JP2632963C - - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a recording or reproducing apparatus. [Prior art] Conventionally, in portable electronic devices, it has been possible to supply power from a battery.
This is an important condition, especially for video tape recorders, which have been spreading rapidly in recent years.
Electronic cameras take pictures outdoors, so they are smaller and lighter and use batteries.
Movement is a very essential element. In places where there is a power line (called AC power supply)
, Long-time recording, long-term playback and editing of captured image information
, AC power supply and the like can be used. In such video equipment, recording, reproduction, and unnecessary recording tracks
Operation such as erasing to erase the information in the
These modes have to be installed according to the purpose of the device.
However, the power consumption differs depending on the mode in which the
The source voltage also needs to be considered. [Problem to be solved by the invention] However, when using a battery as a power source, always consider the duration of the battery.
Needless to say, the battery runs down during playback during shooting.
If you do so, you will not be able to take a picture and miss the chance of taking a picture, or you will not be able to record properly
Cause serious problems such as
Although it is necessary to devise measures to minimize the battery, simply increasing the capacity of the battery
Therefore, there is a problem that the size and weight reduction, which is a feature of the portable device, is impaired because the weight increases. For example, in an apparatus having an inside of an erasing machine, power consumption during an erasing operation is recorded.
The power consumption is greater than the power consumption in the playback operation mode, and the battery is
Power supply capacity during the erase operation, recording and playback become impossible,
There is a problem that misses the record. Also, compared with the recording operation, the reproducing operation requires a certain amount of power consumption.
In this case, too, during playback operation, the power supply capacity decreases and recording becomes impossible.
Problem. In view of the above, the present invention can guarantee reliable operation in various operation modes, and
It is intended to provide a recording or reproducing apparatus which can effectively use a power supply
. [Means for Solving the Problems] In order to solve the above-mentioned problems, the present invention records or records in each storage block of the storage means.
, A device that operates in a playback or erasing mode, and turns off the power supply according to the setting mode.
To change the check level and enable operation in the later recording mode,
The check level in the reproduction mode is set higher than the check level in the recording mode.
A warning is displayed according to the check level during the operation of the playback mode.
It is characterized by the following. [Embodiment] In the embodiment of the present invention described below, the problems of the above-described conventional example are solved.
For the purpose, means for detecting the voltage of the power supply unit, and
Means for setting a plurality of reference voltages, and the detected voltage of the power supply unit and the plurality of reference voltages.
Pressure comparing means, and said recording or reproducing is performed according to the output result of said comparing means.
By providing control means for restricting the operation of the device in the set operation mode,
Power consumption when using a power supply with a limited power supply capacity, and
A device that enables reliable operation in a power supply mode is disclosed, and multiple power supply devices are identified.
Means for changing the reference voltage level according to the identification result of the power supply device.
In this way, even power supplies with different characteristics can be
An apparatus that enables a practical operation is disclosed. An embodiment of the recording or reproducing apparatus according to the present invention will be described in detail above. FIG. 1 shows an image signal applied to a track formed concentrically on a rotating magnetic disk.
FIG. 3 is a block diagram of an electronic camera for recording, reproducing, and erasing. In the figure, 1 is a record
The magnetic disk 2 as a medium moves in the radial direction of the rotating magnetic disk 1 and a track formed on the magnetic disk 1.
A magnetic head for recording, reproducing and erasing signals is used for recording.
The motor 4 controls the motor 3 to rotate the magnetic disk 1 at a constant speed.
The motor servo circuit 5 moves the magnetic head 2 in the radial direction of the magnetic disk 1.
And place the magnetic head 2 on the track formed in the same circle on the magnetic disk 2.
A head moving mechanism 6 includes an optical system including a photographing lens, an aperture shutter, and an optical system.
A camera unit formed from an image sensor or the like that converts image information captured into an electric signal
, 7 perform signal processing such as FM modulation on the electric signal output from the camera unit,
The signal is converted to a signal suitable for recording on a disc, and the signal is sent to the magnetic head 2 via Su1.
