CN208001271U - A kind of adjustable PWM wave generator of frequency duty ratio - Google Patents

Abstract

Include with the display module for preventing the power module of reversed and afterflow protection, the control module of progress Data Analysis Services, the adjustment module for adjusting frequency duty ratio, the output module and charactron display frequency and duty ratio that whether are exported with LED light indication signal the utility model discloses a kind of adjustable PWM wave generator of frequency duty ratio;The power module is connect with the control module, adjustment module, output module, display module respectively;The control module is connect with the adjustment module, output module, display module respectively;The pwm signal wave that the utility model generates can be achieved continuously adjustable in frequency and duty ratio;Display module can instant playback go out its frequency, the concrete numerical value of duty ratio, very intuitively.

Description

A kind of adjustable PWM wave generator of frequency duty ratio

Technical field

The utility model is related to arrive PWM wave frequency duty cycle adjustment technical field more particularly to a kind of frequency duty ratio Adjustable PWM wave generator.

Background technology

Pwm signal has wide range of applications, but its frequency and duty ratio adjust simultaneously and can immediate observation to having Lack related application in terms of body numerical value.

Therefore, the prior art is defective, needs to improve.

Utility model content

The utility model provides a kind of adjustable PWM wave generator of frequency duty ratio, the above problem of solution.

To solve the above problems, the technical scheme that the utility model is provided is as follows:

A kind of adjustable PWM wave generator of frequency duty ratio includes with power module, the progress for preventing reversed and afterflow protection The control module of Data Analysis Services, the adjustment module for adjusting frequency duty ratio, the output whether exported with LED light indication signal The display module of module and charactron display frequency and duty ratio;The power module respectively with the control module, adjust mould Block, output module, display module connection;The control module connects with the adjustment module, output module, display module respectively It connects.

Preferred technical solution, the power module include power connector POWER, resistance R1, capacitance C1-C12, inductance L1, diode D1-D2, Light-emitting diode LED 1 and integrated circuit U 1;The 1st end and described two of the power connector POWER The anode connection of pole pipe D1;The cathode of the diode D1 respectively with the first end of described capacitance C1, C5-C7, C11, C12, institute State the 1st pin connection of integrated circuit U1;The 2nd end of the power connector POWER, described capacitance C1, C5-C7, C11, C12 Second end, the integrated circuit U1 the 3rd, 5 pins are grounded;The 4th pin of the integrated circuit U1 respectively with the electricity Feel second end, the first end of described capacitance C2-C4, C8-C10, the first end of the resistance R1 connection of L1;The resistance R1's Second end is connect with the anode of the Light-emitting diode LED 1;The 2nd pin of the integrated circuit U1 respectively with the diode The first end connection of the cathode of D2, the inductance L1;The second of positive, described capacitance C2-C4, C8-C10 of the diode D2 It holds, the cathode of the Light-emitting diode LED 1 is grounded;The diode D2 is zener diode;The Light-emitting diode LED 1 For red light emitting diodes;The model LM2576T-5.0 of the integrated circuit U1.

Preferred technical solution, the control module include resistance R13-R27, pull-up exclusion RP1-RP2, capacitance C15- C16, crystal oscillator Y1 and integrated circuit U 2;The first end of the resistance R1 respectively with the 1st of the pull-up exclusion RP1-RP2,10-17 Pin, the 31st of the integrated circuit U2 the, 40 pins, the resistance R14-R27 first end connection;The integrated circuit U2's 39-32 pins are connect with the 2-9 pins of the pull-up exclusion RP1 respectively successively;The 28-21 of the integrated circuit U2 is managed Foot is connect with the 2-9 pins of the pull-up exclusion RP2 respectively successively;The 9th pin of the integrated circuit U2 and the resistance The second end of R13 connects;The first end of the resistance R13, the integrated circuit U2 the 20th pin be grounded;The integrated electricity The 19th pin of road U2 is connect with the first end of the first end of the capacitance C15, the crystal oscillator Y1 respectively;The integrated circuit U2 The 18th pin connect respectively with the second end of the first end of the capacitance C16, the crystal oscillator Y1;The capacitance C15-C16's Second end is grounded;The model STC89S52 of the integrated circuit U2.

