JPH06245281A - Display device for battery service life - Google Patents

Abstract

PURPOSE:To allow the user to recognize to what degree a battery is available more and to replace the battery at a proper time by coding voltage information of the battery built in a remote control section, sending the code and displaying the voltage information on a system main body section. CONSTITUTION:The display device is provided with a system main body section 2 being a receiver side, a battery 11 as an independent power supply, and a remote control section 1 commanding the operation to the system main body section 2. Then the remote control section 1 is provided with a key operation section 15 coding voltage information of the battery 11 and sends coded voltage information to the system main body section 2 from a transmission section 14 of the remote control section 1 and the information is displayed on a voltage display section 23. That is, the voltage information of the battery 11 is set such as 'voltage 1'-'voltage 5' corresponding to each prescribed level and transmission code data corresponding to each operation key are sent by depressing any of operation keys 15A-15F of the key operation section 15.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote control unit such as a remote commander, a wireless microphone, or an IC.
The present invention relates to a battery life display device suitable for use in various electronic devices that use a battery such as a memory card. The present invention relates to a battery life display device capable of predicting the remaining usable time of a battery by displaying information on the battery voltage on a system main body side.

[0002]

2. Description of the Related Art Conventionally, in a remote commander, L
A battery life display function by an ED or the like is provided. However, this conventional battery life display function is usually performed by one LE.
Since the display format is D, it is difficult to predict how much battery life will be left with only one display.

In addition, there is no wireless microphone or the like having a battery life display function in the microphone itself. Similarly, an IC memory card with a built-in lithium battery does not have a battery life display function on the card itself.

[0004]

SUMMARY OF THE INVENTION The present invention solves these inconveniences in the conventional battery life display device and displays the battery voltage so that it can be used easily and accurately. It is an object of the present invention to provide a battery life display device that can be predicted so that the battery can be replaced at an appropriate time.

[0005]

According to the present invention, firstly,
A system main body on the receiving side, a remote operation unit having a battery as an independent power source, and commanding an operation to the system main body, and an operation command from the remote operation unit to the system main body In an electronic system that transmits a message and performs an operation by receiving the operation command in the system main body,
The remote control unit includes coding means for detecting and coding the voltage information of the battery, and transmitting means for transmitting the coded voltage information generated by the coding means.
The system body is provided with voltage information display means for displaying the voltage information of the battery, and the voltage information of the battery is coded and transmitted from the remote control unit, and the voltage information is displayed on the voltage information display means of the system body. Is configured to display.

Secondly, the system main body on the receiving side,
It has a battery as an independent power source, and has a wireless microphone that sends operation commands and audio signals to the system body, and operation commands and audio signals from the wireless microphone to the system body. In an electronic system that transmits, and receives and outputs the operation command, the audio signal, etc. in the system main body part, to the wireless microphone,
Coding means for detecting and coding the voltage information of the battery, and transmission means for transmitting the coded voltage information generated by the coding means, the voltage information of the battery in the system body The wireless microphone is configured to include voltage information display means for displaying, voltage information of the battery is coded and transmitted, and the voltage information is displayed on the voltage information display means of the system body.

Thirdly, the system main body portion on the transmission side,
A wireless speaker having a battery as an independent power source and receiving and outputting a signal transmitted from the system main body section, and outputting a signal transmitted from the system main body section as an audio signal from the wireless speaker In the electronic system to
Coding means for detecting and coding the voltage information of the battery and transmission means for transmitting the coding voltage information generated by the coding means are provided, and the coding voltage information is sent to the system main body. The wireless speaker comprises voltage receiving means and voltage information displaying means for displaying the voltage information of the battery, and the voltage information of the battery is encoded and transmitted from the wireless speaker, and the voltage information is displayed on the voltage information displaying means of the system body. Is displayed.

