JP2995732B2 - Information processing device - Google Patents

Description

The present invention relates to an information processing apparatus, and is particularly suitable for use in an information processing apparatus of a printing apparatus separated type.

[Summary of the Invention]

A large current power supply voltage for the print drive unit and a small current power supply voltage for the printer logic circuit are supplied from the information processing device body to the printer connected to the connector, and the large current power supply voltage is supplied via a switch that is closed during the printing process. By supplying
By avoiding unnecessary power consumption even when the cable of the printing device is connected to the connector, and by supplying the small current power supply voltage directly without passing through the switch, the small current power supply can be supplied before the large current power supply voltage is supplied. By detecting the used connector connection, a large current power supply voltage is supplied when the connector is not connected, and an abnormally large current flows when the connector is connected, or an abnormal voltage is applied to the circuit before it is prevented. This is an information processing device of a printing device separated type.

[Conventional technology]

2. Description of the Related Art In an information processing apparatus such as a word processor or a computer, there is known an information processing apparatus in which a main body of an information processing apparatus and a printing apparatus are separated from each other so as to be portable, and operating power of the printing apparatus is supplied from the main body of the processing apparatus. .

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

When the printer is connected to the main unit of the processing device, when the power switch of the main unit is turned on, a standby current of, for example, about 100 mA flows to the print control circuit even when printing is not being performed.
Power is consumed. For this reason, when the printing apparatus is connected in the battery drive, there is a disadvantage that the battery consumption is shortened by about 30%.

[Problems to be solved by the invention]

In order to prevent power from being wasted on the printing device side, the printing device may be connected only when printing is performed.
However, frequent plugging and unplugging of connectors is very troublesome.

Also, if the connector is disconnected and reconnected while the power of the processing unit is on, signal lines may be connected before the ground circuit is connected, causing abnormal current to flow and damaging the internal circuits of the printing device and the processing unit. There is. Therefore, it is necessary to use a special connector whose ground side is connected first.

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

It is conceivable to provide a manual switch for turning on / off the power of the printing apparatus on the processing apparatus main body side or the printing apparatus side, but it is not preferable because the operation procedure is increased and it becomes difficult to understand.

In view of this problem, the present invention prevents unnecessary current leakage even when the cable of the printing apparatus is connected to the main body, and does not require complicated operations such as turning on / off a manual switch. Another object of the present invention is to prevent a malfunction or a circuit failure from occurring when a connector of a printing apparatus is connected or disconnected.

[Means for solving the problem]

The information processing apparatus according to the present invention includes an information processing apparatus main body 1 and a printing device 2 connected to the main body via a connector 4. The connector 4 includes connection terminals for a signal line, a large current power supply line 7 for a printing device drive unit, and a small current power supply line 8 for a printing device logic circuit. Information processing device body 1
The power supply circuit 5 supplies a voltage to the large-current power supply line 7 via the switch 12 and directly supplies a voltage to the small-current power supply line. A procedure for detecting the connection of the printing device 2 to the connector 4 and confirming the status of the device based on a status confirmation signal from the printing device 2, respectively. When the connection detection and the status confirmation are normal in the above procedure, the switch 12 is turned on. A printing procedure executing means (processing apparatus 5 and processing steps S1 to S5) for executing a series of printing procedures including a procedure of forming a control signal for supplying a large current power supply voltage to the printing apparatus 2 when closed. And

[Action]

Since a large current power supply voltage is supplied via the switch 12 which is closed during the printing process, useless power consumption does not occur even when the cable of the printing device 2 is connected to the connector 4. Also, since the small current power supply voltage is supplied directly without passing through the switch 12, the connection of the connector using the small current power supply is detected before the supply of the large current power supply voltage. An abnormally large current does not flow when a voltage is supplied and the connector is connected, and no abnormal voltage is applied to the circuit.

〔Example〕

FIG. 1 is a block diagram of an information processing apparatus showing one embodiment of the present invention. This information processing apparatus includes a processing apparatus main body 1 and a printing apparatus 2. The printing apparatus 2 is formed separately from the processing apparatus main body 1, and both are connected by a connection cable 3.

