JPH01142820A - Printing controller - Google Patents

Abstract

PURPOSE:To easily follow up the cause of malfunction by storing hit information at the time of AC or DC hit. CONSTITUTION:A print control device 1 includes an AC hit detecting circuit 5 and at least one DC hit detecting circuit 9. A CPU 2 stores hit detected by the circuit 5 or 9 in a non-volatile RAM 8 as instantaneous information, and at the time of system rise after the hit, displays the hit on a CRT display 22. Consequently, the cause of malfunction can be easily followed up.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a printing control device, for example, a printing control device having a function of detecting a momentary power outage in an AC power source or a momentary power outage in a DC power source. .

[Prior Art] In recent years, computer malfunctions can be detected and analyzed quickly and reliably by placing devices such as highly accurate analyzers in locations where abnormalities are likely to occur.

In particular, instantaneous interruptions in alternating current (hereinafter referred to as AC) power that occur during input of AC power can cause various malfunctions.For example, printing control devices connected to printers use the AC input section to analyze power supply abnormalities. It is equipped with a power supply anomaly analyzer and a recorder to record power supply anomalies.

Furthermore, in order to clarify malfunctions in direct current (hereinafter referred to as DC) power supplies that are currently outputting direct current power, devices such as highly accurate analyzers are installed.

[Problems to be solved by the invention] However, the power supply abnormality analyzer and recorder are expensive, which not only increases the cost of the entire device, but also requires checking the recording paper every time an abnormality occurs in the printer. There were many problems that needed to be addressed.

[Means for Solving the Problems] In order to solve the above-mentioned problems and achieve the purpose, a print control device according to the present invention is a print control device that connects at least a display section to a few external devices, and includes: A first detection means for detecting a momentary interruption of the AC power supply, a second detection means for detecting a momentary interruption of at least one DC power supply, and a momentary interruption detected by the first or second detection means. The apparatus includes a storage means for storing information, and a display means for displaying the instantaneous interruption information on the display section when the system is started up after the instantaneous interruption.

[Operation] According to the above configuration, the first and second detection means detect an instantaneous power interruption, and the storage means stores the instantaneous interruption as instantaneous interruption information. When the system is started up after a momentary interruption, the display means displays momentary interruption information on the display section of an external device, thereby providing a print control device that can quickly recognize momentary interruption.

[Embodiments] Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First Embodiment In the first embodiment, a printing control apparatus including an AC power supply instantaneous interruption detection circuit and at least one DC power supply instantaneous interruption detection circuit will be described.

First, a configuration for detecting a momentary power outage when power is being input from an AC power source will be described.

FIG. 1 is a diagram of a device comprising a printing control device and peripheral devices for explaining the case of instantaneous AC power interruption according to this embodiment. A control device 2 controls the entire printing control device 1 c
It is pu. In addition to the printing control device 1, the printing device includes an interface cable 21 for inputting printing data from an external device such as a host computer, and a C for display.
RT display 22, keyboard 23 for inputting commands to start the printing device or instruct various operations
, a print printer 24 that performs printing operations under the control of the print control device 1.

3 is a control program for the CPU 2 to control the printing control device 1, an error program at the time of error processing, an AC instantaneous interruption detection display processing program shown in the flowcharts of FIGS. 3(a) and 3(b), and an ACC instantaneous interruption side. interrupt processing program,
A ROM stores error display data indicating an instantaneous AC or DC interruption, and a RAM 4 has a working area during the execution of various programs, a save area in the event of a match during error processing, and the like.

5 is a known AC instantaneous interruption detection circuit, and the detection voltage can be set arbitrarily.For example, when the input from the AC power supply becomes 80V or less, the output signal is set to "1".
In the DC power supply of the printing control device 1, the AC input is 80V.
The voltage is maintained for a predetermined period of time even if the voltage is below. When the output signal of the AC instantaneous interruption detection circuit 5 is "1", an interrupt is issued to the CPU 2, and this interrupt causes the
The PU 2 senses the output signal of the AC instantaneous interruption detection circuit 5 again to confirm.

