KR900000396Y1 - Driving circuit for dot matrix printer - Google Patents

Abstract

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Description

Printer dot magnet driving time control circuit

1 is a conventional dot magnet driving control circuit diagram.

2 is a dot magnet driving time adjustment circuit of the present invention.

(A), (b), and (c) of FIG. 3 are output waveform diagrams of the dot magnet driving time adjustment circuit of the present invention.

* Explanation of symbols for main parts of the drawings

CPU: CPI PMD: Printer Dot Magnet Drive Circuit

PDE: Printer dot magnet drive enable signal VP: Printer drive voltage terminal

PRINTER: Printer TR ₁ : Transistor

R ₁ to R ₅ : resistance C _{1 to} C ₃ : capacitor

VR: Variable resistor D ₁ : Diode

ZD: Zener Diode Comp: Comparator

A: Dot magnet driving time control circuit

The present invention relates to a printer dot magnet driving time control circuit in a dot matrix printer, and in particular, when the voltage supplied to the printer changes, the width of the time applied to the dot magnet is adjusted to maintain the energization time of the dot magnet to maintain uniformity of printing. The present invention relates to a printer dot magnet driving time control circuit capable of maintaining it.

The conventional dot magnet driving time adjusting circuit is operated by the driving circuit for driving the printer dot magnet and the low and high of the printer dot magnet driving enable for controlling the output of the driving circuit as shown in FIG.

That is, the output is turned on and off as much as necessary on the CPI side so that the charging time of the printer dot magnet is controlled.

When the voltage applied to the dot magnet is applied during the time required for printing, such as turning on the dot magnet for printing time and interrupting the power supply of the dot magnet when printing is not necessary. There is a problem that can not maintain uniformity.

In order to solve the above problems, the present invention sets a reference voltage to determine printing time and non-printing time, and outputs a print dot magnet enable output for energizing the dot magnet during a voltage level lower than the reference voltage. It is possible to maintain the uniformity of the printing by adjusting the energization time of the dot magnet by performing the operation of blocking the printer dot magnet enable output during the voltage level higher than that. Same as

The output terminal of the CPU is connected to the printer (PRINTER) connected to the printer driving voltage terminal (VP) through the printer dot magnet driving circuit (PMD) and the printer dot magnet driving enable signal (PDE) of the CUP. ) is a resistor (R _1), the transistors (the printer dots magnet according to the printer dot magnet drive control circuit hayeoseo driving circuit to be applied to a (PMD), the printer driver voltage terminal (VP), the resistance (R ₃₎ via a TR ₁₎ Connect to the printer (PRINTER) through the capacitor (C ₁ ) and the resistor (R ₂ ), the capacitor (C ₃ ) Zener diode (ZD) resistor (R ₄ ) of the comparator (Comp) through the variable resistor (VR) It is connected to the other input terminal (B) and the collector terminal of the transistor (TR ₁ ) is connected to the one input terminal (A) of the comparator (Comp) through the capacitor (C ₁ ) and the diode (D ₁ ) resistance ( R ₅₎ output of the comparator (Comp) via a capacitor (C ₃₎ The output terminal of the comparator Comp is connected to the printer dot magnet driving circuit PMD, and the dot magnet driving time control circuit is configured to describe the effect of the present invention. Is as follows.

The printer driving voltage (VP) is higher than the constant reference voltage by using a zener diode (ZD) and a resistor (R ₄ ) and a variable resistor (VR) to provide a constant reference voltage through the resistor (R ₂ ) capacitor (C ₂ ). When a low potential is applied, a high output high potential is used to control the printer dot magnet driving circuit PMD through a comparator having a low output characteristic. In this operation, when the printing is not performed, FIG. As shown in a), the CPU outputs a low signal, which is applied to the base terminal of the transistor TR ₁ through the resistor R ₁ so that the transistor TR ₁ is turned off. the other input terminal of one transistor while the input terminal (a) of (TR ₁₎ of the collector terminal of the comparator shown (Comp), the high signal is a high potential as shown in the third degree (b) the comparator (Comp) (B) there is presented the printer driver voltage (VP) is a Zener diode (ZD) resistance (R ₄₎ a bias voltage division by a variable resistor (VR) is applied.

Therefore, since the voltage of the other input terminal B of the comparator Comp is lower than the voltage applied to one input terminal A of the comparator Comp, the output of the printer dot magnet driving enable signal PDE is output from the comparator Comp. Will not be printed.

Subsequently, when printing is required, as shown in (a) of FIG. 3, a high signal is output from the CPU and the high signal is applied to the base terminal of the transistor TR ₁ so that the transistor TR1 is turned on. In the input terminal A of the comparator Comp, the voltage applied as shown in (b) of FIG. 3 drops and becomes lower than the voltage applied to the other input terminal B of the comparator Comp. ), The output of the printer dot magnet drive enable appears.

On non-printing, the CPU outputs a low signal, which turns off the transistor TR ₁ , but does not immediately change the voltage at one input terminal A of the comparator to a high potential high voltage. As shown in (b) of FIG. ₃ , the time delay value of the resistor R ₃ capacitor C ₁ has a delay time until the high potential state is reached at one input terminal A of the comparator Comp. Ascend slowly.

In this way, when the potential rises to the input terminal A of the comparator Comp and becomes greater than the printer driving voltage applied to the other input terminal B of the comparator Comp, the output side of the comparator Comp outputs a low signal. Do not output the dot drive enable signal (PDE).

In this case, when the printer supply voltage VP is greater than or equal to the printer supply voltage VP, the potential of the input terminal A of the comparator Comp increases from the printer supply voltage VP to the high potential state by the resistor R ₁ condenser C ₁ . If the speed is faster and lower than the printer driving voltage VP, the potential of one input terminal A of the comparator comp rises to a higher potential state than the printer supply voltage VP. do.

Accordingly, the potential of the input terminal A of the comparator Comp is equal to the printer driving voltage VP of the other input terminal B of the comparator with respect to the change of the printer supply voltage VP. The output of the appropriate printer dot magnet enable (PDE) can be applied for t ₁ , t ₂ , and t ₃ hours shown in

Therefore, it is possible to implement the printer dot magnet driving enable time control applied to the dot magnet driving circuit.

As described above, the present invention compares the reference voltage with the potential of the on / off state of the printer dot magnet driving and adjusts the width of the time applied to the dot magnet driving circuit in the comparator. By maintaining the printer dot magnet energizing time, it can provide the advantage of maintaining the uniformity of the printing state.

Claims (1)

The output terminal of the CPU is connected to a printer (PRINTER) connected to the printer driving voltage terminal (VP) through a printer dot magnet driving circuit (PMD), and the ABLE signal (PDE) which is a printer dot magnet driving of the CPU a resistor (R ₁₎ resistance to the collector terminal of the printer, a drive voltage (VP) and the transistor (TR ₁₎ according to a dot magnet drive circuit hayeoseo to be applied to the transistor (TR ₁₎ to the printer dot magnet driver circuit (PMD) by (R ₁ ~ R ₅₎ a capacitor (C ₁ ~C ₃₎ a variable resistor (VR), a diode (D ₁₎ by connecting the Zener diode (ZD), a comparator (Comp) dot magnet drive time control circuit (a) consisting of a printer driver Printer dot magnet drive time adjustment time to adjust printer dot magnet drive time by comparing the voltage (VP) and printer drive voltage (VP) according to the printer control output on / off of the CPU .