Fourthly, it has an information storage means such as an IC card which has a battery as an independent power source and stores information such as characters and symbols, and a display section, and stores information in the information storage means. In an electronic system comprising a small computer unit for recording / reproducing / erasing, etc., and a connecting unit such as a cable connecting the small computer unit and the information storing unit, the information storing unit is provided with a voltage of the battery. Coded voltage information output means for detecting information, coding it, and outputting voltage information is provided, and the voltage information of the battery is displayed on the display section of the small computer section.

[0009]

In the case of a remote commander or a wireless microphone, it is difficult to display the battery life on these devices by a bar graph or the like due to design restrictions. By displaying
It is possible to display clearly. That is, according to the present invention, a remote controller with a built-in battery as an independent power source
Regarding the remote control unit such as a commander, the battery voltage information is displayed so that the battery voltage information can be detected by the main body unit installed at a remote place.

By displaying a bar graph or the voltage value itself as the display method, it is possible to immediately know how long the battery can be used. For example,
When operating the remote commander, the user usually
Since the operation is performed while looking at the main body, it is possible to know that the life of the battery has decreased by displaying such voltage information.

[0011]

Embodiment 1 The battery life display device of the present invention will be described in detail with reference to the drawings. This embodiment mainly corresponds to the invention of claim 1, but is also related to the inventions of claims 2 to 4.

FIG. 1 is a functional block diagram showing an embodiment of the main configuration of an electronic system to which the battery life display device of the present invention is added. In the figure, 1 is a remote operation unit such as a remote commander, 11 is a battery, and 12 is a battery.
Is an A / D converter with a built-in constant voltage circuit, 13 is a microcomputer of a remote control unit, 13A is its CPU, 13
B is a ROM, 13C is a RAM, 13D is a clock oscillator, 14 is a transmission unit, 15 is a key operation unit, and 15A to 15
F is each contact of the key switch, 2 is a receiving side system main body, 21 is a receiving part, 22 is a microcomputer of the main body, 22A is its CPU, 22B is ROM, 22C is RAM, 22D is a clock oscillator, 23 Is a voltage display unit, F is full, E is an empty display position, 24A to 2
4F shows LED.

In FIG. 1, a battery 11 as a power source is provided on the transmission side shown on the left side, that is, a remote operation section 1 such as a remote commander, and a system main body section 2 on the right side is provided. Is provided with a power supply unit (not shown), and a voltage (for example, VCC) is supplied from this power supply unit to each block of the system main body 2. The key operation unit 15 provided in the remote operation unit 1 such as a remote commander is
For example, in the case of a VTR device, operation buttons such as "play" and "stop" are provided, and contacts 15A to 15F constituting a key scan type intersection switch are arranged corresponding to each operation button. There is.

Next, with respect to the remote operation section 1, a key group of the key operation section 15 and transmission data by each key will be described. Here, the operation key group of the key operation unit 15 is 6
If it is composed of individual pieces, that is, the operation key "a",
It is assumed that there are six keys in total, "a", "u", "d", "o", and "ka". The number of operation keys is 6
The number is not limited to one, and a required number can be provided.

Each of these operation keys "A"-
Each contact 1 of the key switch of the key operation unit 15
5A to 15F correspond to each other. In addition, the voltage information of the battery 11 of the remote control unit 1 is set in advance such as "voltage 1" to "voltage 5" corresponding to each level (details will be described later with reference to FIG. 3). To).

FIG. 2 is a time chart showing an example of transmission code data used in the battery life display device of the present invention. In the waveform of the figure, a to f are key operation parts 1
5, each type of key, voltage 1 to voltage 5 indicates voltage information,
The time width of the start bit of T ₀ , T _{1 to} T ₄ indicate the time of the bit of each code.

In the battery life display device of the present invention, when any operation key "A" to "K" of the key operation unit 15 is pressed, "A" to "K" shown in FIG. The transmission code data of “” is transmitted. Each transmission code data is
Each of them is composed of a start bit of a time width T ₀ that is generated first, and a pulse of a binary code following the start bit.

