JP2005312175A - Power supply device with standby function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To avoid the situation that a standby state exhibits only for a predetermined time at a power supply shut-off generation time even if it is a configuration that a start signal for starting a main power supply circuit is given intermittently. <P>SOLUTION: A power supply device 12 with a standby function includes the main power supply circuit 15 having a power supply unit 18 for supplying a power to a control circuit 11, and a standby power supply circuit 14 having a detector 16 for controlling the start/stop of the power supply unit 18 based on the start signal to be outputted intermittently in the state that the power supply output is necessary from the power supply unit 18. A starting circuit 19 provided in the main power supply circuit 15 starts to operate the power supply unit 18 before the starting circuit 17 provided in the standby power supply circuit 14 starts to operate the detector 16 when the power supply is started from a power supply terminal 13. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a power supply device with a standby function including a standby power supply circuit that functions as a standby power supply in addition to a main power supply circuit.

Conventionally, in an electronic device in which the operation of a load is controlled by a control circuit such as a microcomputer, the main power supply circuit for supplying power to the load and the control circuit is cut off and the load is cut off during the operation period of the load. During the period, a power supply device is provided in which the power supply of the control circuit is held by the standby power supply circuit (standby state), thereby suppressing dark current flowing through the main power supply circuit and the like to save power. (For example, refer to Patent Document 1). A standby power supply circuit used in this type of power supply device with a standby function incorporates a detection circuit for starting and stopping the main power supply circuit. This detection circuit basically activates the main power supply circuit when the activation signal is detected (cancel the standby state), and stops the main power supply circuit if no activation signal is detected for a certain period of time. (Standby state starts).
JP-A-8-54968

  Conventionally, in a power supply device with a standby function, for example, there is a configuration in which the activation signal is continuously given with the switch turned on, whereas a configuration in which the activation signal is given only intermittently There is also. Specifically, the master gives an activation signal intermittently so that only the necessary slaves are activated, such as a master / slave system in which a plurality of slaves are hung via a communication means to a master equipped with an activation control function. There is something that is configured. In addition, for example, in a power supply device with a standby function provided in association with an alternator with a communication function mounted on an automobile or an alternator with a self-excitation function that detects and activates an electromotive force of a power generation unit, the rotation of the alternator The start signal is given intermittently according to the above.

  When the activation signal is intermittently applied as described above, the following problems occur when the power supply for the power supply device with a standby function is momentarily cut off. That is, in order to explain this problem, FIG. 3 shows a schematic configuration example of a power supply device with a standby function (hereinafter simply referred to as a power supply device) 1. In FIG. 3, the standby power supply circuit 2 and the main power supply circuit 3 constituting the power supply device 1 are supplied with power from the power supply terminal 4. The main power supply circuit 3 is provided to supply a stabilized power output to the control circuit 5, and its start / stop is controlled by a start command and a stop command from the standby power supply circuit 2. The standby power supply circuit 2 activates the main power supply circuit 3 when detecting an activation signal given intermittently from the outside, and activates the main power supply circuit 3 when the activation signal is not detected continuously for a predetermined time or more. It is configured to exhibit a stopped standby state. In this standby state, only the power supply of the standby power supply circuit 2 is maintained, thereby realizing power saving.

  In this case, the standby power supply circuit 2 is configured to start the operation when the voltage at the power supply terminal 4 becomes equal to or higher than a preset operation start voltage, and detects the start signal after the operation starts. During the period up to, the start command is not output. For this reason, when the power supply of the power supply device 1 is momentarily cut off, even if the operation of the standby power supply circuit 2 is resumed after the cut-off state is released, the standby power supply circuit 2 newly detects the activation signal. The main power supply circuit 3 remains stopped during this period.