Reference numeral 6 denotes page data that stores code data for one page, for example, and reference numeral 7 denotes a font memory that converts the code data read from the page buffer 6 into a dot signal and sends it to the printer 24 when the printer 24 is in a ready state. It is. 8 is an output signal "1" output from the AC instantaneous interruption detection circuit 5 when an instantaneous interruption occurs during power input from the ACii source.
Nonvolatile RAM (hereinafter referred to as NVRAM) that stores
This NVRAM 8 has an AC instantaneous interruption detection address that stores the above-mentioned output signal "1" and an AC instantaneous interruption detection address that counts up by one for each instantaneous interruption and stores the number of instantaneous interruptions within a predetermined period.
A momentary interruption counter address is prepared and AC momentary interruption information including an AC momentary interruption and the number of AC momentary interruptions is stored. The number of instantaneous interruptions stored in this AC instantaneous interruption counter address is, for example, N
Used to check the lifespan of VRAM8.

The operation of the printing apparatus configured as above will be briefly explained below.

First, connect the interface cable 2 from an external device (not shown).
1, data is input to the print control device 1. There, the data is processed down to dot data (signals) and sent to the printer 24 for printing.When the printing device is activated from the keyboard 23, the printing control device 1
Sense the various statuses of the C
The CRT display 22 also displays the results of various self-diagnosis of the printing control device 1 or the communication status of an external device (not shown).

Furthermore, since the first embodiment includes a configuration for detecting a momentary power outage of at least one DC power source, next a description will be given of a configuration for detecting a momentary power failure when power is being output from the DC power source.

FIG. 2 is a schematic configuration diagram showing the configuration of a printing control device in which one DC momentary power interruption detection circuit is provided.

In FIG. 2, illustration of the AC instantaneous interruption detection circuit 5 and peripheral devices is omitted for the sake of explanation.

In the printing control device 1 shown in the figure, 9 is a known DC momentary power interruption detection circuit. This DC instantaneous interruption detection circuit 9 detects the
This is a circuit that outputs an output signal "1" to PU2. Therefore, the NVRAM 8 has an address for DC instantaneous interruption detection that stores "1" and a DC instantaneous interruption detection address that stores the number of instantaneous interruptions by counting DC instantaneous interruptions.
and an address for detecting instantaneous DC interruption, and stores instantaneous DC interruption information including instantaneous DC interruption and the number of instantaneous DC interruptions. General TTL (
TRANSISTOR TRANSISTORLO-GI
C) is 4. 5v is the lower threshold of the operating range, and the voltage is lower than the operating range.
The circuits surrounding the C instantaneous interruption detection circuit 9 are constructed of circuits selected from tC that can operate at about 4.5V.

As mentioned above, the configurations for detecting instantaneous power interruptions generated by AC power sources and DC power sources have been explained separately, but in the present invention,
A preferred embodiment is a configuration of a printing control device that includes both an AC instantaneous interruption detection circuit 5 that detects instantaneous interruption of power supply and a DC instantaneous interruption detection circuit 9 that detects at least one instantaneous interruption of DC power supply. The DC instantaneous power interruption detection circuit of the power supply can be set as necessary based on the number of DC power supplies.

Therefore, the configuration of the printing control device explained in FIGS. 1 and 2 is integrated, and the configuration of the printing device is as shown in FIG. 3. In FIG. 3, a printing control device 1 included in a printing apparatus includes an AC instantaneous interruption detection circuit 5 and at least one DC instantaneous interruption detection circuit 9.・Next, Figure 4 shows the operation of CPU “2” during a momentary interruption of the AC power supply (
This will be explained below using flowcharts a) and (b). In addition, in the operation of the CPU 2 during a momentary interruption of the DC power supply, A
The explanation is omitted because the same processing as in the case of a momentary power interruption of the C power supply is performed.