In the case of FIG. 2, since 11 kinds of code data are required, 4-bit data is used, and after the start bit T ₀ , during the time T _{1 to} T ₄ ,
4-bit data changed by "H" or "L" is added and coded. For example, the code data of the operation key "A" is "0000", and the code data of "A" is "100".
The code data of “0” and “U” is “0100”, the code data of “D” is “1100”, the code data of “O” is “0010”, and the code data of “F” is “1010”.

Similarly, the voltage information of the battery 11 is "0110" for code data of "voltage 1" and "1" for "voltage 2".
110 "," voltage 3 "are" 0001 "," voltage 4 "is" 1011 ", and" voltage 5 "is" 0101 ". In this way, the transmission code data is converted into the start bit T ₀ ,
It is encoded as 4-bit data that follows,
Corresponding code data is transmitted from the transmission unit 14 of the remote control unit 1 of FIG. 1 to the system body unit 2 on the reception side.

Next, a case of a dry battery will be described as an example of voltage information. FIG. 3 shows that two 1.
The voltage curve at the time of connecting 5V dry cell in series is shown.
The horizontal axis of the figure shows time, the vertical axis shows the voltage of the dry cell on the left side, and the voltage level on the right side.

As shown in FIG. 3, in the case of a 1.5V dry battery, the final voltage is about 0.9V, so two 1.
In the case of a 5V dry battery, it is 0.9 * 2 = 1.8V.
Therefore, the maximum 3V to around 1.8V is divided into 5 equal parts, and the voltage code shown in FIG. 2 above, that is, “voltage 1” to “voltage 5” is divided into the left and right vertical axes of FIG. Set as shown in.

Specifically, the code data of "0110" is set with 2.8 V or more as "voltage 1". next,
Below that 2.8V to 2.6V or more is set as "voltage 2", "1110" of the voltage code data is assigned, and similarly, below 2.6V to 2.4V or more is set to "voltage 3". Below 2.4 V to 2.2 V or more is "voltage 4",
Further, the voltage below 2.2 V is set as "voltage 5", and "0101" of the voltage code data in FIG. 2 is assigned.

In this way, the voltage code data shown in FIG. 2 is determined. Then, the battery 11 of the remote control unit 1
When the voltage of, for example, becomes 2.8 V, the code data of “voltage 1” is transmitted, and when it becomes of 2.6 V, the code data of “voltage 2” is transmitted.

The above is a description of the configuration of the remote control unit 1 side in the battery life display device of the present invention and the transmission code data used. The system main unit 2 on the receiving side has a voltage display unit 23 and six operation keys “A” on the remote operation unit 1 side.
~ Six LEDs 24A to 24 corresponding to "F" respectively
F and are provided.

The voltage display unit 23 is one display screen in FIG. 1 described above, and is, for example, at the corresponding position between the full F and the empty E, like the display of the present amount of gasoline of the automobile. , Shows the case where the voltage of the analysis result is displayed. It should be noted that, in some systems such as high-end models, in which a display unit is provided, the display unit can be used, and in that case, the separate voltage display unit 23 is not particularly necessary. The six LEDs 24A to 24F correspond to the contacts 15A to 15F of the key switch provided in the key operation unit 15 of the remote operation unit 1, respectively.

In this embodiment, the operation key "A" of the key operation unit 15 corresponds to the contact 15A, the operation key "A" corresponds to the contact 15B, ..., and the operation key "F" corresponds to the contact 15F. is doing. Therefore, when the receiving side receives the transmission code data “a” shown in FIG. 3, the LED 24A is turned on, the LED 24B is turned on when the data “a” is received, and the LED 24F is turned on when the data “f” is received. It is lit.

The above is the outline of the configuration of the system body 2 on the receiving side, the voltage display, and the lighting operation of the LEDs 24A to 24F corresponding to the operation command in the battery life display device of the present invention. Next, the operation of the battery life display device of the present invention will be described.

In this embodiment, the voltage information is transmitted each time any operation key is pressed in the key operation unit 15 of the remote operation unit 1, and the voltage information is originally assigned to each operation key. Before performing the function, the voltage information is first transmitted. When the user presses an arbitrary operation key, for example, the key "A", the contact 15A of the corresponding key switch is operated, and an output signal is generated and transmitted to the microcomputer 13.

