JP2716704B2 - Adjustment device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an adjusting device suitable for application to, for example, a video tape recorder (hereinafter, referred to as a VTR) provided with a remote controller. SUMMARY OF THE INVENTION The present invention is an adjustment device suitable for application to, for example, a VTR equipped with a remote controller, comprising a microcomputer, a RAM,
And a microcomputer that controls an adjustment state of a predetermined signal adjustment circuit among a plurality of signal adjustment circuits based on adjustment data stored in the nonvolatile memory, A device to be adjusted in which a control signal input terminal to which a control signal is supplied from a device and a control signal output terminal to supply a control signal to an external device are connected to a microcomputer, and a plurality of keys are provided. And a remote controller for remotely controlling the operation of the device to be adjusted, and displaying the operation state and the like of the device to be adjusted on the display unit based on a display signal supplied from the microcomputer. Operation mode switching means for switching the operation mode of the microcomputer from the non-adjustment mode to the adjustment mode, and When means selects the adjustment mode,
In a non-adjustment mode, a plurality of signal adjustment circuits of the adjusted device are sequentially selected by operating a predetermined key among a plurality of keys for controlling the operation of the adjusted device, and a signal processing circuit of the selected adjusted device is displayed. The signal adjustment circuit to be displayed and adjusted by the unit is selected, and then the adjustment amount of the signal adjustment circuit selected by operating another predetermined key among the plurality of keys is increased or decreased, and this increase or decrease is performed. The reduced adjustment amount is stored in the RAM of the device to be adjusted, and the adjustment state at this time is displayed on the display unit.When the operation mode switching means selects the non-adjustment mode again, the nonvolatile memory of the device to be adjusted The stored adjustment data is stored in the RAM and is changed to the adjustment data, so that each component in the device to be adjusted can be easily adjusted from the outside. [Prior Art] For example, in a camera-integrated VTR,
Correction, AGC, white clip, red signal gain, blue signal gain, etc., about 25 places, and deviation in recorder section, F ₀
There are about 20 adjustment points such as adjustment. These adjustments
The adjustment is made while checking the operation status of the system at the time of assembling or after assembling. Generally, the adjustment is performed by controlling the DC voltage supplied to the adjustment point. For this reason, in the prior art, a mechanical volume is provided for each adjustment point, and a technician manually adjusts the volume by turning these volumes. However, when such a mechanical volume is used, all the volumes must be provided outside in order to perform adjustment after assembly, and the mounting position of the volume is restricted, and the degree of freedom in design is reduced. I do. In addition, the mechanical volume has poor stability, and there is a fear that the adjustment amount may be changed by external vibration or the like after adjustment. In order to solve this problem, the present applicant first converts the adjustment volume into a semiconductor using a non-volatile memory, a digital / analog conversion circuit, or the like, and performs adjustment based on the adjustment data stored in the non-volatile memory. A device capable of performing stable operation has been proposed (Japanese Patent Application Laid-Open No. 62-94011). [Problems to be Solved by the Invention] However, a volume device made into a semiconductor by using this nonvolatile memory or the like can easily adjust the nonvolatile memory by using a dedicated data input device at the time of manufacturing in a factory or the like. However, the adjustment data could not be easily changed from the outside during a service such as repair. In view of the above, an object of the present invention is to provide an adjusting device that can be easily adjusted from the outside. [Means for Solving the Problems] As shown in FIG. 1, for example, the adjusting device of the present invention includes a microcomputer (2), a RAM (4), and a non-volatile memory (3). ), The microcomputer (2) controls the adjustment state of a predetermined signal adjustment circuit of the plurality of signal adjustment circuits based on the adjustment data stored in the microcomputer, and supplies a control signal from an external device. Control signal input terminal (1a) and control signal output terminal (1b) for supplying control signals to external devices
Is provided with a device to be adjusted (1) connected to a microcomputer (2) and a plurality of keys (11) to (15). The devices to be adjusted (1) are operated by operating the plurality of keys (11) to (15). ) Is remotely controlled, and the display unit (16) is controlled based on a display signal supplied from the microcomputer (2).
And a remote controller (10) for displaying the operation state and the like of the device to be adjusted (1). The operation mode of the microcomputer (2) is set to the controlled and controlled device (1) or the remote controller (10). Operation mode switching means (15a) for switching from the adjustment mode to the adjustment mode is provided, and when the operation mode switching means (15a) selects the adjustment mode, a plurality of keys (11) for controlling the operation of the device to be adjusted in the non-adjustment mode. ) To (15), a plurality of signal adjustment circuits of the device to be adjusted (1) are sequentially selected, and the signal adjustment circuit of the selected device to be adjusted (1) is displayed on the display unit ( A signal adjustment circuit to be displayed and adjusted in step 16) is selected, and then an adjustment amount of the signal adjustment circuit selected by operating another predetermined key among the plurality of keys (11) to (15). Increase or decrease
This increased or decreased amount of adjustment is used as the RA of the adjusted device (1).