That is, as shown in the timing chart of FIG. 4 showing the voltage waveform of the power supply terminal 4, the operating state of each of the power supply circuits 2 and 3, and the voltage waveform of the activation signal, the timing after the timing t1 when the power supply device 1 is connected to the power supply terminal 4. In FIG. 2, the standby power supply circuit 2 is activated (ON), but the main power supply circuit 3 remains in an operation stopped (OFF) period until a timing t2 after which the activation signal is detected by the standby power supply circuit 2. Become. Thereafter, when the power supply from the power supply terminal 4 is momentarily cut off from the state in which the main power supply circuit 3 is activated (timing t3 to t4), the standby power supply circuit 2 starts operating in the power recovery process. However, during the period up to timing t5 when the next activation signal is detected, the main power supply circuit 3 is in a standby state in which the operation is stopped.
As described above, in the power supply device 1 having the conventional configuration, when a power interruption occurs, it is unavoidable that the power supply device 1 is in a standby state for a predetermined time after that, so that the operation becomes unstable. there were.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a start signal for starting the main power supply circuit intermittently, and for a predetermined time when a power supply interruption occurs. An object of the present invention is to provide a power supply device with a standby function that can avoid a situation in which a standby state is exhibited and can realize a stable operation.

  According to the means of claim 1, the standby power supply circuit operates the power supply unit when detecting a start signal intermittently output in a state where the power supply output from the power supply unit in the main power supply unit is necessary. At the same time, when the activation signal is not detected for a predetermined time or longer, the power supply unit is switched to the standby state in which the operation is stopped. In this case, when both the standby power supply circuit and the main power supply circuit are activated, when the power supply from the power supply terminal is momentarily cut off, the power supply circuits are temporarily stopped. In the subsequent power recovery process, the power supply activation circuit provided in the main power supply circuit starts the operation of the power supply unit before the standby power supply circuit. As a result, even when an instantaneous power interruption occurs, after the instantaneous interruption is canceled, the standby state is exhibited for a predetermined time (a period until a start signal is newly detected) as in the conventional configuration. Thus, stable operation can be realized.

  According to the means of claim 2, in the power recovery process after the power supply from the power supply terminal is momentarily cut off and the standby power supply circuit and the main power supply circuit are once stopped, the voltage of the power supply terminal is When the voltage rises above the second operation start voltage set in the power supply startup circuit in the circuit, a startup command signal is given to the power supply unit and the main power supply circuit is restarted. When the voltage rises above the first operation start voltage set in the auxiliary startup circuit in the power supply circuit, the detection circuit starts operating and the standby power supply circuit is restarted. As a result, even when a power interruption occurs, it is possible to avoid a situation in which the standby state is exhibited for a predetermined time after the instantaneous interruption state is canceled.

  According to the third aspect of the present invention, even if the stop command signal is output from the detection circuit during the period in which the start command signal is output from the power supply start circuit, the stop command signal is supplied to the power supply in the main power supply circuit. The input to the unit is blocked by the gate circuit. Therefore, even if noise corresponding to the stop command signal is generated from the internal detection circuit during the power-on process of the standby power supply circuit, there is no possibility of adversely affecting the start-up of the main power supply circuit.

An embodiment of the present invention will be described below with reference to FIGS.
In FIG. 1 showing the overall configuration by a combination of functional blocks, a control circuit 11 as a load includes, for example, an IC circuit for executing control related to an alternator (not shown) for a vehicle. Power is supplied from an attached power supply device (hereinafter simply referred to as a power supply device) 12. The power supply device 12 includes a standby power supply circuit 14 and a main power supply circuit 15 provided to be supplied with power from a power supply terminal 13 connected to the vehicle battery.

  The standby power supply circuit 14 has a detection circuit 16 for controlling the start / stop of the main power supply circuit 15 and when the power supply voltage supplied from the power supply terminal 13 becomes equal to or higher than a preset first operation start voltage V1. And a starting circuit 17 (corresponding to an auxiliary starting circuit) for starting the operation of the detection circuit 16. In this case, the detection circuit 16 detects an activation signal that is intermittently output in accordance with the rotation of the alternator. When the activation signal is detected, for example, a pulse shape that rises to a logic level “H”. And a pulse-like stop command signal Sp that rises to the logic level “H” when the start signal is not detected continuously for a predetermined time T or longer. .

