TH16540C3 - The device reads the dielectric of the object with the frequency conversion. - Google Patents

Abstract

------ 28/08/2019 ------ (OCR) page 1 of number 1 page invention summary. The device reads the dielectric of the object with the frequency conversion. Has been updated to be able to define The frequency range can be transmitted to the microcontroller section and does not need a frequency divider. Allows the device to be able to set the amplitude of the frequency band or the bandwidth. This enables higher and more accurate dielectric separation resolution. By configuring the start frequency and the end frequency value. Which is controlled by the DC voltage level This can be applied to increase the efficiency and accuracy of the object's dielectric measurement. ------------ ------ 28/08/2019 ----- - (OCR) 1 page of the number 1 page Invention summary. The device reads the dielectric of the object with the frequency conversion. Has been updated to be able to define The frequency range can be transmitted to the microcontroller section and does not need a frequency divider. Allows the device to be able to set the amplitude of the frequency band or the bandwidth. This enables higher and more accurate dielectric separation resolution. By configuring the start frequency and the end frequency value. Which is controlled by the DC voltage level This can be applied to increase the efficiency and accuracy of the dielectric measurement of the object. ------------ Page 1 of the number 1 page. Block diagram for an object's dielectric reading with circuit-based frequency conversion. Electronics and processing systems work together. To display the dielectric property of the object to be measured by using a capacitive sensor device, to convert the object to be measured, focus on the capacitive value at Affect the electrical signal connected to the electronic circuit To convert the signal to electrical signal A square wave that adjusts the frequency range of the waveform in relation to the dielectric of the object. The signal will be Sent to the microcontroller to perform a semantic conversion of the frequency characteristics of the signal. And display the results to Display device again This invention is intended to be developed to work on a mobile device.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : ------ 28/08/2019 ------ (OCR) Page 1 of 1 page Disclaimer 1. The object's dielectric reading device with frequency conversion includes Object to read (1) being a liquid in a container that does not conduct electricity There is a capacitive sensor device (2) with a conductive layer. There is a \ 'electronic circuit, an RCA op-amp, oscillator (4), which is a transducer. Which adjusts and regulates the starting frequency with the DC impulse, controls the starting frequency (5), and adjusts and sets the starting frequency with the control DC end-frequency (6). electricity And has a display device (10) as a display device, the value calculated from the device There is a special feature The object to read (1) is installed between the capacitive sensor device (2) that converts the object to be read (1) into a capacitive value. (3) that is the electrical property value of the material affects the electrical signal that changes with time. The signal is connected to an electronic circuit, an RCA op-amp, oscillator (4) that converts the time-changing electrical signal value from a capacitive sensor device (2). It is a square wave electric signal (7) which adjusts the frequency range of the waveform in relation to the dielectric of the object. By modulating and setting the starting frequency (11) with the starting frequency control DC voltage (5) and the ending frequency value (12) with the control end frequency DC voltage (6), the amplitude value of the frequency band (13) Adjust the resolution to suit the object to read (1), the square wave electric signal (7) will be sent to the microcontroller (8) to convert the definition of the frequency characteristic of the signal. It will convert the definition of the spectral nature of the frequency. The reading frequency is inversely proportional to the object's dielectric value (1) to be read, and is the information of the frequency generated by the object's dielectric (9) leads. Display or send digital signals for communication to display device (10), which is display device, processing value calculated from device ------------ ------ 28/08. / 2019 ------ (OCR) page 1 of the number 1 page Disclaimer 1. The object's dielectric reading device with frequency conversion contains the object to be read. (1) being a liquid in a container that does not conduct electricity There is a capacitive sensor device (2) with a conductive layer. There is a \ 'electronic circuit, an RCA op-amp, oscillator (4), which is a transducer. Which adjusts and regulates the starting frequency with the DC impulse, controls the starting frequency (5), and adjusts and sets the starting frequency with the control DC end-frequency (6). electricity And has a display device (10) as a display device, the