Preferred technical solution, the adjustment module include resistance R8-R10 and button S1-S3;The first of the resistance R1 End is connect with the first end of the resistance R8-R10 respectively;The second end of the resistance R8 respectively with the button S1 first The 1st pin connection at end, the integrated circuit U2;The second end of the resistance R9 respectively with the first end of the button S2, institute State the 2nd pin connection of integrated circuit U2;The second end of the resistance R10 respectively with the first end of the button S3, the collection It is connected at the 3rd pin of circuit U 2;The second end of the button S1-S3 is grounded;The button S1 is set key;The button S2 is plus key;The button S3 is to subtract key.

Preferred technical solution, the output module include external power supply VSS, resistance R2, R28-R30, light emitting diode LED2, triode Q1 and out connector OUT1;The external power supply VSS respectively with the first end of described resistance R2, R30, institute State the 3rd stitch connection of positive, the described out connector OUT1 of Light-emitting diode LED 2;The Light-emitting diode LED 2 is born Pole is connect with the first end of the resistance R29;The second end of the resistance R29 respectively with the second end of the resistance R30, described The 2nd stitch connection of the collector of triode Q1, the out connector OUT1;The second end of the resistance R2 respectively with it is described The second end of resistance R28, the connection of the base stage of the triode Q1;The first end of the resistance R28 is with the integrated circuit U2's 17th pin connects;The emitter of the triode Q1, the out connector OUT1 the 1st stitch be grounded.

Preferred technical solution, the display module include triode Q3-Q8 and tetrad charactron SM1-SM2;The electricity The first end of resistance R1 is connect with the emitter of the triode Q3-Q8 respectively;The second end of the resistance R22-R27 is distinguished successively It is connect with the base stage of the triode Q3-Q8;The collector of the triode Q3-Q5 successively respectively with the tetrad charactron The 1-3 pins of SM1 connect;The collector of the triode Q6-Q8 1-3 with the tetrad charactron SM2 respectively successively Pin connects;The second end of resistance R14-R21 a-g, dp pin with the tetrad charactron SM1-SM2 respectively successively Connection.

Advantageous effect compared with the existing technology is that using the above scheme, the pwm signal wave that the utility model generates is in frequency Rate and duty ratio can be achieved continuously adjustable;Display module can instant playback go out its frequency, the concrete numerical value of duty ratio, very Intuitively.

Description of the drawings

Illustrate embodiment or technical solution in the prior art in order to clearer, it below will be to embodiment or the prior art The required attached drawing used is briefly described in description, it is clear that, the accompanying drawings in the following description is only the one of utility model A little embodiments for those of ordinary skill in the art without creative efforts, can also be according to these Attached drawing obtains other attached drawings.

Fig. 1 is a kind of adjustable PWM wave generator functional block diagram of frequency duty ratio of the utility model;

Fig. 2 is a kind of adjustable PWM wave generator power module circuit schematic of frequency duty ratio of the utility model;

Fig. 3 is a kind of adjustable PWM wave generator control module circuit diagram of frequency duty ratio of the utility model;

Fig. 4 is a kind of adjustable PWM wave generator adjustment module circuit diagram of frequency duty ratio of the utility model;

Fig. 5 is a kind of adjustable PWM wave generator output module circuit diagram of frequency duty ratio of the utility model;

Fig. 6 is a kind of adjustable PWM wave generator display module circuit diagram of frequency duty ratio of the utility model.

Specific implementation mode

For the ease of understanding the utility model, in the following with reference to the drawings and specific embodiments, the utility model is carried out more detailed Thin explanation.The preferred embodiment of the utility model is given in attached drawing.But the utility model can be with many different Form is realized, however it is not limited to this specification described embodiment.Make to this on the contrary, purpose of providing these embodiments is The understanding of the disclosure of utility model is more thorough and comprehensive.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term used in this specification " fixation ", " integrated molding ", For illustrative purposes only, the similar unit of structure is to identical label in the figure for "left", "right" and similar statement Mark.