The recording signal processing circuit 8 supplies a track on the magnetic disk 1 from the magnetic head 2.
A reproduced signal processing circuit which is input from the signal reproduced from the
Performs signal processing such as demodulation, replaces the original video signal, and sends the video to the video signal output terminal.
This is a reproduction signal processing circuit that outputs a signal. 9 is connected to the magnetic head 2 via SW1.
This is an erase signal supply circuit for supplying an erase current. 10 is the system that controls this device
The control circuit is used to control the motor servo circuit 4 and move the head.
Mechanism 5, camera unit 6, recording signal processing circuit 7, reproduction processing circuit 8, erase signal supply circuit
9, Su1 and the like are controlled. 11 is an operation unit for inputting commands according to various modes to the system control circuit 10.
And has a mode switch 11-1.
Switch between raw mode and erase mode. 12 is controlled by the system control circuit 10.
This is a display section for displaying information related to each mode, and is described later with reference to FIGS. 7 (a) and 7 (b).
As shown in the figure, the number of the track that has the maxell of head 2 and the warning of the voltage drop are given.
Do. Reference numeral 13 denotes a power supply section for supplying power to the apparatus, and
Is a power supply. 14 is the power supply voltage output from the power supply unit 13.
Voltage divider circuits that divide the voltage by 1/4, and the signals output from the 1/4 voltage divider 14 are the + terminals
And one terminal receives predetermined voltages V1, V2, and V3.
Voltage comparison circuit. The output signals of the voltage comparison circuits 15, 16, 17 are as described above.
It is input to the system control circuit 10. Hereinafter, the operation of the embodiment of the present invention will be described in detail. First, a recording mode setting command is issued by the mode Sul1-1 provided on the operation unit 11.
When input to the system control circuit 10, the system control circuit 10 determines whether the output of the voltage comparison circuit 15 is High or Low.
Do. At this time, a voltage level of 1/4 of the power supply voltage is applied to the + input terminal of the voltage comparison circuit 15.
Input, and the-terminal is set to 1/4 of the power supply voltage level that inhibits the recording operation.
The voltage V1 is input. When the output signal of the voltage comparison circuit 15 is at the high level
Is determined that the voltage of the power supply is higher than the voltage prohibiting the recording operation,
The control 10 drives a camera unit, a recording signal processing circuit, and a motor servo circuit.
Then, the recording operation is performed. The recording operation is executed by the system controller 10 in the mode.
The magnetic disk 1 is rotated at a constant speed by controlling the
, A shutter, etc., and the image information converted into an electric signal from the image sensor is recorded signal.
When the signal Sw1 is input to the signal processing circuit 7 and connected to A, the recording signal processing circuit
The output signal is transferred to the track of the magnetic disk 1 via the magnetic head 2 on the electric disk.
This is performed by recording image information converted into a signal. 1 track
When the recording is completed, the system controller 10 controls the head moving mechanism 5 to
The head 2 is moved to an adjacent track. Here, the system controller 10
It is determined again whether or not the next recording mode setting command is input from the operation unit 11, and
If a recording mode setting command has been input, the output signal of
The control is repeated when the output is at the high level. Also magnetic
When the recording on the highest track on disk 1 is completed, set the recording mode.
Even if the command is input, the recording operation is not performed. In addition, the display
12 is controlled by the system controller 10, in which the magnetic head 2 is located
The track address of the magnetic head 2 is displayed, the recording is completed, and the track of the magnetic head 2 is moved.
Every time the operation is performed, the display contents are changed, and the magnetic head 2 is always located at the position where the magnetic head 2 is located.
The rack address is displayed. Next, the recording mode setting command is
When input to the system control circuit 10, the output signal of the voltage comparison circuit 15 is Low.
The case where the level is met will be described. The output signal of the voltage comparison circuit 15 is Low level
, It is determined that the voltage of the power supply unit is lower than the voltage that prohibits the recording operation.
At this time, the system controller 10 prohibits the recording operation. In other words, this place
In this case, it is also prohibited to rotate the magnetic sheet 1 by driving the motor servo circuit 4.
