CN104065779A - Method and system for testing module power consumption - Google Patents

Abstract

The invention discloses a method and system for testing module power consumption. The method includes the steps that (1) a power module supplies power to a man-machine interaction module, a CPU and a plurality of to-be-tested modules through a power management unit; (2) the power management unit collects data of the power module and the multiple to-be-tested modules and transmits the data to the CPU, and the collected data are displayed by the CPU through the man-machine interaction module; (3) a detection module detects whether a user selects the to-be-tested modules needing to be tested through the man-machine interaction module or not, if the detection module detects that a user instruction is input, the CPU transmits the input user instruction to the power management unit, and if the detection module detects that no user instruction is input, the step (2) is executed. When the module power consumption is tested with the method and the system in the power consumption research and development testing process, machine disassembling is avoided, and the labor cost and the research and development cost are saved.

Description

A kind of module dissipation method of testing and system

Technical field

The present invention relates to the power consumption test of the communications field, particularly a kind of module dissipation method of testing and system.

Background technology

In Cell Phone Design and R&D process, need to control power consumption, therefore will repeatedly carry out power consumption test, guarantee that the power consumption of modules is in certain control range.For example in certain test, there is the phenomenon that certain module dissipation exceeds standard, head it off need to determine which module exceeds standard, but be to can not determine the module that exceeds standard by system test, determine which module exceeds standard, machine must be broken, then by modules installation testing respectively, could finally determine the power consumption module that exceeds standard.

Prior art needs to tear open machine operation in module testing process, expends time in, and damages hardware simultaneously easily, and inefficiency and be not suitable for software engineer and work independently needs Hardware Engineer to assist conventionally when test, and manpower expense is relatively large.

Summary of the invention

The object of this invention is to provide a kind of module dissipation method of testing and system, when module dissipation is tested in research and development power consumption test process, need not tear machine open, save human cost and R&D costs.

In order to realize above object, the present invention is achieved by the following technical solutions:

A module dissipation method of testing, is characterized in, comprises:

Step 1, battery module by battery management unit to human-computer interaction module, CPU and several module for power supply to be measured;

Step 2, battery management unit gather the Data Concurrent of battery module and several modules to be measured and give CPU, and CPU shows the data that collect via human-computer interaction module;

Whether step 3, detection module detect has user by human-computer interaction module, to select to need the module to be measured of test;

If step S1 detection module detects, have user instruction input, CPU sends to battery management unit by user input instruction;

If step S2 detection module is not tested with user instruction input, jump to step 2.

After described step S1, further comprise following steps:

A, battery management unit are controlled opening or closing of modular power source to be measured;

B, user are by observed and recorded system power dissipation, and contrast is made in front and back, draws the power consumption of module to be measured, judges whether that power consumption exceeds standard.

Optionally, described human-computer interaction module comprises instruction input module and the display module being connected with CPU respectively.

Optionally, between described battery management unit and human-computer interaction module, battery management unit and module to be measured, by low pressure difference linear voltage regulator, be connected, the module to be measured that described battery management unit is controlled described in arbitrary by low pressure difference linear voltage regulator opens or closes.

Optionally, described CPU comprises:

Data processing module, it is responsible for processing user instruction;

Basic-level support module, itself and data processing module two-way communication, and be connected with battery management unit;

Data input module, its output is connected with data processing module, and input link order input module, is used for receiving user instruction;

Data acquisition module, it is connected with battery management unit, gathers the power consumption data of battery module and module to be measured.

A system for above-mentioned module dissipation method of testing, comprises:

Battery management unit;

The battery module being connected with battery management unit input;

The man-machine interaction mould module being connected with battery management unit output, several modules to be measured;

The CPU being connected with human-computer interaction module;

The detection module being connected with human-computer interaction module.

Optionally, described human-computer interaction module comprises instruction input module and the display module being connected with CPU respectively.

Optionally, described CPU comprises:

Data processing module, it is responsible for processing user instruction;

Basic-level support module, itself and data processing module two-way communication, and be connected with battery management unit;

Data input module, its output is connected with data processing module, and input link order input module, is used for receiving user instruction;

Data acquisition module, it is connected with battery management unit, gathers the power consumption data of battery module and module to be measured.

The present invention compared with prior art, has the following advantages:

The present invention need not tear machine open when module dissipation is tested in research and development power consumption test process, saves human cost and R&D costs.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of module dissipation test macro of the present invention.

Fig. 2 is the structured flowchart of CPU of the present invention.

Embodiment

Below in conjunction with accompanying drawing, by describing a preferably specific embodiment in detail, the present invention is further elaborated.