Unless otherwise defined, technical and scientific term all used in this specification and the skill for belonging to the utility model The normally understood meaning of technical staff in art field is identical.Art used in the description of the utility model in this specification Language, which is only for the purpose of describing specific embodiments, is not intended to limitation the utility model.

As shown in figures 1 to 6, one embodiment of the utility model is:

A kind of adjustable PWM wave generator of frequency duty ratio includes with power module, the progress for preventing reversed and afterflow protection The control module of Data Analysis Services, the adjustment module for adjusting frequency duty ratio, the output whether exported with LED light indication signal The display module of module and charactron display frequency and duty ratio;The power module respectively with the control module, adjust mould Block, output module, display module connection;The control module connects with the adjustment module, output module, display module respectively It connects.

The power module include power connector POWER, resistance R1, capacitance C1-C12, inductance L1, diode D1-D2, Light-emitting diode LED 1 and integrated circuit U 1;The 1st end of the power connector POWER and the anode of the diode D1 connect It connects;The cathode of the diode D1 respectively with the first end of described capacitance C1, C5-C7, C11, C12, the integrated circuit U1 1st pin connects;It is the 2nd end of the power connector POWER, the second end of described capacitance C1, C5-C7, C11, C12, described Integrated circuit U1 the 3rd, 5 pins are grounded;The 4th pin of the integrated circuit U1 respectively with the second end of the inductance L1, The first end of described capacitance C2-C4, C8-C10, the connection of the first end of the resistance R1;The second end of the resistance R1 with it is described The anode connection of Light-emitting diode LED 1;The 2nd pin of the integrated circuit U1 respectively with the cathode of the diode D2, described The first end of inductance L1 connects;The second end of positive, described capacitance C2-C4, C8-C10 of the diode D2, described luminous two The cathode of pole pipe LED1 is grounded;The diode D2 is zener diode;The Light-emitting diode LED 1 is emitting red light two Pole pipe;The model LM2576T-5.0 of the integrated circuit U1.

Further, there is the diode D1 power supply to prevent reversed defencive function;The power connector POWER is for connecting Connect battery or battery pack;The 1st of the power connector POWER, the voltage range between 2 ends is DC6-40V.

The control module includes resistance R13-R27, pull-up exclusion RP1-RP2, capacitance C15-C16, crystal oscillator Y1 and integrates Circuit U 2;The first end of the resistance R1 respectively with the 1st of the pull-up exclusion RP1-RP2,10-17 pins, the integrated electricity The 31st of road U2, the first end connection of 40 pins, the resistance R14-R27;The 39-32 pins of the integrated circuit U2 are successively It is connect respectively with the 2-9 pins of the pull-up exclusion RP1;The 28-21 pins of the integrated circuit U2 successively respectively with institute State the 2-9 pins connection of pull-up exclusion RP2;The 9th pin of the integrated circuit U2 connects with the second end of the resistance R13 It connects;The first end of the resistance R13, the integrated circuit U2 the 20th pin be grounded;The 19th pipe of the integrated circuit U2 Foot is connect with the first end of the first end of the capacitance C15, the crystal oscillator Y1 respectively;The 18th pin of the integrated circuit U2 point It is not connect with the second end of the first end of the capacitance C16, the crystal oscillator Y1;The second end of the capacitance C15-C16 is grounded; The model STC89S52 of the integrated circuit U2.

The adjustment module includes resistance R8-R10 and button S1-S3;The first end of the resistance R1 respectively with the electricity Hinder the first end connection of R8-R10;The second end of the resistance R8 respectively with the first end of the button S1, the integrated circuit The 1st pin of U2 connects;The second end of the resistance R9 respectively with the first end of the button S2, the integrated circuit U2 2 pins connect;The second end of the resistance R10 respectively with the first end of the button S3, the 3rd pin of the integrated circuit U2 Connection;The second end of the button S1-S3 is grounded;The button S1 is set key;The button S2 is plus key;The button S3 is to subtract key.

