JP2012110172A - AC adapter device - Google Patents

Abstract

A novel and improved AC adapter device capable of reducing the overall size of the device and constructing an AC power-DC power conversion unit at low cost is provided.
An AC power-DC power conversion unit that converts input AC power into DC power and outputs DC power, and a main output terminal that outputs DC power output from the AC power-DC power conversion unit 106, different from the main output terminal, a plurality of sub output terminals 232, 234, 236 for outputting the DC power output from the AC power-DC power conversion unit, and the total power output from the AC power-DC power conversion unit When the total power is equal to or higher than the output rating of the main output terminal when the total power is compared with the output rating of the main output terminal, the detection unit 112 that detects the amount and the total power is compared with the output rating of the main output terminal. And a control unit 214 that cuts off the output of power from the output terminal.
[Selection] Figure 2

Description

  The present invention relates to an AC adapter device.

  The AC adapter receives alternating current (AC) power from a commercial power supply, and outputs power in a format that matches the output device. For example, the AC adapter is generally an AC-DC adapter that outputs direct current (DC) power.

  In some AC adapters, a main output destination by a DC output terminal is a PC (personal computer), for example, and an output destination by a USB terminal is added. In order to realize such an AC adapter with multiple types of output destinations, the AC adapter's ability is set so that it can output more than the sum of the DC output terminal rating and the USB terminal output rating. It was. By doing so, it is possible to realize rated power output at all output terminals without any ingenuity.

JP 2003-111418 A

  However, since the power rating of the AC adapter is increased by taking the above means, the size of the adapter itself is increased. As a result, there is a problem in that the portability deteriorates and the cost increases due to the necessity of mounting a large power component as a built-in component.

  Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to reduce the overall size of the apparatus and to configure an AC power-DC power conversion unit at low cost. It is another object of the present invention to provide a new and improved AC adapter device.

  In order to solve the above problems, according to an aspect of the present invention, an AC power-DC power converter that converts input AC power into DC power and outputs DC power, and an AC power-DC power converter Unlike the main output terminal, the main output terminal that outputs the DC power output from the plurality of sub-output terminals that output the DC power output from the AC power-DC power conversion unit, and the AC power-DC power conversion unit When the total power is equal to or higher than the output rating of the main output terminal when the total power is compared with the output rating of the main output terminal An AC adapter device is provided that includes a control unit that cuts off power output from at least one sub-output terminal.

  The priority order of the plurality of sub-output terminals is determined for each sub-output terminal, and the sub-output terminals may be blocked in order based on the priority order.

  The priority order may be set by the user.

  At least one of the plurality of sub output terminals may be a USB terminal.

  The secondary output terminals may be sequentially blocked in descending order of the output ratings of the plurality of secondary output terminals.

  When the output of the main output terminal decreases below a predetermined value, the output of power from the sub output terminal from which the output of power is cut off may be restored.

  The auxiliary main power terminal may be selectively cut off based on an excess amount where the total power exceeds the output rating of the main output terminal.

  The control unit may block a plurality of the sub main power terminals simultaneously.

  The total output capability of the AC power-DC power conversion unit may be determined based on the output rating of the main output terminal.

  As described above, according to the present invention, the size of the entire apparatus can be reduced, and the AC power-DC power conversion unit can be configured at low cost.

1 is a block diagram showing an AC adapter 100 according to a first embodiment of the present invention. It is a block diagram which shows the AC adapter 200 which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows the output or interruption | blocking operation | movement of the electric power in the AC adapter 100 which concerns on the 1st Embodiment of this invention. It is a flowchart which shows the output or interruption | blocking operation | movement of the electric power in the AC adapter 100 which concerns on the 1st Embodiment of this invention. It is a flowchart which shows the output or interruption | blocking operation | movement of the electric power in the AC adapter 200 which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows the output or interruption | blocking operation | movement of the electric power in the AC adapter which concerns on the 3rd Embodiment of this invention. 1 is an external view showing a main body part of an AC adapter 100 and an attachment 500. FIG. It is a perspective view which shows the attachment 500. FIG. 4 is a top view showing an attachment 500. FIG. It is a side view which shows the attachment 500. FIG.

