JP3159121B2 - Information receiver - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] BACKGROUND OF THE INVENTIONInformation receiving device,
IeTable used for individually selected paging wireless communication system
Selective call receiver with display functionReceiving device likeAbout. [0002] 2. Description of the Related Art In an individually selected paging radio communication system,
Has a memory for storing multiple message information.
Display the received message information on the display
And the received message information
A table that can be stored in memory and redisplayed by a later switch operation
Selective call receiver with indication function is used. This kind of receiving
ShinkiStores the desired message information for a long period of time.
Unconfirmed items that can be retained and message information
There is something to inform. [0003] [Problems to be solved by the invention]The desired
Message information can be retained for a long time
The conventional receiver has a message stored and retained for a long time.
Message or its management information is automatically deleted.
Message information or its management information in a separate memory area
It is configured to memorize the received message information
Including message information stored and retained over a long period of time
It is difficult to display in the order of incoming calls, and
There was a problem that the use efficiency was poor. Also, message information
Conventional receivers that report unconfirmed
It only announces the presence of the
Not an indication of whether the message is unconfirmed
Was. The present invention has been made in view of the above situation.
With a small addition of memory capacity,Message
Whether to notify when displayed, individually and as needed
Can be set repeatedly,Message being displayed
Message information that message information is stored and retained for a long time
InformationWonderWhich informationTo do it effectivelyit can
It is an object to provide an information receiving device. [0005] SUMMARY OF THE INVENTION The present invention receives information.
And a storage area in which a plurality of pieces of information can be stored.
And receiving the new information each time the receiving means receives new information.
Information storage means for storing the information
In response to each stored information,
Identification information indicating whether or not to perform a predetermined notification when displayed
Identification information storage means for storing the
Display to selectively read and display stored information
Means stored in the information storage means by the display means.
When the displayed information is displayed, the identification information storage means
Based on the identification information stored corresponding to the information
Notification means for performing notificationAnd stored in the storage means.
By the predetermined key operation when the information is displayed,
Corresponding to the information stored in the identification information storage means
Identification information rewriting means for rewriting identification informationProvided with
It is. [0006] With the above configuration, the memo
With a little additional capacity,Notify when displaying message
Is set individually and repeatedly as necessary
Can beThe displayed message information is long term
Whether the message information is stored and retained over timeWonder
Which informationEffectivelyInformation receiving device
Can be offered. [0007] BRIEF DESCRIPTION OF THE DRAWINGS FIG.
An embodiment will be described. First, FIG. 1 shows the circuit configuration. 11 is
Antenna, and the message received by antenna 11
The radio wave of the call including the message is sent to the radio unit 12. This radio
The unit 12 performs intermittent reception by driving the decoder unit 13.
Therefore, the received radio wave is amplified and demodulated and sent to the decoder unit 13.
You. In the decoder section 13, the called number is the self-recognized number.
Judge whether it matches the number, and if they match, call detection
The number called with the outgoing signal is your own identification number.
Or the type of call added to the called number
Call type information indicating what was different and call number
And message information received subsequently to the CPU 14.
You. The CPU 14 includes a signal from the decoder unit 13 and a switch.
The operation of other circuits is controlled according to the input signal from the input unit 15.
RO that stores various control programs
M, a timer, an operation register and the like. Switch
The main input section 15 controls the power on / off.
Switch 16, finger sound or release message
Reset switch 17 to protect message information
Protect mode and delete message data.
Delete mode, printout of stored message information
Select a printout mode or other mode
Mode select switch 18, indicating execution of operation in each mode
Execution switch 19, a sequential table of stored message information
Memory bank switch 20, indicating printout
Print mode selection switch to select the print content in mode
21 and a volume switch 22 for adjusting the ringer volume
Connected and sends a signal corresponding to the operation to CPU 14
I do. The CPU 14 includes a clock unit 23 that performs a timekeeping operation,
Connects to RAM 24 for storing message data and control data
The received message information etc. along with the time data
While stored in the RAM 24, the speaker 26
To the LED 28 via the amplifier 27
Each is sent to notify that there is a call. So
Then, the CPU 14 controls the display unit 29 including a liquid crystal display element.
Output display data such as message information to
Also prints on printer 31 connected via external terminal 30
Output data and print out. When the main switch 16 is turned off,
CPU 14, switch input unit 15, clock unit 23 and RAM 24
Power supply to all other circuits is stopped. The display unit 29 is, for example, as shown in FIG.
It becomes a display pattern. In the figure, the display unit 29 displays
・ Display message information by Kana ・ Hiragana ・ Kanji
Enter protection mode in addition to message display section 29a
Mode indicator 29b, Delhi
Delete mode indicator to indicate that you have entered
29c, a notification that enters the printout mode
Lint out mode display 29d, enter time adjustment mode
Time adjustment mode display body 29e that informs you
Some message information is also not displayed,
Notify that there is message information that has not yet been confirmed
Unchecked (not displayed) indicator 29f, displayed message
Page information that the protected message information exists.
