Utility model content
In view of the above problems, the utility model proposes overcome a kind of above-mentioned battery simulator.
For this purpose, the utility model proposes a kind of battery simulator, including:
Control device 1 and at least one battery simulating device 2;
The control device 1 communicates to connect with least one battery simulating device 2;
The control device 1 get parms adjusted value and battery simulating device mark, the parameter adjustment will be carried
The control instruction of value is sent to battery simulating device 2 corresponding to the battery simulating device mark, and the battery simulating device 2 receives
To after the control instruction, the arrange parameter analogue value is the parameter adjustment value.
Optionally, the control device 1 includes:
First communication sub-device 11;
The control device 1 is communicated by the described first communication sub-device 11 with least one battery simulating device 2
Connection.
Optionally, the control device 1 also includes:
First control sub-device 12;
The first control sub-device 12 will carry the parameter adjustment value by the described first communication sub-device 11
Control instruction is sent to battery simulating device 2 corresponding to the battery simulating device mark.
Optionally, the control device 1 includes:
Parameter acquisition sub-device 13;
The control device 1 obtains the parameter adjustment value and the battery mould by the parameter acquisition sub-device 13
Intend device identification.
Optionally, the parameter acquisition sub-device 13 includes:
Man-machine interface circuit 131 and/or external communication circuit 132.
Optionally, the control device 1 includes:
First storage sub-device 14, the first temperature detection sub-device 15 and/or the first power supply sub-device 16;
The first storage sub-device 14, the operating parameter values of each sub-device included for storing the control device 1,
The parameter adjustment value and/or battery simulating device mark;
The first temperature detection sub-device 15, for detecting the temperature of the control device 1;
The first power supply sub-device 16, for each sub-device power supply included for the control device 1.
Optionally, the battery simulating device 2 includes:
Second communication sub-device 21;
The battery simulating device 2 is communicated to connect by the described second communication sub-device 21 with the control device 1.
Optionally, the battery simulating device 2 also includes:
Second control sub-device 22 and simulated battery input and output sub-device 23;The second control sub-device 22 connects
The simulated battery input and output sub-device 23;
The second control sub-device 22 is obtained by the described second communication sub-device 21 and described carry the parameter and adjust
The control instruction of whole value, the parameter simulation value for setting the simulated battery input and output sub-device 23 are the parameter adjustment value.
Optionally, the battery simulating device 2 includes:
Second storage sub-device 24, second temperature detection sub-means 25 and/or second source sub-device 26;
The second storage sub-device 24, the work ginseng of each sub-device included for storing the battery simulating device 2
Numerical value, the parameter adjustment value and/or battery simulating device mark;
The second temperature detection sub-means 25, for detecting the temperature of the battery simulating device 2;
The second source sub-device 26, for each sub-device power supply included for the battery simulating device 2.
Optionally, the battery simulating device 2, including:
Optionally, the battery simulating device 2, including:
Sub-device 27 is measured, for measuring the parameter simulation value of the simulated battery input and output sub-device 23;
The measurement sub-device 27 connects the second control sub-device 22;
It is described measurement sub-device 27 by the parameter simulation value of measurement be sent to it is described second control sub-device 22, described second
The parameter simulation value of the measurement is sent to the control device by control sub-device 22 by the described second communication sub-device 21
1;The control device 1 shows the parameter simulation value of the measurement.
Compared to prior art, the utility model provides a kind of battery simulator, is connected by control device at least one
Battery simulating device, the number for the battery being related in the application scenarios that the number of battery simulating device is connected according to multiple batteries are true
Fixed, each battery simulating device can simulate a batteries, and the parameter simulation value of each battery simulating device is adjustable, application
Flexibly, suitable for the application scenarios of multiple batteries series connection.
Embodiment
It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer
Accompanying drawing in type embodiment, the technical scheme in the embodiment of the utility model is explicitly described, it is clear that described reality
It is the utility model part of the embodiment to apply example, rather than whole embodiments.
It should be noted that herein, the relational terms of such as " first " and " second " or the like are used merely to one
Individual entity or operation make a distinction with another entity or operation, and not necessarily require or imply these entities or operate it
Between any this actual relation or order be present.