  Exemplary embodiments of the present invention will be described below in detail with reference to the accompanying drawings. In addition, in this specification and drawing, about the component which has the substantially same function structure, duplication description is abbreviate | omitted by attaching | subjecting the same code | symbol.

The description will be made in the following order.
1. First embodiment (AC adapter: Simultaneously shuts off multiple USB terminals)
2. Second embodiment (AC adapter: shut off multiple USB terminals in priority order)
3. Third embodiment (AC adapter: shuts off multiple USB terminals according to excess power)
4). AC adapter attachment

<1. First Embodiment>
An AC adapter 100 according to a first embodiment of the present invention will be described with reference to FIG. The AC adapter 100 includes an AC adapter unit 102, a plug 104, a DC output terminal 106, an ammeter 112, a comparator 114, a regulator 122, a first USB terminal 132, a second USB terminal 134, and the like. Here, although there are two USB terminals, the present invention is not limited to the example having two USB terminals, and may be one or three or more.

  The AC adapter unit 102 receives alternating current (AC) power from a commercial power supply, converts the alternating current power into direct current (DC) power, and outputs direct current power. The AC adapter unit 102 outputs DC power to the DC output terminal 106, the first USB terminal 132, and the second USB terminal 134.

  The plug 104 is for AC power supply. The DC output terminal 106 has a shape that can be connected to a PC (personal computer), for example, and outputs DC power. The output from the DC output terminal 106 is the main function of the AC adapter 100. The ammeter 112 measures the amount of direct current output from the AC adapter unit 102. The comparator 114 compares the amount of current measured by the ammeter 112 with a predetermined value and outputs a comparison result. The regulator 122 keeps the voltage and current constant. Based on the result of the comparator 114, the regulator 122 cuts off or connects the power to the first USB terminal 132 and the second USB terminal 134. The first USB terminal 132 and the second USB terminal 134 are terminals having a shape according to the USB standard. The first USB terminal 132 and the second USB terminal 134 are connected to the same regulator 122. For this reason, when the regulator 122 controls the interruption and connection of power, the two USB terminals (the first USB terminal 132 and the second USB terminal 134) operate simultaneously.

  In the present embodiment, the total output capacity of the entire AC adapter 100 is made smaller than the sum of the output ratings of the DC output terminal 106 and the output ratings of the first USB terminal 132 and the second USB terminal 134. For example, the total output capacity of the AC adapter 100 is set to the rating of the device (for example, PC) connected to the DC output terminal 106.

  For example, in the AC adapter 100 shown in FIG. 1, the output rating of the DC output terminal 106 for PC is 90 W × 1 terminal, and the output ratings of the first USB terminal 132 and the second USB terminal 134 are 7.5 W × 2 terminals. Then, the total output capacity of the AC adapter 100 is set to 90 W in order to set the output rating of the DC output terminal 106.

At this time, the AC adapter 100 operates as shown in FIGS.
The total output of the output generated by the PC connected to the DC output terminal 106 and the output generated by the device connected to the first USB terminal 132 and the second USB terminal 134 (hereinafter also simply referred to as “USB terminal”) is If the output capacity is less than 90 W (step S101), the output of either terminal can be continued without any problem.

  On the other hand, for example, at the first USB terminal 132 or the second USB terminal 134, the output to the PC has increased to 88W (PC load is 88W) with 5W output (that is, the connected device has a 5W load). In this case (step S101), the total output is 93W. Therefore, the total output exceeds 90 W, which is the capacity of the AC adapter 100. When this state is detected, the regulator 122 is turned off (step S102). As a result, output from the USB terminal is blocked, but output for the PC, which is the main function of the AC adapter 100, can be continued.