FIG. 4(a) is a flowchart of interrupt processing when a momentary power interruption occurs when power is input from the AC power source while the printing apparatus is performing normal execution.

First, when an output signal "1" is received from the AC instantaneous interruption detection circuit 6, it is sensed again whether the output signal from the AC instantaneous interruption detection circuit 6 is "1". If the output signal at the time of sensing is “0”, return to normal operation, and if the output signal is “1”, access the address pointer location of NVRAM8, that is, the AC instantaneous interruption detection address. and stores AC instantaneous interruption information “1” indicating the occurrence of AC instantaneous interruption (
Step S1, Step S2).

Next, the AC instantaneous interruption detection address is incremented by one to set the position of the address pointer to be accessed as the AC instantaneous interruption counter address (Step S3), and the content of the AC instantaneous interruption counter address is incremented by one (
Step S4).

When the NVRAM 8 is newly installed in the printing control device 1, the contents of the AC instantaneous interruption detection address and the AC instantaneous interruption counter address are set to "0", and the position of the address pointer is set to "0". It is set at the address for disconnection detection.

Further, the AC instantaneous interruption counter address is decremented by one, and the address pointer is set to the AC instantaneous interruption detection address (step 55).

Further, FIG. 4(b) is a flowchart of display processing for starting up the system after the printing apparatus has momentary power outage and displaying AC momentary power outage detection.

First, the content of the address for instantaneous AC interruption detection is read from the NVRAM 8 (step 5it), and if the content is "1", error display data indicating that there is an instantaneous AC interruption on the CRT display 22 is read from the ROM 3 and stored in the font memory. 7, convert it to a dot signal, and transfer this dot signal to a CRT.
The signal is sent to the display 22 (step 512), thus displaying on the CRT display 22 that there is an instantaneous AC interruption. Furthermore, the content of the address for detecting AC instantaneous interruption is set to “0”.
” (step 513).

Next, the AC instantaneous interruption detection address is incremented by one, and the position of the address pointer is set to the AC instantaneous interruption counter address (step 514). Then, the content of the address for the AC instantaneous interruption counter, that is, the number of AC instantaneous interruptions, is read, converted into a dot signal in the font memory 7, and this dot signal is output to the CRT display 22 (step 5).
15). In this way, A is displayed on the CRT display 22.
C Displays the number of instantaneous interruptions.

Further, the AC instantaneous interruption counter address is decremented by one, the address pointer position is set to the AC instantaneous interruption detection address, and the address pointer position is initialized (step 516).

According to the above explanation, according to this embodiment, AC instantaneous interruption or D
By storing instantaneous interruption information for each instantaneous interruption, it becomes easier to find the cause of the malfunction.

Furthermore, by simultaneously storing the number of writes to the NVRAM 8, the user service can be further improved by knowing the date and time when the NVRAM 8 should be replaced or the total number of instantaneous interruptions.

Next, second to tenth embodiments will be described below as other embodiments.

Second Embodiment> The second embodiment is not limited to the configuration and processing of writing the output of the AC instantaneous interruption detection circuit 5 to the NVRAM 8 via the CPU 2 according to the first embodiment; By configuring only a hardware circuit without any intermediary, a configuration that operates at 4.5V becomes easy, resulting in a simple configuration that does not require a related CPU control program.

Third Embodiment> In the third embodiment, the NVRAM 8 is used as in the first embodiment.
However, the present invention is not limited to this, and an EE-FROM, a combination of ordinary CMOS and a battery, or a mechanical latch mechanism may be used.

Example of S4> In the fourth example, a logging FDD device is provided and C
If this information is displayed on the RT display and written as logging information, a history of system malfunctions will remain, which is convenient.

Fifth Embodiment> In the fifth embodiment, the NVRAM 8 is used as in the first embodiment.
If the contents of the NVRAM 8 are not limited to being displayed at the time of system startup after a momentary power outage, but can also be read by a specific command from the keyboard 23, it will be more convenient to investigate malfunctions.