Further, the button S1 is used for the switching of frequency duty ratio;The button S2-S3 is for adjusting frequency duty The concrete numerical value of ratio.

The output module include external power supply VSS, resistance R2, R28-R30, Light-emitting diode LED 2, triode Q1 and Out connector OUT1;The external power supply VSS respectively with the first end of described resistance R2, R30, the Light-emitting diode LED 2 Positive, described out connector OUT1 the 3rd stitch connection;The cathode of the Light-emitting diode LED 2 and the resistance R29 First end connection;The second end of the resistance R29 respectively with the second end of the resistance R30, the current collection of the triode Q1 The 2nd stitch connection of pole, the out connector OUT1;The second end of the resistance R2 respectively with the resistance R28 second The base stage connection at end, the triode Q1;The first end of the resistance R28 is connect with the 17th pin of the integrated circuit U2; The emitter of the triode Q1, the out connector OUT1 the 1st stitch be grounded.

Further, the out connector OUT1 the 1st, 2 stitch be used for pwm signal output;In external power supply VSS Voltage range when being DC3.3-30V, the voltage of the 3rd stitch of the out connector OUT1 by external power supply VSS voltage Value determines.

The display module includes triode Q3-Q8 and tetrad charactron SM1-SM2;The first end of the resistance R1 is distinguished It is connect with the emitter of the triode Q3-Q8;The second end of the resistance R22-R27 successively respectively with the triode Q3- The base stage of Q8 connects;The collector of the triode Q3-Q5 connects with the 1-3 pins of the tetrad charactron SM1 respectively successively It connects;The collector of the triode Q6-Q8 is connect with the 1-3 pins of the tetrad charactron SM2 respectively successively;The resistance The second end of R14-R21 is connect with a-g, dp pin of the tetrad charactron SM1-SM2 respectively successively.

Further, the tetrad charactron SM1 the 1st, 2 charactrons are for showing duty ratio;The tetrad charactron The 3rd charactron of SM1, the tetrad charactron SM2 1-3 charactrons be used for display frequency.

It should be noted that above-mentioned each technical characteristic continues to be combined with each other, the various embodiments not being enumerated above are formed, It is accordingly to be regarded as the range of the utility model specification record;Also, it for those of ordinary skills, can be according to above stating It is bright to be improved or converted, and all these modifications and variations should all belong to the protection model of the appended claims for the utility model It encloses.

Claims (6)

1. a kind of adjustable PWM wave generator of frequency duty ratio, which is characterized in that include the power supply with anti-reversed and afterflow protection Whether module, the control module for carrying out Data Analysis Services, the adjustment module for adjusting frequency duty ratio, band LED light indication signal The display module of the output module and charactron display frequency and duty ratio of output;The power module respectively with the control mould Block, adjustment module, output module, display module connection;The control module respectively with the adjustment module, output module, aobvious Show that module connects.

2. the adjustable PWM wave generator of a kind of frequency duty ratio according to claim 1, which is characterized in that the power supply mould Block includes power connector POWER, resistance R1, capacitance C1-C12, inductance L1, diode D1-D2,1 sum aggregate of Light-emitting diode LED At circuit U 1;The 1st end of the power connector POWER is connect with the anode of the diode D1;The diode D1's is negative Pole is connect with the 1st pin of the first end of described capacitance C1, C5-C7, C11, C12, the integrated circuit U1 respectively;The power supply The 2nd end of connector POWER, the second end of described capacitance C1, C5-C7, C11, C12, the 3rd of the integrated circuit U1 the, 5 pins It is grounded;The 4th pin of the integrated circuit U1 respectively with the second end of the inductance L1, described capacitance C2-C4, C8-C10 First end, the connection of the first end of the resistance R1;The second end of the resistance R1 and the anode of the Light-emitting diode LED 1 connect It connects;The 2nd pin of the integrated circuit U1 is connect with the first end of the cathode of the diode D2, the inductance L1 respectively;Institute State the second end of positive, described capacitance C2-C4, C8-C10 of diode D2, the cathode of the Light-emitting diode LED 1 is grounded; The diode D2 is zener diode;The Light-emitting diode LED 1 is red light emitting diodes;The integrated circuit U1's Model LM2576T-5.0.