Protect message display 29g, power supply battery exhausted
29h, low volume indicator that indicates
Volume indicator that indicates where switch 22 is
29i, No. of displayed message information and its call
No. and call type that display type information
A display unit 29j is provided. With the above message display section 29a
Both the message number and the call type display section 29j
Message display unit 29
a is a full-width character of 12 characters x 2 lines, message No. and call
The delivery type display section 29j can display the same three characters. In the RAM 24, the tube shown in FIG.
Message memo shown in FIG.
24b, bank counter, undisplayed flag counter,
Lashing flag register, mode counter, print mode
Counter, processed flag register, initial state flag register
A resistor or the like is provided. As shown in FIG. 3A, a management data memory
24a stores management data for managing message information.
It is something to memorize. Management data is the message information
Protection flag indicating whether or not the
An undisplayed flag that indicates whether the message has not yet been displayed.
Reset, which instructs to stop sound emission in the middle of sound emission.
A reset flag indicating whether the switch 17 has been operated,
Information indicating the type of delivery, in the message memory 24b.
Bank No. indicating the storage area for message information, when receiving a call
Are configured as one set, and a plurality of sets, for example,
30 sets of management data are stored in the management data memory 21a.
It is stored in the FO system. On the other hand, as shown in FIG.
The memory 24b stores the received message information in the message.
An error indicating which block of the message information had an error.
Multiple sets of page management, for example, 30 sets in combination with color information
It is something to memorize. Here, the signal is received by the antenna 11 and
The configuration of the selective call signal demodulated by the above will be described.
For example, the selection of POCSAG, which is an international standard,
The paging signal is synchronized in bit units called a preamble.
And a batch of one or more N consecutive
Data part. One batch is a synchronous code
Word, followed by eight frames, one frame
A frame consists of two codewords. To codeword
Is the address (ID-number) codeword and message
There are two types of code words, both consisting of 32 bits.
Have been. The address code word is a call number (address)
Less), the first bit becomes “0”
Address bits consisting of 11 bits set and
2 function bits and 11 bits
Priority bits are added. The fan
The action bit is call type information added to the call number.
Yes, this bit is called a multi-address call.
4 types can be distinguished, and 4
Seed sounds and indications (indicated by symbols "A" to "D")
I can do it. On the other hand, the message code word
The first bit is "1"
A message bit consisting of 21 bits set and 1
Consists of one parity bit and has a message
In the case, it is transmitted following the address code word
It is. Next, the operation of the above embodiment will be described.
You. Now, when the main switch 16 is turned on,
The operation signal is sent from the switch input unit 15 to the CPU 14.
Wireless unit 12, decoder unit 13, amplifier 25, speaker 26,
Power supply to amplifier 27, LED 28 and display unit 29 started
And the CPU 14 starts the processing shown in FIG.
Is done. In FIG. 4, first, as shown in step A01,
Initialize each circuit. Here, the display of the display unit 29
The timer inside the CPU 14 and the bank cash in the RAM 24
And the like are initialized. Then, proceed to step A02,
Read the input signal from the switch input unit 15 and reset
Switch 17, mode selection switch 18, execution switch 19,
Memory bank switch 20, print mode selection switch 21 and
And whether any of the volume switches 22 have been operated
I do. Thereafter, it is determined in step A03 whether there is an incoming call.
You. If it is determined that there is not, the process proceeds to step A04.
According to the result of reading the operation switch in step A02
Determine whether the memory bank switch 20 has been operated
You. Here the memory bank switch 20 was not operated
If it is determined, then the mode is set at this time in step A05.
It is determined whether or not the selection switch 18 has been operated. Soshi
Mode switch 18 has not been operated.
If so, the process returns to step A02. That is,
In the normal standby state, an appropriate time interval is set and step A02
To A05 are repeatedly executed. At step A03, it is determined that there is an incoming call.
If so, the process proceeds to step A06 to perform an incoming call process.
This incoming call processing is received by the antenna 11 and restored by the radio unit 12.
Incoming data decoded by the decoder unit 13 after being adjusted
And the date and time measured by the clock unit 23 at that time
Time, for example, repeat calls sent within 60 seconds
After confirming that the data is not the second
Store it in M24. In this case, the incoming data is
When there is call type information and message code word
Message information indicating the message content and its error information
The information is stored. Message information of incoming data and its
Error information is stored in an empty bank of the message memory 24b
However, the call type information and the arrival date and time are
Incoming data stored in the data memory 24a for each bank
Message memory that stores messages after shifting
It is stored in the first bank together with the bank number of 24b. At the same time, the unlisted data of the first bank
Message in the read flag register described later.