Also, the control of the camera section 6 and the recording signal processing circuit 7 is prohibited, and the recording operation is not performed.
I will not enter Kens. At this time, the system controller 10 controls the display unit 12.
Then, a display indicating that the power supply voltage is low, Lb (meaning Low Battery), is displayed on the display unit as shown in FIG. 7 (a). Also the system
The controller 10 continues to detect the output signal of the voltage comparison circuit 15 even during the execution of the recording operation.
When the output of the voltage comparison circuit 15 changes to the Low level during the recording operation,
After the recording of one track is completed, the display section 12 indicates that the power supply voltage is low.
Display. That is, once the recording operation is started, the recording is stopped halfway.
System control to prohibit the recording operation after the recording operation
The control circuit 10 performs control. Next, a reproduction mode setting command is issued from the operation unit 11 in a mode Su (not shown).
The case where the data is input to the system control circuit 10 will be described. Playback mode
When a setting command is input, the system control circuit 10
It is determined whether the signal is High or Low. The + input terminal of the voltage comparison circuit 16
A voltage corresponding to 1/4 of the supplied power supply voltage is input.
A voltage level V2 that is 1/4 of the power supply voltage for which operation is prohibited is input. That is, cis
System control circuit 10 that the output signal of voltage comparison circuit 16 is at High level
Is detected, it is determined that the power supply voltage level is higher than the voltage level that prohibits the playback operation.
Then, the system control circuit drives the motor servo circuit 4 to rotate the motor 3
Thus, the magnetic sheet 1 is rotated at a low speed. Also, switch Sw1 to B,
A control is performed so that the operation of the reproduction signal processing circuit is performed, that is, on the magnetic sheet 1
A reproduction signal is input to the reproduction signal processing circuit 8 from the track via the magnetic head 2 and Sw1.
Then, the reproduced video signal is output by the reproduced signal processing circuit 8. Also, the playback operation
The system control circuit 10 always detects the output signal of the voltage comparison circuit 16 even during execution
During playback, the voltage of the power supply section drops and reaches a level that prohibits playback.
In this case, the output signal of the voltage comparison circuit 16 becomes Low level,
When the control circuit 10 detects, the motor servo circuit is controlled to rotate the motor 3
Stop and stop the operation of the playback signal processing circuit to stop the playback operation
. At this time, the display unit 12 displays the display “Lb” indicating that the power supply voltage is low as described above.
The system control circuit 10 controls the display unit 12 so as to output Play mode
Output command of the voltage comparison circuit 16 when the
When the signal is at the Low level, the power supply is displayed on the display unit 12 without executing the reproducing operation.
The display "Lb" indicating that the pressure is low indicates that the regeneration operation is prohibited.
Show. Next, the erasing operation will be described. The erase operation setting command is input to the system control circuit 10 by the operation unit 11, but the execution of the erase operation is
Is only possible when is in playback mode. That is, the device operates in playback mode.
When not in the middle, the operation unit issues a command to set the erase operation to the system control circuit 10.
Does not execute the erasing operation. During playback mode,
When an erase operation setting command is input to the system control circuit 10 by the
The system control circuit determines whether the output signal of the voltage comparison circuit 17 is high or low.
Is determined. The + input terminal of the voltage comparison circuit 17 is output from the power supply unit
A voltage corresponding to 1/4 of the power supply voltage is input, and erase operation is prohibited at the-terminal.
A voltage V3 corresponding to 1/4 of the power supply voltage is input. That is, the voltage comparison circuit 17
Is the power supply voltage level at which the erasing operation can be performed when the output signal is at the high level.
Or, at the time of the Low level, the power supply voltage is lowered to the power supply voltage level at which the erase operation is prohibited.
The system control circuit determines what is being done. Output signal of voltage comparison circuit 17
When the signal is at the high level, the system control 10
By stopping the operation, connecting Sw1 to C, and operating the erase signal supply circuit 9,
, An erase signal is input to the magnetic head 2 via Su1, and the magnetic head where the magnetic head is located is input.
