KR940002612Y1 - Pwm inverter - Google Patents

Abstract

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Description

Low Level PWM Inverter Circuit

1 is a conventional low level PWM inverter circuit diagram.

2 is a low level PWM inverter circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10: large power switching unit 20, 30: minimum, maximum control unit

40: variable amount LPF: low pass filter

TR1 to TR4: Transistors C1 and C2: Capacitors

R1 ~ R9: Resistor D1: Diode

VR1: Variable resistor

The invention relates to the field of PWM (Pulse Whdth Modulation) control, and more particularly to a low level PWM inverter circuit that allows the variation of the DC voltage required for very low PWM pulses to be free.

1 shows a conventional low level PWM inverter circuit, in which the PWM pulse is inverted and switched through the transistor TR1 to obtain a desired DC voltage only through the low pass filter LPF, and another method using the transistor TR1. DC voltage was obtained using only low pass filter (LPF) without inversion switching. However, low and low pass filter consisting of resistor and condenser was not used to control the maximum and minimum voltage control and DC voltage setting range.

The present invention solves this problem, and an object of the present invention is to provide a low level PWM inverter circuit which allows the maximum, minimum and variable control voltages of a controlled part to be freely performed for a very low low level PWM pulse. have.

A feature of this design to achieve this object is a high power switching unit that outputs a high voltage pulse according to the PWM pulse from the microcomputer, and the minimum voltage level is switched according to the state of the microcontroller's PWM control voltage minimum amount control port. A minimum amount control unit for outputting, a maximum amount control unit switching according to a state of the PWM control voltage maximum amount control port of the microcomputer, and outputting a maximum voltage level, a low pass filter connected to the large power switching unit, the minimum and maximum amount control unit, and the low pass It is a low level PWM inverter circuit that is connected to a filter and is composed of a maximum amount variable part to set a DC value of an external level appropriate to the system.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a low-level PWM inverter circuit diagram according to the present invention, the high power switching unit 10 and the microcontroller PWM control voltage minimum, maximum amount control port (a), ( A resistor 3 and a low pass filter LPF made of a capacitor C2 are connected to the minimum and maximum amount control units 20 and 30 which are switched according to the state of b) to output minimum and maximum voltage levels.

The high power switching unit 10 is a switching transistor for switching in accordance with the "turn-on" state of the diode (D1) to the one-way control diode (D1) and the voltage source (B +) "turns on" in accordance with the PWM pulse from the microcomputer ( TR1), and the diode D1 is charged according to the input PWM pulse. It is conducted by the capacitor C1 discharged.

The emitter of the transistor TR1 is connected to a voltage distribution resistor R2 that makes the voltage level output from the transistor TR1 constant.

On the other hand, the minimum amount control unit 20 is connected to the base side via the bias resistor (R6) to the PWM control voltage minimum amount control port (a) of the microcomputer switching according to the state of the minimum amount control port (a) of the PWM control voltage of the microcomputer. Consisting of a switching transistor TR2.

The maximum amount control unit 30 has a base side connected to the PWM control voltage maximum amount control port b of the microcomputer via a resistor R9 and a collector side connected to the voltage source B + through a resistor R8 to the microcomputer. The switching transistor TR3 is " turned on " according to the state of the maximum PWM control voltage control port b, and a base axis is connected to the collector side of the transistor TR3, and is connected to the voltage source B + through a resistor R7. The emitter side is connected to the switching transistor TR4 which is switched according to the operation of the transistor TR3.

In addition, the low pass filter LPF is connected with a maximum variable amount section 40 for setting a DC value of an arbitrary maximum level suitable for the system, and the maximum variable amount section 40 is constituted by a variable resistor VR1.

Referring to the effect of this invention configured as described above are as follows.

First, the PWM pulse from the microcomputer is controlled to turn on / off the base terminal of the transistor TR1, so that a high voltage pulse in phase is applied to the emitter terminal of the transistor TR1, where logic high is applied from the microcomputer to the diode D1. The transistor TR1 is switched according to the operation of the diode D1 because the diode D1 is turned off when the "+" pulse is applied and is "on" when the "-" pulse, which is a logic low, is applied.

In addition, the pulse appearing at the emitter terminal of the transistor TR1 has a current value of a predetermined appropriate level by the resistor R2 and becomes a DC value through the resistor R3 and the capacitor C2.

The DC value is determined as the maximum value by the variable resistor VR1 for maximum level setting in the next stage and is applied to the control unit 100, and the DC is applied to the control unit 100 by the variable resistor VR1. Vary the voltage.

On the other hand, when the minimum amount of the microcontroller PWM control voltage control port (a) becomes a logic "high", the transistor TR2 is "turned on" and the potential of the norm (A) is pulled out to ground, thereby forcibly going to the low level. That is, muted.

On the other hand, when the maximum amount of the PWM control voltage control port (b) of the microcomputer is logic "high", the transistor (TR3) is "turned on", the ford (A) is forced to "B +".

At this time, since the transistor TR1 is "turned off" due to the reverse bias, regardless of the base side PWM pulse, the maximum amount is automatically controlled.

That is, as described above, this design enables low-level PWM variable and maximum and minimum voltage control under the control of the microcomputer.

As discussed above, this design enables automatic interfacing when the control voltage of the controlled part is required for very low low-level PWM pulses under the control of the microcomputer, and also the variation of the control range for the PWM pulses is also available. By making it free, the utilization effect of the low level PWM pulse is increased.

Claims (5)

A large power switching unit 10 for outputting a high voltage pulse in response to a PWM pulse from the microcomputer, and a minimum amount control unit 20 for switching in accordance with the state of the minimum amount control port a of the PWM control voltage of the microcomputer and outputting a minimum voltage level. ), A maximum amount control unit 30 which is switched according to the state of the maximum PWM control voltage amount control port b of the microcomputer, and outputs a maximum voltage level, the large power switching unit 10, the minimum and maximum amount control unit 20, A low level PWM inverter circuit comprising: a low pass filter (LPF) connected to (30), and a maximum amount variable section (40) connected to the low pass filter (LPF) to set a DC value of a maximum level suitable for a system. According to claim 1, The high power switching unit 10 is connected to the diode (D1) and the voltage source (B +), the one-way control diode (D1) "turned on" in accordance with the PWM pulse from the microcomputer and the diode And a transistor (TR1) switched according to the "turn-on" state of (D1) and a voltage distribution resistor (R2) connected to the emitter side of the transistor (TR1). According to claim 1, wherein the minimum amount control unit 20, via the bias resistor (R6) of the minimum amount control port (a) of the PWM control voltage of the microcomputer through the bias resistor (R6) of the minimum amount control port (a) A low level PWM inverter circuit composed of a switching transistor (TR2) connected to a side. According to claim 1, The maximum amount control unit 30 is connected to the base side via a resistor (R9) to the maximum amount of the PWM control voltage of the microcomputer Jay port (b) and the collector side through a resistor (R8) to the voltage source (B +) The connected switching transistor TR3 and the base side are connected to the collector side of the transistor TR3, and the emitter side is connected to the low voltage source B + through the resistor R7 to the operating state of the transistor TR3. Low level PWM inverter circuit composed of a switching transistor (TR4) to be switched accordingly. 2. The low level PWM inverter circuit according to claim 1, wherein said maximum variable portion (40) is comprised of a variable resistor (VR1).