3. the adjustable PWM wave generator of a kind of frequency duty ratio according to claim 2, which is characterized in that the control mould Block includes resistance R13-R27, pull-up exclusion RP1-RP2, capacitance C15-C16, crystal oscillator Y1 and integrated circuit U 2;The resistance R1's First end respectively with the 1st of the pull-up exclusion RP1-RP2,10-17 pins, the 31st of the integrated circuit U2 the, 40 pins, institute State the first end connection of resistance R14-R27;The 39-32 pins of the integrated circuit U2 successively respectively with the pull-up exclusion The 2-9 pins of RP1 connect;The 28-21 pins of the integrated circuit U2 2- with the pull-up exclusion RP2 respectively successively 9 pins connect;The 9th pin of the integrated circuit U2 is connect with the second end of the resistance R13;The first of the resistance R13 It holds, the 20th pin of the integrated circuit U2 is grounded;The 19th pin of the integrated circuit U2 is respectively with the capacitance C15's First end, the connection of the first end of the crystal oscillator Y1;The 18th pin of the integrated circuit U2 respectively with the capacitance C16 first The second end connection at end, the crystal oscillator Y1;The second end of the capacitance C15-C16 is grounded;The model of the integrated circuit U2 For STC89S52.

4. the adjustable PWM wave generator of a kind of frequency duty ratio according to claim 3, which is characterized in that the adjusting mould Block includes resistance R8-R10 and button S1-S3;The first end of the resistance R1 connects with the first end of the resistance R8-R10 respectively It connects;The second end of the resistance R8 is connect with the 1st pin of the first end of the button S1, the integrated circuit U2 respectively;Institute The second end for stating resistance R9 is connect with the 2nd pin of the first end of the button S2, the integrated circuit U2 respectively;The resistance The second end of R10 is connect with the 3rd pin of the first end of the button S3, the integrated circuit U2 respectively;The button S1-S3 Second end be grounded;The button S1 is set key;The button S2 is plus key;The button S3 is to subtract key.

5. the adjustable PWM wave generator of a kind of frequency duty ratio according to claim 3, which is characterized in that the output mould Block includes external power supply VSS, resistance R2, R28-R30, Light-emitting diode LED 2, triode Q1 and out connector OUT1;It is described External power supply VSS is connected with positive, the described output of the first end of described resistance R2, R30, the Light-emitting diode LED 2 respectively The 3rd stitch of device OUT1 connects;The cathode of the Light-emitting diode LED 2 is connect with the first end of the resistance R29;The electricity Hinder R29 second end respectively with the second end of the resistance R30, the collector of the triode Q1, the out connector The 2nd stitch of OUT1 connects;The second end of the resistance R2 respectively with the second end of the resistance R28, the triode Q1 Base stage connects;The first end of the resistance R28 is connect with the 17th pin of the integrated circuit U2;The transmitting of the triode Q1 Pole, the out connector OUT1 the 1st stitch be grounded.

6. the adjustable PWM wave generator of a kind of frequency duty ratio according to claim 3, which is characterized in that the display mould Block includes triode Q3-Q8 and tetrad charactron SM1-SM2;The first end of the resistance R1 respectively with the triode Q3-Q8 Emitter connection;The second end of the resistance R22-R27 is connect with the base stage of the triode Q3-Q8 respectively successively;It is described The collector of triode Q3-Q5 is connect with the 1-3 pins of the tetrad charactron SM1 respectively successively;The triode Q6-Q8 Collector connect respectively with the 1-3 pins of the tetrad charactron SM2 successively;The second end of the resistance R14-R21 according to It is secondary to be connect respectively with a-g, dp pin of the tetrad charactron SM1-SM2.