JP4052088B2 - Power circuit equipment - Google Patents

Description

【００２４】
以上のようにして、メモリ２２にデータを書き込んだ後、スイッチ制御部１４によるスイッチアレイ１２の選択を有効化する。すると、以降は、制御部８が出力するモード切替え信号に応じてメモリ２２に書き込まれたデータが読み出されてスイッチ制御部１４に与えられ、前記データによって指定されるスイッチ１３が閉路する。そして、電源供給部２５には各動作モードで異なるゲインが設定されるようになり、電圧Ｖoutは略一定に維持される。
【００２５】
以上のように本実施例によれば、電圧制御部２８は、制御部８が出力するモード切替え信号を参照して負荷７の動作モード、即ち電流消費状態がどのように変化するのかを判別し、モード切替え信号に基づいて、電源供給部２５が負荷７に供給する電源Ｖoutの電圧を制御するので、負荷７の電流消費状態が大きく変動する場合でも、前記電圧が所定の値となるように制御することができる。
【００２６】
そして、電圧制御部２８のアドレス発生部２３は、異なるモード切替え信号に応じてアドレスを発生させてメモリ２２に出力し、メモリ２２がそのアドレスに対応するデータ出力すると、電圧変化部２７は、与えられたデータに応じて電源Ｖoutの電圧を変化させるので、電源Ｖoutの電圧が、各動作モードにおいて一定レベルとなるように広い範囲で調整することができる。
【００２７】
また、電圧変化部２７を、増幅回路２４と増幅率切替え部２６とで構成したので、メモリ２２より与えられるデータに応じて増幅回路２４の増幅率を複数段階に変化させて、電源Ｖoutの電圧を調整することができる。更に、増幅率切替え部２６を、直列抵抗回路１１，スイッチアレイ１２，スイッチ制御部１４で構成したので、スイッチ制御部１４は、与えられたデータに応じてスイッチアレイ１２の複数のスイッチ１３の内いずれかを択一的に閉路させて、電源供給部２５における増幅回路２４の増幅率を変化させるので、簡単な構成によって増幅率を変化させ、電圧調整を行なうことができる。
【００２８】
本発明は上記しかつ図面に記載した実施例にのみ限定されるものではなく、以下のような変形または拡張が可能である。
モード切替え信号は、必ずしも動作制御部が制御対象に直接出力する信号に限らず、別途、電源回路装置用に出力する信号であっても良い。例えば、動作制御部が制御対象に直接出力する信号がアナログ信号である場合に、アドレス発生部に出力されるモード切替え信号は、そのアナログ信号の変化に応じてステップ的に変化する信号であっても良い。
また、制御対象側にもサブ制御用のマイコンなどが配置されている場合、上述したようにモード切替え信号はデジタルデータであっても良い。
アドレス発生部とデータ記憶部とを一体に構成しても良い。
制御対象は、その他、例えばスリープ／ウェイクアップ，のように動作モードが切替わるマイクロコンピュータなどでも良い。その場合、動作制御部は、外部要因に応じてマイクロコンピュータにモード切替え信号を出力する構成要素となる。要は、各種の動作モードに応じて消費電流が比較的大きな範囲で変化する制御対象に電源を供給する電源回路装置であれば適用が可能である。
【図面の簡単な説明】
【図１】本発明の一実施例であり、電源回路の電気的構成を示す機能ブロック図
【図２】電源回路のメモリにデータを書き込んで設定する場合の手順を示すフローチャート
【図３】従来技術を示す図１相当図（その１）
【図４】図１相当図（その２）
【符号の説明】
７は負荷（制御対象）、８は制御部（動作制御部）、１２はスイッチアレイ、１４はスイッチ制御部、２１は電源回路（電源回路装置）、２２はメモリ（データ記憶部）、２３はアドレス発生部、２４は増幅回路、２５は電源供給部、２６は増幅率切替え部、２７は電圧変化部、２８は電圧制御部を示す。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power supply circuit device that controls a voltage of a power supply generated by a power supply unit based on a reference voltage generated by a reference voltage generation circuit.
[0002]
[Prior art]
FIG. 3 shows a conventional example of a power supply circuit that generates a power supply of a predetermined voltage using a reference voltage generation circuit. The reference voltage generation circuit 1 is composed of, for example, a bandgap reference and generates a reference voltage Vref. The reference voltage Vref is connected to the non-inverting input terminal of the operational amplifier 2, and the output terminal of the operational amplifier 2 is connected to the gate of the P-channel MOSFET 3. The source of the FET 3 is connected to the power supply VDD, and the drain is connected to the ground through a series circuit of resistors 4 and 5. The common connection point of the resistors 4 and 5 is connected to the inverting input terminal of the operational amplifier 2. The above constitutes the power supply circuit 6.