  Note that it is conceivable that the DC output decreases after the output from the USB terminal is cut off as described above. In this case, the output from the USB terminal can be restored. However, if the total output becomes 90 W or less, if it is immediately restored, it is assumed that ON / OFF is repeated and oscillation occurs. It is necessary to prevent such oscillation. Therefore, two means can be considered as means for automatically returning the output from the USB terminal. First, as shown in FIG. 3, for example, the controller waits for 20 seconds (step S103), and the regulator 122 is turned on every 20 seconds (step S104). As a result, the output from the USB terminal is restored. In this state, if the total output is not 90 W or more, the output from the USB terminal is continued as it is, and if it is 90 W or more, the output from the USB terminal is cut off again.

  In the second method, the output from the USB terminal is restored when the total output capacity of the AC adapter 100 falls below the total output rating of the USB terminal. For example, in a sensor (for example, an ammeter 112) that detects the total output of the AC adapter unit 102, 90W-15W (the respective ratings of the first USB terminal 132 and the second USB terminal 134 are 7.5W) = 75W, Return when output falls below. That is, if the total output is not 75 W or more (step S203), the regulator 122 is turned on (step S204). On the other hand, if the total output is 75 W or more (step S203), the regulator 122 is kept OFF, and the output from the USB terminal remains cut off. Further, regardless of the output rating of the USB terminal, the output from the USB terminal can be restored when the output falls by a certain width. According to such control, it is possible to restore the USB output at an early stage within a possible range. In addition, the USB output does not always operate at the rated value, and there may be a high percentage of situations where it operates at a power lower than the rated value. Instead, it is preferable to restore the output from the USB terminal when the output drops by a certain width.

  In the first embodiment, the total output capability of the AC adapter 100 is set to the output rating of the DC output terminal 106, and when the total output exceeds the total output capability of the AC adapter 100, the regulator 122 is turned off and the USB Shut off the output from the terminal. At this time, the regulator 122 blocks both outputs of the two USB terminals (the first USB terminal 132 and the second USB terminal 134).

<2. Second Embodiment>
An AC adapter 200 according to the second embodiment of the present invention will be described with reference to FIG. The AC adapter 200 includes an AC adapter unit 102, a plug 104, a DC output terminal 106, an ammeter 112, a control unit 214, a first regulator 222, a second regulator 224, a third regulator 226, 1 USB terminal 232, second USB terminal 234, third USB terminal 236 and the like. Although there are three USB terminals here, the present invention is not limited to an example in which there are three USB terminals. Further, without providing a regulator for each output, only one regulator may be provided, and an ON / OFF switch may be provided for each output line, and these switches may be controlled from the control unit 214.

  In the second embodiment, one USB terminal is connected to one regulator. In addition, since the function of each component other than the control unit 214 is the same as that of the first embodiment, detailed description thereof is omitted. The AC adapter unit 102 is an example of an AC power-DC power conversion unit, the DC output terminal 106 is an example of a main output terminal, and a first USB terminal 232, a second USB terminal 234, and a third USB terminal 236. Is an example of a sub-output terminal, and the ammeter 112 is an example of a detection unit. The type of the sub output terminal is not particularly limited, and the sub output terminal may not be a USB terminal. For example, if it is a general-purpose output terminal, it may be configured as a general-purpose output terminal such as 12 V or 3 V, and if it is a dedicated output terminal, it may be configured as a dedicated terminal that can be connected to a power connector such as a Walkman. good.

  The control unit 214 controls each of the first regulator 222, the second regulator 224, and the third regulator 226 based on the total output of the AC adapter unit 102 based on the current measured by the ammeter 112.