The undisplayed flag “1” that is reset when displayed
Is used to control the lighting of the unconfirmed display body 29f.
The count value of the undisplayed flag counter is incremented by “+1”.
You. At this time, the management data memory 24a
If 30 sets of data are stored in the
Are deleted sequentially from the oldest one, but the undisplayed flag and
"1" data and "0" for each protection flag
If the data is mixed with the data of
Data with the event flag “0”, that is, the message information
Information has been verified and is not protected,
Next, the data whose protect flag is “0”,
Message information is unconfirmed but not protected
The shift processing is performed in such a manner that data is erased in the order of data. In this case, out of the 30 sets of data,
Message that can be protected by setting the
The number of page data is defined as, for example, up to 20 sets. Management
30 sets of data are already stored in the data memory 24a.
And protect flags for 20 of them
If “1” is set, the remaining 10 sets of old
Will be shifted in such a way that
You. After the storage in the RAM 24, there is a call.
To drive the speaker 26 via the amplifier 25 to indicate
Start sounding (sound emission). In this case, the ringing sound is
Are different depending on the type information. At the same time
LED 28 blinks via amplifier 27, display part 29 not confirmed
(Not displayed) Lighting of the display 29f, on the message display 29a
The table according to the incoming call, such as the display of the character "There was an incoming call"
Timer that performs the display process and measures this display time.
-Start. Then, the reset switch 17 is operated.
Or display until a predetermined time, for example, "8" seconds have elapsed.
The reset switch 17 is operated or the timer
Time of the specified "8" seconds, the time is up
Then, the display on the display unit 29 and the LED 28 is turned off, and the
The incoming call processing ends. The incoming call processing is performed as described above,
Processing of sound and display is performed, and incoming call to RAM 24
The data is stored. The incoming data stored in the RAM 24
The data is stored in the memory bank switch in step A04 in FIG.
If it is determined that the switch 20 has been operated,
At 07, the reading process is performed. At the time of data reading by the reading process, the memory
Each time the bank switch 20 is operated, incoming data is sequentially
Display the normal mode and temporarily set the memory bank switch 20
Set the mode by operating continuously for 2 seconds or more
Of the incoming data stored in the RAM 24
Search data mode to search and display incoming data of
There is. At the beginning of the process, first, the memory
2-second timer and data
Start 30-second timer to measure data display time
After setting the initial value “1” in the bank counter,
The normal mode follows the count value of the bank counter.
To read the incoming data,
Information and message information of the
Is displayed on the display unit 29. Here, if the message information is not displayed
If the message information is
Of the management data memory specified by the counter value
Flag “1” is set in the non-display flag register of the bank
If so, reset this flag and
First, the count value of the undisplayed flag counter is set to “−1”.
And the message No. displayed on the display unit 29j.
And flush the call type symbol. The displayed message information is an error.
If the message information has
Stored in the message memory 24b corresponding to the
The display digit specified by the error information
The Rukoto. After the data is displayed, a reset instruction to stop the display is given.
Switch 17 or instruct the display of the next incoming data
Memory bank switch 20 is operated, or 30 seconds
Immer, display continues until the 2 second timer expires
Run. If the 30 second timer expires,
Since the display for the predetermined time has been completed, the display is turned off.
If the search mode has been set and
Also turn off the mode setting and end the reading process
You. The reset switch 17 is operated during the display.
The reset switch 17
Turn off the display and search mode
The read setting is turned off, and the reading process ends. When the two-second timer expires,
The memory bank switch 18 is operated continuously for 2 seconds or more,
The search mode setting that is not displayed is instructed.
After setting the search mode,
Update the counter value to "+1", and then
After confirming that the incoming data of
The operation from the above data display is repeated. During the data display, the memory bank switch
Switch 20 is newly turned on, the incoming
Data prompt, so follow this
Reset data search mode and 2 second timer
-After restarting the 30-second timer,
Updates the count value of the bank counter to +1 and sets
Next incoming data according to the count value of
Display incoming data that arrived just before incoming data
Do. As described above, in the normal mode,
Each time the rebank switch 20 is operated,
In the switch mode, only undisplayed incoming data is stored in RAM 24
Can be selected and displayed. The above is a description of the incoming call processing and reading in the normal mode.
The processing is shown in FIG.
The mode selection switch 18 for instructing mode switching is operated.
If it is determined that the operation mode has been
A switch selection process is performed. This mode selection processing is
The count value of the mode counter provided inside the AM24
Update settings. The mode counter is used for normal mode and protection mode.
Mode, delete mode, printout mode,
Quinary count indicating the five mode states of time and time adjustment mode
The normal mode is set when the count value is “0”.
