Low frequency switching voltage pre-regulator

Electricity: power supply or regulation systems – Output level responsive – Using a three or more terminal semiconductive device as the...

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C323S276000

Reexamination Certificate

active

06667602

ABSTRACT:

FIELD OF THE INVENTION
This invention generally relates to voltage regulation. More particularly, this invention relates to a low-frequency, low-power switching voltage pre-regulator having automatic sleep-mode switchover.
DESCRIPTION OF THE RELATED ART
Linear voltage regulators generate a substantially constant output voltage V
OUT
from a relatively variable input voltage. Linear voltage regulators also provide low quiescent sleep current. Linear voltage regulators are operative to provide the regulated output voltage V
OUT
over a range of input voltages. Such linear regulators are used to provide dc voltage signals for circuits designed to receive substantially constant voltage levels with low voltage ripple. Linear voltage regulators may also be designed to provide the constant output voltage V
OUT
independent of a relatively large input voltage V
IN
. Accordingly, linear voltage regulators that are designed to operate with higher V
OUT
/V
IN
ratios are desirable. For example, linear regulators may provide a substantially constant 7.6 Volts output voltage independent of input voltages for input voltage up to a maximum of 42 Volts. Such linear regulators are desirable in devices or electronic circuits having a Voltage source with a variable output that may be configured to provide Voltage signals to other circuitry requiring stable Voltage signals. By way of example, such linear voltage regulators having substantially constant output voltage V
OUT
and having a large V
OUT
/V
IN
ration are desirable in hybrid analog and digital electronic circuits. Such prior art linear regulators, however, typically generate a relatively large amount of heat that is dissipated, for example, through a relatively large metal heat sink mechanically coupled with the linear regulator.
FIG. 1
is a diagram showing a prior art a cascade design voltage regulator
100
having a switching pre-regulator circuit
102
and a linear regulator circuit
104
. The switching pre-regulator circuit
102
receives the input voltage V
IN
at an input terminal
108
and produces a chopped voltage V
CH
at a junction terminal
110
. The chopped voltage V
CH
is generated by the switching pre-regulator circuit
102
typically through electrical elements such as chokes, and diodes. The magnitude of the chopped voltage V
CH
is less than the input voltage V
IN
and substantially within a desired input voltage range for the linear regulator circuit
104
. The magnitude of chopped voltage V
CH
will generally cycle up and down between an upper limit and a lower limit for the switching pre-regulator circuit
102
. The cycle is commonly referred to as a limit cycle.
The linear regulator circuit
104
receives the chopped voltage V
CH
at the junction terminal
110
and generates a smooth, regulated output voltage V
OUT
of a substantially constant level at its output terminal
112
. Because the chopped voltage V
CH
received by the linear regulator circuit
104
is substantially lower than the input voltage V
IN
, the linear regulator circuit
104
operates more efficiently dissipating less power and thereby the cascade design voltage regulator
100
, has improved voltage conversion efficiency. A cascade design voltage regulator
100
may include a feedback voltage V
FB
, which is derived from the output voltage V
OUT
of the linear regulator circuit
104
and received by the switching pre-regulator circuit
102
. The switching pre-regulator circuit
102
thereby generates the chopped voltage V
CH
in response to the feedback voltage V
FB
.
It is desirable to conserve the amount of power consumed while controlling the operation of the linear voltage regulator circuit
104
. Prior art voltage regulators do not provide for control to switch the pre-regulator circuit
102
to a sleep mode when the output voltage V
OUT
is not needed, or power from the voltage regulator is not needed. For example, the voltage regulator can be placed in a standby condition when a circuit to which the voltage regulator
100
provides the output Voltage V
OUT
needs minimal power, and thereby minimize the power dissipated by the regulator. It is further desirable that such regulators would be controlled by signals commonly generated by microprocessors. Accordingly, there is a need in the art voltage regulators having a low frequency, low-power switching voltage pre-regulator circuit.
BRIEF SUMMARY OF THE INVENTION
Embodiments of this invention provide low-frequency, low power switching voltage pre-regulator circuit for providing a chopped voltage to a linear voltage regulator circuit.
In view of the above noted limitations of the prior art, an object of the present invention is to provide an improved voltage regulator that minimizes the amount of power dissipated by the voltage regulator circuit and is capable of being controlled with a pulse width modulated (“PWM”) signal of the type generally provided by a microprocessors in order to obtain. More particularly, an input is provided to control a voltage pre-regulator circuit to provide a sleep mode for the voltage regulator when a circuit with which the voltage regulator may be coupled does requires minimal power.
In one aspect, a low-frequency switching voltage pre-regulator circuit, includes an input node, a pulse width modulated (“PWM”) signal input node; and a chopped voltage node. The input node may be configured to receive an input voltage signal V
IN
having a magnitude in the range from and including about 20 Volts to and including about 58 Volts. The PWM input node may be configured to receive a PWM signal having a frequency substantially in the range from about 5 kiloHertz to and about 15 kiloHertz and a duty cycle in the range from about 25% to 50%. The pre-regulator circuit may be configured to generate a chopped voltage V
CH
at the chopped voltage node in response to the PWM signal and the input voltage V
IN
and independent of the magnitude of the input voltage V
IN
. The chopped voltage V
CH
may have a magnitude in the range from about 6 Volts to about 10 Volts.
The low-frequency switching voltage pre-regulator may further include a chopping circuit coupled with the input node, a bucking circuit, a feedback and sense circuit, and a pre-driver switching circuit. The chopping circuit may be configured to receive the input voltage V
IN
and generates a bucking signal in response to a switching signal. The bucking circuit is coupled with the chopping circuit generates the chopped voltage V
CH
at a chopped voltage node in response to the bucking signal. The feedback and sense circuit is coupled with the chopped voltage node and provides a feedback signal in response to the magnitude of the chopped voltage V
CH
. The pre-driver switching circuit is coupled with the PWM input node and with the feedback and sense circuit selectively generates the switching signal in response to the feedback signal and PWM signal.
In a method for controlling a voltage output in response to a input voltage includes selectively generating a chopped voltage signal in response to a pulse width modulated (“PWM”) signal received from microprocessor and an input voltage having a magnitude substantially within a range from and including about 20 Volts to and including about 58 Volts, the chopped voltage having a magnitude independent of the input voltage and being substantially within the range from and including about 6 Volts to and including about 10 Volts, the magnitude of the chopped voltage being independent of the magnitude of the input voltage.
The method may further include generating the PWM signal from a microprocessor circuit, wherein the PWM signal has a frequency between about 5 kiloHertz and 15 kiloHertz and about a 33 percent duty cycle.


REFERENCES:
patent: 4618812 (1986-10-01), Kawakami
patent: 4868662 (1989-09-01), Hartman et al.
patent: 4881023 (1989-11-01), Perusse et al.
patent: 4893228 (1990-01-01), Orrick et al.
patent: 5216351 (1993-06-01), Shimoda
patent: 5592072 (1997-01-01), Brown
patent: 5627460 (1997-05-01), Bazinet et al.
patent: 5864225 (1999-01-01), Bryson
patent: 6130525

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Low frequency switching voltage pre-regulator does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Low frequency switching voltage pre-regulator, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Low frequency switching voltage pre-regulator will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-3139984

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.