  The AC adapter 200 according to the present embodiment includes a plurality of USB terminals, and can set the priority order of the USB terminals to be blocked. As a priority setting method, for example, a manufacturer can set the AC adapter 200 in advance before shipping. Further, a configuration may be adopted in which the user can operate the control unit 214 via the operation input unit, and the priority order can be set by the user's operation. Further, when the output ratings of the first terminal 232, the second terminal 234, and the third terminal 236, which are auxiliary output terminals, are different from each other, the output ratings may be sequentially cut off in descending order. Further, a plurality of sub output terminals may be shut off simultaneously.

  In the present embodiment, the total output capacity of the entire AC adapter 200 is made smaller than the sum of the output ratings of the DC output terminal 106 and the output ratings of the first USB terminal 232, the second USB terminal 234, and the third USB terminal 236. For example, the total output capacity of the AC adapter 200 is set to the rating of the device (for example, PC) connected to the DC output terminal 106.

  For example, in the AC adapter 200 shown in FIG. 2, the output rating of the DC output terminal 106 for PC is 90 W × 1 terminal, and the output ratings of the first USB terminal 232, the second USB terminal 234, and the third USB terminal 236 are 7.5 W × 3. Terminal. Then, the total output capacity of the AC adapter 200 is set to 90 W in order to set the output rating of the DC output terminal 106.

  Next, the operation of the AC adapter 200 will be described using the flowchart shown in FIG. The point that the output from the USB terminal is cut off when the total output of the AC adapter unit 102 is 90 W or more is the same as in the first embodiment described above.

  In this embodiment, priorities are assigned to the USB terminals to be blocked. Here, priority means that power supply is performed with priority. In the following, it is assumed that the first USB terminal 232 has the lowest priority, and the second USB terminal 234 and the third USB terminal 236 increase in order.

  The total of the output generated by the PC connected to the DC output terminal 106 and the output generated by the device connected to the first USB terminal 232, the second USB terminal 234, and the third USB terminal 236 (hereinafter also simply referred to as “USB terminal”). If the output is less than 90 W which is the output capability of the adapter (step S301), the output of any terminal can be continued without any problem.

  On the other hand, when the total output is 90 W or more (step S301), first, the first regulator 222 is turned off (step S302), and the output from the first USB terminal 232 is cut off. In this state, when the total output is still 90 W or more (step S303), the second regulator 224 is turned off (step S304), and the output from the second USB terminal 234 is cut off. Furthermore, in this state, when the total output is still 90 W or more (step S305), the third regulator 226 is turned off (step S306), and the output from the third USB terminal 236 is cut off.

  If this priority order is made known to the end user, for example, it is possible to connect a USB device to be preferentially charged to the third USB terminal 236 that is difficult to be blocked.

  The means for automatically returning the output from the USB terminal when the DC output decreases after the output from the USB terminal is cut off as described above is described in the second method of the first embodiment. This method can be adopted, for example. For example, after the output from the first USB terminal 232 is cut off, for example, the sensor (for example, the ammeter 112) that detects the total output of the AC adapter unit 102 is restored when the total output falls below 75W. That is, if the total output is not 75 W or more (step S311), the first regulator 222 is turned on (step S312), and the output from the first USB terminal 232 is restored. On the other hand, if the total output is 75 W or more (step S311), the first regulator 222 is kept OFF, and the output from the first USB terminal 232 remains cut off. The same applies to the second USB terminal 234 and the third USB terminal 236 (steps S321, S322, S307, and S308). Here, when the total output is less than 75W, the return is made, for example, when the output is 90W or more, the output is turned off (OFF), and when the output is less than 90W, the output is turned on. If the control is to turn on (ON), it is assumed that ON / OFF is repeated and oscillation occurs, so that hysteresis is provided to prevent this. Therefore, the output that is the standard for recovery can be set to any output below 90 W. For example, the output that is the standard for recovery is not 75 W, but is 80 W, for example. For example, a case where it is predicted that the USB load is relatively small, or a case where the USB load is expected to be relatively large if it is desired to reduce OFF again as much as possible after returning.