Protect mode with count value “1” and count value “2”
To print out in delete mode, and to print out with a count value of “3”.
Mode and the time adjustment mode with the count value “4”.
, Respectively. Therefore, the mode in the normal mode
The counter value of the counter is "0",
Operate the selection switch 18 once to execute the steps from step A05.
In step A08, when the mode selection process is performed,
Counter value is set to "+1" update.
It becomes "1". Corresponds to the count value of this mode counter
And processing according to the mode selected in the subsequent step A09.
Is performed, and after the processing, the processing from step A02 is performed again.
Is repeated. Now, the processing of steps A02 to A05 is repeated
It is assumed that it is in the reception standby state in the normal mode to be executed.
You. At this time, in the display unit 29, the power capacity is limited.
Power consumption of the selective call receiver with display function
Therefore, as shown in FIG. 5A, all the display bodies 29a to 29i are displayed.
Driving is stopped. In such a state, select the mode selection switch.
When the switch 18 is operated, this is determined in step A05.
Then, the process proceeds to step A08. RAM in step A08
The count value of the mode counter in 24 is changed from “0” to “+”.
"1" is updated and set to "1".
The protection mode shown in FIG. 6 corresponding to the count value "1"
Is performed. In FIG. 6, first, step B01 is shown.
Is set to the minimum time of mode display, "8" seconds.
Set the time of the 8 second counter inside the CPU 14
Let it go. Next, in step B02, the display
Indicate that the mode has shifted to the protect mode.
In this case, the display unit 29 displays a message as shown in FIG.
"Protect mode" is displayed on the message display section 29a
On the other hand, the protect mode display 29b is driven to light up.
You. At the same time, the RA
Stored in the first bank of the management data memory 24a in M24.
Read the call type information of the latest message information
The message No. and the call type display section 29j
Is displayed, for example, as "01C". Thereafter, in step B03, the above-mentioned 8-second timer
Or the time is up, reset switch in step B04
In step B05, it is determined whether or not the switch 17 has been operated.
Whether the switch 18 has been operated or not is determined in step B06.
Switch 19 has been operated, and a message is displayed at step B07.
It is continuously determined whether or not the Molybank switch 20 has been operated.
Refused. Judge as NO in any of these
If so, the process returns to step B03, and thereafter, from step B03 to step B03.
Wait for switch operation input while repeating the process of B07
You. In the above step B03, the 8-second timer expires.
If it is determined that the
Switch operation is not performed for 8 seconds,
If you continue to display this protected mode
Switch operation is not performed, and
Proceed to B08 to reset the contents of the mode counter
Reset processing such as "0" is performed. Accordingly
Is the display also the display state of the protect mode shown in FIG.
5A, the standby in the normal mode shown in FIG.
The state returns to the above state, and this processing ends. In step B04, the reset switch
This reset switch also operates when switch 17 is determined to have been operated.
Switch 17 to release protect mode.
Next, the process proceeds to step B08 in the same manner as
Reset the contents to "0" and display the image accordingly.
From the display state of the protect mode shown in FIG.
Return to the standby state of the normal mode of FIG.
Thus, this processing is completed. In step B05, a mode selection switch
If it is determined that 18 has been operated,
In step B09, the count value of the mode counter
To "+1" update and convert to delete mode
To change the display to the display state shown in FIG.
This is the end of the process. In step B07, the memory bank switch
If it is determined that 20 has been operated, then step
Set the count value of the bank counter to "+1" in B10
After that, the count value updated and set in step B11 becomes RA
Whether the number of incoming data stored in M24 has been exceeded
Judge. If it is determined that the distance has not been exceeded, the next step
Clocking the display time of message information in step B12 3
Set the 0 second timer, start it, and
In step B13, RA is set according to the count value of the bank counter.
Reads incoming data such as corresponding message information from M24
Then, the message is displayed on the message display unit 29a of the display unit 29 or the like. Thereafter, in step B03, the above-mentioned 30 seconds
If it is determined that the timer has expired,
Until it is determined that each switch has been operated in B03 to B07
Continue displaying this message. The buffer updated and set in step B11 is used.
Count value of the link counter is stored in the RAM 24.
If it is determined that the number of incoming data has been exceeded,
To step B14, where the initial value is again stored in the bank counter.
After setting "1", the process proceeds to step B12. The operation of the memory bank switch 20 is performed as described above.
Selected message information you want to protect and display
After that, an execution switch instructing execution of the data protection process
When switch 19 is operated, this is detected in step B06.