[0003]
The drain of the FET 3 supplies an operation power supply with a voltage Vout to the load 7. The voltage Vout is determined by the following equation when the resistance values of the resistors 4 and 5 are R1 and R2, respectively.
Vout = Vref × (R1 + R2) / R2
In addition, Iout is an output current of the power supply circuit 6 supplied via the FET 3 and a consumption current of the load 7. For example, the load 7 composed of a motor and its drive circuit is driven and controlled by a control unit 8 which is a microcomputer, for example. Accordingly, the current Iout also changes as the operating state of the load 7 changes.
[0004]
In the power supply circuit 6 having such a configuration, since the level of the reference voltage Vref generated by the reference voltage generation circuit 1 and the offset voltage of the operational amplifier 2 fluctuate due to variations in manufacturing processes, the voltage Vout also varies. . Therefore, it is necessary to perform trimming by some means so that the voltage Vout becomes a desired level.
[0005]
FIG. 4 shows a power supply circuit 9 to which a configuration for performing such trimming is added. That is, a series circuit 11 of a plurality of resistors 10 is connected to the drain of the FET 3 instead of the resistors 4 and 5. A plurality of switches 13 constituting the switch array 12 are connected between the common connection point of the resistors 10 and the inverting input terminal of the operational amplifier 2.
[0006]
Only one of the switches 13 of the switch array 12 is closed by a switching signal output by the switch control unit 14. The switch controller 14 is supplied with correction value data read from the memory 15. That is, the switch control unit 14 is configured as an encoder. The memory 15 is a nonvolatile memory in which data can be written.
[0007]
Then, for example, the operator measures the voltage Vout output from the power supply circuit 9 in the production line, and sets the gain of the amplifier circuit centering on the operational amplifier 2 to the value of the series resistance circuit 11 so that the voltage becomes a predetermined level. Data is written in the memory 15 so as to be adjusted by the pressure ratio. When power is supplied to the system including the power supply circuit 9, the data written in the memory 15 is output to the switch control unit 14, and the switch control unit 14 outputs a switching signal according to the given data. Thus, only one switch 13 of the switch array 12 is closed. Then, the gain of the amplifier circuit is determined by the voltage dividing point where the switch 13 is closed.
[0008]
[Problems to be solved by the invention]
In the power supply circuit 9 configured as described above, if the operation mode (current consumption state) of the load 7 is substantially constant, the voltage Vout can be adjusted to an appropriate level in the operation mode. However, when the operation mode of the load 7 changes variously and the current consumption state fluctuates greatly, the influence of the voltage drop due to the resistance of the power supply wiring cannot be ignored, and the voltage is adjusted in the existing voltage feedback system. There was a problem that it was impossible to maintain the level.
[0009]
The present invention has been made in view of the above circumstances, and an object thereof is to provide a power supply circuit device capable of adjusting a power supply voltage in accordance with the fluctuation even when the current consumption state of the load fluctuates greatly. It is in.
[0010]
[Means for Solving the Problems]
According to the power supply circuit device of the first aspect, the voltage control unit refers to the mode switching signal that is output by the operation control unit to switch the operation mode of the control target. It can be determined how the state changes. Therefore, by controlling the voltage of the power supply supplied to the control target by the power supply unit based on the mode switching signal, the voltage is always at a constant level even when the current consumption state of the control target varies greatly. Can be controlled.
[0011]
The address generator of the voltage control unit may generate a different address in accordance with the output state of the mode switch signal, and outputs the data storage unit. Then, the data stored at the address is read from the data storage unit, and the voltage control unit adjusts the power supply voltage according to the data.
[0012]
In other words, the operator makes settings in advance as follows. First, the power supply unit supplies power to the controlled object with the power supply voltage level set appropriately in the voltage control unit, and the power supply voltage when the operation mode of the controlled object changes is measured. Then, the voltage setting in the voltage controller is changed while observing the power supply voltage at a constant level in each operation mode. When the voltage setting is determined, the voltage setting data is written and stored in the address of the data storage unit generated by the address generation unit according to each operation mode.
By storing data in the data storage unit as described above, the voltage of the power supplied from the power supply unit to the control target can be adjusted over a wide range so as to be a constant level in each operation mode. .
[0013]
According to the power supply circuit device of the second aspect , since the voltage control unit includes the amplification circuit that amplifies the reference voltage and the amplification factor switching unit, the amplification factor of the amplification circuit is set according to the data supplied from the data storage unit. The power supply voltage can be adjusted by changing in a plurality of stages.
