CN104464262A - Method and circuit for controlling remote controller to enter infrared test - Google Patents

Abstract

The invention provides a method and a circuit for controlling a remote controller to enter an infrared test. The method for controlling the remote controller to enter the infrared test comprises the following steps: a presetting step of setting two or more than two keys of the remote controller as combined keys; a detecting step of detecting whether the combined keys of the remote controller are pressed simultaneously, if so, skipping to a control step, and if not, returning to detect whether the combined keys of the remote controller are pressed; and the control step of controlling the remote controller to enter a test mode, wherein all keys emit infrared code values to an external decoder. According to the invention, the existing keys of the remote controller are combined and set to directly enter the test mode of the remote controller, and all keys of the remote controller emit the infrared code values to the external decoder in the test mode in the absence of a computer or a radio signal tester, so that the instrument volume is small, transport and use are convenient, the production and test efficiency are greatly improved, the operation is simple, convenient and effective and the cost is low.

Description

A kind ofly control method and the circuit that telepilot enters infrared test

Technical field

The present invention relates to a kind of method of testing of telepilot, particularly relate to and a kind ofly control the method that telepilot enters infrared test, and relate to and have employed the circuit that this control telepilot enters the method for infrared test.

Background technology

In present telepilot, under normal operating conditions, what only have a button to send is infrared code value, what other buttons sent is wireless signal, so, when testing this telepilot, just need to test respectively infrared code value and wireless signal, and due to number of keys many, so, just pretty troublesome when testing the wireless push function of telepilot, need to use computer, infrared test instrument and wireless signal instrument simultaneously, cost is high, complex operation, and test job efficiency is low.

Summary of the invention

Technical matters to be solved by this invention needs to provide a kind of telepilot method of testing just can being tested all buttons by infrared code value, and provide and have employed the circuit that this control telepilot enters the method for infrared test.

To this, the invention provides and a kind ofly control the method that telepilot enters infrared test, comprise the following steps:

Foresee steps, two or more buttons of setting remote controller are as combination button;

Detecting step, detects telepilot and whether presses combination button simultaneously, if then jump to rate-determining steps, then returns continuation detection telepilot if not and whether presses combination button;

And rate-determining steps, controls telepilot and enters test pattern, and all buttons launch infrared code value to external Decoder.

The present invention is mainly in infrared wireless remote control device, and when testing the radio function of telepilot, if just need to use computer as prior art, need carrying computer so in process of production and mounting software, it is very troublesome that test is got up, the present invention pins the button of two or more setting simultaneously, just directly can enter the test pattern of telepilot, under described test pattern, the all buttons controlling telepilot are all launch infrared code value, that is, in test mode, all buttons are all outwards launch infrared code value by the infrared transmitting tube of telepilot itself, and then directly just can realize the test to all buttons with external Decoder, Decoder volume is little, convenient production, transport and use, production test efficiency can also be improved simultaneously, effectively easy and simple to handle, cost is low.

The realization of this process of the present invention realizes based on the existing button of telepilot and built-in MCU, almost do not increase hardware cost.

Further improvement of the present invention is, also comprise and exit step, after control telepilot enters to test pattern, detect telepilot and whether again press combination button simultaneously, if then exit test pattern, all buttons of telepilot are then kept to launch infrared code value to external Decoder if not.Be under test pattern at telepilot, by again pressing the combination button of setting simultaneously, just can exit test pattern, get back to normal operating conditions, facilitate slip-stick artist in the operation testing and exit test to telepilot.

Further improvement of the present invention is, after described telepilot enters test pattern, all buttons launch infrared code value to external Decoder automatically according to the time interval of setting; When there being the infrared code value of button to send unsuccessfully, interrupting follow-up button and launching infrared code value, and sending alerting signal.

The time interval of described setting can be 0.1s to 1s, and this time interval can set according to Decoder or actual conditions; After each button and a upper button are spaced 0.1s to 1s, automatically launch infrared code value to external Decoder, like this, just can realize the button signaling test of robotization; On this basis, when there being the infrared code value of button to send unsuccessfully, illustrate that this button has problems, so, even if interrupt test process, follow-up button is made no longer to launch infrared code value, send alerting signal, described alerting signal is preferably audible alarm and/light warning simultaneously, and which button existing problem by the Decoder cooperatively interacted, tester just can be learnt at once is, substantially increase the efficiency of test, realize the robotization infrared test of all buttons of telepilot.

