JP2021019428A - Dc/dc converter system, operation instruction circuit, and control method for dc/dc converter system - Google Patents

Abstract

To provide a DC/DC converter system capable of controlling respective DC/DC converters depending on a high power load request of a load by considering difference of wiring resistance from output units of the respective DC/DC converters to a common contact.SOLUTION: A DC/DC converter system sets a first output voltage to be output by a main DC/DC converter and a second output voltage to be output by a sub DC/DC converter on the basis of at least respective wiring resistance values from respective output units of the main DC/DC converter and the sub DC/DC converter to a common contact, so that in response to a load request, an output voltage to be supplied to a first load becomes a preset target voltage.SELECTED DRAWING: Figure 1

Description

The present invention relates to a DC / DC converter system, an operation instruction circuit, and a method for controlling a DC / DC converter system.

Conventionally, there is a load drive system that drives two DC / DC converters in parallel (see, for example, Patent Document 1).

In such a conventional load drive system, the output current of each DC / DC converter is detected and controlled so that the output current of each DC / DC converter is evenly shared.

That is, in the conventional load drive system, the wiring from the output unit of each DC / DC converter to the load (common contact) is simply controlled so that the output current of each DC / DC converter is evenly shared. It does not consider the difference in resistance, and does not control each DC / DC converter in response to the load demand of the vehicle with increased power.

JP 2014-183705

Therefore, according to the present invention, it is possible to control each DC / DC converter in response to a load request for increasing the power of the load in consideration of the difference in wiring resistance from the output unit of each DC / DC converter to the common contact. It is an object of the present invention to provide a possible DC / DC converter system.

The DC / DC converter system according to one aspect of the present invention is
A DC / DC converter system in which a power supply voltage is supplied from a power supply battery and power is supplied to a first load in response to a load request.
A main DC / DC converter that is electrically connected to a common contact and outputs the first output voltage from the output unit.
One or more sub-DC / DC converters in which the output unit is electrically connected to the common contact and outputs a second output voltage from the output unit.
An operation instruction unit that controls the main DC / DC converter and the sub DC / DC converter in response to the load request is provided.
The operation instruction unit
At least from each output unit of the main DC / DC converter and the sub DC / DC converter so that the output voltage supplied to the first load becomes a preset target voltage in response to the load request. Based on each wiring resistance value up to the contact, the first output voltage output by the main DC / DC converter is set, and the second output voltage output by the sub DC / DC converter is set. It is characterized by.

In the DC / DC converter system
The operation instruction unit
The first output current value of the current output by the main DC / DC converter and the second between the output unit of the main DC / DC converter and the common contact so that the output voltage becomes the target voltage. Based on the wiring resistance value of 1, the first output voltage output by the main DC / DC converter from the output unit is set, and the second output current value of the current output by the sub DC / DC converter, and , The second output voltage output from the output unit of the sub-DC / DC converter is set based on the second wiring resistance value between the output unit of the sub-DC / DC converter and the common contact. It is a feature.

In the DC / DC converter system
The operation instruction unit
By correcting the first wiring resistance value with the first correction resistance value, the first output voltage is adjusted and the first output voltage is adjusted.
It is characterized in that the second output voltage is adjusted by correcting the second wiring resistance value with the second correction resistance value.

In the DC / DC converter system
The operation instruction unit is characterized in that the first output voltage is adjusted by correcting so as to add the first correction resistance value to the first wiring resistance value.

In the DC / DC converter system
The operation instruction unit
The second output voltage is adjusted by correcting so as to add the second correction resistance value to the second wiring resistance value.

In the DC / DC converter system
The main DC / DC converter is characterized by having a higher current supply capacity than the sub DC / DC converter.

In the DC / DC converter system
The operation instruction unit
When the load request is a light load, the first output voltage and the second output voltage are adjusted so as to stop the main DC / DC converter and drive the sub DC / DC converter. ,
On the other hand, when the load request is a heavy load, the first output voltage and the second output voltage are adjusted so as to drive the main DC / DC converter and the sub DC / DC converter. It is a feature.

In the DC / DC converter system
The operation instruction unit
When the load request is a light load, the main DC / DC converter is driven and the sub DC / DC converter is stopped.
On the other hand, when the load request is a heavy load, the first output voltage and the second output voltage are adjusted so as to drive the main DC / DC converter and the sub DC / DC converter. It is a feature.

