Voltage pump with switch-on control

Details Voltage pump with switch-on control Voltage pump with switch-on control

2001-10-19

2003-04-01

Sterrett, Jeffrey (Department: 2838)

Electric power conversion systems

Current conversion

With voltage multiplication means

C363S049000

Reexamination Certificate

active

06542389

ABSTRACT:

BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a voltage pump with a switch-on control which yields an output voltage boosted beyond the supply voltage.
Voltage pumps are used in integrated circuits in order to generate from the supply voltage fed to the integrated circuit a higher voltage which exceeds the supply voltage. The higher voltage is required by internal functional units within the circuit. By way of example, in integrated semiconductor memories, in particular in dynamic random access memories, so-called DRAMs, the writing and reading access to a memory cell proceeds via an access transistor. To ensure that, during read-out from a memory cell, the relatively small signal which specifies the memory state is read out as far as possible completely and uncorrupted, it is necessary for the access transistor to be completely turned on. For this purpose, the access transistor must be driven with a control voltage in excess of the supply voltage. In accordance with the matrix-like arrangement of the memory cell array divided into rows and columns, a plurality of access transistors are jointly connected to a word line. In the event of access to a row of the memory cell array, the word line drive voltage, whose magnitude exceeds that of the supply voltage, is applied to the word line. In conventional DRAMs, the supply voltage referred to ground (0 V) is about 3.3 V; the word line voltage lies above 3.3 V, being 3.5 V, for example.
The voltage pump is used to generate this boosted output voltage. On the input side, the supply voltage is fed to the voltage pump and the latter outputs the boosted word line voltage on the output side. In voltage pumps, the voltage difference between their input or supply voltage and their output voltage must not be too large. This condition is ensured only in normal operation. During the switch-on of the as supply voltage, however, when the latter rises upward in a ramped fashion, for example, the voltage pump does not have enough power to follow the input or supply voltage. The input voltage of the voltage pump rises more rapidly than the output voltage. Reliability problems arise on transistors. Nowadays, voltage pumps operate reliably from a minimum supply voltage starting at 1.5 V. At a low supply voltage, the voltage pump must be switched off for safety reasons. Nevertheless, the boosted output voltage should be available as early as possible. The operational availability of the voltage pump should therefore be produced as quickly as possible after the application of the supply voltage.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a voltage pump with switch-on control, which overcomes the above-mentioned disadvantages of the heretofore-known devices and methods of this general type and which is operationally reliable during the run-up of the supply voltage and provides a pumped output voltage as quickly as possible.
With the foregoing and other objects in view there is provided, in accordance with the invention, a voltage pump configuration, comprising:
a voltage pump;
a terminal for a supply voltage and a terminal for a boosted output voltage connected to the voltage pump;
a circuit configuration connected to the voltage pump for controlling a switch-on of the voltage pump, the circuit configuration including:
a first transistor having a controlled path connected between the terminal for the supply voltage and the terminal for the boosted output voltage, and with a substrate terminal and a control terminal;
a changeover switch having an input side connected to the terminal for the supply voltage and the terminal for the boosted output voltage and an output connected to the substrate terminal of the first transistor and coupled to the control terminal of the first transistor, the changeover switch selectively connecting the terminal for the supply voltage or the terminal for the boosted output voltage to the output;
a second transistor having a controlled path connected between to the output of the changeover switch and the control terminal of the first transistor;
a third transistor having a controlled path connected between a terminal for a reference-ground potential and the control terminal of the first transistor; and
a terminal for a control signal, wherein the voltage pump and the second and third transistors can be switched in dependence on the control signal. In other words, the objects of the invention are achieved by means of a voltage pump with a switch-on control that comprises: a terminal for a supply voltage, a terminal for a boosted output voltage, a circuit configuration for the switch-on control of the voltage pump, in turn comprising: a first transistor, whose controlled path is connected between the terminal for the supply voltage and the terminal for the boosted output voltage, and which has a substrate terminal and a control terminal, a changeover switch, which, on the input side, is connected to the terminal for the supply voltage and the terminal for the boosted output voltage and has an output, which is connected to the substrate terminal of the first transistor and is coupled to the control terminal of the first transistor, and by which the terminal for the supply voltage or the terminal for the boosted output voltage can optionally be connected to its output, a second transistor, whose controlled path is connected between the output of the changeover switch and the control terminal of the first transistor, a third transistor, whose controlled path is connected between a terminal for a reference-ground potential and the control terminal of the first transistor, and a terminal for a control signal, depending on which the voltage pump and the second and third transistors can be connected.
The switch-on control in the voltage pump according to the invention ensures that until the operational availability of the voltage pump is reached, that is to say with a sufficiently high output voltage for reliable operation of the voltage pump is present, the output for the boosted voltage is precharged with the externally applied supply voltage. The voltage pump (or a plurality of voltage pumps in the case of parallel operation) is (are) then connected in. In this case, it is necessary to decouple the terminal for the boosted pump voltage from the supply voltage that is fed in externally. This is achieved in the switch-on control according to the invention by the first transistor which is connected between the terminal for the external supply voltage and the terminal for the pumped output voltage and is driven correspondingly.
In accordance with an added feature of the invention, the substrate terminal of the first transistor is advantageously controlled by a changeover switch which, when the external supply voltage is forwarded to the output, connects the external supply voltage to the substrate terminal and, when the external supply voltage is decoupled from the output, forwards the pumped output voltage to the substrate terminal. In these cases, the substrate terminal of the first transistor is respectively at the higher of the voltage fed in externally or the pumped output voltage. The first transistor is preferably a p-channel MOS transistor arranged in an n-doped well. The driving of the substrate terminal or of the well wherein the substrate of the first transistor is arranged prevents current from flowing away from the source/drain terminals of the transistor into the well.
The two inputs of the changeover switch are connected to the terminals of the controlled current path of the first transistor. On the output side, the changeover switch is connected to the substrate terminal or the well terminal of the first transistor. The transistors of the changeover switch are p-channel MOS transistors. Their gate terminals are cross-connected to the input terminals of the input switch. This means that the gate terminal of the transistor connected to one input terminal of the changeover switch is connected to the respective other input.
The control signal which specif

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