The invention relates to a voltage regulator having a current mirror for decoupling a partial current. The decoupled partial current can then be compared for example with a reference current in order to ascertain whether the load current supplied by the voltage regulator still lies within the permissible range. The partial current can thus contribute to realizing a current limiter in the voltage regulator.
Nowadays the on-chip operating voltages are generally lower than the voltage applied externally to the chip. Therefore, integrated voltage regulators are required on the chip in order to reduce the external voltage. Said voltage regulators may be based on an n-channel MOS technology, by way of example. In order to be able to sufficiently increase the voltage at the gate of the output transistor—embodied as an NMOS transistor—of the voltage regulator, such series regulators additionally have a charge pump. In comparison with a PMOS transistor, an NMOS transistor as output transistor advantageously affords a better suppression of the input voltage and a lower sensitivity in the event of load fluctuations. These voltage regulators may be formed as three-point regulators, for example, although the voltage at the output of the voltage regulator has a certain ripple. With the aid of a continuous regulator, however, this ripple can be reduced and the voltage regulation can thus be improved. In principle, such circuits, which are also known by the designation low-drop voltage regulators, are designed for a particularly low voltage drop between input and output.
For various reasons and inter alia also because mirroring out or decoupling a partial current is beset with considerable difficulties in the case of a voltage regulator having an NMOS series transistor, hitherto use has been made exclusively of voltage regulators having a PMOS output transistor. In the case of a voltage regulator having a PMOS output transistor, a partial current of the total supply current can be decoupled through simple supplementary connection of a current mirror transistor.
In principle, it is a prerequisite for a current mirror that both transistors, that is to say the transistors P1 and P2 in the exemplary embodiment shown in
It is an object of the invention to specify a voltage regulator having a current mirror for decoupling a partial current in which the voltage regulator has an NMOS transistor as a series transistor.
The voltage regulator of the present invention has a current mirror for decoupling a partial current. The voltage regulator also has a first NMOS transistor as a voltage regulator transistor, wherein the first NMOS transistor is connected in series with a first PMOS transistor and a third transistor, and a second NMOS transistor, which forms a current mirror with the first NMOS transistor, wherein the second NMOS transistor is connected in series with a second PMOS transistor and a fourth transistor. The control inputs of the first and second PMOS transistors are connected to one another. The control inputs of the third and fourth transistors are connected to a control terminal for setting the magnitude of the partial current to be decoupled.
The invention is explained in more detail below by means of a plurality of exemplary embodiments with reference to four figures.
The voltage regulator of the present invention has a current mirror for decoupling a partial current. The voltage regulator also has a first NMOS transistor as a voltage regulator transistor, wherein the first NMOS transistor is connected in series with a first PMOS transistor and a third transistor, and a second NMOS transistor, which forms a current mirror with the first NMOS transistor, wherein the second NMOS transistor is connected in series with a second PMOS transistor and a fourth transistor. The control inputs of the first and second PMOS transistors are connected to one another. The control inputs of the third and fourth transistors are connected to a control terminal for setting the magnitude of the partial current to be decoupled.
In one embodiment of the voltage regulator according to the invention, provision is additionally made of a capacitor connected between the control outputs of the first and second PMOS transistors. This has the advantage that even fast transient voltage changes caused for example by a load change at the output of the voltage regulator can thereby likewise be taken into account.
In an additional embodiment of the voltage regulator according to the invention, the first PMOS transistor forms a diode. Moreover, the first and second PMOS transistors may advantageously be dimensioned in a manner identical in magnitude.
The fourth transistor of the voltage regulator according to the invention advantageously forms a diode. Moreover, the third and fourth transistors may be dimensioned in a manner identical in magnitude.
Furthermore, in the case of the voltage regulator according to the invention, the third and fourth transistors may be formed as NMOS transistors.