In the DC / DC converter system
The operation instruction unit
When the sum of the output power of the main DC / DC converter and the output power of the sub DC / DC converter reaches a preset power threshold, the first output voltage of the main DC / DC converter and the sub It is characterized in that the second output voltage of the DC / DC converter is lowered to limit the power.

In the DC / DC converter system
The operation instruction unit
When the current flowing through the output voltage terminal to which the first load is connected exceeds a preset overcurrent threshold value, the main DC / DC converter and the sub DC / DC converter are stopped. To do.

In the DC / DC converter system
The operation instruction unit
As the load requirement increases, one of the main DC / DC converter and the sub DC / DC converter is driven, and then the other of the main DC / DC converter and the sub DC / DC converter. It is characterized by further driving.

In the DC / DC converter system
A load battery is connected to the output voltage terminal.

In the DC / DC converter system
The DC / DC converter system is characterized in that it is loaded in an automobile having an automatic driving function.

The control method of the DC / DC converter system according to one aspect of the present invention is
A DC / DC converter system in which a power supply voltage is supplied from a power supply battery and power is supplied to a first load in response to a load request. The output unit is electrically connected to a common contact, and the first output A main DC / DC converter that outputs a voltage from an output unit, and one or a plurality of sub DC / DC converters in which an output unit is electrically connected to the common contact and a second output voltage is output from the output unit. A control method for a DC / DC converter system including an operation indicator.
The operation instruction unit controls the drive of the main DC / DC converter and the sub DC / DC converter in response to the load request.
The operation instruction unit is at least each of the main DC / DC converter and the sub DC / DC converter so that the output voltage supplied to the first load in response to the load request becomes a preset target voltage. The first output voltage output by the main DC / DC converter is set based on each wiring resistance value from the output unit to the common contact, and the second output output by the sub DC / DC converter is set. It is characterized by setting the voltage.

The operation instruction circuit according to one aspect of the present invention is
A DC / DC converter system in which a power supply voltage is supplied from a power supply battery and power is supplied to a first load in response to a load request. The output unit is electrically connected to a common contact, and the first output A main DC / DC converter that outputs a voltage from an output unit, and one or a plurality of sub DC / DC converters in which an output unit is electrically connected to the common contact and a second output voltage is output from the output unit. It is an operation instruction circuit applied to a DC / DC converter system equipped with
In response to the load request, the drive of the main DC / DC converter and the sub DC / DC converter is controlled.
At least from each output unit of the main DC / DC converter and the sub DC / DC converter so that the output voltage supplied to the first load becomes a preset target voltage in response to the load request. Based on each wiring resistance value up to the contact, the first output voltage output by the main DC / DC converter is set, and the second output voltage output by the sub DC / DC converter is set. It is characterized by.

The DC / DC converter system according to one aspect of the present invention is a DC / DC converter system in which a power supply voltage is supplied from a power supply battery and power is supplied to a first load in response to a load request, and is an output unit. Is electrically connected to the common contact, and the main DC / DC converter that outputs the first output voltage from the output section and the output section are electrically connected to the common contact, and the second output voltage is output from the output section. It is provided with one or a plurality of sub-DC / DC converters, and an operation instruction unit that controls a main DC / DC converter and a sub-DC / DC converter in response to a load request.

Then, the operation instruction unit is at least each output unit of the main DC / DC converter and the sub DC / DC converter so that the output voltage supplied to the first load becomes a preset target voltage in response to the load request. Based on each wiring resistance value from to the common contact, the first output voltage output by the main DC / DC converter is set, and the second output voltage output by the sub DC / DC converter is set.

As a result, according to the DC / DC converter system according to one aspect of the present invention, the load demand for increased load can be obtained in consideration of the difference in wiring resistance from the output unit to the common contact of each DC / DC converter. Each DC / DC converter can be controlled accordingly.

FIG. 1 is a diagram showing an example of the configuration of the DC / DC converter system 100 according to the embodiment of the present invention. FIG. 2 is a diagram showing an example of wiring resistance between the output units of the main DC / DC converter X1 and the sub DC / DC converter X2 of the DC / DC converter system 100 shown in FIG. 1 and the common contact NX. FIG. 3 is a diagram showing an example of output characteristics of the DC / DC converter system 100 shown in FIG.