With this signal, the microcomputer 13 detects that the operation key "A" has been pressed in the interrupt flow, and the clock oscillator 13D in the microcomputer 13 starts oscillating. Microcomputer 13
First detects the voltage of the battery 11 input to the A / D converter 12 with a built-in constant voltage circuit, and as shown in FIG. 3, code data of a predetermined voltage (“voltage 1” to
The data corresponding to “voltage 5” is converted to the transmission unit 14
Is transmitted to the system main body section 2 on the receiving side via.

The A / D converter 12 with a built-in constant voltage circuit does not change the output A / D converted by the internal constant voltage circuit even if the voltage (VDD) of the battery 11 changes. Next, the microcomputer 13 outputs the original transmission purpose code, that is, the code data of “A” assigned to the operation key “A” (start bit of FIG. 3 and 4-bit data of “0000”). Send.

In the system body 2 on the receiving side, the receiving unit 2
1 receives the transmitted code data, the microcomputer 22 of the main body unit analyzes the voltage data received first and transmits the analysis result data to the voltage display unit 23. The microcomputer 22 similarly analyzes the code data sent after the voltage information, that is, the original transmission code data of the operation key "A", and the six LEDs 24A to 2A2 according to the analysis result data.
The corresponding LED in 4F is selected and turned on.

When the operation key "A" is pressed as in the previous example, the contact 15A corresponding to the operation key "A" is activated and the transmission code data of "A" in FIG. 3 is received. It
As a result, the output of the LED 24A corresponding to this data becomes "L", the LED 24A is turned on, and the actually instructed operation command is displayed.

Such an operation is performed while the operation key "A" is being pressed on the transmission side (contact 15A of the key switch).
Is turned on), the sequence is repeated. Therefore,
The voltage information of the remote control unit 1 having an independent power source is displayed on the voltage display unit 23 of the system body unit 2 on the receiving side. Next, the operation on the transmitting side is shown by a flow.

FIG. 4 is a flow chart showing the main processing flow when the operation key is pressed on the remote operation unit 1 side in the battery life display device of the present invention. In the figure, S
1 to S11 indicate steps.

At step S1, in the remote control unit 1,
It waits until one key on the key operation unit 15 is pressed. When the microcomputer 13 knows from the interruption that the key has been pressed, it oscillates the clock oscillator 13D to start the operation and compares the voltage input to the A / D converter 12.

In step S2, it is determined whether the voltage input to the A / D converter 12 is 2.8 V or higher.
If it is 2.8V or more, the process proceeds to the next step S3, and the code of voltage 1 is transmitted. Further, as a result of the determination made in step S2, the voltage input to the A / D converter 12 is 2.8.
If it is not V or more, the process proceeds to step S4.

In step S4, it is determined whether or not the voltage is 2.6 V or higher. If the voltage is 2.6 V or higher, the process proceeds to the next step S5 and the voltage 2 code is transmitted. Step S4
As a result of the judgment in step S6, if the voltage is not more than 2.6V, the process proceeds to step S6.

In step S6, it is determined whether or not the voltage is 2.4 V or more. If it is 2.4 V or more, the process proceeds to the next step S7 and the code of voltage 3 is transmitted. Step S6
If the result of judgment in step 4 is not 2.4 V or higher, the operation proceeds to step S8.

Similarly, in step S8, the voltage is 2.2V.
If it is 2.2 V or higher, the process proceeds to the next step S9, the code of voltage 4 is transmitted, and the process proceeds to step S11. As a result of the determination in step S8,2.
If it is not more than 2V, the process proceeds to step S10 and the voltage of 5
Send the code.

If the result of determination in step S8 is not more than 2.2 V, the code of voltage 5 is transmitted in step S10, and the process proceeds to the next step S11. Step S11
Then, the code originally assigned to the operation key (each contact 15
(Code data corresponding to A to 15F) is transmitted.

