JP4390970B2 - measuring device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to various measuring devices such as an ammeter, a voltmeter, a multimeter, and a recorder.
[0002]
[Prior art]
For example, a measuring device such as a multimeter is configured such that various operating conditions such as a measurement range, a display scale, and a recording function on / off can be freely set. Therefore, the operator can operate the measuring device under desired operating conditions by operating various keys of the operation unit. In such a measuring apparatus, in general, initial operating condition data for defining an initial operating condition in an initial state when the power is turned on is stored in advance in the ROM. When the power is turned on, for example, the CPU stores the data in the ROM. The operation of each unit is controlled according to the initial operation condition data. On the other hand, when the operating conditions of each unit are set by operating the operating unit, the CPU stores the operating condition data in a volatile memory, and controls each unit with the operating conditions instead of the initial operating conditions. .
[0003]
[Problems to be solved by the invention]
However, the conventional measuring apparatus has the following problems. That is, in the conventional measuring apparatus, even if the operating condition is newly set, the operating condition data is stored in the volatile memory. For this reason, even when various keys are operated many times to set the desired operating conditions, the operating conditions are cleared by shutting off the power. Therefore, when the power is turned on again, it has to be set again to a desired operating condition, and there is a problem that it is very complicated. On the other hand, every time the operating condition is changed, a method of storing the operating condition data in a nonvolatile EEPROM (Electrically Erasable PROM) may be considered. However, when various operating keys are operated many times and complicated operating conditions are set, the work of returning to the initial operating conditions is complicated. In addition, since the number of times of rewriting of the EEPROM is limited, rewriting the contents every time the operating condition is changed causes a writing failure of the EEPROM.
[0004]
The present invention has been made in view of such a problem, and provides a measuring apparatus that can avoid a complicated operation condition resetting operation caused by power-off and can easily be restored to an initial operation condition. The main purpose is to do.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the measuring apparatus according to claim 1 includes an operation unit capable of setting various operation conditions, a volatile first storage unit for storing the set operation conditions, and a control unit. The measurement device has a non-volatile second storage unit that can be electrically rewritten, and the control unit controls the operation of the measurement device according to the operation condition when the operation condition is set by the operation unit and is turned on. Sometimes controlling the operation according to the initial operating condition , and when the power shut-off operation is performed in a state where the first key in the operating unit is operated, the set operating condition is stored in the second storage unit, and When the second key in the operation unit is not operated when the power is turned on and the operation condition is stored in the second storage unit, the operation condition stored in the second storage unit is Therefore control the operation with child The features. In this case, the nonvolatile second storage unit in the present invention includes recording media such as an EEPROM, a floppy disk (registered trademark), and a hard disk . Further, the first key and the second key may be the same key or different keys.
[0006]
The measuring apparatus according to claim 2 is the measuring apparatus according to claim 1, wherein the control unit stores the operating condition in the second storage unit when the second key is operated when the power is turned on. when one of the time not, and controls the operation in accordance with the initial operation condition.
[0008]
Measurement device according to claim 3, in the measurement apparatus according to claim 1 or 2, wherein the second storage unit, characterized in that it is a EEPROM.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of a measuring apparatus according to the present invention will be described with reference to the accompanying drawings.
[0010]
First, the configuration of the measuring apparatus 1 will be described with reference to FIG.
[0011]
The measuring device 1 is a multimeter that can measure current, voltage, and power, and includes a measuring unit 2, a control unit 3, a display unit 4, an operation unit 5, a ROM 6, and an EEPROM 7. The measuring unit 2 performs analog-digital conversion on an input signal SIN input via a measurement probe or a clamp type sensor, and generates measurement data DM. The control unit 3 is composed of a CPU having a volatile internal memory 3a corresponding to the first storage unit in the present invention, and calculates various measurement values such as a current value, a voltage value and a power value based on the measurement data DM. Then, a power-off process and a power-on process described later are performed. The display unit 4 is composed of a liquid crystal panel and displays various information including measurement values according to display data DD output from the control unit 3. The operation unit 5 is provided with various keys, and is configured so that operation conditions of each unit (measurement unit 2, display unit 4, printer, etc.) such as measurement range, display scale, and recording function on / off can be freely set. ing. The ROM 6 stores an operation program for the control unit (CPU) 3, initial operation condition data for defining an initial operation condition when the power is turned on, and the like. The EEPROM 7 corresponds to a second storage unit in the present invention, and stores operation condition data set by various keys of the operation unit 5.