Erase one track on the memory sheet. When erasure of one track ends, the system
The system control circuit 10 stops the operation of the erase signal supply circuit and connects Sw1 to B
Then, by operating the reproduction signal processing circuit 8, the track of the erased track is
The reproduction signal processing circuit 8 outputs a reproduction signal, that is, random noise.
Thus, the completion of the erasing operation is confirmed. Also, when the device is in the playback mode, a command to set the erase operation
When input to the system control circuit 10, the output signal of the voltage comparison circuit 17 is Low level.
, It is determined that the power supply voltage is lower than the prohibition voltage level of the erase operation,
The system control circuit 10 indicates on the display unit that the power supply voltage has dropped. "
The display unit 12 is controlled to display “Lb”. At this time, the operation in the playback mode is stopped.
The reproduction video signal continues to be output from the reproduction signal processing circuit 8 without stopping.
Also, it indicates that the power supply has dropped to a power supply voltage level at which the erase operation cannot be performed.
"Lb" is displayed continuously only while the erase operation setting command is input from the operation unit.
That is, when the setting command of the erasing operation is released, the display of “Lb” is stopped.
The system control circuit 10 controls the display. Next, a case where a plurality of types of power supplies having different characteristics are used for the power supply unit will be described. First, a method for identifying a power supply device will be described. FIG. 3 to FIG. 6 show the case where the power source identification means identifies a battery and an AC power adapter.
FIG. 3 is a perspective view of a battery, and FIG. 4 is a perspective view of an AC power adapter.
View, FIG. 5 and FIG. 6 show the AC power adapter and the battery in the battery compartment of the device, respectively.
It is a perspective view showing the state where it was attached to. In each figure, 1 is a battery storage section formed in the device, and 2 is a battery storage section mounted in the battery storage section.
Battery 3 is an AC power supply that is also mounted in the battery compartment and can supply power to the device.
A power plug 4 is provided on the adapter body. And a positive electrode on the upper surface of the battery 2
2a and a negative electrode 2b, and a positive electrode is provided on the corresponding upper surface of the AC power adapter 3.
3a.-Electrode 3b is arranged, and one of the electrodes, e.g.
It is formed wider in the width direction than the second electrode 2b. On the other hand, the battery 2 or the AC power adapter 3
When installed in the storage unit 1, the + electrode 2a of the battery 2 or the +
The + side connection piece 5a connected to the electrode 3a, the-electrode 2b of the battery 2 or the AC power supply adapter
Each of the -side connection pieces 5b connected to the -electrode 3b of the plug 3 serves as a power supply terminal.
6 and when the battery 2 is mounted, as shown in FIG.
When the AC power adapter 3 is attached without contacting the
The connecting piece for identification connected to the electrode 3b and the -side connecting piece 5b formed so as to be wide as described above.
5c is arranged. When the battery 2 is mounted, the connection pieces 5a and 5
b is connected to each corresponding electrode 2a, 2b, but the connecting piece 5c for identification is
Only contact makes no connection to any of the electrodes. On the other hand, when the AC power adapter 3 is mounted, the connection pieces 5a and 5
b are connected to the electrodes 3a and 3b, respectively, to form a power supply path, and a connection piece for identification.
The connection pieces 5b and 5c for connecting 5c to the electrode 3b are conducted by the electrode 3b. this
The battery 2 is installed in the battery compartment and the AC power adapter 3 is installed
The case can be electrically identified. In the above embodiment, the negative electrode 3b of the AC power adapter 3 is widened to connect the connecting piece 5b and
The case where the power supply identification connecting piece 5c is made conductive is described.
The positive electrode 3a of the C power supply adapter 3 is widened to connect the connecting piece 5a and the power identifying connecting piece 5c.
A structure that allows conduction may be used. Next, the case where the identification information of the above-described power supply identification means is actually used for the operation mode control of the recording or reproducing apparatus will be described with reference to FIG.
Will be explained. FIG. 13 shows the operation of controlling the operation mode of the recording or reproducing apparatus by recording the identification information of the power source identification means.