Further improvement of the present invention is, two buttons of setting remote controller, as combination button, send the control signal of combination button when to press two set buttons simultaneously.By the combination button being combined to form fixed function of two buttons, both facilitated the use of client, and also can prevent from well pressing combination button simultaneously by mistake.

The present invention also provides a kind of and controls the circuit that telepilot enters infrared test, have employed the method that above-mentioned control telepilot enters infrared test, and comprising main control module, infrared transmitting circuit, mode switch module and combination button module, described infrared transmitting circuit, mode switch module are connected with main control module respectively with combination button module.

Further improvement of the present invention is, also comprises low voltage detecting module, and described low voltage detecting module is connected with main control module.

Further improvement of the present invention is, described main control module comprises MCU, crystal oscillator X2, load capacitance C22, load capacitance C23, inductance L 4, inductance L 6, electric capacity C5, electric capacity C4, inductance L 1, electric capacity C3, electric capacity C11, inductance L 3 and electric capacity C10; Described MCU is connected with crystal oscillator X2, and described load capacitance C22 and load capacitance C23 is connected to the two ends of crystal oscillator X2 to form start-oscillation circuit; Described MCU is connected to inductance L 4 parallel with one another, electric capacity C5 and electric capacity C4 respectively, and described electric capacity C5 and electric capacity C4 is ground connection respectively; Described inductance L 4 and inductance L 6 are connected mutually, and described MCU is connected to the centre of inductance L 4 and inductance L 6; Described MCU is connected to inductance L 1, and described inductance L 1, electric capacity C5, inductance L 3 are connected mutually, and described electric capacity C5 is by electric capacity C11 ground connection, and described inductance L 3 is by electric capacity C10 ground connection.

Further improvement of the present invention is, described infrared transmitting circuit comprises resistance R16, triode Q2 and light emitting diode D5, described main control module is connected to the base stage of triode Q2 by resistance R16, the grounded emitter of described triode Q2, the collector of described triode Q2 is connected to the negative pole of light emitting diode D5.

Further improvement of the present invention is, described combination button module comprises keyswitch S1 parallel with one another and keyswitch S2, and the two ends of described keyswitch S1 and keyswitch S2 are connected to main control module respectively.

Further improvement of the present invention is, described mode switch module is by pull-up resistor R12 ground connection, and described low voltage detecting module is connected to power end by pull-up resistor R8.

Compared with prior art, beneficial effect of the present invention is, combination setting is carried out by utilizing the existing button of telepilot, obtain combination button, and then realize pinning the test pattern that combination button just directly can enter telepilot simultaneously, under described test pattern, all buttons of telepilot all launch infrared code value to external Decoder, and then without the need to computer and wireless signal measurement instrument, directly just can realize the test to all buttons with external Decoder, Decoder volume is little, convenient production, transport and use, production test efficiency can also be increased substantially simultaneously, operate simple and effective, cost is low.

Accompanying drawing explanation

Fig. 1 is the principle of work schematic diagram of an embodiment of the present invention;

Fig. 2 is the circuit theory schematic diagram of the main control module of the another kind of embodiment of the present invention;

Fig. 3 is the circuit theory schematic diagram of the infrared transmitting circuit of the another kind of embodiment of the present invention;

Fig. 4 is the circuit theory schematic diagram of the combination button module of the another kind of embodiment of the present invention;

Fig. 5 is the circuit theory schematic diagram of the mode switch module of the another kind of embodiment of the present invention;

Fig. 6 is the circuit theory schematic diagram of the low voltage detecting module of the another kind of embodiment of the present invention.

Embodiment

Below in conjunction with accompanying drawing, preferably embodiment of the present invention is described in further detail.

Embodiment 1:

This example provides a kind of and controls the method that telepilot enters infrared test, comprises the following steps:

Foresee steps, two or more buttons of setting remote controller are as combination button;

Detecting step, detects telepilot and whether presses combination button simultaneously, if then jump to rate-determining steps, then returns continuation detection telepilot if not and whether presses combination button;

And rate-determining steps, controls telepilot and enters test pattern, and all buttons launch infrared code value to external Decoder.

When testing the radio function of telepilot, need the testing tool using computer, Decoder and wireless signal in prior art, need carrying computer so in process of production and mounting software, it is very troublesome that test is got up, and efficiency is low, and cost is high.

This example is mainly in infrared wireless remote control device, as shown in Figure 1, pin the button of two or more setting simultaneously, just directly can enter the test pattern of telepilot, under described test pattern, the all buttons controlling telepilot are all launch infrared code value, that is, in test mode, all buttons are all outwards launch infrared code value by the infrared transmitting tube of telepilot itself, and then directly just can realize the test to all buttons with external Decoder, Decoder volume is little, convenient production, transport and use, production test efficiency can also be improved simultaneously, effectively easy and simple to handle, cost is low.In Fig. 1, two buttons of setting remote controller are as combination button.