Hereinafter, the DC / DC converter system according to the present invention will be described with reference to the drawings.

FIG. 1 is a diagram showing an example of the configuration of the DC / DC converter system 100 according to the embodiment of the present invention. Further, FIG. 2 is a diagram showing an example of wiring resistance between the output units of the main DC / DC converter X1 and the sub DC / DC converter X2 of the DC / DC converter system 100 shown in FIG. 1 and the common contact NX. .. Further, FIG. 3 is a diagram showing an example of output characteristics of the DC / DC converter system 100 shown in FIG.

[DC / DC converter system]
The DC / DC converter system 100 shown in FIG. 1 uses a plurality of DC / DC converters in response to a load request of a vehicle load (first vehicle load LOAD1, second vehicle load LOAD2), and is a battery BS for power supply. Therefore, electric power is supplied to the vehicle load (first vehicle load LOAD1, second vehicle load LOAD2).

The DC / DC converter system 100 is loaded on, for example, an automobile (not shown) having an automatic driving function, and is applied to supply electric power to the automobile. The power supply battery BS and the load battery BOUT are loaded on the vehicle.

The DC / DC converter system 100 can be applied to other devices such as drones as well as automobiles.

The DC / DC converter system 100 includes, for example, a main DC / DC converter (first DC / DC converter) X1 and a sub DC / DC converter (second DC / DC converter) X2, as shown in FIG. , The first fuse F1, the second fuse F2, the output fuse FOUT, the first inverter (inverter for motor) INV1, the second inverter (inverter for pump) INV2, and the operation indicator (operation). An indicator circuit) ECU is provided.

Although one sub-DC / DC converter X2 is shown as an example in FIG. 1, the DC / DC converter system 100 may include a plurality of sub-DC / DC converters X2. Further, the circuit configuration of the main DC / DC converter X1 and the circuit configuration of the sub DC / DC converter X2 may be interchanged.

Then, for example, as shown in FIG. 1, a first vehicle load (first load) LOAD1 is connected between the output voltage terminal TOUT and the ground terminal.

The first vehicle load LOAD1 includes, for example, an automobile engine control unit (ECU) corresponding to an operation instruction unit ECU, which is described separately from the first vehicle load LOAD1 in FIG. 1, and telematics control. Units (TCU) and the like are included.

Then, for example, as shown in FIG. 1, a second vehicle load (second load) LOAD2 is connected between the common contact NX and the ground terminal.

The second vehicle load LOAD2 includes, for example, an automobile wiper, a heater, an air conditioner, a lamp, a navigation system, and the like.

Further, for example, as shown in FIG. 1, a battery BOUT is connected between the output voltage terminal TOUT and the ground terminal.

[1st and 2nd fuses, output fuses]
Further, the first fuse F1 is connected between the output unit X1a of the main DC / DC converter X1 and the common contact NX.

Further, the second fuse F2 is connected between the output unit X2a of the sub DC / DC converter X2 and the common contact NX.

Further, the output fuse FOUT is connected between the common contact NX and the output voltage terminal TOUT.

The output fuse FOUT has, for example, a breaking capacity larger than the breaking capacity of the first and second fuses F1 and F2.

[First and second inverters]
Further, the first inverter INV1 is adapted to supply electric power to the motor M for driving the above-mentioned automobile engine based on the power supply voltage VB.

Further, the second inverter INV2 is adapted to supply electric power to the electric oil pump EOP of the above-mentioned automobile based on the power supply voltage VB.

[Main DC / DC converter]
In the main DC / DC converter X1, for example, as shown in FIG. 1, the power supply voltage VB is supplied from the power supply battery BS via the first and second input units.

In the main DC / DC converter X1, the output unit X1a is electrically connected to the output voltage terminal TOUT via the common contact NX and the output fuse FOUT.

Then, the main DC / DC converter X1 outputs the first output voltage VO1 from the output unit X1a.
Here, for example, as shown in FIG. 2, a wiring resistance having a first wiring resistance value Rc1 exists between the output unit X1a of the main DC / DC converter X1 and the common contact NX.

[Sub DC / DC converter]
In the sub DC / DC converter X2, for example, as shown in FIG. 1, the power supply voltage VB is supplied from the power supply battery BS via the first and second input units.