In order to achieve the object, it is furthermore proposed that the voltage regulator according to the invention has a comparison signal output, which is connected to the control output of the second PMOS transistor, in order to make available a signal forming the result of a comparison between a reference current that can be applied to the control terminal and the partial current. The comparison signal thus formed may be used as a control signal for a current limiter.
As an alternative to this, in the case of the voltage regulator according to the invention, the first NMOS transistor may be connected in series with a third PMOS transistor and a fifth transistor. The voltage regulator additionally has a comparison signal output, which is connected to the control output of the third PMOS transistor, in order to make available a signal forming the result of a comparison between a reference current that can be applied to the control terminal and the partial current. The comparison signal thus formed may be used as a control signal for a current limiter.
In one development of the voltage regulator according to the invention, the drain terminals of the first and second NMOS transistors are connected to one another.
According to a further feature of the invention, the voltage regulator may be formed as a series regulator and comprise a charge pump connected to the control inputs of the first and second NMOS transistors.
Finally, the voltage regulator according to the invention may be formed as a low drop voltage regulator. This has the advantage that the voltage drop between the input and the output of the voltage regulator is extremely low.
The current mirror having two PMOS transistors which is shown in
The circuit shown in
The invention solves the problem by ensuring that the same potential is present at the source terminals of the two NMOS transistors N1 and N2 without the source terminals being fixedly connected to one another. For this purpose, it is ensured with the aid of a PMOS cascode circuit that the source of the NMOS transistor N2 that decouples the desired partial current I2 is at the same potential as the source of the NMOS transistor N1 that forms the main transistor. With the aid of an evaluation unit connected downstream, it is possible to effect a comparison between the decoupled or mirrored-out partial current I2 and a reference current IREF.
In the case of the circuit shown in
In a simplified embodiment of the circuit, which is identified by the dashed lines, the input 2, to which a reference current IREF can be applied, is connected to the gate terminals of the third and fourth NMOS transistors N3 and N4. What is achieved with the aid of this part of the circuit, namely the transistors P1, N3, P2 and N4, is, on the one hand, that the source terminals of the two NMOS transistors N2 and N1 are at the same potential. On the other hand, at an output 3′, which is likewise identified by dashed lines in
In the second possible embodiment of the circuit, which is likewise shown in
The functioning of the circuit is described in more detail below. The common gate of the two NMOS transistors N1 and N2 is driven by a voltage regulator, which may be formed for example as shown in
The circuit in accordance with
The above description of the exemplary embodiments according to the present invention serves only for illustrative purposes and not for the purpose of restricting the invention. Various changes and modifications are possible in the context of the invention without departing from the scope of the invention and its equivalents.
Number | Date | Country | Kind |
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103 32 864 | Jul 2003 | DE | national |
This application is a continuation of International Patent Application Serial No. PCT/DE2004//001517, filed Jul. 13, 2004, which published in German on Feb. 3, 2005 as WO 2005/010631, and is incorporated herein by reference in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
5596265 | Wrathall et al. | Jan 1997 | A |
6066944 | Sakurai | May 2000 | A |
6166530 | D'Angelo | Dec 2000 | A |
6188211 | Rincon-Mora et al. | Feb 2001 | B1 |
6333623 | Heisley et al. | Dec 2001 | B1 |
6522111 | Zadeh et al. | Feb 2003 | B1 |
6867573 | Carper | Mar 2005 | B1 |
6969982 | Caldwell | Nov 2005 | B1 |
20020027470 | Narendra et al. | Mar 2002 | A1 |
20030111986 | Xi | Jun 2003 | A1 |
Number | Date | Country |
---|---|---|
699 01 856 | Jan 2003 | DE |
0 945 774 | Sep 1999 | EP |
1 079 294 | Feb 2001 | EP |
Number | Date | Country | |
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20060214652 A1 | Sep 2006 | US |
Number | Date | Country | |
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Parent | PCT/DE04/01517 | Jul 2004 | US |
Child | 11335158 | US |