As shown in Figure 1, 2, a kind of module dissipation method of testing, comprises:

Step 1, battery module 1 are by battery management unit (PMU) to human-computer interaction module 2, CPU and several module 3 power supplies to be measured, and human-computer interaction module 2 is connected with battery management unit 4 by being integrated in the low pressure difference linear voltage regulator (LDO) of battery management unit 4 with several modules 3 to be measured;

The Data Concurrent that step 2, battery management unit 4 gather battery module 1 and several modules 3 to be measured is given CPU, and CPU shows the data that collect via the display module 21 in human-computer interaction module 2;

Step 3, detection module 5 detect the instruction input module 22 that whether has user to pass through in human-computer interaction module 2 and select the module to be measured that need to test;

If step S1 detection module 5 detects, have user instruction input, CPU sends to battery management unit 4 by user input instruction;

If step S2 detection module 5 is not tested with user instruction input, jump to step 2.

After step S1, further comprise following steps:

A, battery management unit 4 are made corresponding disconnection or ON Action to LDO after receiving cpu command, and control opening or closing of modular power source to be measured by LDO;

B, user are by observed and recorded system power dissipation, and contrast is made in front and back, draws the power consumption of 3 of moulds to be measured, judges whether that power consumption exceeds standard.

Before step 1, also need communicating by letter of the resources such as initializing variable, array, chained list and user interface and battery management unit.

As shown in Figure 1, a kind of system of module dissipation test, comprises: battery management unit 4; The battery module 1 being connected with battery management unit 4 inputs; The human-computer interaction module 2 being connected with battery management unit 4 outputs, several modules 3 to be measured; The CPU being connected with human-computer interaction module 2; The detection module 5 being connected with human-computer interaction module 2.Human-computer interaction module 2 comprises instruction input module 22 and the display module 21 being connected with CPU respectively.

As shown in Figure 2, CPU comprises: data processing module 61, and it is responsible for processing user instruction; Basic-level support module 62, itself and data processing module 61 two-way communications, and be connected with battery management unit 4; Data input module 63, its output is connected with data processing module 61, and input link order input module 22, is used for receiving user instruction; Data acquisition module 64, it is connected with battery management unit 4, gathers the power consumption data of battery module 1 and module to be measured 3.

In sum, a kind of module dissipation method of testing of the present invention and system, owing to powering to modules by battery management unit, and control opening or closing of modular power source to be measured by LDO, when therefore module dissipation is tested in research and development power consumption test process, machine be need not tear open, human cost and R&D costs saved.

Although content of the present invention has been done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to limitation of the present invention.Those skilled in the art, read after foregoing, for multiple modification of the present invention with to substitute will be all apparent.Therefore, protection scope of the present invention should be limited to the appended claims.

Claims (8)

1. a module dissipation method of testing, is characterized in that, comprises:

Step 1, battery module by battery management unit to human-computer interaction module, CPU and several module for power supply to be measured;

Step 2, battery management unit gather the Data Concurrent of battery module and several modules to be measured and give CPU, and CPU shows the data that collect via human-computer interaction module;

Whether step 3, detection module detect has user by human-computer interaction module, to select to need the module to be measured of test;

If step S1 detection module detects, have user instruction input, CPU sends to battery management unit by user input instruction;

If step S2 detection module is not tested with user instruction input, jump to step 2.

2. module dissipation method of testing as claimed in claim 1, is characterized in that, further comprises following steps after described step S1:

A, battery management unit are controlled opening or closing of modular power source to be measured;

B, user are by observed and recorded system power dissipation, and contrast is made in front and back, draws the power consumption of module to be measured, judges whether that power consumption exceeds standard.

3. module dissipation method of testing as claimed in claim 1, is characterized in that, described human-computer interaction module comprises instruction input module and the display module being connected with CPU respectively.

4. module dissipation method of testing as claimed in claim 2, it is characterized in that, between described battery management unit and human-computer interaction module, battery management unit and module to be measured, by low pressure difference linear voltage regulator, be connected, the module to be measured that described battery management unit is controlled described in arbitrary by low pressure difference linear voltage regulator opens or closes.

5. module dissipation method of testing as claimed in claim 3, is characterized in that, described CPU comprises:

Data processing module, it is responsible for processing user instruction;

Basic-level support module, itself and data processing module two-way communication, and be connected with battery management unit;

Data input module, its output is connected with data processing module, and input link order input module, is used for receiving user instruction;

Data acquisition module, it is connected with battery management unit, gathers the power consumption data of battery module and module to be measured.

6. for a system for the module dissipation method of testing as described in claim 1-5 any one, it is characterized in that, comprise:

Battery management unit;

The battery module being connected with battery management unit input;

The man-machine interaction mould module being connected with battery management unit output and several modules to be measured;

The CPU being connected with human-computer interaction module;

The detection module being connected with human-computer interaction module.

7. system as claimed in claim 6, is characterized in that, described human-computer interaction module comprises instruction input module and the display module being connected with CPU respectively.

8. system as claimed in claim 7, is characterized in that, described CPU comprises:

Data processing module, it is responsible for processing user instruction;

Basic-level support module, itself and data processing module two-way communication, and be connected with battery management unit;

Data input module, its output is connected with data processing module, and input link order input module, is used for receiving user instruction;

Data acquisition module, it is connected with battery management unit, gathers the power consumption data of battery module and module to be measured.