As shown in figure 1, the present embodiment discloses a kind of battery simulator, it may include following device:Control device 1 and at least
One battery simulating device 2.Control device 1 communicates to connect with least one battery simulating device 2.
In the present embodiment, battery simulator includes three battery simulating devices 2, namely battery disclosed in the present embodiment is simulated
Device is applied to the application scenarios of three batteries series connection.Three battery simulating devices 2 communicate to connect with control device 1 respectively.According to
The number for the battery being related in the application scenarios of multiple batteries series connection, control device 1 are correspondingly logical with multiple battery simulating devices 2
Letter connection, the number of battery of the number of battery simulating device 2 with being related in the application scenarios that multiple batteries are connected are identical.
In the present embodiment, control device 1 can be wired connection or nothing with the communication connection of at least one battery simulating device 2
Line connects.
In the present embodiment, the signal flow direction of battery simulator work is described as follows:
Control device 1 get parms adjusted value and battery simulating device mark, the control of parameter adjustment value will be carried
Instruction is sent to battery simulating device 2 corresponding to battery simulating device mark, and the battery simulating device 2 receives control instruction
Afterwards, the arrange parameter analogue value is parameter adjustment value;Wherein, parameter adjustment value, for adjusting the parameter simulation of battery simulating device 2
Value;Battery simulating device identifies, the battery simulating device 2 being directed to for indicating parameter adjustment value;Parameter adjustment value is, for example, electricity
Pressure value and/or current value.
In the present embodiment, the mode that adjusted value and battery simulating device identify that control device 1 gets parms for example, obtains
Taking parameter adjustment value that family inputted by man-machine interface circuit and battery simulating device mark, control device 1 may include people
Machine interface circuit;Or parameter adjustment value and battery simulating device remotely to be sent by external communication circuit reception user
Mark, control device 1 may include external communication circuit.
In the present embodiment, control device 1 gets parms after adjusted value and battery simulating device mark, can generate and carry
The control instruction of parameter adjustment value, the generation of control instruction belong to the mature technology of this area, and the present embodiment repeats no more.
In the present embodiment, after receiving control instruction due to battery simulating device 2, the meeting arrange parameter analogue value is that parameter is adjusted
Whole value, therefore, the parameter simulation value of battery simulating device 2 are not fixed, for the application scenarios of multiple batteries series connection, per batteries
Parameter value it is different when, by adjusting the parameter simulation value of respective battery analogue means 2, each battery simulating device 2 is simulated
One batteries, so as to realize the simulation of multiple batteries series connection, suitable for the application scenarios of multiple batteries series connection.
It can be seen that the battery simulator shown in Fig. 1, at least one battery simulating device, battery mould are connected by control device
The number determination for the battery being related in the application scenarios that the number of plan device is connected according to multiple batteries, each battery simulating device
A batteries can be simulated, suitable for the application scenarios of multiple batteries series connection.
Further, the battery simulator shown in Fig. 1, by the acquisition user's input of control device 1 for adjusting battery
The parameter adjustment value (magnitude of voltage and/or current value) of the parameter simulation value of analogue means 2 and for indicating parameter adjustment value pin
To battery simulating device 2 battery simulating device identify;And the control instruction for carrying parameter adjustment value is sent to battery
Battery simulating device 2 corresponding to analogue means mark, after the battery simulating device 2 receives control instruction, arrange parameter simulation
It is worth and can adjust for parameter adjustment value, namely the parameter simulation value of each battery simulating device 2, realizes the independent each section institute of adjustment
The magnitude of voltage and/or current value of the battery of simulation, using flexible.
As shown in Fig. 2 the present embodiment discloses a kind of battery simulator, the difference with the battery simulator shown in Fig. 1 is:
In the present embodiment, control device 1 includes the first communication sub-device 11;Control device 1 by first communication sub-device 11 with it is described
At least one battery simulating device 2 communicates to connect.