Proceed to step B15, and the current bank counter
Protection flag in the bank of the management data memory 24a
Whether “1” is set, that is, the current display
Messages whose messages are already protected
It is determined whether or not it is. In step B15, it is determined that it has not been set
Then, the process proceeds to step B16. In step B16
Indicates whether the specified message information can be protected
That is, the management data memory 24a of the RAM 24
If the number of protect flags set in
Is determined. When it is determined that protection is possible
Then proceeds to step B17, where the relevant message information
After setting the information protection flag "1",
Set an 8-second timer with B18 and start it at the same time
Then, in step B19, the display unit 29 is displayed as a protection completion display.
For example, in the message display section 29a of "The message has been protected." Is displayed. Thereafter, the processing from step B03
Until the 8 second timer expires.
Continue to display protect completion. In step B16, the protection is not successful.
Possible, ie already 20 sets of message information
If it is determined that the
Proceed to step B20 and set the 8 second timer again.
At the same time as starting, protection is not possible in step B21
As a display, for example, the message display unit 29a of the display unit 29 "Protection capacity is full." Is displayed. Thereafter, the processing from step B03
Until the 8 second timer expires.
Continues the non-protectable display. On the other hand, in step B15, the protect flag is set.
If it is determined that “1” is set,
Proceed to step B22, reset the protect flag,
Set an 8-second timer in step B23 and start
At the same time, in step B24, a
To the message display section 29a of the display section 29 "Protection has been removed." Is displayed. This protection release processing
Inadvertently protect messages that do not need to be protected
Protection or not possible in step B16
This is performed when it is determined that the
After starting the protection release completion display in step B24
Returning to step B03, the 8-second timer times out
Or switch operation detected from step B04 to step B07
Until this is done, the display of completion of protection cancellation is continued. Next, as shown in step B09, the program
Operate the mode selection switch 18 from the protect mode to
Update the count value of the code counter to "2",
Delete mode processing after switching to delete mode
This will be described with reference to FIG. In FIG. 7, first, at step C01,
Is set to the minimum time of mode display, "8" seconds.
Set the time of the 8 second counter inside the CPU 14
Let it go. Next, at step C02, the data is displayed on the display unit 29.
Indicate that the mode has shifted to the REIT mode. This
In the case of, the display unit 29 displays a message as shown in FIG.
"Delete mode" is displayed on the message display section 29a.
On the other hand, the delete mode display 29c is driven for lighting. Ma
At the same time, the contents of the bank
Stored in the corresponding bank of the management data memory 24a.
Read the call type information of the message information
For example, “0” is displayed in the message No. and the call type display section 29j.
1C ". Thereafter, in step C03, the above-mentioned 8-second timer
Or the time is up, reset switch in step C04
In step C05, it is determined whether or not the switch 17 has been operated.
Whether the switch 18 has been operated or not is determined in step C06.
Switch 19 has been operated, and a message is displayed at step C07.
It is continuously determined whether or not the Molybank switch 20 has been operated.
Refused. Judge as NO in any of these
If so, the process returns to step C03, and thereafter, from step C03 to step C03.
Wait for switch operation input while repeating the process of C07
You. At step C03, the 8-second timer is set to the time.
If it is determined that the
Switch operation is not performed for 8 seconds.
If you continue to display the delete mode,
Switch C is determined not to be performed, and then step C08
To reset the contents of the mode counter to "0"
A mode reset process, such as performing, is performed. Table accordingly
The arrow is also changed from the display state of the delete mode shown in FIG.
As shown by the mark TU, the standby state in the normal mode shown in FIG.
And the process ends. In step C04, the reset switch
This reset switch also operates when switch 17 is determined to have been operated.
Switch 17 to cancel the delete mode
Next, the process proceeds to step C08 in the same manner as
The contents are reset to "0", and the display is accordingly changed as shown in FIG.
From the display mode of the delete mode shown in (C) to the arrow TU
Returning to the normal mode standby state of FIG.
This is the end of the process. In step C05, a mode selection switch
If it is determined that 18 has been operated,
In step C09, the count value of the mode counter
To +1 and set the mode to printout mode.
5D conversion to bring the display to the display state shown in FIG.
After that, this processing ends. In step C07, the memory bank switch
If it is determined that 20 has been operated, then step
Processed flag register for display control in RAM 24 at C10
It is determined whether or not the flag "1" is set in the. If it is determined that the setting has been made,
Incoming data has already been deleted before
Therefore, the process proceeds to step C11, and the RAM 24
Of incoming data stored in the management data memory 24a
Data processing, and the stored incoming data
Data number is set to "-1" and the processed flag
Reset to "0". In step C10, the processed flag "1"
If it is determined that is not set, step C12
To update the count value of the bank counter to "+1".
Specify. Processing of Step C11 or Step C12
Thereafter, the count value of the bank counter is stored in the RAM 24.
It is determined whether or not the number of incoming data has not been exceeded.
If it is determined that the value has not been exceeded, proceed to step C14.