The above steps S1 to S11 are repeated while one key on the key operation unit 15 is being pressed. In the system body 2 on the receiving side, the transmitted code data is analyzed, and the voltage information is displayed on the voltage display 23 and the operation command which is the original purpose, that is,
In the case of the code data of the operation keys “A” to “F”, the corresponding LEDs 24A to 24F are respectively turned on, but since the display processing of these is basically simple, the description by the flow is omitted.

The above is the first embodiment of the battery life display device of the present invention. In a system using a remote operation unit such as a remote commander, an independent power source (battery 11) is used.
By making it possible to display the voltage information on the remote control unit side that has a display on the receiving side and to know the remaining battery life, it is possible to prevent the occurrence of erroneous operation instructions due to voltage drop, etc. There is. However, the present invention can be modified and implemented as follows, and the present invention includes all the following cases.

In the first embodiment, the voltage data is transmitted every time the operation key is pressed.
The transmission may be performed once a second or only when the voltage changes. An FL tube, a liquid crystal display, an LED, a CRT display and other known display devices can be freely combined and used as the voltage display unit on the receiving side.

[0044]

Second Embodiment Next, a second embodiment of the present invention will be described. The second embodiment mainly corresponds to the inventions of claims 2 and 3, but the basic configuration and operation are as follows.
This is the same as the battery life display device described in the first embodiment.

In the first embodiment, the transmitter having the independent power source is the remote commander.
In the embodiment, a wireless microphone (the invention of claim 2)
And a wireless speaker (the invention of claim 3). First, the case of a wireless microphone will be described.

Referring to FIG. 1 above, this remote control unit 1
Will be added to the wireless microphone. Further, the configuration of the system main body 2 is added to the receiving system. The operation is similar to that of the first embodiment described above.

Next, in the case of a wireless speaker,
The configuration of the remote control unit 1 of FIG. 1 is added to the wireless speaker, and the configuration of the system main unit 2 is added to the receiving system. The operation is similar to that of the first embodiment and the wireless microphone described above.

As in the second embodiment, the wireless
In the case of a microphone, wireless speaker, etc., voltage data may be transmitted when the system, microphone, etc. are switched on, or only once every fixed time or when the voltage changes. You may do it. In each of the above-described embodiments, a wireless system is provided between the system body for displaying voltage information and a remote operation unit such as a remote commander having an independent power source, a wireless microphone, a wireless speaker, or the like. It is characterized by being connected with.

[0049]

Third Embodiment Next, a third embodiment will be described. This third
This embodiment corresponds to the invention of claim 4, but the basic configuration and operation are the same as those of the battery life display device described in the first embodiment.

In the third embodiment, a connection device such as a cord is used instead of wireless (wireless connection) to connect a unit having an independent power source and a main body having a display device. Then, the characteristic is that the voltage information data is transferred. Here, a case of an electronic system notebook using a detachable IC card will be described.

FIG. 5 is a functional block diagram for explaining the third embodiment of the essential configuration of the battery life display device of the present invention. In the figure, 3 is an IC card such as a RAM expansion card, 31 is the RAM, 32 is a lithium battery,
Reference numeral 4 is a main body of an electronic system notebook or pocket computer, 41 is an A / D converter thereof, 42 is a microcomputer, and 43 is a display device.

FIG. 5 shows a case where the electronic system notebook is applied. As an information storage means capable of recording / reproducing information, an independent power source for the lithium battery 32 is provided on the side of the RAM card 3 which can be added, and the voltage of this battery is
It is transmitted to the main body side 4 via the connector and displayed on the display device 43, so that the user can confirm it. In this case, processing such as detection of the voltage of the battery and coding is executed by the control of the microcomputer 42 of the main body side 4.

[0053]

In the battery life display device according to the first aspect of the present invention, the voltage information of the battery built in the remote operation unit such as the remote commander is coded and transmitted, and the voltage information is displayed on the voltage information display means of the system main body. I am trying to display it. Therefore, the user can accurately know how far the battery of the remote control unit can be used, and can replace the battery at an appropriate time.