In this sub-DC / DC converter X2, the output unit X2a is electrically connected to the output voltage terminal TOUT via the common contact NX and the output fuse FOUT.

Here, for example, as shown in FIG. 2, a wiring resistance having a second wiring resistance value Rc2 exists between the output unit X2a of the sub-DC / DC converter X2 and the common contact NX.

The main DC / DC converter X1 described above is set so that the current supply capacity is different from that of the sub DC / DC converter X2.

Then, in this embodiment, for example, the main DC / DC converter X1 is set to have a higher current supply capacity than the sub DC / DC converter X2. However, the main DC / DC converter X1 may be set to have a lower current supply capacity than the sub DC / DC converter X2.

Further, the main DC / DC converter X1 having a high current supply capacity is cooled by, for example, a water cooling method.

On the other hand, the sub DC / DC converter X2, which has a lower current supply capacity than the main DC / DC converter X1 described above, is cooled by, for example, an air cooling system.

[Operation indicator]
Further, the operation instruction unit (operation instruction circuit) ECU controls the vehicle (automobile) on which the DC / DC converter system 100 is loaded.

In particular, this operation instruction unit ECU has a first control unit (not shown) of the main DC / DC converter X1 and a second control unit (not shown) of the sub DC / DC converter X2 in response to a load request. A control signal for setting the output voltage is output to control the drive of the main DC / DC converter X1 and the sub DC / DC converter X2 (FIG. 2).

For example, the operation instruction unit ECU drives the main DC / DC converter X1 and stops the sub DC / DC converter X2 when the load request is light, so that the first output voltage VO1 and the second output voltage VO1 and the second The output voltage VO2 of the is adjusted.

When the load request is a light load, the operation instruction unit ECU may stop the main DC / DC converter X1 and drive the sub DC / DC converter X2.

On the other hand, the operation instruction unit ECU has a first output voltage VO1 and a second output voltage VO2 so as to drive the main DC / DC converter X1 and the sub DC / DC converter X2 when the load request is heavy. Is designed to be adjusted.

The operation instruction unit ECU drives either the main DC / DC converter X1 or the sub DC / DC converter X2 as the load demand increases (the output current increases), and then the main DC / DC. The other of the converter X1 and the sub DC / DC converter X2 may be further driven.

Then, for example, in this operation instruction unit ECU, the total of the output power of the main DC / DC converter X1 and the output power of the sub DC / DC converter X2 (the product of the total output current and the output voltage in FIG. 3) is set in advance. If the power threshold has not been reached, a control signal is output to set the first output voltage VO1 of the main DC / DC converter X1 and the second output voltage VO2 of the sub DC / DC converter X2 to predetermined target values. It is designed to be set (output characteristics in the middle from the left side in FIG. 3).

As a result, the DC / DC converter system 100 is adapted to supply a predetermined power.

On the other hand, in this operation instruction unit ECU, the total of the output power of the main DC / DC converter X1 and the output power of the sub DC / DC converter X2 (the product of the total output current and the output voltage in FIG. 3) becomes the power threshold described above. When it reaches, the first output voltage VO1 of the main DC / DC converter X1 and the second output voltage VO2 of the sub DC / DC converter X2 are lowered from the predetermined target values (FIG. 3). Output characteristics on the right side).

As a result, the DC / DC converter system 100 limits the power to be supplied when the output power exceeds a predetermined value.

For example, the operation instruction unit ECU stops the main DC / DC converter X1 and the sub DC / DC converter X2 when the current flowing through the output voltage terminal TOUT exceeds a preset overcurrent threshold. (Output characteristics at the right end of FIG. 3).

Here, the operation instruction unit ECU has at least the main DC / DC converter X1 so that the output voltage VOUT of the output voltage terminal TOUT supplied to the first vehicle load LOAD in response to the load request becomes a preset target voltage. The first output voltage VO1 output from the output unit X1a by the main DC / DC converter X1 based on the wiring resistance values Rc1 and Rc2 from the output units X1a and X2a of the sub DC / DC converter X2 to the common contact NX. Is set, and the second output voltage VO2 output from the output unit X2a by the sub DC / DC converter X2 is set (FIG. 2).