FIG. 3 is a block diagram used, and is input to the negative terminals of voltage comparison circuits 15, 16, and 17 in FIG.
Voltage level is switched according to the identification information of the power supply. That is, when the power supply unit shown in FIG.
Since the detected signal is not connected to the negative pole of the power supply device,
Pull-up is performed, and Sw3, Sw4, and Sw5 are controlled to be switched by the detection signal.
And V1, V2, and V3 are connected to the negative input terminals of the voltage comparison circuits 15, 16, and 17, respectively.
. When the power supply device shown in FIG. 4 is set as the power supply unit, the detection signal
Since it is connected to the negative pole of the source device, the detection signal becomes Low level, and Sw3, Sw4, and Sw5 become
V1 ', V2', and V3 ', and V1' is connected to the-input terminal of each voltage comparison circuit.
, V2 'and V3' are connected. In other words, recording, playback, and erasing depending on the type of power supply
Is controlled to be switched to V1, V2, V3 or V1 ', V2', V3 '.
become. In this embodiment, the power supply, a 12 AC power adapter and a battery are used to
The switching of the recording, reproduction, and erasure prohibition voltages based on the identification and the identification information is explained.
However, this is not limited to two types of power supply devices, and
By changing the number of connecting pieces and the forming device, the AC power adapter and the Nic
d Voltage comparison for multiple power supplies such as batteries, lead batteries, and alkaline manganese batteries
By switching the voltage level input to the-input terminal of the
It is possible to set the recording, reproduction, and erasure prohibition voltages corresponding to the characteristics and capacity of the power source device.
. Also, the method of identifying the power supply device is not limited to the method described in the embodiment, but may be negatively applied to another power supply, for example.
Connect the load and determine the characteristics of the terminal voltage drop to determine the type and method of power supply.
It may be determined. Further, in the above-described embodiment, the power supply voltage is set in each of the recording, reproducing, and erasing modes.
When the voltage falls below the operation prohibition voltage, the display shown in FIG.
The operation was stopped, but as shown in FIG. 8, the same configuration as 15 to 17 shown in FIG.
A pair of reference voltages V1 ', V2' and V3 'are V1 and V2, respectively.
, V3 is set slightly higher than V3, and is set according to the output of each voltage comparison circuit 15'-17 '.
The display unit 12 may display a mark as shown in FIG. 7 (b). FIG. 7 (b)
In the display example shown in FIG. 7, the head 2 is shown at the position on the disk 1 and shown in FIG. 7 (a).
In the example, is displayed using such a position display segment. Configuration based on this
Can be further simplified. Next, the operation of the embodiment configured as shown in FIG.
This will be described using a chart. 9 to 12 are flow charts for explaining the operation of the system control circuit 10.
It is a chart. FIG. 9 is a flowchart for explaining the operation when the playback mode is set.
You. In this flow, first, it is confirmed that the playback mode is set (
S-1) It is determined whether or not the output of the voltage comparison circuit 16 is "H" (S-3).
If not, the motor 3 is stopped to stop the operation of the reproduction signal processing circuit,
The occurrence of abnormal operation due to the lower part is prevented (S-5), and a display as shown in FIG.
Is performed on the display unit 12 (S-7). On the other hand, in S-3, the output of the voltage comparison circuit 16 is
If it is "H", it is determined whether the output of the voltage comparison circuit 16 'is "H" (S-9).
), If it is H, the reproducing operation is started or continued (S-13),
If the output is not H, the display unit 12 is caused to perform a display as shown in FIG.
Proceed to 13. In this case, the playback operation is continued without stopping and the playback mode is stopped.
Is released or the comparison circuit 16 detects that the power supply voltage has dropped.
Continue playing until. Next, the operation when the recording mode is set will be described with reference to FIG. In this flow, first, it is confirmed that the recording mode is set (S-15).
), If the recording mode is set, whether the output of the voltage comparison circuit 15 is "H"
Is determined (S-17), and if not “H”, the recording signal processing circuit 7 and the camera unit 6
Stop the operation. In this case, if the set mode is set to the reproduction mode, the operation is performed.
