deactivated. The drivers have a connection that is connected to a programmable element. A fuse or an antifuse, preferably, connected to a connection for a supply potential, serves as the programmable element. The fuse or the antifuse is programmed by an energy pulse, i.e., is put by programming from the conducting into the nonconducting state (fuse) or from the nonconducting into the conducting state (antifuse). As a result, the control signal input of the input amplifier is either connected through the conducting fuse/antifuse to the supply potential. In the case of a nonconducting fuse/antifuse, pull-up or pull-down elements provide for the connection to the other supply potential. Consequently, the setting of the input driver can be programmed to be either signal-transmissive or signal-blocking.
On the output side, the input drivers are connected to one another. At the junction connection, a signal is provided that switches the functional units of the chip on or off. Various circuit concepts are conceivable for such a purpose. By way of example, all the input or output drivers connected to the contact points are switched on or off. As such, the semiconductor chip can be activated or deactivated for an access within a chip stack.
A fuse or an antifuse can be switched to conducting or nonconducting by an energy pulse. It contains a fusible layer that, in reaction to the energy pulse, forms a conducting connection anew or breaks a conducting connection. A laser beam or a current pulse is suitable as the energy pulse.
In accordance with another feature of the invention, there are provided fusible links each having a programming state. The programmable switching elements each have a receiving circuit for an input signal. Each of the programmable switching elements is connected to at least one of the fusible links. The receiving circuit is turned off dependent upon the programming state of a fusible link respectively connected to the receiving circuit.
In accordance with a further feature of the invention, the receiving circuit has an output and the outputs of each of the receiving circuits are
Greenberg Laurence A.
Infineon - Technologies AG
Locher Ralph E.
Stemer Werner H.
Tran Minhloan
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