In the present embodiment, control device 1 is logical by the first communication sub-device 11 and at least one battery simulating device 2
Letter connection.If communication connection is wired connection, the first communication sub-device 11 can provide expansion interface, when multiple batteries series connection
The number for the battery being related in application scenarios is more than the number of battery simulating device 2 that battery simulator includes, then can be by the
The number for the expansion interface increase battery simulating device 2 that one communication sub-device 11 provides, realizes the simulation of multiple batteries series connection.One
Individual expansion interface can be connected with one or more battery analogue means 2.If communication connection is wireless connection, the first communicator dress
Put 11 and at least one battery simulating device wireless connection, the applied field that the number of battery simulating device is connected according to multiple batteries
The number for the battery being related in scape determines, realizes the simulation of multiple batteries series connection.
As shown in figure 3, the present embodiment discloses a kind of battery simulator, the difference with the battery simulator shown in Fig. 2 is:
Control device 1 also includes the first control sub-device 12;First control sub-device 12 will be carried by the first communication sub-device 11
The control instruction of parameter adjustment value is sent to battery simulating device 2 corresponding to battery simulating device mark, namely the first control
The control instruction is sent to the first communication sub-device 11 by device 12, and the first communication sub-device 11 again sends out the control instruction
It is sent to battery simulating device 2 corresponding to battery simulating device mark.
In the present embodiment, control device 1 gets parms after adjusted value and battery simulating device mark, control device 1
First control sub-device 12 carries the control of parameter adjustment value based on parameter adjustment value and battery simulating device mark generation
Instruction, the generation of control instruction belong to the mature technology of this area, and the present embodiment repeats no more.
As shown in figure 4, the present embodiment discloses a kind of battery simulator, the difference with the battery simulator shown in Fig. 3 is:
Control device 1 includes parameter acquisition sub-device 13;Control device 1 by parameter acquisition sub-device 13 get parms adjusted value and
Battery simulating device identifies.
In the present embodiment, parameter acquisition sub-device 13 can obtain the parameter that user is inputted by man-machine interface circuit 131 and adjust
Whole value and battery simulating device mark, parameter acquisition sub-device 13 may include man-machine interface circuit 131;Parameter acquisition sub-device
13 can also receive the parameter adjustment value and battery mould of user radio mode or wired mode transmission by external communication circuit 132
Intend device identification, parameter acquisition sub-device 13 may include external communication circuit 132, and " outside " can be regarded as the outer of battery simulator
Portion.
In actual applications, parameter acquisition sub-device 13 may include man-machine interface circuit 131 and/or external communication circuit
132;In the present embodiment, parameter acquisition sub-device 13 includes man-machine interface circuit 131 and external communication circuit 132, man-machine interface
Circuit 131 and external communication circuit 132 connect the first control sub-device 12 respectively.
In the present embodiment, man-machine interface circuit 131 can for example provide a user parameter adjustment value input frame and menu, dish
The mark for each battery simulating device 2 that option in list includes for battery simulator, user are adjusted by input frame input parameter
It is worth, and the input of battery simulating device mark is realized by menu selection battery simulating device 2, menu is, for example, drop-down menu.
The mark for each battery simulating device 2 that man-machine interface circuit 131 directly can also include to user's display battery simulator is for example
Figure, symbol and/or numeral, rather than by the way of menu, user selects battery simulating device 2 to realize by clicking on mark
The input of battery simulating device mark.In actual applications, man-machine interface circuit 131 can also be to user's display control unit 1
Including each sub-device running state information.In the present embodiment, running state information can select according to actual conditions, this implementation
Example does not limit the quantity and species of running state information.It should be noted that the work of man-machine interface circuit 131 described above
Process can include the display not shown in Fig. 4 by display circuit and input circuit cooperative achievement, namely man-machine interface circuit 131
Circuit and input circuit.
In the present embodiment, external communication circuit 132 can realize such as WIFI, GPRS (General Packet Radio
Service, general packet radio service) etc. mode wireless telecommunications, or realize that such as RS232, USB, CAN mode has
Line communicates.
It can be seen that the battery simulator shown in Fig. 4, passes through the man-machine interface circuit 131 in control device 1 or external communication electricity
Road 132 obtain user input be used for adjust battery simulating device 2 parameter simulation value parameter adjustment value (magnitude of voltage and/or
Current value) and the battery simulating device 2 that is directed to for indicating parameter adjustment value battery simulating device mark;And pass through control
The first control sub-device 12 in device 1 generates the control instruction for carrying parameter adjustment value, and the first control sub-device 12 passes through
Control instruction is sent to battery simulating device 2 corresponding to battery simulating device mark, the battery mould by the first communication sub-device 11
After plan device 2 receives control instruction, the arrange parameter analogue value is parameter adjustment value, realizes that independent adjustment is each and saves what is simulated
The voltage and/or electric current of battery, using flexible.
