JPH0236975A - Information processor - Google Patents

Abstract

PURPOSE:To eliminate the need for such a troublesome operation as turning ON/OFF a manual switch to prevent the occurrence of malfunctions of circuit failures by supplying a power to a printer, which is attached with a connector, through a switch closed by a control signal generated in a printing mode. CONSTITUTION:A make and break switch 12 is provided on a power supply line 7, and the make and break control of the switch 12 s performed by a control circuit 13. The control circuit 13 controls the ON/OFF operation of the make and break switch 12 on the basis of a control signal P1 imparted from a central processing unit 15. Therefore, a drive power is not supplied to the side of a printer 2 in other mode than a printing mode, and a wasteful electric power demand usually existing in the printer 2 is remarkably reduced. In this manner, the printer 2 is allowed to be kept connected to a main body 1 and, therefore, there is no need for such a troublesome operation that a connector 4 should be attached/detached to connect the printer 2 only during printing for reducing the consumption of batteries.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an information processing device, and is particularly suitable for use in an information processing device with a separate printing device.

[Summary of the invention]

By installing a switch in the line that supplies power to the printing device, and controlling the on/off of this switch using the signal output during printing mode, no unnecessary current flows out even if the printing device cable is left connected. This is an information processing device that is designed so that it does not generate data.

[Conventional technology]

It is known that in information processing devices such as word processors and computers, the main body of the information processing device and the printing device are separated for portability, and the operating power of the printing device is supplied from the main body of the processing device. .

In such an information processing apparatus, when the printing apparatus is connected to the printer boat of the main body of the processing apparatus, power is supplied to the printing apparatus via the connection cable.

When the printing device is connected to the main body of the processing device, when the power switch of the main body is turned on, a standby current of, for example, about 100 mA flows through the printing control circuit even when printing is not in progress, consuming power. For this reason, battery-powered systems have the disadvantage that if the printing device is connected, the battery will run out about 30% faster.9 [Problems to be solved by the invention] Prevent power from being wasted on the printing device side. To do this, you only need to connect the printing device when printing. However, it is extremely troublesome to frequently plug and unplug connectors.

Additionally, if you connect or disconnect a connector while the power to the processing device is on, the signal line may be connected before the ground circuit is connected, causing abnormal current to flow and damaging the printing device or internal circuits of the processing device. There is. For this reason, it is necessary to use a special connector that connects the ground side first.

Also, if you insert a connector while the power is on, a large inrush current will flow, so if you connect a printing device while a floppy disk drive or scanner is operating, these devices may malfunction due to a voltage drop. .

Although it is conceivable to provide a manual switch for turning on and off the power of the printing device on the processing device main body side or the printing device side, this is not preferable because it increases the number of operating procedures and makes it difficult to understand.

In view of this problem, the present invention prevents unnecessary current from flowing out even if the cable of the printing device is connected to the main body, and eliminates the need for complicated operations such as turning on and off a manual switch. Also, the purpose is to prevent malfunctions and circuit failures from occurring when connecting or disconnecting the connector of the printing device.

[Means to solve the problem]

The information processing apparatus of the present invention is configured to supply power to the connector-connected printing device 2 via a switch 12 that is closed by a control signal generated during printing mode.

[Effect]

When the information processing device operates in print mode, the iJ switch 12 is controlled to be closed, and power is not supplied to the printing device 2 except in the print mode. Thereby, even if the printing device 2 is left connected, no unnecessary current flows out. Therefore, in order to reduce power consumption, there is no need for complicated operations such as connecting and disconnecting a connector to connect the printing device 2 only when printing, or turning on and off a manual switch. Even if the printing device 2 is connected while the main body is powered on, no inrush current will flow or abnormal voltage will be applied to the circuit, eliminating malfunctions and circuit failures.

〔Example〕

FIG. 1 is a block diagram of an information processing apparatus showing an embodiment of the present invention. This information processing device consists of a processing device main body 1 and a printing device 2. The printing device W2 is formed separately from the processing device main body 1, and a connecting cable 3 connects the two.