  The main power supply circuit 15 has a power supply unit 18 for supplying a stabilized power supply output to the control circuit 11 and a power supply voltage supplied from the power supply terminal 13 is equal to or higher than a preset second operation start voltage V2. A startup circuit 19 (corresponding to a power supply startup circuit) that outputs a pulsed startup signal St ′ rising to a logic level “H” at the same time, a startup command signal St ′ from the startup circuit 19, and the standby power supply circuit 14 The power supply unit 18 is provided with a gate circuit 20 for supplying the start command signal St and the stop command signal Sp to the power supply unit 18. The pulse width of the start command signal St ′ is set to a value longer than the time until the output from the power supply terminal 13 rises to a stable state when the power is supplied through the power supply terminal 13.

Specifically, the gate circuit 20 includes an OR gate 20a for supplying the power supply unit 18 with the start command signals St and St ′ from the standby power supply circuit 14 and the start circuit 19, and a start command signal St ′ from the start circuit 19 In the output state, the configuration includes an AND gate 20b that blocks passage of the stop command signal Sp from the standby power supply circuit 14.
In this case, the power supply unit 18 is configured to start operation when any of the start command signals St and St ′ is given and to stop operating when the stop command signal Sp is given. The relationship between the second operation start voltage V2 set in the start circuit 19 in the main power supply circuit 15 and the first operation start voltage V1 set in the start circuit 17 in the standby power supply circuit 14 is as follows.
V1> V2
Is set to

Next, the operation of this embodiment having the above configuration will be described with reference to FIG. 2 showing the voltage waveform of the power supply terminal 13, the operating states of the power supply circuits 14 and 15, and the voltage waveform of the start signal.
That is, in FIG. 2, after the timing t <b> 1 when the power supply device 12 is connected to the power supply terminal 13, the voltage of the power supply terminal 13 is set to the second operation start voltage V <b> 2 set in the starting circuit 19 in the main power supply circuit 15. At this point, the start-up command signal St ′ is output from the start-up circuit 19, and the power supply unit 18 starts operating in response to this, and the main power-supply circuit 15 is started up (ON). Thereafter, when the voltage at the power supply terminal 13 becomes equal to or higher than the first operation start voltage V1 (> V2) set in the activation circuit 17 in the standby power supply circuit 14, the detection circuit 16 starts operating. Then, the standby power supply circuit 14 is activated (ON). Note that during the period when the start command signal St ′ is output, even if noise corresponding to the stop command signal Sp is generated during the power-up process of the standby power supply circuit 14, the passage is blocked by the AND gate 20b. Thus, the main power supply circuit 15 is reliably activated.

  As described above, after the standby power supply circuit 14 is activated, when the detection circuit 16 does not continuously detect the activation signal for a predetermined time T or more (timing t2), the detection circuit 16 outputs the stop command signal Sp. Therefore, the power supply unit 18 that has received this operation is stopped, and the operation of the main power supply circuit 15 is switched to the standby state in which the operation is stopped (OFF). Further, in such a standby state, when the detection circuit 16 detects the activation signal (timing t3), the activation command signal St is output from the detection circuit 16, and thus the main power supply circuit 15 is activated to enter the standby state. Is released.

  When the standby power supply circuit 14 and the main power supply circuit 15 are activated as described above and the power supply from the power supply terminal 13 is momentarily cut off (timing t4 to t5), the power supply circuits 14 and 15 are Once the operation is stopped, the main power supply circuit 15 is restarted when the voltage at the power supply terminal 13 becomes equal to or higher than the second operation start voltage V2 in the power recovery process. When the voltage becomes equal to or higher than the first operation start voltage V1, the standby power supply circuit 14 is restarted.