Sixth Embodiment> In the sixth embodiment, the voltage detected by the AC instantaneous interruption detection circuit,
Alternatively, the CPU can arbitrarily set the voltage detected by the DC instantaneous interruption detection circuit.

Seventh Embodiment> In the seventh embodiment, the storage capacity of the NVRAM 8 is increased, and data is written to the NVRAM 8 at the same time.
If day 1.1 and time 1 are also written, detailed instantaneous interruption information within a predetermined period can be obtained.

Eighth Embodiment> In the eighth embodiment, instead of writing and setting "1" indicating error information to the instantaneous interruption detection address of the NVRAM 8, pattern data indicating specific error information is written. This makes it possible to identify write operations to the NVRAM 8 due to malfunctions of the write circuit (print control device).

Ninth Embodiment In the ninth embodiment, the output signal of the AC instantaneous interruption detection circuit 5 or the DC instantaneous interruption detection circuit 9 interrupts the CPL 12, but instantaneous interruption flags are provided for each circuit. teCPL12
A sensing method that senses a momentary interruption flag may also be used.

Tenth Embodiment> In the tenth embodiment, an audible sound may be generated for a predetermined period of time when the AC power source or the system is started up after a momentary interruption of the AC power source. For example, the signal may be issued to the NVRAM 8 when the content of the AC instantaneous interruption detection address is "1" or when the content of the DC instantaneous interruption detection address is "1".

As described above, the second to tenth embodiments are not limited to being implemented alone, and may be implemented as a printing control device that combines a plurality of embodiments at the same time.
Either one of the instantaneous interruption detection circuits may be configured.

Alternatively, the present invention can be applied not only to printing but also to a printing control device of a printing device.

[Effects of the Invention] According to the above explanation, the present invention provides printing control that facilitates the investigation of the cause of malfunctions by storing instantaneous interruption information for each instantaneous interruption of AC power supply or instantaneous interruption of DC power supply. equipment can be provided.

[Brief explanation of the drawing]

FIG. 1 is a schematic configuration diagram showing the configuration of a printing device in which the printing control device of this embodiment is added, and FIG. 2 is a schematic configuration diagram of a printing device using a DC instantaneous interruption detection circuit in the printing control device 1 of FIG. 1. 3 and 3 are schematic configuration diagrams showing the configuration of a printing apparatus equipped with the print control device of this embodiment, and FIGS. 4(a) and (b) explain the operation of this embodiment at the moment of AC momentary interruption. It is a flowchart. In the figure, 1...print control device, 2...CPU, 3...
・ROM, 4...RAM, 5...AC instantaneous interruption detection circuit, 6...page buffer, 7...font memory,
8... NVRAM, 9... DC instantaneous interruption detection circuit, 21
. . . interface cable, 22 . . . CRT display, 23 . . . keyboard, 24 . . . printer. Patent applicant Canon Co., Ltd. Figure 1

Claims (5)

[Claims] (1) A printing control device connected to an external device having at least a display section, comprising a first detection means for detecting a momentary interruption of an AC power supply, and a second detection means for detecting a momentary interruption of at least one DC power supply. means and
A storage means for storing the instantaneous interruption detected by the first or second detection means as instantaneous interruption information, and a display means for displaying the instantaneous interruption information on the display unit when the system is started up after the instantaneous interruption. A printing control device characterized by: (2) The printing control device according to claim 1, wherein the storage means stores momentary interruption information in a nonvolatile RAM. (3) The printing control apparatus according to claim 1, wherein the detecting means includes a counting means for counting the number of times the instantaneous power outage occurs, and the number of occurrences is included in the instantaneous power outage information. (4) The printing control device according to claim 1, wherein the printing control device writes the momentary interruption information into a ROM for system startup after displaying the momentary interruption information. (5) The print control device according to claim 1, wherein the print control device emits an audible sound based on instantaneous interruption information when starting up the system.