In some cases, the motor 3 can continue to operate. In S-19
The rotation of the motor 3 may be stopped for electricity. S-20 is the same as S-7
Causes the display shown in FIG. 7A to be performed. On the other hand, when the output of the voltage comparison circuit 15 is “H”,
In some cases, it is determined whether the output of the voltage comparison circuit 15 'is "H" (S-22).
If it is not H ", the display shown in FIG. 7 (b) is performed as in S-11 (S-23).
In step 25, it is detected whether or not a trigger of the recording level has been input, and when the trigger has been input, the recording control is started (S-25), and the recording operation is started to start the recording operation.
It instructs the camera unit 6 and the recording signal processing circuit 7 to start recording. Next, it is determined that the recording operation has been completed (S-27).
It is determined whether the output of the comparison circuit 15 is "H" (S-29).
B1FLAG is set (S-31), and the output of the voltage comparison circuit 15 'is "H".
Is determined (S-33), and if not "H", the flag LB2FLAG is set (S-3).
5) If "H", the flow returns to S-27. On the other hand, the recording operation ends in S-27.
If it is determined that LB1FLAG and LB2FLAG have been set,
(S-37, S-39), and if LB1 FLAG is set, the flow is
Branching to S-19, if LB2FLAG is set, the same as FIG.
b) is displayed and the head 2 is moved by one track (S-41).
Then, the track number displayed is changed (S-43), and the flow returns to S-15. As described above, in the recording mode, the recording operation is actually started by the recording trigger.
After that, until the recording / reproduction is completed, even if the comparison circuits 15, 15 '
Even if a voltage drop is detected, the operation of the device is prohibited or a warning
The above-described prohibition or warning is displayed only after the recording operation is completed without performing the above-described operation.
As a result, the recording operation once started can be reliably performed. Next, an operation when an erase operation is instructed will be described with reference to FIG. If an erase operation has been instructed, determine whether such an operation has been instructed
(S-51), and if an instruction has been given, it is determined whether or not a reproducing operation is being performed (S-53).
), If the reproducing operation is being performed, proceed to S-55. If the reproducing operation is not being performed, the erase operation is not performed.
The flow returns to S-51. On the other hand, in S-55, it is detected whether or not the output of the voltage comparison circuit 17 is "H".
If "H", the erase operation is started (S-57), and the end of the erase operation is determined in S-59.
Until the detection, it is determined that the output of the voltage comparison circuit 17 is "H" (S-
61) If not "H", the flag LB2FLAG is set (S-63).
. When the erase operation is completed, whether the flag LB2FLAG is set or not is determined.
Is determined (S-65), and if not set, the flow proceeds to S-1 in FIG.
Step. If it has been set, the display of FIG.
It is determined whether or not the instruction has been made (S-67).
The display of "Lb" is canceled (S-70), and the flow branches to S-1 in FIG. In the present embodiment described above, it is assumed that the start of the erase operation is instructed.
Therefore, if the power supply voltage level is not higher than the predetermined level, the display unit 12 displays the level shown in FIG.
Make such a display. Also, the above-mentioned display on the display unit 12 starts the erasing operation.
When the instruction is canceled, it is automatically canceled. Also, as described in FIG. 10, even if the power supply voltage decreases during the erase operation,
After the erasing operation is completed without stopping the erasing operation or displaying a warning
Such stop control and warning display are performed. In the embodiment shown in FIG. 11, the flow using only the output of the voltage comparison circuit 17 is used.
However, in the same manner as in the flow shown in FIG.
Any of the displays shown in FIGS. 7A and 7B may be performed. In the configuration shown in FIG. 8, the number of the comparison circuits 15 to 17, 15 'to 17' is large.
Although the configuration becomes complicated, a warning signal is displayed when the display shown in FIG.
And the prohibition voltage at the time of performing the display shown in FIG.
Thus, the configuration can be simplified. In such a case, the flow chart shown in FIG. 11 is changed as shown in FIG.