[0014]
According to the power supply circuit device of the third aspect , the switch control unit alternatively closes one of the plurality of switches of the switch array in accordance with the data given from the data storage unit. Then, the amplification factor of the amplifier circuit changes as the connection state between the resistor and the amplifier circuit in the series resistor circuit changes according to the closed switch. Therefore, the amplification factor can be changed with a simple configuration.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to FIGS. 3 and FIG. 4 are denoted by the same reference numerals, description thereof is omitted, and only different portions will be described below. The power supply circuit (power supply circuit device) 21 in the present embodiment replaces the memory 15 of the power supply circuit 9 shown in FIG. 4 with a memory (data storage unit) 22 and an address generation unit 23 between the control unit 8 and the memory 22. Is arranged.
[0016]
The address generation unit 23 is configured to generate a plurality of addresses in response to a mode switching signal output by the control unit (operation control unit) 8. The configurations of the memory 22 and the address generator 23 are determined according to the configurations of the series resistance circuit 11 and the switch array 12. For example, if the number of resistors 10 in the series resistor circuit 11 is “17” and the number of switches 13 in the switch array 12 is “16”, the number of data bits in one word of the memory 22 and the address generator 23 The number of bits of the address that is generated and output to the memory 22 is “4”.
[0017]
In this case, the switch control unit 14 closes the switches 13 (1) to 13 (16) according to the 4-bit data “0000 (0)” to “1111 (15)” output from the memory 22, respectively. The control signal is output as follows.
[0018]
The address generation unit 23 generates an address corresponding to the number of state transitions of the mode switching signal output from the control unit 8. For example, if the number of state transitions is “3”, three types of 4-bit addresses are generated. Further, the memory 22 is configured to always output the data of the memory cell corresponding to the address to the switch control unit 14 in a state where the address is given.
[0019]
The operational amplifier 2, the series resistor circuit 11, and the switch array 12 constitute an amplifier circuit 24, and an FET 3 added thereto constitutes a power supply unit 25. The series resistance circuit 11, the switch array 12, and the switch control unit 14 constitute an amplification factor switching unit 26, and the amplification circuit 24 and the amplification factor switching unit 26 constitute a voltage changing unit 27. Further, a voltage control unit 28 is configured by adding the memory 22 and the address generation unit 23 to the amplification factor switching unit 26.
[0020]
FIG. 2 is a flowchart showing a procedure when data is set in the memory 22 of the power supply circuit 21. When the following operation is executed, the selection of the switch array 12 by the switch control unit 14 is temporarily invalidated. First, the operator closes any switch 13 in the switch array 12 to temporarily set the gain of the power supply unit 25 (step S1). For example, if Vref = 1.24 V and the voltage setting target of the power supply Vout is Vout = 4.96 V, the switch 13 whose gain (amplification factor) is “4” due to the voltage dividing resistance ratio of the series resistor circuit 11. Close.
[0021]
Then, the control unit 8 operates the load (control target) 7 in any operation mode (step S2), and closes any switch 13 in the switch array 12 while measuring the voltage of the power source Vout in each operation mode. The gain is adjusted (step S3). When the switch 13 whose voltage Vout is set to an appropriate level is selected, data for selecting the switch 13 is stored in the memory cell corresponding to the address of the memory 22 generated by the address generator 23 according to the operation mode. Write and store (step S4). Then, if the above process is executed for all the operation modes (step S5, “YES”), the process is terminated. If all the operation modes are not executed (“NO”), the process returns to step S1.
[0022]
As an example, there are three types of mode switching signals (for example, speed command signals for the load 7 which is a motor) given to the load 7 by the control unit 8, and the amount of current consumed by the load 7 is It is assumed that the number increases in the order of modes A, B, and C. In this case, the mode switching signal may be an analog signal, a 2-bit data digital signal, or a signal output by three independent signal lines, and an address generator according to the signal output form. What is necessary is just to comprise 23 input sides suitably.
[0023]
Assume that the addresses generated by the address generator 23 in accordance with the operation modes A, B, and C are set to “0001”, “0010”, and “0100”, for example. The power supply circuit 21 is configured as a constant voltage circuit in which the voltage Vout is constant in any operation mode, and the switch 13 to be selected for each mode in order to maintain the voltage Vout constant is (5), ( 8) and (12), data is written in the memory 22 as follows.

[0024]
As described above, after the data is written in the memory 22, the selection of the switch array 12 by the switch control unit 14 is validated. Then, thereafter, the data written in the memory 22 is read according to the mode switching signal output from the control unit 8 and given to the switch control unit 14, and the switch 13 specified by the data is closed. In the power supply unit 25, different gains are set in each operation mode, and the voltage Vout is maintained substantially constant.