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

The printing device 2 is not provided with a power supply,
Is supplied from the processing apparatus main body 1. That is, the output port 6 of the processing apparatus main body 1, with is provided with a plurality of signal output terminals from the central processing unit 15 is given print signal P _2, when the power supply output terminal is provided, these power output terminal And the output electrode of power supply 5 are connected to power supply lines 7 and 8
It is connected via. The ground terminal of the output port 6 and the ground electrode of the power supply 5 are connected via a ground line 9.

The power supply line 7 is a line for supplying power of +6 to 12 V, and is supplied to a motor drive circuit and a thermal head drive circuit of the printing apparatus 2. The power supply line 8 is
A line that supplies 5V power, which is provided to the logic circuit.

An open / close switch 12 is provided on the power supply line 7, and its open / close control is performed by a control circuit 13. The control circuit 13 is a central processing unit 15
On-off controlling the opening and closing switch 12 on the basis of the control signal P ₁ given from.

FIG. 2 is a flowchart showing an operation of supplying drive power to the printing apparatus 2. Input device 14 to central processing unit 15
When a signal designating a print mode is given to
Becomes the print mode. Thus, determining the operation moves to a subroutine for performing the printing operation from the main routine, whether connector 4 to the output port 6 is connected in step S _1.

With power when the connector 4 is connected + 5V is applied to the printing apparatus 2, the voltage is applied from the printing apparatus 2 as the connection detection signal P ₃ of the connector 4 to the central processing unit 15. Therefore, when the connection detection signal P ₃ given the process proceeds to step S _2, if not given it determined that connector 4 is not connected repeating the operations of steps S _1.

Step determines whether S ₂ In the print start button of the main body 1 is pressed, when the pushed, the operation goes to the step S _3, when not pushed back to step S _1.

Step S ₃ performs status check of the presence or absence of printing paper in, when the normal state confirmation signal P ₄ is supplied from the printer 2 to the central processing unit 15. Therefore, in this case, step S ₅
Then, the open / close switch 12 is turned on. As a result, drive power is supplied to the motor drive circuit and the thermal head drive circuit of the printing device 2. Also step
The process proceeds to step S ₄ because when the abnormality is observed in the S ₃ state confirmation signal P ₄ is not given, and displays the abnormality on the display device 16. Then, the flow returns to step S ₃ when the correct state is set.

Printing device 2 operates by driving power is applied, printing is started in step S _6. Next When printing is completed is determined in step S _7, the process proceeds to step S _8, to turn off the opening and closing switch 12. As a result, the power supply to the printing device 2 is stopped, and the operation returns to the main routine.

The information processing apparatus according to the embodiment has the open / close switch
Since the on / off control of step 12 is performed, no driving power is supplied to the printing apparatus 2 except in the printing mode. Accordingly, the power that is always wasted in the printing device 2 is greatly reduced. For this reason, the printing device 2 may be left connected to the main body 1, and in order to reduce battery consumption, the printing device 2 is connected only at the time of printing, and the connector 4 for disconnecting and installing afterwards is bothersome. No operation is required.

In addition, since drive power is not supplied to the output port 6 in modes other than the print mode, no abnormal current flows even when the connector 4 is connected and disconnected while the power of the processing apparatus main body 1 is turned on.
Therefore, in order to prevent the internal circuits of the processing device and the printing device from being damaged by abnormal currents and voltages, use connectors that take measures to prevent the ground circuit from being formed before the signal circuit at the time of insertion and removal. No need.

In the embodiment, for example, even when the floppy disk drive is operated and a large load current is flowing to the apparatus main body 1, no rush current flows even if the connector is inserted. Therefore, since a large load current and an inrush current do not overlap, the maximum load current can be reduced. In addition, it is possible to prevent a malfunction of the operating device due to a decrease in the voltage due to the flow of the rush current.

The switching circuit composed of the open / close switch 12 and the control circuit 13 has a configuration in which the turn-on speed is reduced and the inrush current is reduced as shown in the circuit diagram of FIG. This switching circuit includes a switch provided on the power supply line 7.
It has been made to control on and off the switching transistor Q ₁ in the control transistor Q ₂ as 12.