As shown in figure 5, the present embodiment discloses a kind of battery simulator, the difference with the battery simulator shown in Fig. 4 is:
Control device 1 also includes:First storage sub-device 14, the first temperature detection sub-device 15 and the first power supply sub-device 16, in reality
In the application of border, control device 1 may include the first storage sub-device 14, the first temperature detection sub-device 15 and/or the first power supply
Device 16.
First storage sub-device 14, the operating parameter values of each sub-device included for memory control device 1, parameter adjustment
Value and/or battery simulating device mark.In the present embodiment, running parameter can select according to actual conditions, and the present embodiment does not limit
The quantity and species of running parameter.
First temperature detection sub-device 15, the temperature for detection control apparatus 1.
First power supply sub-device 16, for each sub-device power supply included for control device 1.
In the present embodiment, the first storage sub-device 14, the first temperature detection sub-device 15 and the first power supply sub-device 16 are divided
It is not connected with the first control sub-device 12.
In the present embodiment, the controllable first storage memory control device 1 of sub-device 14 of the first control sub-device 12 includes
Operating parameter values, parameter adjustment value and/or the battery simulating device mark of each sub-device.
In the present embodiment, the first control sub-device 12 can generate report based on the temperature that the first temperature detection sub-device 15 detects
Alert instruction, alarm command are used to indicate that the temperature of the first temperature detection sub-device 15 detection exceedes default first temperature threshold,
Correspondingly, control device 1 may also include the first warning device not shown in Fig. 5, the first warning device connection the first control
Device 12, after the first control sub-device 12 generates alarm command, alarmed by the first warning device, namely the first control
After device 12 generates alarm command, alarm command is sent to the first warning device, the first warning device receives alarm command
After alarmed, user can reduce manually control device 1 power or manually shutdown.Certainly, the first control sub-device 12 generates
After alarm command, the power or automatic shutdown of control device 1 can be also reduced automatically, and the realization of these automatic functions belongs to maturation
Its hardware implementation process is no longer described in detail in prior art, the present embodiment.
It should be noted that in order to which accompanying drawing is succinct, in Fig. 5, the first power supply sub-device 16 and the first control son dress are only shown
12 connections are put, it should be understood by those skilled in the art that other sub-devices that the first power supply sub-device 16 also includes with control device 1
Connection, realizes the power supply to other sub-devices.
As shown in fig. 6, the present embodiment discloses a kind of battery simulator, the difference with the battery simulator shown in Fig. 5 is:
Battery simulating device 2 includes the second communication sub-device 21;Battery simulating device 2 passes through the second communication sub-device 21 and control device
1 communication connection.
In the present embodiment, control device 1 is filled by the first communication sub-device 11 and the second communicator of battery simulating device 2
Put 21 communication connections.
As shown in fig. 7, the present embodiment discloses a kind of battery simulator, the difference with the battery simulator shown in Fig. 6 is:
Battery simulating device 2 also includes the second control sub-device 22 and simulated battery input and output sub-device 23.
In the present embodiment, the second control sub-device 22 connects simulated battery input and output sub-device 23.
In the present embodiment, the second control sub-device 22 is obtained described in described carry by the described second communication sub-device 21
The control instruction of parameter adjustment value, the parameter simulation value for setting simulated battery input and output sub-device 23 is the parameter adjustment
Value.
In the present embodiment, the parameter simulation value of simulated battery input and output sub-device 23 is different, can simulate different batteries,
Simulated battery input and output sub-device 23 can be realized as battery analogue circuit, there is provided the both positive and negative polarity of simulated battery.
As shown in figure 8, the present embodiment discloses a kind of battery simulator, the difference with the battery simulator shown in Fig. 7 is:
Battery simulating device 2 includes:Second storage sub-device 24, second temperature detection sub-means 25, second source sub-device 26 and survey
Quantum devices 27.In actual applications, battery simulating device 2 may include the second storage sub-device 24, second temperature detection son dress
Put 25, second source sub-device 26 and/or measurement sub-device 27.