This example also preferably includes and exits step, after control telepilot enters to test pattern, detect telepilot and whether again press combination button simultaneously, if then exit test pattern, then keep all buttons of telepilot to launch infrared code value to external Decoder if not.Be under test pattern at telepilot, by again pressing the combination button of setting simultaneously, just can exit test pattern, get back to normal operating conditions, facilitate slip-stick artist in the operation testing and exit test to telepilot.

After this routine described telepilot enters test pattern, all buttons preferably launch infrared code value to external Decoder automatically according to the time interval of setting; When there being the infrared code value of button to send unsuccessfully, interrupting follow-up button and launching infrared code value, and sending alerting signal.

The time interval of described setting can be 0.1s to 1s, and this time interval can set according to Decoder or actual conditions; After each button and a upper button are spaced 0.1s to 1s, automatically launch infrared code value to external Decoder, like this, just can realize the button signaling test of robotization; On this basis, when there being the infrared code value of button to send unsuccessfully, illustrate that this button has problems, so, even if interrupt test process, follow-up button is made no longer to launch infrared code value, send alerting signal, described alerting signal is preferably audible alarm and/light warning simultaneously, and which button existing problem by the Decoder cooperatively interacted, tester just can be learnt at once is, substantially increase the efficiency of test, realize the robotization infrared test of all buttons of telepilot.

This example preferably sets two buttons of telepilot as combination button, sends the control signal of combination button when to press two set buttons simultaneously.By the combination button being combined to form fixed function of two buttons, both facilitated the use of client, and also can prevent from well pressing combination button simultaneously by mistake.

This example carries out combination setting by utilizing the existing button of telepilot, obtain combination button, and then realize pinning the test pattern that combination button just directly can enter telepilot simultaneously, under described test pattern, all buttons of telepilot all launch infrared code value to external Decoder, and then without the need to computer and wireless signal measurement instrument, the test of all buttons directly just can be realized with external Decoder, Decoder volume is little, convenient production, transport and use, can also increase substantially production test efficiency, operate simple and effective, cost is low simultaneously.

Embodiment 2:

As shown in Figures 2 to 6, this example provides a kind of and controls the circuit that telepilot enters infrared test, the control telepilot that have employed described in embodiment 1 enters the method for infrared test, and comprising main control module, infrared transmitting circuit, mode switch module and combination button module, described infrared transmitting circuit, mode switch module are connected with main control module respectively with combination button module.

This example also preferably includes low voltage detecting module, and described low voltage detecting module is connected with main control module.

As shown in Figure 2, this routine described main control module comprises MCU, crystal oscillator X2, load capacitance C22, load capacitance C23, inductance L 4, inductance L 6, electric capacity C5, electric capacity C4, inductance L 1, electric capacity C3, electric capacity C11, inductance L 3 and electric capacity C10; Described MCU is connected with crystal oscillator X2, and described load capacitance C22 and load capacitance C23 is connected to the two ends of crystal oscillator X2 to form start-oscillation circuit; Described MCU is connected to inductance L 4 parallel with one another, electric capacity C5 and electric capacity C4 respectively, and described electric capacity C5 and electric capacity C4 is ground connection respectively; Described inductance L 4 and inductance L 6 are connected mutually, and described MCU is connected to the centre of inductance L 4 and inductance L 6; Described MCU is connected to inductance L 1, and described inductance L 1, electric capacity C5, inductance L 3 are connected mutually, and described electric capacity C5 is by electric capacity C11 ground connection, and described inductance L 3 is by electric capacity C10 ground connection.

As shown in Figure 4, keyswitch S1 and keyswitch S2 is connected to P0.0, P3.4 and P3.1 of MCU by I/O port, when keyswitch S1 presses with keyswitch S2 simultaneously, P0.0, P3.4 and P3.1 are communicated with, MCU detects that keyswitch S1 and keyswitch S2 is concurrently depressed, the routine call test procedure of MCU inside by presetting, the PIO17 of Fig. 3 then outputs signal, each button then exports infrared signal and then tests the infrared code value of each button, re-powers after power-off, replys normal working routine and controls receiver.