The processing device main body 1 is a word processor, and includes an input device 14 having a keyboard, a display device 16 including a liquid crystal display, a central processing unit 15, and the like. A power source 5 is provided as a driving source for each of these devices. The power source 5 receives AC 100V or a battery, and outputs a DC voltage of a predetermined value.

The printing device 2 is not provided with a power source, and driving power for the printing device 2 is supplied from the processing device main body 1. That is, the output ports 1-6 of the processing device main body 1 are provided with a plurality of signal output terminals to which the print signal P2 is applied from the central processing device 15, and are also provided with a power output terminal. The power supply output terminal and the output electrode of the power supply 5 are connected via a power supply line 7.8. Further, the ground terminal of the output port and the ground electrode of the electric terminal tA5 are connected via a ground wire 9.

The power supply line 7 is a line for supplying power of +6 to 12V, which is applied to the motor drive circuit and thermal head drive circuit of the printing device 2. Also, the power supply line 8 is
This is a line that supplies -5■ power to the logic circuit.

An opening/closing switch 12 is interposed in the power supply line 7, and its opening/closing is controlled by a control circuit 13. The control circuit 13 controls the opening/closing switch 12 on/off based on the control signal P given from the central processing unit 15.

FIG. 2 is a flowchart 1 showing the operation of supplying driving power to the printing device 2. As shown in FIG. When a signal designating a print mode is given from the input device 14 to the central processing unit 15, the operating mode of the processing device 1 becomes the print mode. As a result, the operation moves from the main routine to a printing routine for printing, and it is determined in step Sl whether or not the connector 4 is connected to the output capo 1-6.

When the connector 4 is connected, +5V power is applied to the printing device 2, and this voltage is also applied from the printing device 2 to the central processing unit 15 as a connection detection signal P3 of the connector 4. Therefore, when the connection detection signal P is applied, the process proceeds to step S2, and when it is not applied, it is determined that the connector 4 is not connected, and the operation of step S is repeated.

In step S2, it is determined whether or not the print start button 80 on the main body 1 has been pressed. If it has been pressed, the process proceeds to step S3, and if it has not been pressed, the process returns to step S.

In the step S3, the status of printing paper is checked, such as the presence or absence of printing paper, and if the condition is normal, a status confirmation signal P4 is given from the printing device 2 to the central processing unit 15. Therefore, in this case, the process advances to step S5 and the opening/closing switch 12 is turned on.

As a result, driving power is applied to the motor drive circuit and the thermal '\not□ drive circuit on the printing device 2 side. Further, if an abnormality is recognized in step S3, the status confirmation No. 13 P is not given, so the process proceeds to step S, and the abnormality is displayed on the display device 16. Then, when the correct state is set, the process returns to step SJ.

The printing device 2 operates by being supplied with driving power,
Printing is started in step Sr.

Next, in step S7, when the printing end force 11 is set, the process proceeds to step SI1, and the opening/closing switch 12 is turned off. As a result, the power supply to the printing device 2 is stopped, and the operation returns to the main routine.

Since the mood processing device of the embodiment performs on/off control of the open/close switch 12 in this manner, driving power is not supplied to the printing device 2 except in the print mode. Therefore, the power constantly consumed by the printing device 2 without any drive is significantly reduced. For this reason, the printing device W2 can be left connected to the main body.To reduce battery consumption, connect the printing device 2 when printing, and then disconnect the connector 4 so that it can be removed and left behind. No complicated operations are required.

In addition, the drive power is output to the output port in modes other than the print mode.]
Since no power is supplied, no abnormal current will flow even if the power supply is inserted or removed while the power to the processing device wooden cup 1 is turned on.

Therefore, in order to prevent damage to the internal circuits of processing equipment and printing equipment due to abnormal currents and voltages, use connectors that are designed so that the ground circuit is formed before the signal circuit when plugging and unplugging. There's no need.

