JPS60237858A - Electronic circuit - Google Patents

Abstract

PURPOSE:To reduce the cost of an electronic circuit by generating one of both power sources by a capacitor charge pump circuit in an integrated circuit, thereby reducing the entire circuit. CONSTITUTION:The positive side power +VS of an operational amplifier IC3 is supplied from an input terminal 1, and input to a feedback circuit 4 for forming an oscillator in combination with an operational amplifier 13 in an IC3. The output terminal of the amplifier 13 is connected through a resistor 6 with the base of a transistor 7 to form a capacitor charge pump circuit having capacitors 8, 12. A negative voltage generated in the pump circuit is rectified and input to a power terminal as negative power -VS of the IC3.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to an electronic circuit, and more particularly to an electronic circuit using a composite integrated circuit mounted on a single chip and sharing a bipolar power supply line.

[Prior art]

Operational amplifiers are widely used as comparators or amplifiers in various electronic circuits.

In recent years, operational amplifiers (hereinafter referred to as operational amplifiers) are extremely rare to be constructed as discrete circuits, and are often constructed as ICs (integrated circuits) in which multiple operational amplifiers are installed on the same chip, such as in dual-in-line devices. It is used a lot. Such IC operational amplifier circuits have a shared power supply line within the chip, but many of them require a bipolar power supply voltage such as +15V. . When using such an operational amplifier IC, both power supply voltages must be generated by separate power supply circuits, but in order to simplify the circuit, conventionally only one polarity of power is supplied. The power source of the other polarity is sometimes formed using a well-known charge pump system, which is an element separate from the operational amplifier IC. Such charge pump power supply circuits are often installed on the board on which the operational amplifier IC is mounted rather than on the power supply section, which increases the size of the circuit board and complicates the wiring process, reducing manufacturing time and production. This had the drawback of increasing costs.

〔the purpose〕

The present invention has been made to eliminate the drawbacks of the above-mentioned conventional electronic circuits, and an object of the present invention is to provide an electronic circuit that requires a small mounting space and is simple in structure and inexpensive.

〔Example〕

Hereinafter, the present invention will be described in detail based on embodiments shown in the drawings. FIG. 1 shows an embodiment of the electronic circuit of the present invention. In the figure, the reference numeral 3 denotes an operational amplifier IC having a plurality of operational amplifiers mounted thereon, and the positive power supply of this operational amplifier IC is also supplied to the input element 1. Also human power year child 1
The positive power supply voltage supplied from the operational amplifier IC3 is input to the foot bank circuit 4 which forms an oscillation circuit in combination with the operational amplifier 16 in the operational amplifier IC3.

Feedback circuit 4 is composed of resistors 4a to 4d and capacitor 4e. Power supply voltage resistance 4a, 4
The voltage divided by b is connected to the non-inverting input terminal of the operational amplifier 13. The output of the switched operational amplifier 13 is fed back to the non-inverting input terminal via the resistor 4c. Further, the output voltage of the operational amplifier 13 is divided by a resistor 4d and a capacitor 4c and input to the inverting input terminal.

The output terminal of the operational amplifier 13 is further connected to the base of the transistor 7 via a resistor 6 and to the emitter of the transistor 7 via a diode 5.

Here, the diode 5 is a charging diode, and the transistor 7 is a switching transistor that inverts voltage polarity.

A capacitor 8 connected to the emitter of the transistor 7 is for charging a negative voltage, and the other end of the capacitor 8 is connected to the cathode of the diode 9 and the anode of the diode 10.

The collector of transistor 7 and the cathode of diode 10 are grounded.

The diode 9 rectifies the 7'C negative voltage generated by the combination of the transistor 7 and the charge capacitor 8. Further, the diode 10 is a charging diode.

The negative voltage taken out to the anode of diode 9 is smoothed by capacitor 11. The voltage smoothed by the capacitor 11 is connected to the negative power supply terminal of the operational amplifier IC3. However, when the diode 12 connected in parallel with the capacitor 11 and the ground is connected to the ground, when the voltage on the negative side is not yet generated when the power is turned on, the operational amplifier
This is for supplying a negative power supply voltage to C3.