[0025]
As described above, according to the present embodiment, the voltage control unit 28 refers to the mode switching signal output from the control unit 8 to determine how the operation mode of the load 7, that is, the current consumption state changes. Since the power supply unit 25 controls the voltage of the power supply Vout supplied to the load 7 based on the mode switching signal, the voltage becomes a predetermined value even when the current consumption state of the load 7 fluctuates greatly. Can be controlled.
[0026]
Then, the address generation unit 23 of the voltage control unit 28 generates an address in response to a different mode switching signal and outputs it to the memory 22. When the memory 22 outputs data corresponding to the address, the voltage change unit 27 gives Since the voltage of the power supply Vout is changed in accordance with the data that has been obtained, the voltage of the power supply Vout can be adjusted over a wide range so as to be a constant level in each operation mode.
[0027]
Further, since the voltage changing unit 27 is configured by the amplifier circuit 24 and the amplification factor switching unit 26, the amplification factor of the amplifier circuit 24 is changed in a plurality of stages according to the data given from the memory 22, and the voltage of the power supply Vout is changed. Can be adjusted. Furthermore, since the amplification factor switching unit 26 includes the series resistance circuit 11, the switch array 12, and the switch control unit 14, the switch control unit 14 selects one of the plurality of switches 13 of the switch array 12 according to the given data. Any one of them is alternatively closed to change the amplification factor of the amplifier circuit 24 in the power supply unit 25. Therefore, the amplification factor can be changed with a simple configuration to adjust the voltage.
[0028]
The present invention is not limited to the embodiments described above and shown in the drawings, and the following modifications or expansions are possible.
The mode switching signal is not necessarily a signal that the operation control unit directly outputs to the control target, but may be a signal that is separately output for the power supply circuit device. For example, when the signal directly output to the control target by the operation control unit is an analog signal, the mode switching signal output to the address generation unit is a signal that changes stepwise in accordance with the change in the analog signal. Also good.
Further, when a sub-control microcomputer or the like is also arranged on the control target side, the mode switching signal may be digital data as described above.
The address generation unit and the data storage unit may be configured integrally.
Control subjects, other, for example, sleep / wake-up, the operation mode may be in such mode changes micro computer and so on. In this case, the operation control unit is a component that outputs a mode switching signal to the microcomputer according to an external factor. In short, it can be applied to any power supply circuit device that supplies power to a controlled object whose current consumption changes within a relatively large range in accordance with various operation modes.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing an electrical configuration of a power supply circuit according to an embodiment of the present invention. FIG. 2 is a flowchart showing a procedure for writing and setting data in a memory of a power supply circuit. Figure 1 equivalent diagram showing the technology (part 1)
FIG. 4 is a view corresponding to FIG. 1 (part 2).
[Explanation of symbols]
7 is a load (control target), 8 is a control unit (operation control unit), 12 is a switch array, 14 is a switch control unit, 21 is a power circuit (power circuit device), 22 is a memory (data storage unit), and 23 is An address generation unit, 24 is an amplifier circuit, 25 is a power supply unit, 26 is an amplification factor switching unit, 27 is a voltage changing unit, and 28 is a voltage control unit.

Claims (3)

A reference voltage generation circuit;
A power supply unit that generates and supplies power of a predetermined voltage based on the reference voltage generated by the reference voltage generation circuit;
In response to the mode switching signal output when the operation control unit switches the operation mode of the control target, the power supply unit controls the voltage of the power supplied to the control target to be always at a constant level. It is composed of a voltage control unit,
The voltage control unit includes an address generation unit that generates different addresses according to the output state of the mode switching signal, and a data storage unit that reads data stored in the address when the address is given. ,
The data stored in the data storage unit is data for voltage setting written in advance according to each operation mode,
Power supply circuit and wherein that you adjust the supply voltage according to data read from the data storage unit. The voltage controller is
An amplifier circuit for amplifying the reference voltage;
The power supply circuit according to claim 1, wherein Rukoto a gain switching unit configured to switch a plurality of stages of amplification factor of the amplifier circuit. The amplification factor switching unit is
A series resistor circuit in which a plurality of resistors for setting the amplification factor of the amplifier circuit are connected in series;
A switch array comprising a plurality of switches connected between each common connection point of the series resistor circuit and the input terminal of the amplifier circuit;
Power of claim 2, wherein Rukoto is composed of a switch control unit for closing alternatively one of the switches constituting the switch array in accordance with the data read from the data storage unit Circuit device.

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