30-second timer that measures the display time of message information
At the same time as starting
Corresponds from RAM 24 according to the count value of the bank counter
Incoming data such as message information to be read
Is displayed on the message display section 29a or the like. Thereafter, at step C03, the above 30 seconds
If it is determined that the timer has expired,
Until it is determined that each switch has been operated in C03 to C07
Continue displaying this message. In step C13, the update setting is made.
The count value of the bank counter is stored in the RAM 24.
If it is determined that the number of incoming data
To step C16 and initialize the bank counter again
After setting the value "1", the process proceeds to step C14. By operating the memory bank switch 20 as described above,
Select and display the message information you want to create and delete.
Execution switch that instructs execution of delete processing
By operating 19, this is determined in step C06, and then
Proceed to step C17. In step C17, the RAM
24 management data memory 24a and message memory 24b
Specified message information and other corresponding data
Is erased. After that, in step C18,
After setting the flag “1”, 30 seconds are set in step C19.
Set and start the immer and step
Message table on display 29 as delete complete indication at C20
For example, in the indicating portion 29a "The message has been deleted." Is displayed. Thereafter, the processing from step B03
Until the 30-second timer expires.
Continue the delete completion display. Next, as shown in step C09,
Operate the mode selection switch 18 from the delete mode to
Update the count value of the code counter to "3",
Printout after switching to printout mode
The mode processing will be described with reference to FIG. At this time,
The printer 31 is securely connected to the child 30. In FIG. 8, first, step D01 is shown.
Like partial print mode, protected statement print mode, full text
Print mode and partial print mode from the three print modes
Code, that is, only the displayed message data
Set the print mode for printing. Together with RAM24
Flag "1" in the initial state flag register
Set. This initial state flag register stores
Select a printout mode from within the print mode.
This is for limiting only to the initially set time. That
Then, at step D02, the time of the 8 second counter inside the CPU 14 is counted.
Set and start. Next, in step D03
The mode changes to the printout mode in the display unit 29.
Display that In this case, in the display unit 29, FIG.
As shown in (D), "Print" is displayed on the message display section 29a.
"Out mode" characters, "parts" and "protected sentences"
Displays each of the three print mode characters "Full text"
Show. In this case, "partial printing" is set as the print mode.
Initially, only the "part" characters are highlighted.
Shall be. In addition, the printout mode
Drive the display body 29d. In addition, bank counter
Of the management data memory 24a in the RAM 24 according to the contents of
Call type of message information stored in the bank
Reads the information and displays it as message No. and call type table
For example, “01C” is displayed on the display unit 29j. Thereafter, at step D04, the above-mentioned 8-second timer
Or the time is up, reset switch in step D05
In step D06, it is determined whether or not switch 17 has been operated.
In step D07, the print mode is checked whether switch 18 has been operated.
In step D08, it is determined whether or not the
Whether the execution switch 19 has been operated, and
It is continuously determined whether or not the memory bank switch 20 has been operated in D09.
It is judged continuously. NO in any of these
Return to step D04, and then go to step D04.
Switch operation input while repeating the processing of steps D04 to D09
To wait. In the above step D04, the 8 second timer expires.
If the printout mode is
The switch operation in the mode is not performed for 8 seconds.
Even if you continue to display this printout mode,
Switch operation is not performed, and
Go to D10 and reset the contents of the mode counter
Reset processing such as "0" is performed. Accordingly
The display is shown in the printout mode shown in Fig. 5 (D).
From the state, the normal mode shown in FIG.
The process returns to the standby state, and the process ends. In step D05, the reset switch
This reset switch also operates when switch 17 is determined to have been operated.
Switch 17 to cancel printout mode.
Next, the process proceeds to step D10 in the same manner as
Reset the contents of the counter to "0" and display
Also shows the display state of the printout mode shown in FIG.
From the normal mode shown in FIG.
Then, the process returns to the machine state, and the process ends. In step C06, a mode selection switch
If it is determined that 18 has been operated,
In step C11, the count value of the mode counter
Is updated to “+1” and the mode is changed to the time adjustment mode
And the display is changed to the state shown in FIG.
End the process. At step C07, the print mode selection switch
If it is determined that switch 21 is being operated, then
Flag in the initial state flag register of RAM 24 in step C12
It is determined whether "1" is set. If it is determined that the setting has not been made,
After the flag "1" is set in step D01, the execution
Switch 19 or memory bank switch 20 is operated
Operation of the print mode selection switch 21 is invalidated.
And returns to the processing from step D04 described above.
If it is determined that the printing has been performed, then printing is performed in step D13.
Update the count value of the mode counter, and
Protected text print mode to protected text print mode
Mode to full-text print mode or full-text print mode
From the printer to the partial print mode.
The message in the message display area 29a is highlighted.
Let Thereafter, the process proceeds to step D14, where the switching
30 seconds to continue the display of the
Set the marker and start.