According to the battery life display device of the second aspect, it is possible to know the voltage information of the battery built in the wireless microphone. As a result, the same effect as that of the battery life display device according to claim 1 can be obtained.

In the battery life display device according to the third aspect, it is possible to know the voltage information of the battery built in the wireless speaker, and the same effect as that of the battery life display device according to the first aspect can be obtained.

According to the battery life display device of claim 4, in the system using the information storage means such as an IC card, it becomes possible to know the voltage information of the battery, which is the same as the battery life display device of claim 1. The effect is obtained.

[Brief description of drawings]

FIG. 1 is a functional block diagram showing an embodiment of a main part configuration of an electronic system to which a battery life display device of the present invention is added.

FIG. 2 is a time chart showing an example of transmission code data used in the battery life display device of the present invention.

FIG. 3 shows a voltage curve when two 1.5V dry batteries are connected in series at a constant load.

FIG. 4 is a flowchart showing a main processing flow when the operation key is pressed on the remote operation unit 1 side in the battery life display device of the present invention.

FIG. 5 is a functional block diagram for explaining a third embodiment of the essential configuration of the battery life display device of the present invention.

[Explanation of symbols]

 1 Remote Control Section 11 Battery 12 A / D Converter with Built-in Constant Voltage Circuit 13 Microcomputer of Remote Control Section 13A CPU 13B ROM 13C RAM 13D Clock Oscillator 14 Transmitter 15 Key Operation Section 15A to 15F Each Contact of Key Switch 2 Receiving Side System main body 21 Receiver 22 Microcomputer 22A CPU 22B ROM 22C RAM 22D Clock oscillator 23 Voltage display 24A-24F LED

Claims (4)

[Claims] 1. A system main body unit on the receiving side, and a remote operation unit having a battery as an independent power source and for instructing an operation to the system main body unit. An electronic system that transmits an operation command to the system main body part and receives the operation command to perform an operation, wherein the remote operation part detects the voltage information of the battery and encodes it. A transmission means for transmitting the encoded voltage information generated by the encoding means, a voltage information display means for displaying the voltage information of the battery in the system body, and the battery from the remote control unit. The battery life display device is characterized in that the voltage information of the above is encoded and transmitted, and the voltage information is displayed on the voltage information display means of the system main body. 2. A wireless main unit having a system main body on the receiving side, a battery as an independent power source, and transmitting an operation command, a voice signal, etc. to the system main body, In an electronic system in which an operation command, a voice signal, etc. are transmitted from a microphone to the system main body, and the system main body receives the operation command, a voice signal, etc., and outputs the same, the battery voltage is supplied to the wireless microphone. Voltage information for displaying the voltage information of the battery in the system main body part, comprising coding means for detecting and coding information and transmitting means for transmitting the coded voltage information generated by the coding means. Display means is provided, the voltage information of the battery is encoded and transmitted from the wireless microphone, and the voltage information is displayed on the voltage information display means of the system main body. A battery life display device characterized by: 3. A system main body part on the transmitting side, and a wireless speaker which has a battery as an independent power source and receives and outputs a signal transmitted from the system main body part. In an electronic system for outputting a signal transmitted from a wireless speaker as an audio signal, a coding means for detecting and coding voltage information of the battery in the wireless speaker, and a coding means generated by the coding means. And a means for receiving the coded voltage information, and a voltage information display means for displaying the voltage information of the battery in the system main body. The voltage information of the battery is coded and transmitted from the speaker, and the voltage information is displayed on the voltage information display means of the system body. A battery life display device characterized by: 4. An information storage means, such as an IC card, which has a battery as an independent power source, and stores information such as characters and symbols, and a display section, and records / records information in / from the information storage means. In an electronic system comprising a small computer unit for reproducing / erasing, etc., and a connecting unit such as a cable connecting the small computer unit and the information storing unit, the information storing unit stores the voltage information of the battery. A battery life display device comprising coded voltage information output means for detecting, coding and outputting voltage information, and displaying the voltage information of the battery on a display section of the small computer section.