[0012]
In this measuring apparatus 1, when the power switch in the operation unit 5 is turned on, the control unit 3 reads the initial operating condition data stored in the ROM 6, and the measuring unit 2, display according to the operating condition data. The operation conditions of the unit 4 and the printer not shown are set and controlled. When the operation condition is changed by operating various keys in the operation unit 5, the control unit 3 stores the operation condition data corresponding to the changed operation condition in the internal memory 3a and changes the operation condition data. The measuring unit 2 and the like are controlled according to the operating conditions. In this state, when the input signal SIN is input, the measurement unit 2 performs analog-to-digital conversion on the input signal SIN according to the set operating conditions such as the input range, and generates measurement data DM and then outputs it to the control unit 3. To do. Thereafter, the control unit 3 calculates the measurement value based on the measurement data DM and outputs the display data DD to display the measurement value on the display unit 4 under the set display conditions. On the other hand, when the power switch is turned off, the power-off process shown in FIG. 2 is performed.
[0013]
In the power-off process, the control unit 3 determines whether or not a specific key in the operation unit 5 (for example, the hold key 5a, which corresponds to the first key and the second key in the present invention) is pressed. (Step 11). That is, it is determined whether or not the power switch and the hold key 5a are operated simultaneously. When it is determined that the simultaneous operation is not performed, the control unit 3 controls the power supply to be turned off as it is (step 12). At this time, the operating condition data stored in the internal memory 3a is erased. On the contrary, when it is determined that the simultaneous operation is performed, the control unit 3 transfers the operation condition data stored in the internal memory 3a to the EEPROM 7 and overwrites it (Step 13), and then turns off the power. (Step 12). At this time, the operating condition data changed by the operation of the operation unit 5 is stored in the EEPROM 7 without being erased by power-off.
[0014]
Next, when the power switch is operated, a power-on process is performed. In this process, the control unit 3 first determines whether or not the hold key 5a is operated in a state after activation (step 21). When determining operation which do Do yarn, controller 3 determines whether the operation condition data is stored in the EEPROM 7 (Step 22). When it is determined that the data is stored, the control unit 3 reads the operation condition data from the EEPROM 7, and sets and controls the operation conditions of the measurement unit 2, the display unit 4, and the printer according to the operation condition data. On the other hand, when it is determined that the hold key 5a is that been operated (step 21), and EEPROM7 when the operation condition data is determined to not stored (step 22), the control unit 3 is stored in the ROM6 The initial operating condition data is read, and the operating conditions of the measuring unit 2, the display unit 4 and the printer are set and controlled according to the initial operating condition data (step 24).
[0015]
As described above, according to the measuring apparatus 1, when the operator desires to save the operation condition data set by operating various keys of the operation unit 5, the operator operates the hold key 5a and the power switch at the same time. Thus, the operation condition data desired to be saved can be automatically saved in the EEPROM 7. Further, when the power is turned on again, the operator can automatically and quickly set the operation conditions of the measurement unit 2 and the display unit 4 to the desired operation conditions that have already been set without performing any special operation. . Furthermore, when the operator does not wish to save the operating condition data, the operating condition data can be erased by operating only the power switch to shut off the power, and when the power is turned on again, the hold key 5a. The operating conditions of each part can be automatically initialized by simultaneously operating. In addition, even when the operation condition data is stored, when the operator desires to change the setting to the initial operation condition, the operator can change the operation condition of each part by simply turning on the power while operating the hold key 5a. It can be easily initialized to the initial operating conditions. As described above, the operating condition of the measuring apparatus 1 is automatically set to any one of the initial operating condition and the operating condition changed by the operation of the operation unit 5 according to the operator's selection. As a result, the measurement device 1 that is extremely easy to use is provided.