That is, regarding the drive of the main DC / DC converter X1, the operation instruction unit ECU sets the current output by the main DC / DC converter X1 so that the output voltage VOUT of the output voltage terminal TOUT becomes a preset target voltage. The main DC / DC converter X1 outputs from the output unit X1a based on the output current value IO1 of 1 and the first wiring resistance value Rc1 between the output unit X1a of the main DC / DC converter X1 and the common contact NX. The first output voltage VO1 is set.

Then, the operation instruction unit ECU adjusts the first output voltage VO1 by correcting the first wiring resistance value Rc1 with the first correction resistance value Rd1.

In particular, the operation instruction unit ECU adjusts the first output voltage VO1 by correcting the first wiring resistance value Rc1 so as to add the first correction resistance value Rd1.

The operation instruction unit ECU transmits information regarding the first correction resistance value Rd1 and the first wiring resistance value Rc1 to the first control unit of the main DC / DC converter X1 by, for example, CAN communication. The first output voltage VO1 is set.

Further, regarding the drive of the sub DC / DC converter X2, the operation instruction unit ECU sets the current output by the sub DC / DC converter X2 so that the output voltage VOUT of the output voltage terminal TOUT becomes a preset target voltage. The sub DC / DC converter X2 outputs from the output unit X2a based on the output current value IO2 of 2 and the second wiring resistance value Rc2 between the output unit of the sub DC / DC converter X2 and the common contact NX. The second output voltage VO2 is set.

Then, the operation instruction unit ECU adjusts the second output voltage VO2 by correcting the second wiring resistance value Rc2 with the second correction resistance value Rd2.

In particular, the operation instruction unit ECU adjusts the second output voltage VO2 by correcting the second wiring resistance value Rc2 so as to add the second correction resistance value Rd2.

The operation instruction unit ECU transmits information regarding the second correction resistance value Rd2 and the second wiring resistance value Rc2 to the second control unit of the main DC / DC converter X2, for example, by CAN communication. The second output voltage VO2 is set.

Next, an example of a control method of the DC / DC converter system 100 having the above configuration will be described.

As described above, the operation instruction unit ECU responds to the load request by the first control unit (not shown) of the main DC / DC converter X1 and the second control unit (not shown) of the sub DC / DC converter X2 (FIG. (Not shown), a control signal for setting the output voltage is output to control the drive of the main DC / DC converter X1 and the sub DC / DC converter X2 (FIG. 2).

For example, the operation instruction unit ECU drives the main DC / DC converter X1 and stops the sub DC / DC converter X2 when the load request is light, so that the first output voltage VO1 and the second output voltage VO1 and the second The output voltage VO2 of is adjusted.

When the load request is a light load, the operation instruction unit ECU may stop the main DC / DC converter X1 and drive the sub DC / DC converter X2.

On the other hand, the operation instruction unit ECU has a first output voltage VO1 and a second output voltage VO2 so as to drive the main DC / DC converter X1 and the sub DC / DC converter X2 when the load request is heavy. To adjust.

The operation instruction unit ECU drives either the main DC / DC converter X1 or the sub DC / DC converter X2 as the load demand increases (the output current increases), and then the main DC / DC. The other of the converter X1 and the sub DC / DC converter X2 may be further driven.

Then, for example, in this operation instruction unit ECU, the total of the output power of the main DC / DC converter X1 and the output power of the sub DC / DC converter X2 (the product of the total output current and the output voltage in FIG. 3) is set in advance. If the power threshold has not been reached, a control signal is output to set the first output voltage VO1 of the main DC / DC converter X1 and the second output voltage VO2 of the sub DC / DC converter X2 to predetermined target values. Set (output characteristics in the middle from the left side in FIG. 3).

As a result, the DC / DC converter system 100 supplies a predetermined power.

On the other hand, in this operation instruction unit ECU, the total of the output power of the main DC / DC converter X1 and the output power of the sub DC / DC converter X2 (the product of the total output current and the output voltage in FIG. 3) becomes the power threshold described above. When it reaches, the first output voltage VO1 of the main DC / DC converter X1 and the second output voltage VO2 of the sub DC / DC converter X2 are lowered from the predetermined target values (output characteristics on the right side of FIG. 3). ..

As a result, the DC / DC converter system 100 limits the power to be supplied when the output power exceeds a predetermined value.

For example, the operation instruction unit ECU stops the main DC / DC converter X1 and the sub DC / DC converter X2 when the current flowing through the output voltage terminal TOUT exceeds a preset overcurrent threshold value (FIG. FIG. Output characteristics at the right end of 3).