It is stored in M (4) and the adjustment state at this time is displayed on the display unit (16).
When a) selects the non-adjustment mode again, the adjustment data stored in the nonvolatile memory (3) of the device (1) to be adjusted is changed to the adjustment data stored in the RAM (4). is there. [Operation] According to the adjusting device of the present invention, the operation mode switching means (15
After the microcomputer (2) is set to the adjustment mode according to a), when a predetermined key of the remote controller (10) is operated, the adjustment data in the nonvolatile memory (3) is changed, and the remote controller (10) is used. The adjustment state of the device to be adjusted (1) can be easily changed from the outside, and the adjustment state is displayed on the display section (16) of the remote controller (10) during this adjustment, so that the adjustment state is accurate. Can be easily determined. [Embodiment] Hereinafter, an embodiment of an adjusting device of the present invention will be described with reference to the accompanying drawings. In FIG. 1, (1) indicates a VTR, and this VTR (1)
The operation of each circuit is controlled by a microcomputer (hereinafter referred to as CPU) (2). And this CPU (2)
Is a D / A converter unit (5) including a nonvolatile memory (3), a random access memory (hereinafter, referred to as RAM) (4), and a plurality of digital / analog converters (hereinafter, referred to as D / A converters). The nonvolatile memory (3) is capable of storing adjustment data to be described later, and the RAM (4) is capable of temporarily storing adjustment data. The D / A conversion unit (5) has a plurality of analog signal output terminals (5a), (5b), (5c) and (5d), each of which has a first, a second, a third and a fourth output terminal. Are connected to the control signal input terminals of the voltage controlled amplifiers (6), (7), (8) and (9). Each of the voltage controlled amplifiers (6) to (9) constitutes a signal adjusting circuit of each signal adjusting unit in the VTR (1), and is adjusted by a change in the signal amplification of each of the amplifiers (6) to (9). Is performed. Voltage signal data to be supplied to each of the voltage control amplifiers (6) to (9), which is adjustment data, is stored in advance in the non-volatile memory (3) at the time of manufacturing the VTR (1), and the CPU ( The nonvolatile memory (3) is controlled by the control of (2).
The voltage signal data stored in the D / A conversion unit (5) is read out by the D / A conversion unit (5), and the converted voltage signal is converted from the D / A conversion unit to each voltage control amplifier ( 6) to (9) to adjust the respective voltage controlled amplifiers (6) to (9) to a preset state. In this example, the control signal input terminal (1a) and the control signal output terminal (1b) of the VTR (1) are connected to the CPU (2) so that a control signal is supplied from an external device. And a control signal can be supplied to an external device. Then, the CPU (2) uses this input terminal (1a)
The operation mode can be switched between the normal mode and the adjustment mode by the signal obtained in step (1). In the normal mode, the voltage control amplifiers (6) to (9) are adjusted to a predetermined state by the adjustment data stored in the nonvolatile memory (3), and the VT is adjusted by the signal obtained at the input terminal (1a).
Each operation (recording, reproduction, etc.) of R (1) is controlled. In the adjustment mode, the adjustment data stored in the non-volatile memory (3) can be rewritten by a signal obtained at the input terminal (1a) under the control of the CPU (2). In the case of this example, a remote control device (10) as a remote controller is connected to the control signal input terminal (1a) and the output terminal (1b) via a signal line (20). As shown in FIG. 1, the remote control device (10) includes a plurality of operation keys (11), (12), (1) as push buttons.
3) and (14) are arranged. Each key is a play (play) key (11), a stop (stop) key (12), a fast forward key (13), and a rewind key (14). By pressing the keys (12) to (14), the CPU (2) of the VTR (1)
A control signal for instructing the tape running corresponding to the key is supplied so that the corresponding tape running is performed. Similarly, an operation key (15) composed of a plurality of push buttons is arranged, and the operation key (15) is used for operations other than the tape running.
Various operations of VTR (1) are possible. For example, the operation key (15a) is an operation mode control key of the VTR (1). This remote control device (10) is provided with a display unit (16) composed of a liquid crystal panel or the like, and a CPU (2).
This display unit (1) is based on a display signal supplied to the remote control device (10) via a signal line (20) from the
In 6), the operation status of the VTR (1) is displayed. In this example, by pressing the mode switching operation key (15a) of the remote control device (10), a mode switching signal is supplied from the remote control device (10) to the CPU (2). The operation mode is switched from the normal mode to the adjustment mode or from the adjustment mode to the normal mode. When the adjustment mode is set by operating the operation keys (15a), the operation keys (11) to (11)
By the operation (14), the adjustment data stored in the nonvolatile memory (3) can be rewritten. When performing this rewriting, the operation keys (11) to (14) for running the tape are keys for adjustment. That is, first, the fast-forward key (13) or the rewind key (14) is pressed to adjust the voltage of the voltage-controlled amplifier (6),
(7), (8) or (9) is selected in order. At this time,
The number of the selected amplifier and the like are displayed on the display unit (16) by supplying a display signal from the CPU (2). Then, after selecting the amplifier to be adjusted, by pressing the play key (11) or the stop key (12), a rewrite signal for increasing or decreasing the adjustment value (amount) is output to the remote control device (10).