The control transistor Q ₂ are turned on when the control signal P ₁ supplied from the central processing unit 15 becomes a high level. Control signal P ₁ is inverted in step S ₅ of FIG. 2 in operation in the printing mode to the high level. This inversion causes the control transistor Q ₂
There is turned on, the base current flows to the switching transistor Q _1. Therefore, the switching transistor Q ₁ is turned on, driving power is supplied to the printing device 2.

In the example it is connected a capacitor C ₁ between the collector and base of the control transistor Q _2. The capacitor C ₁ is generally a capacitor called a Miller capacitance, in this circuit is delayed negative feedback is allowed to turn-on time of the control transistor Q ₁ on the input side a portion of the output. Thereby, the characteristic curve A shown by the solid line in the current characteristic diagram of FIG.
As described above, the rush current at the start of power supply can be suppressed to about 7A.

Inrush current when not provided a capacitor C _1, because a 25A about as the characteristic curve B shown by a broken line in FIG. 4,
The inrush current of the switching circuit of the embodiment is 1/3 or less.

Incidentally, when to perform the operation to suppress the rush current without being affected by variations in the constants of the transistor Q ₂ is, as shown in the circuit diagram of FIG. 5, a capacitor between ground and the collector of the control transistor Q ₂ to connect the C _2. In this case, the capacitance of the capacitor C ₂ is the capacitor C ₁ in Figure 3
h _FE (h _FE : Common emitter DC current amplification factor) times required.

In the embodiment, on / off control is not performed for +5 V supplied by the power supply line 8, for the following reason. That is, the + 5V power supply has a smaller static power consumption than the +6 to 12V power supply, for example, 1/3 to 1/5.
In addition, it is easy to take measures to prevent circuit damage caused by connecting and disconnecting the connector, and the inrush current is very small (less than 1/100 of a +6 to 12 V circuit). In addition, since a stabilized voltage must be supplied, there is a problem that a high cost is required for a control circuit for turning on and off the power supply.

〔The invention's effect〕

As described above, the present invention supplies a large current power supply voltage for the print drive unit and a small current power supply voltage for the print device logic circuit from the information processing device main body to the connector-connected printing device,
Since the large current power supply voltage is supplied via the switch that is closed during the printing process, unnecessary power consumption does not occur even when the cable of the printing device is connected to the connector.
Also, the small current power supply voltage is directly supplied without passing through the switch,
Since the connection of the connector using the small current power supply is detected before the supply of the large current power supply voltage, the large current power supply voltage is supplied when the connector is not connected. Voltage can be prevented from being applied to the circuit.

[Brief description of the drawings]

FIG. 1 is a block diagram of an information processing apparatus showing one embodiment of the present invention, FIG. 2 is a flowchart showing a driving power supply operation, FIG. 3 is a circuit diagram of a switching circuit, and FIG.
FIG. 5 is a waveform diagram showing that the inrush current is reduced by using the circuit shown in FIG. 5, and FIG. 5 is a circuit diagram of a switching circuit showing a modification of FIG. In addition, in the reference numerals used in the drawings, 1... Information processing apparatus main body 2... Printing device 3... Connection cable 4... Connector 12... Open / close switch 13... Control circuit P ₁ .

Claims (1)

(57) [Claims] An information processing apparatus main body and a printing device connected to the main body via a connector, wherein the connector includes a signal line, a large current power supply line for a printing device driving section, and a printing device logic circuit. The information processing device main body supplies a voltage to the large current power supply line via a switch and directly supplies a voltage to the small current power supply line. A power supply circuit, a procedure for detecting connection of the printing device to the connector based on the supply of the small current power supply voltage during the printing process, and checking the device status based on a status confirmation signal from the printing device, and a connection in the above procedure. When the detection and the status confirmation are normal, the switch is closed to execute a series of printing steps including a step of forming a control signal for supplying a large current power supply voltage to the printing apparatus. The information processing apparatus characterized by comprising a stage.