<3. Third Embodiment>
Next, an AC adapter according to a third embodiment of the present invention will be described. The third embodiment has the same configuration as the AC adapter 200 shown in FIG. However, it differs from the second embodiment in that the control unit 214 controls the first regulator 222, the second regulator 224, and the third regulator 226 as described below.

  In this embodiment, a plurality of USB terminals are provided, the amount of power exceeding the total output capability of the AC adapter is determined, and the number of USB terminals to be blocked is changed according to the excess amount.

  For example, in the AC adapter according to the third embodiment having the configuration as shown in FIG. 2, the output rating of the DC output terminal 106 for PC is 90 W × 1, the first USB terminal 232, the second USB terminal 234, and the third USB terminal. The output rating of 236 is 7.5 W × 3 terminals. Then, the total output capacity of the AC adapter is set to 90 W in order to set the output rating of the DC output terminal 106.

  Next, the operation of the AC adapter will be described with reference to the flowchart shown in FIG.

  When the total output is 90 W or more, the excess amount is measured. If the total output is 105 W or more (step S401), the first regulator 222, the second regulator 224, and the third regulator 226 are turned off ( Step S411), the output from the first USB terminal 232, the second USB terminal 234 and the third USB terminal 236 is cut off. If the total output is 97.5 W or more and less than 105 W (step S402), the first regulator 222 and the second regulator 224 are turned off (step S421), and the outputs from the first USB terminal 232 and the second USB terminal 234 are cut off. . If the total output is 90 W or more and less than 97.5 W (step S403), the first regulator 222 is turned off (step S404), and the output of the first USB terminal 232 is cut off.

  Also in the third embodiment, if the order in which the output is cut off is made known to the end user, for example, it is possible to connect a USB device that is to be preferentially charged to the third USB terminal 236 that is difficult to cut off.

  However, for example, when 4 W output is performed at the first USB terminal 232, 3 W output is performed at the second USB terminal 234, and 89 W output is performed at the DC output terminal 106 by the PC, the total becomes 96 W, and in this embodiment, the first USB terminal 232 is used. Only the decision will be blocked. For this reason, the total output becomes 92 W even after the interruption, exceeding 90 W which is the total output capacity of the AC adapter. Therefore, in such a case, it is preferable to add a workaround such as sequentially blocking other USB terminals. With such a configuration, when the output from the USB terminal is selectively cut off, it can be quickly performed.

  For example, the method described in the second embodiment is adopted as means for automatically returning the output from the USB terminal when the DC output decreases after the output from the USB terminal is cut off as described above. be able to. For example, after the output from the first USB terminal 232 is cut off, for example, in a sensor (for example, the ammeter 112) that detects the total output of the AC adapter unit 102, the output is restored when the total output falls below 75W. That is, if the total output is not 75 W or more (step S405), the first regulator 222 is turned on (step S406), and the output from the first USB terminal 232 is restored. On the other hand, if the total output is 75 W or more (step S405), the first regulator 222 is kept OFF, and the output from the first USB terminal 232 remains cut off. The same applies when the first USB terminal 232 and the second USB terminal 234 are blocked, or when the first USB terminal 232, the second USB terminal 234, and the third USB terminal 236 are blocked (steps S422, S423, S412, and S413). In FIGS. 5 and 6, the output voltage 75 W or higher is used as a determination value for recovery with hysteresis, but at the time of recovery, a predetermined time (for example, 20 seconds) elapses as described above. In such a case, it may be restored.

<4. Attachment of AC adapter>
In the AC adapter, by combining the cable clip-shaped attachment, it becomes possible to easily bundle the cords for DC connection, and the portability can be improved.

  FIG. 7 is an external view showing a state in which the attachment 500 is attached to the main body portion of the AC adapter 100. FIG. 7 shows a state in which the cord 108 to which the DC output terminal 106 for DC connection connected to the PC, for example, is connected with the attachment 500 is bundled.