Here, the operation instruction unit ECU has at least the main DC / DC converter X1 so that the output voltage VOUT of the output voltage terminal TOUT supplied to the first vehicle load LOAD in response to the load request becomes a preset target voltage. The first output voltage VO1 output from the output unit X1a by the main DC / DC converter X1 based on the wiring resistance values Rc1 and Rc2 from the output units X1a and X2a of the sub DC / DC converter X2 to the common contact NX. Is set, and the second output voltage VO2 output from the output unit X2a by the sub DC / DC converter X2 is set (FIG. 2).

Then, the operation instruction unit ECU adjusts the first output voltage VO1 by correcting the first wiring resistance value Rc1 with the first correction resistance value Rd1.

In particular, the operation instruction unit ECU adjusts the first output voltage VO1 by correcting the first wiring resistance value Rc1 so as to add the first correction resistance value Rd1.

Then, the operation instruction unit ECU adjusts the second output voltage VO2 by correcting the second wiring resistance value Rc2 with the second correction resistance value Rd2.

In particular, the operation instruction unit ECU adjusts the second output voltage VO2 by correcting the second wiring resistance value Rc2 so as to add the second correction resistance value Rd2.

As described above, the DC / DC converter system according to one aspect of the present invention is a DC / DC converter system in which a power supply voltage is supplied from a power supply battery and power is supplied to a first load in response to a load request. Therefore, the output unit is electrically connected to the common contact, and the main DC / DC converter that outputs the first output voltage from the output unit and the output unit are electrically connected to the common contact, and the second output voltage. It is provided with one or a plurality of sub-DC / DC converters that output the voltage from the output unit, and an operation instruction unit that controls the main DC / DC converter and the sub-DC / DC converter in response to a load request.

Then, the operation instruction unit is at least each output unit of the main DC / DC converter and the sub DC / DC converter so that the output voltage supplied to the first load becomes a preset target voltage in response to the load request. Based on each wiring resistance value from to the common contact, the first output voltage output by the main DC / DC converter is set, and the second output voltage output by the sub DC / DC converter is set.

As a result, according to the DC / DC converter system according to one aspect of the present invention, the load of the vehicle is increased in consideration of the difference in the wiring resistance from the output unit of each DC / DC converter to the common contact. Each DC / DC converter can be controlled as required.

Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, as well as in the scope of the invention described in the claims and the equivalent scope thereof.

100 DC / DC converter system BS power supply battery X1 Main DC / DC converter (first DC / DC converter)
X2 sub DC / DC converter (second DC / DC converter)
F1 1st fuse F2 2nd fuse FOUT output fuse INV1 1st inverter (motor inverter)
INV2 2nd inverter (inverter for pump)
ECU operation instruction unit (operation instruction circuit)
X1a Output unit X2a Output unit NX Common contact LOAD1 First vehicle load (first load)
LOAD2 Second vehicle load (second load)

Claims (15)