As shown in Figure 3, this routine described infrared transmitting circuit comprises resistance R16, triode Q2 and light emitting diode D5, described main control module is connected to the base stage of triode Q2 by resistance R16, the grounded emitter of described triode Q2, the collector of described triode Q2 is connected to the negative pole of light emitting diode D5.

As shown in Figure 4, this routine described combination button module comprises keyswitch S1 parallel with one another and keyswitch S2, and the two ends of described keyswitch S1 and keyswitch S2 are connected to main control module respectively.

As shown in Figure 5 and Figure 6, this routine described mode switch module is by pull-up resistor R12 ground connection, and described low voltage detecting module is connected to power end by pull-up resistor R8.Fig. 6 is used for realizing low voltage test function, and cell voltage will send low-voltage and remind when the pull-up resistor R8 output voltage of 200K detects brownout to MCU, MCU.

Above content is in conjunction with concrete preferred implementation further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, some simple deduction or replace can also be made, all should be considered as belonging to protection scope of the present invention.

Claims (10)

1. control the method that telepilot enters infrared test, it is characterized in that, comprise the following steps:

Foresee steps, two or more buttons of setting remote controller are as combination button;

Detecting step, detects telepilot and whether presses combination button simultaneously, if then jump to rate-determining steps, then returns continuation detection telepilot if not and whether presses combination button;

And rate-determining steps, controls telepilot and enters test pattern, and all buttons launch infrared code value to external Decoder.

2. control telepilot according to claim 1 enters the method for infrared test, it is characterized in that, also comprise and exit step, after control telepilot enters to test pattern, detect telepilot and whether again press combination button simultaneously, if then exit test pattern, all buttons of telepilot are then kept to launch infrared code value to external Decoder if not.

3. control telepilot according to claim 1 and 2 enters the method for infrared test, it is characterized in that, after described telepilot enters test pattern, all buttons launch infrared code value to external Decoder automatically according to the time interval of setting; When there being the infrared code value of button to send unsuccessfully, interrupting follow-up button and launching infrared code value, and sending alerting signal.

4. control telepilot according to claim 1 and 2 enters the method for infrared test, it is characterized in that, two buttons of setting remote controller, as combination button, send the control signal of combination button when to press two set buttons simultaneously.

5. one kind controls the circuit that telepilot enters infrared test, it is characterized in that, the control telepilot that have employed described in Claims 1-4 any one enters the method for infrared test, and comprising main control module, infrared transmitting circuit, mode switch module and combination button module, described infrared transmitting circuit, mode switch module are connected with main control module respectively with combination button module.

6. control telepilot according to claim 5 enters the circuit of infrared test, it is characterized in that, also comprises low voltage detecting module, and described low voltage detecting module is connected with main control module.

7. control telepilot according to claim 5 enters the circuit of infrared test, it is characterized in that, described main control module comprises MCU, crystal oscillator X2, load capacitance C22, load capacitance C23, inductance L 4, inductance L 6, electric capacity C5, electric capacity C4, inductance L 1, electric capacity C3, electric capacity C11, inductance L 3 and electric capacity C10; Described MCU is connected with crystal oscillator X2, and described load capacitance C22 and load capacitance C23 is connected to the two ends of crystal oscillator X2 to form start-oscillation circuit; Described MCU is connected to inductance L 4 parallel with one another, electric capacity C5 and electric capacity C4 respectively, and described electric capacity C5 and electric capacity C4 is ground connection respectively; Described inductance L 4 and inductance L 6 are connected mutually, and described MCU is connected to the centre of inductance L 4 and inductance L 6; Described MCU is connected to inductance L 1, and described inductance L 1, electric capacity C5, inductance L 3 are connected mutually, and described electric capacity C5 is by electric capacity C11 ground connection, and described inductance L 3 is by electric capacity C10 ground connection.

8. control telepilot according to claim 5 enters the circuit of infrared test, it is characterized in that, described infrared transmitting circuit comprises resistance R16, triode Q2 and light emitting diode D5, described main control module is connected to the base stage of triode Q2 by resistance R16, the grounded emitter of described triode Q2, the collector of described triode Q2 is connected to the negative pole of light emitting diode D5.

9. control telepilot according to claim 5 enters the circuit of infrared test, it is characterized in that, described combination button module comprises keyswitch S1 parallel with one another and keyswitch S2, and the two ends of described keyswitch S1 and keyswitch S2 are connected to main control module respectively.

10. control telepilot according to claim 6 enters the circuit of infrared test, it is characterized in that, described mode switch module is by pull-up resistor R12 ground connection, and described low voltage detecting module is connected to power end by pull-up resistor R8.