CN204612829U - A kind of temperature sensing circuit and there is the electronic equipment of this circuit - Google Patents
A kind of temperature sensing circuit and there is the electronic equipment of this circuit Download PDFInfo
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- CN204612829U CN204612829U CN201520204956.3U CN201520204956U CN204612829U CN 204612829 U CN204612829 U CN 204612829U CN 201520204956 U CN201520204956 U CN 201520204956U CN 204612829 U CN204612829 U CN 204612829U
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Abstract
The utility model discloses a kind of temperature sensing circuit and have the electronic equipment of this circuit, wherein, described temperature sensing circuit comprises: high temperature detection branch, low temperature detection branch, temperature-sensitive branch road, exports branch road; Described temperature-sensitive branch road one end respectively with described high temperature detection branch, described low temperature detection branch be connected, another termination power; The described high temperature detection branch other end is connected with described output branch road; The enable control end of described high temperature detection branch is connected with system controller; The described low temperature detection branch other end is connected with described output branch road; The enable control end of described low temperature detection branch is connected with described system controller; The described output branch road other end is connected with described system controller.The utility model, by the setting of temperature sensing circuit, not only can be reduced the limitation of Systematic selection MCU, can also reduce design cost.
Description
Technical field
The utility model relates to electric and electronic technical field, particularly a kind of temperature sensing circuit and have the electronic equipment of this circuit.
Background technology
Along with the development of Power Electronic Technique and the continuous lifting of production technology thereof, each class of electronic devices emerges in an endless stream.But, MCU (MicrocontrollerUnit, microcontroller) is adopted usually for electronic equipment kernel control chip.But in the process that electronic equipment normally runs, whether system, in order to ensure that overall work state is normal, needs to be maintained within the scope of the normal working temperature of each device in the electronic device by the temperature of the whole electronic equipment running environment of MCU Real-Time Monitoring.So just need electronic equipment when selecting MCU, need to consider that whether control chip MCU is containing ADC (Analog to Digital Converter, analog-digital converter) sampling functions, thus carry out Real-time Collection supervisory system environment temperature by described ADC sampling functions, ensure the normal operation of electronic equipment.
Therefore, select in inventor's design of electronic devices in the process of MCU, find that in prior art, at least there are the following problems:
When electronic equipment is selected in MCU process, owing to needing to consider that the MCU with ADC sampling functions selected by environment temperature Real-time Collection needs, thus make to select MCU to have limitation, and add design cost.
Utility model content
In view of the above problems, proposing the utility model to provide a kind of overcomes the problems referred to above or to solve the problem at least in part, and the technical solution of the utility model is achieved in that
On the one hand, the utility model provides a kind of temperature sensing circuit, comprising: high temperature detection branch, low temperature detection branch, temperature-sensitive branch road, exports branch road;
Described temperature-sensitive branch road one end respectively with described high temperature detection branch, described low temperature detection branch be connected, another termination power;
The described high temperature detection branch other end is connected with described output branch road; The enable control end of described high temperature detection branch is connected with system controller;
The described low temperature detection branch other end is connected with described output branch road; The enable control end of described low temperature detection branch is connected with described system controller;
The described output branch road other end is connected with described system controller.
Preferably, described temperature-sensitive branch road adopts thermistor.
Preferably, described thermistor adopts the thermistor of negative temperature coefficient.
Preferably, described high temperature detection branch comprises: the 3rd switching tube and the 3rd resistance; Described 3rd switching tube pin C is connected with described 3rd resistance one end, described 3rd switching tube pin E ground connection, and described 3rd switching tube pin B connects described system controller;
Thermistor one end described in described 3rd another termination of resistance.
Preferably, described low temperature detection branch comprises: second switch pipe and the second resistance; Described second switch pipe pin C is connected with described second resistance one end, described second switch pipe pin E ground connection, and described second switch pipe pin B connects described system controller;
Thermistor one end described in described another termination of second resistance.
Preferably, described output branch road comprises: the first switching tube and the 4th resistance;
Described first switching tube pin C is connected with described 4th resistance one end, described first switching tube pin E ground connection, and described first switching tube pin B connects described second resistance and described 3rd resistance link;
Power supply described in described 4th another termination of resistance.
Preferably, this circuit also comprises: base stage protection branch road; Described base stage protection branch road one end respectively with described high temperature detection branch, described low temperature detection branch one end is connected; The other end is connected with described output branch road.
Preferably, described base stage protection branch road comprises: the first resistance;
Described first resistance one end is connected with described 3rd resistance link with described second resistance, the first switching tube pin B described in another termination.
