JPH077969A - Gyroscope drive power supply - Google Patents

Abstract

(57) [Abstract] [Purpose] To speed up the rotation of the gyroscope, reduce power consumption, and further reduce spike noise. [Configuration] The DC voltage applied to the center tap of the primary winding is alternately turned on / off by two switching elements.
In a gyroscope driving power source that is turned off and drives a gyroscope by an AC waveform generated in a secondary winding, a first capacitor connected to one end of the primary winding and a center tap and a primary winding A second capacitor connected to the other end and the center tap, a first coil having one end connected to one end of the primary winding and the other end connected to one switching element, and one end having a primary winding A second coil connected to the other end of the wire and connected to the other switching element at the other end is provided, and the gyroscope is driven by a positive / negative symmetrical sine wave generated in the secondary winding.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gyroscope driving power source for driving a gyroscope, and more particularly to a gyroscope driving power source for speeding up rotation of the gyroscope and reducing power consumption. .

[0002]

2. Description of the Related Art FIG. 5 is a circuit diagram of a conventional gyroscope driving power source. In the figure, 1 is a transformer having a primary winding n ₁ and a secondary winding n _2, and a DC voltage E _i applied to the center tap of the primary winding n ₁ has two transistors Q ₁ and Q 2. _{2 is} alternately turned on / off by the secondary winding n ₂
AC waveform is generated at.

Reference numeral 2 denotes pulses S ₁ and S ₂ having the same frequency but opposite phases.
The output to the transistor Q _1, Q _2, transistor Q _1,
This is an oscillator that alternately turns on and off Q ₂ .

[0004]

The conventional gyroscope driving power source as described above has the following problems because only a rectangular wave output as shown in FIG. 6 is obtained. (1) Spike noise is generated and adversely affects external equipment. (2) The power consumption for rotating the gyroscope increases. (3) It takes time to rotate the gyroscope.

The present invention has been made in view of the above point, and is designed to drive a gyroscope by a positive / negative symmetrical sine wave obtained on the secondary side of a transformer, and to increase the rotation of the gyroscope. It is an object of the present invention to provide a gyroscope driving power source that is quicker, reduces power consumption, and further reduces spike noise.

[0006]

In order to achieve such an object, the present invention turns on / off the DC voltage applied to the center tap of the primary winding alternately by two switching elements. In a gyroscope driving power source for driving a gyroscope by an AC waveform generated in a secondary winding, a first capacitor connected to one end of the primary winding and the center tap, and the primary winding A second capacitor connected to the other end of the primary tap and the center tap, and a first coil having one end connected to one end of the primary winding and the other end connected to the one switching element,
A second coil, one end of which is connected to the other end of the primary winding and the other end of which is connected to the other switching element, and a gyroscope having a positive and negative symmetrical sine wave generated in the secondary winding. It is characterized by driving.

[0007]

In the transformer, when the transistor Q ₁ is turned on by the pulse S ₁ , the first capacitor is charged, and when the transistor Q ₂ is turned on by the pulse S ₂ , the second capacitor is charged and the positive and negative sides are stored on the secondary side. A symmetrical sine wave is output.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to the drawings.
Explained. FIG. 1 shows the gyroscope drive battery of the present invention.
It is a block diagram which showed one Example of the source. In the figure, the same as Figure 4.
Those that operate will be described with the same reference numerals. C₁Is 1
Next winding n₁First connected to one end of the center and the center tap
Capacitor, C₂Is the primary winding n₁The other end of the
A second capacitor, L connected to ₁Is primary at one end
Winding n₁Connected to one end of the₁The drain
In-connected first coil, L₂Has a primary winding at one end
n₁Connected to the other end of transistor Q₂To the source of
It is the connected second coil.

In the transformer 1, when the transistors Q ₁ and Q ₂ are alternately turned on / off by the pulses S ₁ and S ₂ input from the oscillator 2, a DC voltage E _i is applied to the primary winding n _1. A positive / negative symmetrical sine wave is generated in the secondary winding n ₂ .

FIG. 2 is a waveform diagram for explaining the operation of the gyroscope driving power supply of the present invention. (A) shows a transistor Q.
ON / OFF operation of ₁ and Q ₂ , (B) is a current I ₁ flowing in the first coil L ₁ and a voltage V applied to the first capacitor C ₁ when the transistor Q ₁ is on and the transistor Q ₂ is off. _{In 1} and (C), transistor Q ₁ is off and transistor Q is
₂ is a current I ₂ flowing in the second coil L ₂ when the on-second
The voltage V ₂ applied to the capacitor C ₂ of ( ₂ ) is a voltage generated on the secondary side when the transistor Q ₁ is on and the transistor Q ₂ is off, and (E) is the transistor Q ₁ is off and the transistor Q ₂ is on. At this time, the voltage generated on the secondary side is shown. In the transformer 1, when the pulses S ₁ and S ₂ are input from the oscillator 2, the transistors Q ₁ and Q ₂ are alternately turned on / off, and an AC signal as shown in FIG. 3 is generated on the secondary side. In FIG. 3, a is an output voltage, b is an output current, and c is a switching signal.

FIG. 4 is a diagram showing the rotation efficiency and power consumption when the gyroscope is driven by the gyroscope driving power source of the present invention. The solid line shows the case where the gyroscope is driven by the sine wave of the present invention. The alternate long and short dash line shows the case where the gyroscope is driven by the conventional rectangular wave.

As shown in the figure, according to the drive of a sine wave,
The rotation speed of the gyroscope becomes constant 400 seconds after activation, and the power consumption becomes almost constant. On the other hand, in the case of the rectangular wave, neither the rotation speed nor the power consumption becomes constant until 600 seconds have elapsed after the startup.

[0013]

As described above in detail, the gyroscope driving power source of the present invention is designed to drive the gyroscope by a positive / negative symmetrical sine wave obtained on the secondary side. The following effects are provided for driving. (1) Spike noise is reduced and the influence of noise on external equipment can be suppressed. (2) The gyroscope consumes less power. (3) The rotation speed of the gyroscope increases faster.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of a gyroscope driving power source of the present invention.

FIG. 2 is a waveform diagram illustrating the operation of the gyroscope driving power supply of the present invention.

FIG. 3 is a diagram showing an AC signal generated on the secondary side of a transformer.

FIG. 4 is a diagram showing rotation efficiency and power consumption when the gyroscope is driven by the gyroscope driving power source of the present invention.

FIG. 5 is a circuit configuration diagram of a conventional gyroscope driving power source.

FIG. 6 is a waveform diagram of a conventional gyroscope driving power supply.

[Explanation of symbols]

C ₁ first capacitor C ₂ second capacitor L ₁ first coil L ₂ second coil

Claims (1)

[Claims] 1. A gyroscope for driving a gyroscope by alternately turning on / off a DC voltage applied to a center tap of a primary winding by two switching elements and by an AC waveform generated in the secondary winding. In the driving power supply, a first capacitor connected to one end of the primary winding and the center tap, and a second capacitor connected to the other end of the primary winding and the center tap. A first coil having one end connected to one end of the primary winding and the other end connected to the one switching element; one end connected to the other end of the primary winding and the other end connected to the other A gyroscope drive power supply comprising: a second coil connected to a switching element; and driving the gyroscope with a positive / negative symmetrical sine wave generated in the secondary winding.