RU1592U1 - MICROWAVE POWER SUPPLY - Google Patents

Abstract

1. A microwave oven power supply containing a high-voltage power transformer, a magnetron, the anode of which is grounded, a control unit and a key element, the control electrode of which is connected to the output of the control unit, characterized in that a resistor and a bridge rectifier are introduced into it, while the input arms the bridge rectifier is connected to the terminals of the high-voltage winding of the power transformer, the negative terminal is connected to the cathode of the magnetron, and the positive terminal is connected to the input of the control unit and one of the terminals of the resistor, the second terminal of which is connected to a Odom magnetron and the other output of control unit, and the first and second power terminals respectively connected to the key element to the network and the low voltage winding of the power transformatora.2. The power source according to claim 1, characterized in that the key element is made in the form of a triac.

Description

MICROWAVE POWER SUPPLY

The utility model relates to radio engineering, and lastly, to power sources of a microwave oven and can be used, for example, when irradiating food products with a microwave electric field for the purpose of heating and sterilization.

There are known microwave oven power devices comprising a high-voltage power transformer, a control unit, a magnetron with a grounded anode, a capacitor installed in the cathode circuit of a magnetron (see, for example, l, 2).

A common disadvantage of the known devices is that the average microwave power of the magnetron is limited by the reactive power of the capacitor. In proportion to the increase in the set microwave power, the reactive power of the high-voltage capacitor should be increased. This increases the size, weight, cost of the capacitor and, accordingly, the power source.

Closest to the claimed utility model is a microwave oven power supply containing a high-voltage power transformer, a magnetron, the anode of which is grounded, a control unit and a key element whose control electrode is connected to the output of the control unit 3.

This source, selected as a prototype, has, due to the presence of a capacitor in the cathode circuit of the magnetron, the same disadvantages as I, 2, In addition, since the microwave power is adjusted in the high-voltage circuit, increased requirements must be imposed on the control element.

To connect the source to the network, an additional switching element is necessary, otherwise the transformer will have constant electric energy losses due to the open-circuit current.

These shortcomings are eliminated by the fact that a resistor and a bridge rectifier are introduced into the known power source of the microwave oven containing a high-voltage power transformer, a magnetron, the anode of which is grounded, a control element and a control electrode of which is connected to the output of the control unit, with input arms the bridge rectifier is connected to the terminals of the high-voltage winding of the power transformer, the negative terminal is connected to the cathode of the magnetron, and the positive terminal is connected to the input of the control unit and one of the terminals of the resistor, the second the output of which is connected to the magnetron anode and another output of the control unit, and the first and second power outputs of the key element are connected respectively to the network and the low-voltage winding of the power transformer.

The drawing shows a structural electrical diagram of the power source of the microwave oven.

The microwave oven power source contains a high-voltage power transformer I, a key element, for example, a triac 2, a bridge rectifier 3, a resistor 4, a magnetron 5, a control unit 6. Block 6 is similar in structure and operation mode to the prototype control unit. The incandescent magnetron 5 is not shown in the drawing.

The device operates as follows.

After connecting the source to the network, the supply voltage enters the filament circuit of the magnetron 5 and simultaneously to the control unit 6. Triac 2 is closed, the voltage on the transformer I and, accordingly, in the anode circuit of the magnetron 5 is absent. Since power is supplied to the magnetron 5 filament circuit earlier than to the anode circuit (for 5-30 sec), the probability of overvoltage in the anode circuit of magnetron 5 is practically reduced to zero. When a control signal is supplied from block 6 to the control electrode of the triac 2, the latter smoothly opens and an alternating voltage is supplied to the primary winding of transformer I.

The current through magnetron 5 flows only if the voltage at its anode is higher than the generation threshold. Since the voltage to the magnetron 5 comes from the bridge rectifier 3, varying from O to the amplitude and vice versa, the magnetron 5 each half-cycle works slightly less than 10 ms when the voltage on it exceeds the generation threshold. With a decrease in the voltage of this threshold, the current through the magnetron ceases. In the next half-cycle, the process is repeated.

By changing the opening angle of the triac 2, you can adjust the average microwave power. You can also adjust the average microwave power by changing the even number of half-sine waves transmitted through triac 2 per unit time. Mixed regulation is also possible.

The voltage feedback current of the magnetron 5, removed from the resistor 4, is supplied to block 6 and serves to stabilize the anode current of the magnetron about. When the current of the magnetron 5 changes, the voltage across the resistor 4 changes, causing a change in the opening angle of the triac 2, and, accordingly, the average microwave power.

In the proposed power supply of the SSH furnace, the average microwave power is adjusted in the low-voltage circuit. This allows the use of radio elements (in particular, a key element) with lower requirements for operating voltage. In addition, the key element of the triac - when installed in the low-voltage primary winding of the transformer, performs not only the functions of the regulator and stabilizer, but also

-Of the function of smoothly turning the microwave oven on and off without transient processes in the primary winding of the transformer. This simplifies the circuit and improves the reliability of the power source.

& $ WO / 3tf

Sources of information taken into account when drawing up the description of the invention

1.US Patent. ) B 4296296, class 219-10.55, 10.20.81.

2.US Patent Jfe 4300032, CL 219-10.55, 10.II.81.

3.US Patent) 4,302,651, cl. 8-128, 11.24.81 (prototype).

Claims (2)

1. A microwave oven power supply containing a high-voltage power transformer, a magnetron, the anode of which is grounded, a control unit and a key element, the control electrode of which is connected to the output of the control unit, characterized in that a resistor and a bridge rectifier are introduced into it, while the input arms the bridge rectifier is connected to the terminals of the high-voltage winding of the power transformer, the negative terminal is connected to the cathode of the magnetron, and the positive terminal is connected to the input of the control unit and one of the terminals of the resistor, the second terminal of which is connected to a Odom magnetron and the other output of control unit, and the first and second power terminals respectively connected to the key element to the network and the low voltage winding of the power transformer.  2. The power source according to claim 1, characterized in that the key element is made in the form of a triac.