A DC / DC converter system in which a power supply voltage is supplied from a power supply battery and power is supplied to a first load in response to a load request.
A main DC / DC converter that is electrically connected to a common contact and outputs the first output voltage from the output unit.
One or more sub-DC / DC converters in which the output unit is electrically connected to the common contact and outputs a second output voltage from the output unit.
An operation instruction unit that controls the main DC / DC converter and the sub DC / DC converter in response to the load request is provided.
The operation instruction unit
In response to the load request, at least the output units of the main DC / DC converter and the sub DC / DC converter share the same so that the output voltage supplied to the first load becomes a preset target voltage. Based on each wiring resistance value up to the contact, the first output voltage output by the main DC / DC converter is set, and the second output voltage output by the sub DC / DC converter is set. A DC / DC converter system characterized by. The operation instruction unit
The first output current value of the current output by the main DC / DC converter and the second from the output unit of the main DC / DC converter to the common contact so that the output voltage becomes the target voltage. Based on the wiring resistance value of 1, the first output voltage output by the main DC / DC converter from the output unit is set, and the second output current value of the current output by the sub DC / DC converter, and , The second output voltage output from the output unit of the sub-DC / DC converter is set based on the second wiring resistance value between the output unit of the sub-DC / DC converter and the common contact. The DC / DC converter system according to claim 1. The operation instruction unit
By correcting the first wiring resistance value with the first correction resistance value, the first output voltage is adjusted and the first output voltage is adjusted.
The DC / DC converter system according to claim 2, wherein the second output voltage is adjusted by correcting the second wiring resistance value with the second correction resistance value. The third aspect of the present invention, wherein the operation instruction unit adjusts the first output voltage by correcting the first wiring resistance value so as to add the first correction resistance value. DC / DC converter system. The operation instruction unit
The DC / DC converter according to claim 3 or 4, wherein the second output voltage is adjusted by correcting so as to add the second correction resistance value to the second wiring resistance value. system. The DC / DC converter system according to any one of claims 1 to 5, wherein the main DC / DC converter has a higher current supply capacity than the sub DC / DC converter. The operation instruction unit
When the load request is a light load, the first output voltage and the second output voltage are adjusted so as to stop the main DC / DC converter and drive the sub DC / DC converter. ,
On the other hand, when the load request is a heavy load, the first output voltage and the second output voltage are adjusted so as to drive the main DC / DC converter and the sub DC / DC converter. The DC / DC converter system according to any one of claims 1 to 6, wherein the DC / DC converter system is characterized. The operation instruction unit
When the load request is a light load, the main DC / DC converter is driven and the sub DC / DC converter is stopped.
On the other hand, when the load request is a heavy load, the first output voltage and the second output voltage are adjusted so as to drive the main DC / DC converter and the sub DC / DC converter. The DC / DC converter system according to any one of claims 1 to 7, wherein the DC / DC converter system is characterized. The operation instruction unit
When the sum of the output power of the main DC / DC converter and the output power of the sub DC / DC converter reaches a preset power threshold, the first output voltage of the main DC / DC converter and the sub The DC / DC converter system according to any one of claims 1 to 8, wherein the second output voltage of the DC / DC converter is lowered to limit the electric power. The operation instruction unit
When the current flowing through the output voltage terminal to which the first load is connected exceeds a preset overcurrent threshold, the main DC / DC converter and the sub DC / DC converter are stopped. The DC / DC converter system according to any one of claims 1 to 9. The operation instruction unit
As the load requirement increases, one of the main DC / DC converter and the sub DC / DC converter is driven, and then the other of the main DC / DC converter and the sub DC / DC converter is driven. The DC / DC converter system according to any one of claims 1 to 10, wherein the DC / DC converter system is further driven. The DC / DC converter system according to claim 10, wherein a load battery is connected to the output voltage terminal. The DC / DC converter system according to any one of claims 1 to 12, wherein the DC / DC converter system is mounted on an automobile having an automatic driving function. A DC / DC converter system in which a power supply voltage is supplied from a power supply battery and power is supplied to a first load in response to a load request. The output unit is electrically connected to a common contact, and the first output A main DC / DC converter that outputs a voltage from an output unit, and one or a plurality of sub DC / DC converters in which an output unit is electrically connected to the common contact and a second output voltage is output from the output unit. A control method for a DC / DC converter system including an operation indicator.
The operation instruction unit controls the drive of the main DC / DC converter and the sub DC / DC converter in response to the load request.
The operation instruction unit is at least each of the main DC / DC converter and the sub DC / DC converter so that the output voltage supplied to the first load in response to the load request becomes a preset target voltage. The first output voltage output by the main DC / DC converter is set based on each wiring resistance value from the output unit to the common contact, and the second output output by the sub DC / DC converter is set. A control method for a DC / DC converter system, which comprises setting a voltage. A DC / DC converter system in which a power supply voltage is supplied from a power supply battery and power is supplied to a first load in response to a load request. The output unit is electrically connected to a common contact, and the first output A main DC / DC converter that outputs a voltage from an output unit, and one or a plurality of sub DC / DC converters in which an output unit is electrically connected to the common contact and a second output voltage is output from the output unit. It is an operation instruction circuit applied to a DC / DC converter system equipped with
In response to the load request, the drive of the main DC / DC converter and the sub DC / DC converter is controlled.
At least from each output unit of the main DC / DC converter and the sub DC / DC converter so that the output voltage supplied to the first load becomes a preset target voltage in response to the load request. The first output voltage output by the main DC / DC converter is set, and the second output voltage output by the sub DC / DC converter is set based on each wiring resistance value up to the contact. An operation instruction circuit characterized by.

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