To processing. Select specific message data and print
When operating the memory bank switch 20,
Is determined in step D09, and then to step D15.
You. In step D15, the print mode counter
To determine whether the current print mode is the partial print mode.
Refused. Here, it is determined that the mode is not the partial print mode.
The operation of the memory bank switch 20 is invalid.
And returns to the processing from step D04 again,
If it is determined that the mode is selected, the process proceeds to step D16.
Only when the mode selection switch 18 is pressed.
Update the counter value to "+1"
Reset the initial state flag register. Next, in step D17, the update setting
The count value of the specified bank counter is stored in RAM24.
It is determined whether the number of incoming data exceeds the number of incoming data.
If it is determined that the time has not exceeded, the next step D18 is 30
Set the second timer and start it.
In step D19, the RAM is read according to the count value of the bank counter.
Reads incoming data such as corresponding message information from 24
Then, the message is displayed on the message display unit 29a of the display unit 29 or the like. Thereafter, at step D04, the above-mentioned 30 seconds
If it is determined that the timer has expired,
Until it is determined that each switch has been operated in D04 to D09
Continue displaying this message. In step D17, the bank counter
Incoming data whose count value is stored in RAM 24
If it is determined that the number of
At D20, the initial value “1” is stored in the bank counter again.
Then, the process proceeds to Step D18. Then, the user is actually instructed to execute printing.
When the row switch 19 is operated, the operation input
In step D08, it is determined that the execution switch 19 is on, and then
Proceed to step D21. In step D21, the menu on the display unit 29 is displayed.
A sentence indicating that the message is being printed on the message display section 29a.
Characters, for example, "Printing." Then
In step D23, the value of the bank counter at that time is temporarily
After writing down the internal register of CPU 14 for evacuation,
Proceeding to step D24, print processing is executed. FIG. 9 shows the details of this printing process.
Chin. In the figure, first, printing is performed in step E01.
It is determined whether the mode is the partial print mode. part
If the mode is the print mode, the process proceeds to step E02, and
Only the message data displayed in step D19 of Fig. 8
Is printed out by the printer 31. That is, the printout data is
Message No. (bank No.), call type information, non-display flag
Presence / absence, presence / absence of protection flag,
Information. It should be noted that the message information contains a message having an error.
Message information, the corresponding error information
The part is printed in black and white inverted as in the case of display.
It is. This is the end of this subroutine processing. In step E01, the print mode is set to the partial mark.
If it is determined that the mode is not the printing mode, then step E
In 03, it is determined whether or not the mode is the protected statement print mode.
If the print mode is the protect statement print mode, then step E
Proceed to 04, where the new value is initially set to "1" in the bank counter
Is set, the processing after step E05 is performed. At Step E05, the bank counter
Of the management data memory 24a in the RAM 24 in accordance with the
The protect flag “1” is set in the corresponding bank
It is determined whether or not. If set, this
That the message data is a protected message
In step E06, the message “Protect message
After printing the characters "Sage", this message data
Etc. are printed out by the printer 31 as in the step E02.
And the message number and call type of the display unit 29
No. of the message data currently being printed is displayed on the display unit 29j.
That is, the count value of the bank counter and its message
The data call type information is displayed. At step E05, the message data
The corresponding protect flag "1" is not set
The message data is a protected message.
Therefore, the processing in step E06 is not performed.
I don't know. Then, at step E08, the bank counter
After updating the event value to “+1”, in step E08
The updated count value is stored in the RAM 24
It is determined whether or not the number of incoming data has been exceeded. If it is determined that they have not exceeded,
Then, the process returns to step E05. Thus, steps E05 to E
By repeating the process of 08, it is stored in RAM24.
Message data in the order of their bank numbers.
Search, and those with the protection flag set are sequentially backed up.
The printout is performed together with the link No. display. Messages with the protect flag set
Print data has been completely printed, and
The update setting of the counter advances and the count value is stored in the RAM 24.
When the number of stored incoming data is exceeded, this
It was judged at E09, and was finally evacuated at step E09
After resetting the count value of the bank counter,
Ends the subroutine. Further, the print mode is set in step E03.
If it is determined that the mode is not the protect statement print mode,
Since the printing mode will be the full text printing mode,
Proceed to step E10, where the bank counter is newly
After setting the period value “1”, the processing after step E11 is performed.
Now. In step E11, "all messages" are first
After printing the characters, follow the count value of the bank counter.
Message data from the RAM 24
Message data etc. by printer 31 as in step E02.
Lint out, and the message No.
And the call counter display value in the call type display section 29j
And call type information. Thereafter, at step E12, the bank counter
After updating the count value to "+1", the process proceeds to step E13.
The updated count value is stored in the RAM 24.