Further, in the embodiment, even if the connector is inserted while a large load current is flowing through the main body of the apparatus due to operation of the computer disk drive, for example, no inrush current will flow. Therefore, a large load current and an inrush current do not overlap, so the maximum load current can be reduced. Further, it is possible to prevent malfunction of the device during operation due to a voltage drop due to the flow of rush current.

As shown in the circuit diagram of FIG. 3, the switching circuit consisting of the open/close switch 12 and the control circuit 13 is configured to slow down the turn-on speed and reduce the rush current.

This switching circuit controls a switching transistor Q1 as a switch]2 provided on a power supply line 7.
It is configured to control on/off side with ffll l/ransisk Q2.

The control transistor Q is controlled by the control given by the central processing unit 15? Turns on when ffn Shinshu P1 becomes high level. The control signal P1 is inverted to a high level in step S5 of FIG. 2 while the print mode is in operation.

When this inversion turns on the fri control transistor Q2, a base current flows through the switching transistor Q1. Therefore, the switching transistor Q is turned on, and electric power is supplied to the printing device 2.

In the embodiment, the content C1 is connected between the collector and base of the control transistor Q2. This capacitor CI
is a capacitor generally called Miller capacitance,
In this circuit, a portion of the output is negatively fed back to the input side to delay the turn-on time of the control transistor Q1. As a result, the rush current at the start of power supply can be suppressed to about 7 A, as shown by the characteristic curve A shown by the solid line in the current characteristic diagram of FIG.

Since the inrush current when the capacitor CI is not provided is about 25 A as shown by the characteristic curve B indicated by the broken line in FIG. 4, the inrush current in the switching circuit of the embodiment is 1/3 or less.

If the inrush current is to be suppressed without being affected by variations in the constants of transistor Q2, a capacitor is connected between the collector of control I/transistor Q2 and the ground, as shown in the circuit diagram of Figure 5. Connect C2. In this case, the capacitance of the capacitor C2 is required to be hFE (hFE: grounded emitter DC current amplification factor) times that of the capacitor CI in FIG.

Incidentally, in the embodiment, no on/off control is performed for →-5①, which is supplied with power by the power supply line 8, for the following reason. In other words, a +5V power supply has lower static power consumption than a +6 to 12V power supply, for example, 1/3 to 1
It is 15. Further, it is easy to take measures to prevent circuit damage caused by plugging and unplugging the connector, and the inrush current is extremely small (1/100 or less of a +6 to 12 V circuit). Furthermore, since a stabilized voltage must be supplied, there are problems such as high costs for a control circuit for controlling on/off of this power supply. Note that the +5V power supply may also be controlled on/off.

〔Effect of the invention〕

As described above, in the present invention, a switch is provided in the line that supplies power to the separate printing device, and the switch is turned on by a signal output during printing mode, so that the cable of the printing device is connected to the main body. Even if you leave it connected, no unnecessary current will flow out.

Therefore, it is not necessary to connect or disconnect the cable of the printing device to the main body or to turn on and off a manual switch for each printing, which improves usability.

In addition, even if you connect a printing device with the main unit's power switch on, there will be no inrush current flowing into the printing device, and no abnormal voltage will be generated when the connector is inserted or removed, resulting in malfunction or circuit failure. In addition, it is possible to reduce the peak capacity of the power supply circuit, simplify the circuit, and reduce costs.

teenager Reason Information processing equipment body printing device connection cable connector open/close switch control circuit Control signal Man soil shop Victory

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an information processing device showing an embodiment of the present invention, FIG. 2 is a flowchart showing the operation of supplying driving power, FIG. 3 is a circuit diagram of a switching circuit, and FIG.
FIG. 5 is a waveform diagram showing that inrush current is reduced by using the circuit shown in the figure. FIG. 5 is a circuit diagram of a switching circuit showing a modification of FIG. 3. In addition, in the symbols used in the drawings,

Claims (1)

[Claims:] An information processing device comprising a switch for supplying power to a printing device connected to a connector, the switch being closed by a control signal generated during printing mode.