In the present embodiment, the second storage sub-device 24, second temperature detection sub-means 25, second source sub-device 26 and survey
Quantum devices 27 connect the second control sub-device 22 respectively.
In the present embodiment, the second storage sub-device 24, the work of each sub-device included for storage battery analogue means 2
Parameter value, parameter adjustment value and/or battery simulating device mark.In the present embodiment, running parameter can select according to actual conditions,
The present embodiment does not limit the quantity and species of running parameter.
In the present embodiment, the controllable second storage storage battery analogue means 2 of sub-device 24 of the second control sub-device 22 wraps
Operating parameter values, parameter adjustment value and/or the battery simulating device mark of each sub-device included.
In the present embodiment, second temperature detection sub-means 25, for detecting the temperature of battery simulating device 2.
In the present embodiment, the second control sub-device 22 can generate report based on the temperature that second temperature detection sub-means 25 detect
Alert instruction, alarm command are used to indicate that the temperature that second temperature detection sub-means 25 detect exceedes default second temperature threshold value,
Correspondingly, battery simulating device 2 may also include the second warning device not shown in Fig. 8, the control of the second warning device connection second
System device 22, after the second control sub-device 22 generates alarm command, alarmed by the second warning device, namely the second control
After system device 22 generates alarm command, alarm command is sent to the second warning device, the second warning device receives alarm
Alarmed after instruction, user can reduce the power of battery simulating device 2 or shutdown manually manually.Certainly, the second control son dress
After putting 22 generation alarm commands, the power or automatic shutdown of battery simulating device 2, the reality of these automatic functions can be also reduced automatically
Now belong to ripe prior art, its hardware implementation process is no longer described in detail in the present embodiment.
In the present embodiment, second source sub-device 26, for each sub-device power supply included for battery simulating device 2.
It should be noted that in order to which accompanying drawing is succinct, in Fig. 8, the control son dress of second source sub-device 26 and second is only shown
22 connections are put, it should be understood by those skilled in the art that other sons that second source sub-device 26 also includes with battery simulating device 2
Device connects, and realizes the power supply to other sub-devices.
In the present embodiment, sub-device 27 is measured, for measuring the parameter simulation value of simulated battery input and output sub-device 23.
In the present embodiment, the parameter simulation value of measurement is sent to the second control sub-device 22 by measurement sub-device 27, and second
The parameter simulation value of measurement is sent to control device 1 by control sub-device 22 by the second communication sub-device 21;In control device 1
The first control sub-device 12 the parameter simulation value of measurement is obtained by the first communication sub-device 11, the first control sub-device 12 is logical
The parameter simulation value of the man-machine display of interface circuit 131 measurement is crossed, realizes the parameter simulation value of the display measurement of control device 1, so as to
User observes the voltage and/or current conditions for the battery that battery simulating device 2 is simulated.
It can be seen that the battery simulator shown in Fig. 8, at least one battery simulating device, battery mould are connected by control device
The number determination for the battery being related in the application scenarios that the number of plan device is connected according to multiple batteries, each battery simulating device
A batteries can be simulated, and the parameter simulation value of each battery simulating device is adjustable, using flexible, suitable for multiple batteries
The application scenarios of series connection.
It should be noted that in actual applications, each sub-device disclosed in embodiment can be realized as circuit, for example, first
Communication sub-device 11 is embodied as the first communicating sub-circuits 11.
It should be noted that herein, term " comprising " is intended to including for nonexcludability, so that including one
Process, article or the device of list of elements not only include those key elements, but also the other element including being not expressly set out,
Either also include for this process, article or the intrinsic key element of device.
It will be appreciated by those of skill in the art that although some embodiments described herein include being wrapped in other embodiments
The some features rather than further feature included, but the combination of the feature of different embodiments means to be in model of the present utility model
Within enclosing and form different embodiments.
Although being described in conjunction with the accompanying embodiment of the present utility model, those skilled in the art can not depart from
Various modifications and variations are made in the case of spirit and scope of the present utility model, such modifications and variations are each fallen within by appended
Within claim limited range.