It is determined whether the number of message data exceeds. If it is determined that it has not exceeded,
Then, the process returns to step E11. Thus, steps E11 to E
Repeatedly execute the processing of 13 to store it in RAM 24
Message data in the order of the bank numbers.
All of them are printed out with the bank number displayed.
To go. Printing of stored message data
Out is completed and the count value of the bank counter is
When the number of data stored in the RAM 24 is exceeded,
Judgment at step E13, and finally evacuation at step E14
After resetting the count value of the bank counter
This subroutine is ended above. Printing according to the print mode as described above
After executing the processing, as shown in step D25 of FIG.
Set the 0 second timer and start. And continued
In step D26, the data stored in step D23 is stored.
Message corresponding to bank No., ie, print processing
Display an initial message when entering
Then, the process returns to step D04. In the printout mode,
When the mode selection switch 18 is operated, the operation proceeds to step D11.
Mode is switched to printout mode
From the time adjustment mode.
The operation is simply the adjustment of the current time data measured by the clock unit 23.
It is not relevant to the present invention, so its explanation is omitted.
Only the display state of the display unit 29 is shown in FIG. In the time adjustment mode, the mode selection
Operate the selector switch 18 to switch from the time adjustment mode to the normal mode.
However, in the normal mode at this time, as shown in FIG.
As shown in the message display section 29a of the display section 29
The message of the bank being set is displayed. This display
The state is the display state at the time of the reading process in step A07 of FIG.
It is the same as the state. Mode in this normal mode
When the selection switch 18 is operated, the protection is switched as shown in FIG.
Switch to the project mode. The mode switching is performed in steps
This is also possible during the reading process of A07.
The mode is switched from the normal mode shown in FIG.
Is the same as [0097] As described in detail above, according to the present invention,
Corresponding to each information stored in the information storage means,
Each time the information is displayed, whether or not to give a predetermined notification
Storage means for storing identification information to be represented;
When displaying the information stored in the column, the identification information
Identification information stored in the storage means corresponding to the information
Notifying means for notifying based on informationAnd stored in the storage means.
Key operation when the displayed information is displayed
The information stored in the identification information storage means.
Information rewriting means for rewriting identification information corresponding toAnd
Because it was provided, added a little memory capacity
WhileNotify when displaying a message
Can be set individually and repeatedly as necessary.
Can do this,Displayed message information for a long time
Is the message information stored and retainedWonderWhich news
KnowEffectivelyHighly convenient information receiving device
Can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a circuit configuration according to an embodiment of the present invention. FIG. 2 is an exemplary view showing a display pattern configuration of a display unit according to the embodiment. FIG. 3 is an exemplary view showing a configuration of a management data memory and a message memory in a RAM according to the embodiment; FIG. 4 is an exemplary flowchart showing the entire processing content according to the embodiment; FIG. 5 is an exemplary view showing display contents in each operation mode according to the embodiment; FIG. 6 is an exemplary flowchart showing processing contents in a protect mode according to the embodiment; FIG. 7 is an exemplary flowchart showing processing contents in a delete mode according to the embodiment; FIG. 8 is an exemplary flowchart showing processing contents in a printout mode according to the embodiment; FIG. 9 is a flowchart illustrating a subroutine process of the printing process in FIG. 8; [Description of References] 11: Antenna, 12: Radio section, 13: Decoder section, 14: CP
U, 15: Switch input unit, 16: Main switch, 17: Reset switch, 18: Mode selection switch, 19: Execution switch, 20: Memory bank switch, 21: Print mode selection switch, 22: Volume switch, 23: Clock Department, 24 ... RA
M, 24a: management data memory, 24b: message memory, 25, 27: amplifier, 26: speaker, 28: LED, 29 ...
Display, 29a: Message display, 29b: Protect mode display, 29c: Delete mode display, 29d: Printout mode display, 29e: Time adjustment mode display, 29f: Unconfirmed (not displayed) display, 29g ... Protected message display, 29h ... Voltage drop display, 29i ... Volume display, 29j ... Message No. and call type display
30 ... external terminal, 31 ... printer.

Claims (1)

(57) [Claims] Receiving means for receiving information; information storing means having a storage area capable of storing a plurality of pieces of information; storing information received each time the receiving means receives new information; and storing the information in the information storing means. Corresponding to each information that has been
Identification information storage means for storing identification information indicating whether or not to perform a predetermined notification when the information is displayed; display means for selectively reading and displaying information stored in the information storage means; , when to display the information stored in said information storage means by the display means, and notification means for performing notification on the basis of the identification information stored in correspondence with the information to the identification information storage unit, the When the information stored in the storage means is displayed
Stored in the identification information storage means by a predetermined key operation of
Of rewriting the identification information corresponding to the
An information receiving apparatus comprising: another information rewriting means .