JPS6025603Y2 - calculator with printer - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a small calculator with a printer that uses a CMO3-LSI and uses a dry battery as the main power source.

Mechanical printers require a large amount of current to drive, so when designing a calculator with a battery-powered printer, it is necessary to pay attention to fluctuations in battery voltage due to fluctuations in current consumption of the printer.

Conventional methods include (1) using nickel-cadmium batteries with low internal resistance;

(2) Reduce the peak current of the printer.

(3) Attach a large capacity capacitor in parallel with the battery.

(4) When using PMO3-LSI, D
A C-DC converter is used, which stabilizes the voltage.

There were other methods.

Method (1) requires high battery costs, and method (4)
Since it cannot be used if the voltage on the primary side of the DC-DC converter drops significantly, it had to be combined with method (1).

Therefore, if you wanted to use manganese dry batteries to lower the price of a calculator, the only options were methods (2) and (3).

(2), (The method of 31 increases the difficulty of the printing mechanism in order to operate the printer with a small current.

Furthermore, the dimensions of a large-capacity capacitor are comparable to those of a dry cell battery, which poses a problem in response to the demand for smaller calculators.

The purpose of the present invention is to solve the above-mentioned difficulties and realize a compact calculator with a printer powered by manganese dry batteries.

The printer-equipped calculator of the present invention is equipped with a printer that controls a printing mechanism by energizing an electromagnet using a dry battery as a power source, in which the electromagnet drive voltage of the printer is obtained by directly connecting the electromagnet to the power source. , the capacitor voltage drop due to the drive of the electromagnet, which is made up of a capacitor connected in parallel to the power supply for the control signal of the printer, and a diode whose cathode side is connected to the negative terminal of the power supply and the anode side is connected to the capacitor side. It is characterized in that it is obtained from the output of a CMO3 circuit that operates at a constant voltage or higher through a voltage holding circuit that performs blocking.

The present invention will be explained with reference to an embodiment shown in FIG.

1 is a manganese dry battery, 2 is a power switch, and 9 is a voltage holding circuit consisting of a diode 3 and a capacitor 4.

5 is a voltage regulator, 6 is a CMO3-LSI. 7 is a liquid crystal display panel, and 8 is a printer.

Power for the printer is supplied directly from a dry battery 1 via a power switch 2.

On the other hand, power for the CMO3-LSI is supplied through a voltage regulator 5 via a voltage holding circuit 9.

When the power switch 2 is closed, the capacitor 4 is charged through the diode 3, and if the voltage exceeds a certain value (-3, 4V), the output of the voltage regulator 5 is charged to the CMO3-LSI.
A power supply voltage (-3.3V) is applied.

When the printer is stopped, the current flowing through the dry cell battery is about several hundred microamperes, so the voltage drop due to the internal resistance of the dry cell battery can be ignored, and the power supply voltage is 6.
It is about 5 to 4.0 volts.

When the printer starts operating, a large amount of current momentarily flows through the printer.

Figure 2 shows the current waveform of the printer.

10 is the peak of the current due to starting the motor, which is about 1 to 2 amperes.

Reference numeral 11 indicates a peak of about 1 ampere due to the energization of the electromagnet that controls the printing mechanism.

12 is the current consumed by the motor to continue rotating, which is 10
It is about 0 to 300 milliamps.

When four manganese dry batteries are connected in series, the total internal resistance is about 1 ohm.

If the battery voltage is 5 volts and the internal resistance is 1.5 ohms, and the peak current of the printer is 1.4 amperes, the battery terminal voltage will drop by 2.1 volts and 2.
9 volts, and if the voltage holding circuit 9 is not provided and the voltage is directly connected to the voltage regulator, a drop in the power supply voltage causes a drop in the power supply voltage of the CMO3-LSI, causing a malfunction of the CMO3-LSI.

On the other hand, when the voltage holding circuit 9 is provided, the diode 3 becomes reverse biased during an instantaneous drop in the power supply voltage, and no current flows.

Capacitor 4 is voltage regulator 5, CMO3-LSI
, discharge due to the current consumption of the liquid crystal display panel.

The current consumption is 200 microamps, the supply voltage drop time is 10 milliseconds, and the capacitance of capacitor 4 is 1.
If it is 00μF, the drop in the terminal voltage of the capacitor is 20μF.
The voltage is millivolts, which is sufficiently small that no voltage drop appears in the CMO3-LSI power supply.

As a result, CMO3 is used until the battery voltage drops considerably.
- The operation of the LSI is ensured.

The graph in Figure 3 shows the progression of voltage when using dry batteries.

The horizontal axis shows the number of lines printed by the printer, the vertical axis shows the voltage, 13 shows the terminal voltage of the capacitor 4, and 14 shows the change in the minimum value of the terminal voltage of the dry battery 1 during printing of one line.

15 indicates the minimum value of the voltage required at the input of the voltage regulator.

If there is no voltage holding circuit, it will operate up to point 16, while if there is a voltage holding circuit, it will operate up to point 17.

The size of the 100μF capacitor required for this circuit is small and does not pose any problem in miniaturizing the calculator.As explained above, the printer-equipped calculator of the present invention prints by using a dry battery as a power source and energizing an electromagnet. However, since the electromagnet drive voltage is obtained directly from the dry battery power source, the printing speed can be increased and the printing quality can be maintained in a clear state.

On the other hand, the control signal is obtained from the output of the CMO3 circuit, which operates at a constant voltage or higher, via a voltage holding circuit consisting of a capacitor and a diode that also prevents the application of reverse voltage. It is unaffected by voltage drop and enables malfunction-free printing over a wide operating voltage range.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention. 5 is a voltage regulator, 6 is a CMO3-LSI, 7
8 is a liquid crystal display panel, 8 is a printer, and 9 is a voltage holding circuit. FIG. 2 is a graph showing the current consumption during one line printing of the printer. FIG. 3 is a graph showing the decrease in voltage. 14 shows the course of decrease in the minimum value of the terminal voltage of the battery while the printer prints one line, and 13 shows the course of decrease of the terminal voltage of the capacitor 4.

Claims (1)

[Scope of utility model registration request] In a calculator with a printer that uses dry batteries as a power source and controls the printing mechanism by energizing an electromagnet,
The electromagnet drive voltage of the printer is obtained by connecting directly to the power source, and the control signal of the printer is obtained by connecting a capacitor in parallel to the power source, with the cathode side being the negative terminal of the power source and the anode side being the negative terminal of the power source. A printer-equipped calculator characterized in that the output is obtained from the output of a CMO5 circuit that operates at a constant voltage or higher through a voltage holding circuit that prevents a voltage drop in the capacitor due to the drive of the electromagnet made of a diode connected to the capacitor side.