[0016]
Further, by writing to the EEPROM 7 only when the power switch and the hold key 5a are operated at the same time, frequent writing can be avoided. As a result, writing failure of the EEPROM 7 can be prevented and the life can be extended.
[0017]
The present invention is not limited to the configuration shown in the above-described embodiment of the present invention. For example , the first storage unit in the present invention is not limited to the internal memory 3a, but may be configured by an external RAM connected to the control unit 3. In addition, the second storage unit is not limited to the EEPROM, and various types of nonvolatile memories that can be electrically written can be employed. Furthermore, the specific key in the present invention is not limited to the hold key 5a, and any key can be used. Further, it is possible to adopt a configuration in which the operating condition data stored in the EEPROM 7 at the time is deleted when the power is turned on or off while operating a specific key, or when a specific key is operated. In addition, in the embodiments of the present invention, the multimeter has been described as an example. However, the present invention is not limited to this, and can be applied to a voltmeter, an ammeter, a wattmeter, and various measuring devices such as a waveform recorder. Applicable in general.
[0018]
【The invention's effect】
As described above, according to the measuring apparatus of the first aspect, when the power-off operation is performed with the control unit operating the first key, the set operation condition is set to the nonvolatile second The second storage unit is stored in the storage unit and when the second key in the operation unit is not operated when the power is turned on and the operation condition is stored in the second storage unit. By controlling the operation of the measuring device according to the operating conditions stored in the operator, the operator can easily operate the measuring device under the already-set operating conditions while avoiding troublesome resetting of the operating conditions due to power interruption. Can be operated.
[0019]
According to the measuring apparatus of the second aspect, when the control unit is operating the second key when the power is turned on, and when the operating condition is not stored in the second storage unit In such a case, by controlling the operation of the measuring device according to the initial operating condition, it is possible to easily return to the initial operating condition according to the desire of the operator. As a result, the operator can automatically set any one of the initial operation condition and the preset operation condition according to the key operation at the time of power- on. Provided.
[0021]
According to the third aspect of the present invention, since the second storage unit is composed of an EEPROM, it can be constructed at a lower cost than a system employing a floppy disk (registered trademark) or a hard disk, and the first Since the stored contents are rewritten only when the power shut-off operation is performed in a state where the key is operated, a long-life storage unit can be configured while avoiding a writing failure.
[Brief description of the drawings]
FIG. 1 is a block diagram of a measuring apparatus 1 according to an embodiment of the present invention.
FIG. 2 is a flowchart of power-off processing.
FIG. 3 is a flowchart of power-on processing.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Measuring apparatus 2 Measuring part 3 Control part 3a Internal memory 4 Display part 5 Operation part 5a Hold key 7 EEPROM

Claims (3)

In a measuring apparatus comprising an operation unit capable of setting various operating conditions, a volatile first storage unit for storing the set operating conditions, and a control unit ,
A non-volatile second storage unit that can be electrically rewritten, and the control unit controls the operation of the measuring device according to the operation condition when the operation condition is set by the operation unit and is initialized when the power is turned on. The operation is controlled according to an operation condition, and when the power shut-off operation is performed in a state where the first key in the operation unit is operated, the set operation condition is stored in the second storage unit, In addition, when the second key in the operation unit is not operated when the power is turned on and the operation condition is stored in the second storage unit, the second storage unit stores the operation condition. measuring device and controls the pre kidou operation according to the operating conditions are. When the second key is operated when the power is turned on, or when the operation condition is not stored in the second storage unit, the control unit performs the initial operation measuring apparatus according to claim 1, wherein the controlling the front kidou operation according to the conditions. The second storage unit, measuring device according to claim 1 or 2, wherein it is a EEPROM.

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