. That is, in the flowchart of FIG. 11, the output of the voltage comparison circuit 17 is S-61.
It was determined to be "H", but in the flowchart of FIG.
It is sufficient to determine that the output of the voltage comparison circuit 16 'is "H". In the flowchart of FIG. 11, the flag LB2F is set as S-63 and S-65.
Although LAG was used, the flag LB3FLAG was used in the flowchart of FIG.
I just want to be. [Other Embodiments] FIG. 2 shows another embodiment of the voltage comparison circuit section. The same block as FIG. 1 in FIG.
Are denoted by the same reference numerals, and description thereof is omitted. Reference numeral 18 denotes a voltage comparison circuit connected to the + input terminal.
Is the same as the voltage comparison circuits 15, 16, 17 in FIG.
It is empowered. On the other hand, the recording inhibition voltage level V1 is applied to the-input terminal via Sw2.
The raw prohibition voltage level V2 and the erasure prohibition voltage level V3 are input, and Sw2 is switched.
Is performed by the system control circuit 10.
Indicates that the prohibited voltage level corresponding to the operation mode
By controlling Sw2 so as to be input to the-terminal of the path 18, the output signal level of the voltage comparison circuit 18 is detected.
Then, the power supply voltage level is determined to control the operation of the present apparatus. Also, voltage comparison
The voltage level input to the negative input terminal of the circuit 18 is fixed and input to the positive input terminal
The voltage level divided into 1/4 of the power supply voltage is recorded, reproduced, and erased in each mode.
It is clear that the same effect can be obtained even if the level is shifted accordingly.
. FIG. 2 shows three types of voltages input to the + input terminal.
This may be facilitated by, for example, six types as shown in FIG. As described above, the prohibition level of the power supply voltage in the recording, reproduction,
By setting each, the operations with different power consumption such as recording, playback, and erasing operations are performed.
The operation in each mode can be ensured under the operating conditions. Further, in this embodiment, the set level of the forbidden voltage is recorded in the recording, reproducing, and erasing modes.
By sequentially increasing the size, reproduction and erasure can be performed particularly in the electronic camera described in the embodiment.
Can be recorded even if the capacity of the power supply unit is reduced while executing
And without losing an important shutter chance, as an electronic camera
The characteristics can be fully exploited. In the above embodiment, recording, reproduction, and erasing are performed.
An apparatus having three modes has been described.
The present invention can be applied to any device having multiple modes without having to
In this embodiment, it is possible to determine the type of the power supply device.
By setting the prohibition voltage for recording, playback, and erasing according to the type of power supply,
Appropriate prohibition voltage for power supplies with different discharge characteristics.
It is possible to ensure the operation in each operation mode
You. [Effect of the Invention] As described above, the operation in each operation mode according to the present invention is ensured.
And the power supply can be effectively used.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a configuration of one embodiment of the present invention, FIG. 2 is a block diagram showing another embodiment of a voltage comparison circuit, and FIGS. 3 and 4 are power supply devices. 5 and 6 are perspective views showing identification terminals of the power supply device, FIG. 7 is a view showing an example of display by the display unit 12 shown in FIG. 1, and FIG. 8 is the present invention. 9 to 12 are flow charts for explaining the operation of the embodiment shown in FIG. 8, and FIG. 13 is a voltage comparison diagram of another embodiment of the present invention. A block diagram of the circuit, 1 is a magnetic disk, 13 is a power supply, 15, 16, and 17 are voltage comparison circuits, and 10 is a system control circuit.

Claims (1)

[Claims] 1. An apparatus for performing a recording, reproducing, or erasing mode operation in each storage block of a storage means, wherein a check level of a power supply is changed according to a setting mode, and an operation in a later recording mode is enabled. A recording or reproducing apparatus, wherein a check level in the reproduction mode is set higher than a check level in a recording mode, and a warning is displayed according to the check level during operation in the reproduction mode. 2. 2. The recording or reproducing apparatus according to claim 1, wherein the check level is higher in the order of an erasing mode, a reproducing mode, and a recording mode.