Preferably, the high temperature limit value of described high temperature detection branch is determined by described thermistor and described 3rd resistance;
The low temperature limit value of described low temperature detection branch is determined by described thermistor and described second resistance.
The utility model additionally provides a kind of electronic equipment, comprising: as above temperature sensing circuit described in any one.
The technical solution of the utility model is by set temperature testing circuit in circuit system, not only can while ensureing the detection to the scope of working temperature, eliminate requirement MCU to ADC sampling functions, the type selecting of more convenient MCU, the limitation of Systematic selection MCU is reduced, meanwhile also reduces design cost.
Accompanying drawing explanation
A kind of temperature sensing circuit structural representation that Fig. 1 provides for the utility model embodiment;
A kind of temperature sensing circuit figure that Fig. 2 provides for the utility model embodiment;
A kind of electronic devices structure schematic diagram that Fig. 3 provides for the utility model embodiment.
Embodiment
For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, the utility model embodiment is described in further detail.
As a kind of temperature sensing circuit structural representation that Fig. 1 provides for being depicted as the utility model embodiment; This temperature sensing circuit comprises: high temperature detection branch, low temperature detection branch, temperature-sensitive branch road, exports branch road;
Described temperature-sensitive branch road one end respectively with described high temperature detection branch, described low temperature detection branch be connected, another termination power;
The described high temperature detection branch other end is connected with described output branch road; The enable control end of described high temperature detection branch is connected with system controller;
The described low temperature detection branch other end is connected with described output branch road; The enable control end of described low temperature detection branch is connected with described system controller;
The described output branch road other end is connected with described system controller.
It should be noted that, described temperature-sensitive branch road adopts thermistor; And described thermistor can adopt the thermistor of negative temperature coefficient.
Also it should be noted that, described high temperature detection branch comprises: the 3rd switching tube and the 3rd resistance; Described 3rd switching tube pin C is connected with described 3rd resistance one end, described 3rd switching tube pin E ground connection, and described 3rd switching tube pin B connects described system controller;
Thermistor one end described in described 3rd another termination of resistance.
Also it should be noted that, described low temperature detection branch comprises: second switch pipe and the second resistance; Described second switch pipe pin C is connected with described second resistance one end, described second switch pipe pin E ground connection, and described second switch pipe pin B connects described system controller;
Thermistor one end described in described another termination of second resistance.
Also it should be noted that, described output branch road comprises: the first switching tube and the 4th resistance;
Described first switching tube pin C is connected with described 4th resistance one end, described first switching tube pin E ground connection, and described first switching tube pin B connects described second resistance and described 3rd resistance link;
Power supply described in described 4th another termination of resistance.
Also it should be noted that, this circuit also comprises: base stage protection branch road; Described base stage protection branch road one end respectively with described high temperature detection branch, described low temperature detection branch one end is connected; The other end is connected with described output branch road.
Also it should be noted that, described base stage protection branch road comprises: the first resistance;
Described first resistance one end is connected with described 3rd resistance link with described second resistance, the first switching tube pin B described in another termination.
Also it should be noted that, the high temperature limit value of described high temperature detection branch is determined by described thermistor and described 3rd resistance; The low temperature limit value of described low temperature detection branch is determined by described thermistor and described second resistance.
Based on above embodiment, as shown in Figure 2, be a kind of temperature sensing circuit figure that the utility model embodiment provides; When described temperature-sensitive branch road adopts thermistor NTC, described high temperature detection branch comprises: the 3rd switching tube Q3 and the 3rd resistance R3; Described low temperature detection branch comprises: second switch pipe Q2 and the second resistance R2; Described output branch road comprises: the first switching tube Q1 and the 4th resistance R4; Described base stage protection branch road comprises: the first resistance R1;
Described 3rd switching tube Q3 pin C is connected with described 3rd resistance R3 one end, described 3rd switching tube Q3 pin E ground connection, and described 3rd switching tube Q3 pin B connects described system controller;
Thermistor NTC one end described in described 3rd another termination of resistance R3.
Described second switch pipe Q2 pin C is connected with described second resistance R2 one end, described second switch pipe Q2 pin E ground connection, and described second switch pipe Q2 pin B connects described system controller;
Thermistor NTC one end described in described second another termination of resistance R2.
Described first switching tube Q1 pin C is connected with described 4th resistance R4 one end, described first switching tube Q1 pin E ground connection, and described first switching tube Q1 pin B connects described second resistance R2 and described 3rd resistance R3 link;
Power supply VCC described in described 4th another termination of resistance R4.
Described first resistance R1 one end is connected with described 3rd resistance R3 link with described second resistance R2, the first switching tube Q1 pin B described in another termination.