  The attachment 500 has a shape as shown in FIGS. The attachment 500 includes a cylindrical part 502 and a pressing part 504. The cylindrical portion 502 has an opening 503, and the main body portion of the AC adapter 100 is penetrated and installed in the opening 503. Two pressing portions 504 are provided on the side surface of the cylindrical portion 502. A groove portion 505 is formed between the two pressing portions 504 facing each other. In addition, an opening 506 is provided between the pressing portion 504 and the side surface of the cylindrical portion 502. The cord 108 is inserted into and removed from the opening 506 through the groove 505, and the bundled cord 108 is fixed in the opening 506 by the pressing portion 504.

  As mentioned above, according to the 1st-3rd embodiment of this invention, the power output capability of AC adapter 100,200 can be reduced to the rating of the apparatus connected to DC output terminal 106 used as the main function. Thereby, the size of the AC adapters 100 and 200 can be reduced. In addition, since the system that generates power can be reduced, the power supply portion can be configured at a lower cost compared to the case of generating larger power.

  In addition, when there are a plurality of USB output terminals, the configuration is such that the USB output terminals are selectively cut off as in the second and third embodiments. An important device, for example, a device to be preferentially charged can be connected to a port that can be ranked and has a lower possibility of being blocked.

  Further, by combining the attachment 500 for bundling the DC cord with the AC adapter 100, the cord 108 for DC connection can be easily bundled, and portability can be improved.

  The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited to such examples. It is obvious that a person having ordinary knowledge in the technical field to which the present invention pertains can come up with various changes or modifications within the scope of the technical idea described in the claims. Of course, it is understood that these also belong to the technical scope of the present invention.

  For example, in the above-described embodiment, the case where the terminal that is a subordinate function other than the DC output terminal 106 that is the main function of the AC adapter is the USB terminal is described, but the present invention is not limited to this example. For example, in addition to the DC output terminal which is the main function of 19V / 90W output rating, it may have a DC output terminal which can be connected to a DC jack of a portable device with a voltage of 5V or 3V to supply power.

100, 200 AC adapter 102 AC adapter unit 104 Plug 106 DC output terminal 112 Ammeter 114 Comparator 122 Regulator 132 232 First USB terminal 134, 234 Second USB terminal 214 Control unit 222 First regulator 224 Second regulator 226 Third regulator 236 3rd USB terminal

Claims (9)

AC power-DC power conversion unit that converts input AC power into DC power and outputs DC power;
A main output terminal that outputs the DC power output from the AC power-DC power conversion unit;
Unlike the main output terminal, a plurality of sub-output terminals for outputting the DC power output from the AC power-DC power conversion unit,
A detection unit for detecting the total amount of power output from the AC power-DC power conversion unit;
Comparing the total power amount with the output rating of the main output terminal, when the total power amount is equal to or higher than the output rating of the main output terminal, from at least one sub output terminal among the plurality of sub output terminals An AC adapter device comprising a control unit that cuts off output of electric power.   2. The AC adapter device according to claim 1, wherein a priority order of each of the plurality of sub output terminals is determined for each of the sub output terminals, and the sub output terminals are sequentially blocked based on the priority order.   The AC adapter device according to claim 2, wherein the priority is set by a user.   The AC adapter device according to claim 1, wherein at least one of the plurality of sub output terminals is a USB terminal.   The AC adapter device according to claim 2, wherein the sub output terminals are sequentially cut off in descending order of the output ratings of the plurality of sub output terminals.   The AC adapter device according to claim 1, wherein when the output of the main output terminal decreases to a predetermined value or less, the output of power from the sub output terminal from which the output of power is cut off is restored.   The AC adapter device according to claim 1, wherein the sub main power terminal is selectively cut off based on an excess amount in which the total power exceeds an output rating of the main output terminal.   The AC adapter device according to claim 1, wherein the control unit simultaneously blocks a plurality of the sub main power terminals.   The AC adapter device according to any one of claims 1 to 8, wherein a total output capacity of the AC power-DC power conversion unit is determined based on an output rating of the main output terminal.

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