Is supplied to the CPU (2) by the CPU and once controlled by the CPU (2).
The new adjustment data is stored in the RAM (4). At this time, the adjustment state is displayed on the display unit (16) by a numeral or the like. After being adjusted to the predetermined state in this way, the operation key (15a) is pressed again to return the operation mode of the CPU (2) to the normal mode. By returning this mode to normal mode,
The adjustment data stored in the nonvolatile memory (3)
The new adjustment data stored in M (4) is rewritten. And by returning to normal mode in this way,
Each of the keys (11) to (14) functions as an operation key for running the tape. As described above, according to the VTR according to the present embodiment, the remote control device (10) is connected by the signal line (20), and the operation keys (11) to
By operating (15), the adjustment data stored in the nonvolatile memory (3) can be rewritten. Therefore, the adjustment state of each signal adjustment circuit can be easily changed without using a dedicated data input device or the like. Further, since the adjustment state is displayed on the display unit (16), there is an advantage that the operator can easily determine the accurate adjustment state by looking at the display on the display unit (16). In this example, the operation keys (11) to (14) for running the tape of the remote control device (10) are also used as adjustment keys. The configuration of the control device (10) can be simplified. In the case where a data storage means is provided internally as the remote control device (10), the storage means
The standard adjustment value of each signal adjustment circuit of VTR (1) is stored,
At a predetermined time, the adjustment value may be supplied to the CPU (2) so as to be brought into the standard adjustment state. By doing so, the adjustment work for bringing into a standard operation state can be easily performed. The key for switching the operation mode of CPU (2) is VTR
(1) It may be provided on the side. Further, the present invention is not limited to the above-described embodiment, and it goes without saying that various other configurations can be adopted without departing from the gist of the present invention. According to the adjustment device of the present invention, the adjustment state of the adjustment circuit can be easily changed using the remote controller, and the adjustment state is displayed on the display unit, so that the accurate adjustment state can be easily determined. There are benefits that can be done.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing one embodiment of an adjusting device of the present invention. (1) is a video tape recorder, (2) is a microcomputer, (3) is a nonvolatile memory, (6), (7),
(8) and (9) are voltage controlled amplifiers respectively, (10) is a remote control device, (11), (12), (13), (1)
4) and (15) are operation keys, and (16) is a display unit.

Continuation of front page    (72) Inventor Shinji Takada               6-7-35 Kita Shinagawa, Shinagawa-ku, Tokyo So               Knee Co., Ltd.                (56) References JP-A-61-29276 (JP, A)                 JP-A-62-173895 (JP, A)                 JP-A-56-80964 (JP, A)                 JP-A-61-246808 (JP, A)

Claims (1)

(57) [Claims] A microcomputer, a RAM, and a nonvolatile memory are incorporated, and the microcomputer controls the adjustment state of a predetermined signal adjustment circuit among the plurality of signal adjustment circuits based on the adjustment data stored in the nonvolatile memory. A control signal input terminal to which a control signal is supplied from an external device and a control signal output terminal to supply a control signal to the external device are connected to the microcomputer. The control signal for remotely controlling the operation of the device to be adjusted by operating the plurality of keys, and displaying the operation state and the like of the device to be adjusted on a display unit based on a display signal supplied from the microcomputer. A remote controller connected to the input terminal and the control signal output terminal, wherein the controlled equipment or the remote control The device has operation mode switching means for switching the operation mode of the microcomputer from the non-adjustment mode to the adjustment mode, and when the operation mode switching means selects the adjustment mode,
In the non-adjustment mode, a plurality of signal adjustment circuits of the adjusted device are sequentially selected by operating a predetermined key among the plurality of keys for controlling the operation of the adjusted device, and a signal of the selected adjusted device is controlled. An adjustment circuit is displayed on the display unit to select a signal adjustment circuit to be adjusted, and then the adjustment amount of the selected signal adjustment circuit is adjusted by operating another predetermined key among the plurality of keys. Increase or decrease,
The increased or decreased amount of adjustment is stored in the RAM of the device to be adjusted, and the adjustment state at this time is displayed on the display unit. When the operation mode switching means selects the non-adjustment mode again, the amount of adjustment is reduced. An adjustment device, wherein adjustment data stored in a nonvolatile memory of an adjustment device is changed to adjustment data stored in the RAM.