JPS6110915A - Switching power source circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field The present invention relates to a power supply circuit for medical equipment such as an endoscope, and more particularly to a power supply circuit using a switching power supply.

Conventional Technology In general, switching power supplies are used to obtain stable DC power from AC power. Such power supplies are also used in medical equipment such as endoscope systems.

The power source for an endoscope system is generally built into an external light source device for the endoscope. By the way, it is known that a switching power supply generates a considerable amount of switching noise. Here, in recent endoscope systems, the optical image obtained by the endoscope is photographed with a TV camera,
Images are often displayed on a TV monitor. In this case, the switching noise may cause stripes or the like to appear on the TV monitor, resulting in a decrease in image quality and a risk of erroneous diagnosis.Therefore, it is necessary to reduce the switching noise. In addition, not only endoscopes but also general medical equipment, the interference noise generated is regulated by law (VDE 0871.0875
.

C, l5PR, FCC, etc.). From this point of view, it was essential to reduce switching noise. Specifically, the noise is passed from the case of the switching power supply to the casing (which is grounded) via the stray capacitance, thereby passing the noise to the grounded end. This stray capacitance alone was not sufficient to remove noise. In addition, the casing requires high insulation from the standpoint of safety, and to improve the insulation between the casing and the power line, a high-voltage capacitor is required. The disadvantages were that it was large in size and expensive. Furthermore, when a capacitor is connected between the case and the housing, in addition to stray capacitance, leakage current increases by the capacitance of the capacitor, which again poses a safety problem.

Purpose An object of the present invention is to reduce the influence of switching noise in a switching power supply circuit.

OverviewThe purpose of this is to connect the noise elimination capacitor of the switching power supply circuit to the case for the switching power supply, which is installed inside the case while being insulated from the case, while maintaining low leakage current. This is achieved by flowing noise from the stray capacitance to the ground terminal through the casing.

Embodiment An embodiment of the switching power supply circuit according to the present invention will now be described with reference to the drawings. FIG. 1 is a circuit diagram of this embodiment. Here, an example of a power supply device built into an endoscope light source device will be described. A lamp 12, an automatic exposure circuit 14 for controlling exposure of a TV camera, and a power supply unit 16 are disposed within a casing 10 of a light source device for an endoscope. The housing IO is grounded. The power supply unit 16 is housed in a case 18 provided in the housing 10 in a state insulated from the housing 10, and is a switching power supply connected to a power supply (AC power supply) line 20 via a noise removal capacitor 28. circuit 22,
A rectifier circuit 26 connected to the switching power supply circuit 22 via a transformer 24 is provided. The power line 20 is an AC power line, so there are two, and the capacitor 28 is one capacitor (0, 1, 1, 2) connected between the two power lines.
It consists of three delta-wired capacitors: u, F) and two series connected capacitors (4700 pF each) connected in parallel to this capacitor. The connection point of the two series-connected capacitors is connected to the case 18.

That is, a parallel-connected capacitor is connected between the case 18 and the power supply line 20. Note that a floating field 430 is connected between the housing 10 and the case 18. The automatic exposure circuit 14 is connected to a TV device 32 including a TV camera, and the output of the TV device 32 is connected to a TV monitor 34.

Next, the operation of this embodiment will be explained. Generally, when switching noise from the switching power supply 1ii22 is superimposed on the power supply line 20, striped noise appears on the image on the TV monitor 34. Here, the switching power supply 22
In order to prevent noise (high frequency) from leaking from the power supply line 20 to the power supply line 20, by increasing the value of the noise removal capacitor, the leakage current (50/60Hz) from the power supply line will flow from the case 18 through the stray capacitance 30. and flows into the casing 10. Therefore, there is a problem from the viewpoint of insulation of the casing 10. However, if the noise removal capacitor 28 and the case 18 are connected as in this embodiment, the value of the noise removal capacitor 28 is apparently increased, and as a result, the switching noise is reduced by the stray capacitance 30 and the case 10. Through,
It can be passed to the ground terminal, reducing the effects of switching noise. This prevents the image on the TV monitor used in combination with the endoscope apparatus from being disturbed, and also suppresses the level of disturbing noise below the regulation level. Furthermore, since the value of the noise removal capacitor remains small, the leakage current from the power supply line 20 to the housing 10 is kept at a low level.

FIG. 2 shows a comparison of the noise levels appearing on the power supply line 20 when the noise removal capacitor 28 and the case 18 are connected and when they are not connected. The solid line shows the case when there is no connection, and the broken line shows the case when there is connection. This graph also shows that by connecting a noise removal capacitor to the case, it is possible to prevent noise from flowing into the power supply line.

FIG. 3 is a circuit diagram of the second embodiment. This example is
A noise filter 40 is further added to the power supply line 20 of the first embodiment.

If this noise filter is for medical equipment with low leakage current, it can also improve the noise removal effect without increasing the leakage current.

Effects of the Invention As explained above, according to the present invention, a capacitor for eliminating noise in a switching noise source circuit is connected to a case for a switching power supply provided in a case while being insulated from the case. This reduces switching noise by reducing stray capacitance3 without increasing leakage current from the power supply line.
0. It is possible to provide a switching power supply circuit that allows the power to flow through the casing 10 to the ground terminal and reduces the influence of switching noise on the power supply line.

[Brief explanation of the drawing]

Figure 1 is a circuit diagram showing the configuration of the first embodiment of the switching power supply circuit according to the present invention, Figure 2 is a graph of noise characteristics showing the effects of this embodiment, and Figure 3 is the second embodiment of the invention. FIG. 10... Housing 16... Power supply unit 18... Case 20... Power line 22... Switching power supply 28... Noise removal capacitor 30... Stray capacitance 34... TV monitor

Claims (1)

[Claims] A casing that is grounded, a case that is insulated from the casing and provided within the casing, and a switching power supply that is provided within the casing and is connected to an AC power line via a noise removal capacitor. A switching power supply circuit comprising: the noise removal capacitor connected to the case.