  That is, according to the power supply device 12 of the present embodiment, even when a power interruption occurs, it is possible to avoid a situation in which the standby state is exhibited for a predetermined time after the instantaneous interruption is canceled. Stable operation can be realized. Incidentally, as indicated by a two-dot chain line in FIG. 2, in the conventional configuration, the standby state is maintained until timing t6 when a start signal is newly input after a momentary power interruption. Further, according to the present embodiment, as described above, even if noise corresponding to the stop command signal Sp is generated in the power-up process of the standby power circuit 14, the passage is blocked by the AND gate 20b and the main power circuit. Since 15 is configured to be reliably activated, a stable operation can be realized also from this aspect.

The present invention is not limited to the embodiment described above and shown in the drawings. For example, the following modifications or expansions are possible.
In the above embodiment, the relationship between the first operation start voltage V1 set in the start circuit 17 in the standby power supply circuit 14 and the second operation start voltage V2 set in the start circuit 19 in the main power supply circuit 15 is shown. V1> V2 so that the main power supply circuit 15 is started before the standby power supply circuit 14 in the power recovery process after the power supply from the power supply terminal 13 is momentarily cut off. Such an activation sequence can be obtained by other configurations. Specifically, for example, the starter circuit 17 in the standby power supply circuit 14 is configured to start the operation of the detection circuit 16 when a predetermined delay time τ1 elapses after power supply from the power supply terminal 13 is started. The starter circuit 19 in the power supply circuit 15 is configured to start the operation of the power supply unit 18 when a predetermined delay time τ2 elapses after power supply from the power supply terminal 13 is started, and the relationship of τ1> τ2 is set. With this configuration, the main power supply circuit 15 can be started before the standby power supply circuit 14 in the power recovery process after the power supply from the power supply terminal 13 is momentarily cut off.
As an example of the load, the control circuit 11 for executing the control related to the alternator for the vehicle has been described. However, it is needless to say that the load can be applied to various loads as long as it is required to enter a standby state.

Functional block diagram showing the overall configuration of an embodiment of the present invention Timing chart for action explanation Functional block diagram schematically showing the conventional configuration Timing chart for action explanation

Explanation of symbols

  11 is a control circuit (load), 12 is a power supply device with a standby function, 13 is a power supply terminal, 14 is a standby power supply circuit, 15 is a main power supply circuit, 16 is a detection circuit, 17 is an activation circuit (auxiliary activation circuit), 18 is A power supply unit, 19 is an activation circuit (power activation circuit), and 20 is a gate circuit.

Claims (3)

A main power supply circuit comprising a power supply unit for supplying power to a load;
When the activation signal output intermittently in a state where the power output from the power supply unit is necessary is detected, the power supply unit is started to operate, and the activation signal is not continuously detected for a predetermined time or more. A standby power supply circuit for switching to a standby state in which the operation of the power supply unit is stopped,
In the power supply device with a standby function connected so that the main power supply circuit and the standby power supply circuit are fed from the same power supply terminal,
The main power supply circuit is provided with a power supply start circuit for starting the operation of the power supply unit before the standby power supply circuit when the main power supply circuit and the standby power supply circuit start to supply power from the power supply terminal. A power supply with standby function, characterized by The standby power circuit is
A start command signal is output to the power supply unit in the main power supply circuit when the start signal is detected, and a stop command signal is sent to the power supply unit when the start signal is not continuously detected for a predetermined time or more. A detection circuit that outputs
An auxiliary activation circuit that starts the operation of the detection circuit when a power supply voltage applied from the power supply terminal is equal to or higher than a first operation start voltage set in advance,
The power supply activation circuit provided in the main power supply circuit has the power supply voltage applied from the power supply terminal when the power supply voltage is equal to or higher than a second operation start voltage set to a level lower than the first operation start voltage. 2. The power supply device with a standby function according to claim 1, wherein a start command signal is output to the power supply unit. 3. The standby circuit according to claim 2, further comprising a gate circuit that prevents passage of the stop command signal output from the detection circuit during a period in which the start command signal is output from the power supply start circuit. Power supply with function

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