Below by way of specific works principle, temperature sensing circuit is described in detail.
In the electronic device, usually according to whole system operation setup temperature range, the normal use of electronic equipment is ensured with this.The design of the utility model circuit, sets higher limit (high temperature limit value) and the lower limit (low temperature limit value) of operating temperature range by circuit.Specific works flow process is as follows:
3rd switching tube Q3, the 3rd resistance R3 are the main devices of high temperature detection branch;
Second switch pipe Q2, the second resistance R2 are the main devices of low temperature detection branch;
First resistance R1 is mainly used in after making the first switching tube Q1 conducting, ensures that base current can not be excessive, burns out triode Q1.
Thermistor NTC is the thermistor of negative temperature coefficient, and namely resistance becomes reverse relation with temperature, and temperature is higher, and the resistance that thermistor is corresponding is lower.
Sent the instruction carrying out high/low temperature detection by system controller MCU, i.e. DETECT-H/DETECT-L, by the enable control end of high temperature detection branch, the enable control end instruction high temperature detection branch of low temperature detection branch and low temperature detection branch start;
The instruction that described high/low temperature detects sets the time interval carrying out detecting by MCU, and such as 1S detects a low temperature, then the instruction DETECT-L sending a low temperature detection is high level; 1S detects a high temperature, then the instruction DETECT-H sending a high temperature detection is high level; In time not detecting, the enable control end of described high temperature detection branch and the enable control end of low temperature detection branch are all low level or high-impedance state, namely ensure that corresponding triode turns off, and can ensure that the circuit of this part is zero loss when not detected temperatures.
Such as: the temperature range that initialization system normally works is 0 DEG C-60 DEG C, then high temperature limit value and the setting of low temperature limit value can be carried out by the selection of resistance.
In time carrying out low temperature detection, DETECT-L is high level, second switch pipe Q2 conducting, the resistance that temperature thermistor NTC 0 DEG C time is worked as in setting is R0, according to the characteristic of thermistor NTC, when temperature is lower time, resistance is higher, that is, as long as the resistance of thermistor time the resistance of thermistor time temperature is greater than 0 DEG C is all less than 0 DEG C; The tube voltage drop of triode Q2 is V
cEQ, then the voltage V now above the second resistance R2
r2=[R2/ (R2+R0)] * (VCC-V
cEQ), by the selection of the resistance of resistance R2, make V
r2+ V
cEQ=0.7V (voltage between the minimum BE of general triode ON is about 0.7V), makes Q1 conducting, so now ACTION becomes low level from height; As long as and time temperature is greater than 0 DEG C, the resistance of thermistor is all less than R0, as long as so when temperature is greater than 0 DEG C, voltage (V
r2+ V
cEQ) all will be greater than 0.7V, once model selected by triode, then V
cEQit is definite value; So just by resistance R2 and thermistor to VCC-V
cEQcarry out dividing potential drop, as long as so temperature is higher, the resistance of thermistor is less, then the dividing potential drop of thermistor is less, and the dividing potential drop on R2 is larger.As from the foregoing, as long as temperature is greater than 0 DEG C, then ACTION is just low level, and when temperature is lower than 0 DEG C, then ACTION is just high level.Once ACTION is high level, just illustrate in the process detected at low temperature, the temperature detected is just lower than 0 DEG C.
In time carrying out high temperature detection, DETECT-H is high level, 3rd switching tube Q3 conducting, setting is when temperature is 60 DEG C time, the resistance of thermistor NTC is R60, and according to the characteristic of thermistor NTC, when temperature is higher time, resistance is lower, that is, as long as the resistance of thermistor time the resistance of thermistor time temperature is less than 60 DEG C is all greater than 60 DEG C; Make when temperature is 60 DEG C time, the tube voltage drop of triode Q3 is V
cEQ, then the voltage V now above R3
r3=[R3/ (R3+R60)] * (VCC-V
cEQ), by the selection of the resistance of resistance R3, make V
r3+ V
cEQ=0.7V, the voltage between the minimum BE of general triode ON is about 0.7V, makes Q1 conducting, so now ACTION becomes low level from height; As long as and temperature is less than 60 DEG C, the resistance of thermistor is all greater than R60, as long as so when temperature is less than 60 DEG C, and voltage (V
r2+ V
cEQ) all will be less than 0.7V, once model selected by triode, then V
cEQit is definite value; So just by resistance R3 and thermistor to (VCC-V
cEQ) carry out dividing potential drop, so temperature is lower, the resistance of thermistor is larger, then the dividing potential drop of thermistor is larger, and the dividing potential drop on R3 is less.As from the foregoing, as long as temperature is greater than 60 DEG C, then ACTION is just low level; When temperature is lower than 60 DEG C, then ACTION is just high level.Once ACTION is low level, just illustrate that in the process detected at high temperature, the temperature detected is higher than 60 DEG C.