Next, in the above configuration, when a positive power supply voltage is applied between the input terminal 1 and the input terminal 2 connected to the ground, the operational amplifier 16 starts oscillating with a time constant determined by the feedback circuit 4. At this time, since the negative power supply terminal of the operational amplifier IC5 is connected to the ground potential through the starting diode 12, oscillation operation is possible.

Due to the oscillation of the operational amplifier 13, the charge capacitor 8 is charged via the charging diode 5 when the output of the operational amplifier 13 is positive. That is, since the other end of capacitor 8 is grounded by diode 10, capacitor 8
The output voltage of the operational amplifier 16 is applied to both ends of the battery, enabling charging.

When the output of the operational amplifier 16 is inverted and becomes zero level, the voltage at point A in FIG. and charges the smoothing capacitor 11. At this time, the direction of the current is from the diode 9 to the capacitor 8 to the transistor 7, so the smoothing capacitor 11 is charged with negative polarity. This situation is shown in the middle row of Figure 2. The middle part of FIG. 2 shows the voltage waveform at point B in FIG.

By repeating the above steps, a negative voltage source voltage as shown in the bottom row of FIG. 2 is generated at both ends of the pump 11 (six points in FIG. 1). This - power supply voltage is operational amplifier IC3
It is input to the power supply terminal of an example, and as a result, the operational amplifier IC
3 allows continuous operation at the rated voltage. According to the embodiments described above, when using an operational amplifier IC, the IC
Since the negative side power supply voltage can be excited using one of the operational amplifier elements provided in the operational amplifier I, there is no need to take the trouble to provide a separate charge pump power supply as in the conventional case. The mounting space can be reduced.Therefore, when an amplifier or the like is constructed using the operational amplifier IC3, it is also possible to form bipolar detection signals by supplying only a single-polarity power source.

In this case, according to the above embodiment, the printed circuit board etc. on which the operational amplifier IC filter is installed can be formed very compactly, so the operational amplifier IC can be used as an amplifier for the photosensor and placed in a very limited area near the sensor. This is advantageous when installing in a mounting space.

In the above embodiment, only 10 power supply voltages are applied and a negative power supply is obtained by the charge pump circuit, but by changing the orientation of the diode and transistor shown in Figure 1, only one power supply can be supplied and the charge pump circuit Yoshi+
You can also get power.

Further, in the above embodiment, the oscillation circuit is formed by an operational amplifier and a feedback circuit provided in the IC3, but it can also be formed by using other switching elements such as comparators and transistors included in the IC. Therefore, the integrated circuit of the present invention is not limited to an operational amplifier IC, and can be any type of integrated circuit as long as it has circuit elements that can form an oscillation circuit that can drive a capacitor charge pump circuit.

〔effect〕

As is clear from the above description, according to the present invention, a configuration is adopted in which one of the bipolar power supplies is generated by a capacitor charge pump circuit using an electronic circuit provided in an integrated circuit. An electronic circuit using an integrated circuit that requires a bipolar power supply voltage can be provided very easily and inexpensively.

Moreover, since the electronic circuit employing the present invention requires only a very small mounting space, it can greatly contribute to miniaturization and cost reduction of the entire device to which it is applied.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing the configuration of an electronic circuit employing the present invention, and FIG. 2 is a waveform diagram showing voltage waveforms at each connection point in FIG. 1. 1.2... Input terminal 6 - Operational amplifier IC4...
Feedback circuit 5.9, 10.12...Diode 6...Resistor 7...Transistor 8.11...Capacitor 16...Operational amplifier Patent applicant Canon Inc. Patent attorney Takashi Kato ゛] Figure 2 C-------------1--

Claims (1)

[Claims] In the electronic circuit, a first polarity power is supplied to an electronic circuit constituting an oscillation circuit provided in the integrated circuit, and a second polarity power is supplied by a capacitor charge pump method. An electronic circuit characterized in that the integrated circuit generates lightning and uses the first and second polarity lightning sources as a power source for the integrated circuit itself. (2) The electronic circuit according to claim 1, wherein the electronic circuit provided within the integrated circuit is an operational amplifier. (3) The electronic circuit according to claim 1, wherein the electronic circuit provided within the integrated circuit is a switching element such as a comparator.