As shown in Figure 3, be a kind of electronic equipment that the utility model embodiment provides; This electronic equipment comprises: as above arbitrary described temperature sensing circuit.
The technical solution of the utility model is by set temperature testing circuit in circuit system, not only can while ensureing the detection to the scope of working temperature, eliminate requirement MCU to ADC sampling functions, the type selecting of more convenient MCU, the limitation of Systematic selection MCU is reduced, meanwhile also reduces design cost.
The foregoing is only preferred embodiment of the present utility model, be not intended to limit protection domain of the present utility model.All do within spirit of the present utility model and principle any amendment, equivalent replacement, improvement etc., be all included in protection domain of the present utility model.
Claims (10)
1. a temperature sensing circuit, is characterized in that, comprising: high temperature detection branch, low temperature detection branch, temperature-sensitive branch road, exports branch road;
Described temperature-sensitive branch road one end respectively with described high temperature detection branch, described low temperature detection branch be connected, another termination power;
The described high temperature detection branch other end is connected with described output branch road; The enable control end of described high temperature detection branch is connected with system controller;
The described low temperature detection branch other end is connected with described output branch road; The enable control end of described low temperature detection branch is connected with described system controller;
The described output branch road other end is connected with described system controller.
2. temperature sensing circuit according to claim 1, is characterized in that, described temperature-sensitive branch road adopts thermistor.
3. temperature sensing circuit according to claim 2, is characterized in that, described thermistor adopts the thermistor of negative temperature coefficient.
4. temperature sensing circuit according to claim 3, is characterized in that, described high temperature detection branch comprises: the 3rd switching tube and the 3rd resistance; Described 3rd switching tube pin C is connected with described 3rd resistance one end, described 3rd switching tube pin E ground connection, and described 3rd switching tube pin B connects described system controller;
Thermistor one end described in described 3rd another termination of resistance.
5. temperature sensing circuit according to claim 4, is characterized in that, described low temperature detection branch comprises: second switch pipe and the second resistance; Described second switch pipe pin C is connected with described second resistance one end, described second switch pipe pin E ground connection, and described second switch pipe pin B connects described system controller;
Thermistor one end described in described another termination of second resistance.
6. temperature sensing circuit according to claim 5, is characterized in that, described output branch road comprises: the first switching tube and the 4th resistance;
Described first switching tube pin C is connected with described 4th resistance one end, described first switching tube pin E ground connection, and described first switching tube pin B connects described second resistance and described 3rd resistance link;
Power supply described in described 4th another termination of resistance.
7. temperature sensing circuit according to claim 6, is characterized in that, this circuit also comprises: base stage protection branch road; Described base stage protection branch road one end respectively with described high temperature detection branch, described low temperature detection branch one end is connected; The other end is connected with described output branch road.
8. temperature sensing circuit according to claim 7, is characterized in that, described base stage protection branch road comprises: the first resistance;
Described first resistance one end is connected with described 3rd resistance link with described second resistance, the first switching tube pin B described in another termination.
9. temperature sensing circuit according to claim 8, is characterized in that, the high temperature limit value of described high temperature detection branch is determined by described thermistor and described 3rd resistance;
The low temperature limit value of described low temperature detection branch is determined by described thermistor and described second resistance.
10. an electronic equipment, is characterized in that, comprising: temperature sensing circuit as described in claim 1-9 any one.
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CN201520204956.3U CN204612829U (en) | 2015-04-07 | 2015-04-07 | A kind of temperature sensing circuit and there is the electronic equipment of this circuit |
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CN201520204956.3U CN204612829U (en) | 2015-04-07 | 2015-04-07 | A kind of temperature sensing circuit and there is the electronic equipment of this circuit |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104833439A (en) * | 2015-04-07 | 2015-08-12 | 青岛歌尔声学科技有限公司 | Temperature detection circuit and electronic device with same |
CN110411601A (en) * | 2019-08-09 | 2019-11-05 | 珠海格力电器股份有限公司 | temperature detection method and detection circuit |
-
2015
- 2015-04-07 CN CN201520204956.3U patent/CN204612829U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104833439A (en) * | 2015-04-07 | 2015-08-12 | 青岛歌尔声学科技有限公司 | Temperature detection circuit and electronic device with same |
CN110411601A (en) * | 2019-08-09 | 2019-11-05 | 珠海格力电器股份有限公司 | temperature detection method and detection circuit |
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