value calculated from the device There is a special feature The object to read (1) is installed between the capacitive sensor device (2) that converts the object to be read (1) into a capacitive value. (3) that is the electrical property value of the material affects the electrical signal that changes with time. The signal is connected to an electronic circuit, an RCA op-amp, oscillator (4) that converts the time-changing electrical signal value from a capacitive sensor device (2). It is a square wave electric signal (7) which adjusts the frequency range of the waveform in relation to the dielectric of the object. By modulating and setting the starting frequency (11) with the starting frequency control DC voltage (5) and the ending frequency value (12) with the control end frequency DC voltage (6), the amplitude value of the frequency band (13) Adjust the resolution to suit the object to read (1), the square wave electric signal (7) will be sent to the microcontroller (8) to convert the definition of the frequency characteristic of the signal. It will convert the definition of the spectral nature of the frequency. The reading frequency is inversely proportional to the object's dielectric value (1) to be read, and is the information of the frequency generated by the object's dielectric (9) leads. Display or send digital signals for communication to the display device (10), which is the display device, the value calculated from the device. ------------ Revised 01/11/2018 page 1 of 1 page. Disclaimer 1. A device to read the dielectric of an object by conversion from frequency will consist of the object required to read (1) that is liquid in a non-conductive container. There is a capacitive sensor device (2) with a conductive layer. There is an electronic circuit (4) that converts the electrical signal. There is a microcontroller (6) that is an electrical signal processing device. And there is a display device (8) that looks like a portable device with special characteristics. The object to read (1) is installed between the capacitive sensor device (2) converting the object to be read. (1) be the capacitive value (3) which is the electrical property of the material. Affects electrical signals that change over time The signal is connected to the circuit. Electronic (4) that converts the time-changing electrical signal value from a capacitive sensor device (2) to a square-wave electrical signal (5), which adjusts the frequency range of the waveform in relation to its value. The dielectric of the object by the electronic circuit (4) is adjusted and generates its frequency by setting the initial frequency (9), the end frequency (10) and the resolution (11) of the change to suit the desired object. The value (1) can be read and the square wave electrical signal (5) will be sent to the microcontroller (6) for conversion. Definition of signal frequency characteristics It will convert the definition of the spectral nature of the frequency. The frequency readings are proportional to the dielectric value of the object to be read (1) and thus is the data. The frequency spectra generates data showing the dielectric value of the object (7), displaying or transmitting. Digital to continue communicating to display devices (8) ------------------------------------ -------------------------------------------------- -------------- Page 1 of Number 1 Page Disclaimer 1. The block diagram for the dielectric reading of an object with its frequency conversion contains an object to be read (1) in a non-conductive container. There is a capacitive sensor device (2) with a conductive layer. There is an electronic circuit (4) that converts the signal, there is a microcontroller (6) that is an electrical signal processing device. And a display device (8) that looks like a portable device. There is a special feature Objects to be read (1) are installed between capacitive sensor devices. (2) that converts the object to be read (1) given as capacitive value (3) that is the electrical property of the material Affects electrical signals that change over time The signal is connected to the circuit. Electronic (4) that converts the time-changing electrical signal value from a capacitive sensor device (2) to a square-wave electrical signal (5), which adjusts the frequency range of the waveform in relation to its value. The dielectric of the object by the electronic circuit (4) is adjusted and generates its frequency by setting the initial frequency (9), the end frequency (10) and the resolution (11) of the change to suit the desired object. read Value (1) has and a square wave electrical signal (5) will be sent to the microcontroller (6) for conversion. Definition of signal frequency characteristics It will convert the definition of the spectral nature of the frequency. The frequency readings are proportional to the dielectric value of the object to be read (1) and thus is the data. The frequency spectra generates data showing the dielectric value of the object (7), displaying or transmitting the signal. Digital to continue communicating to the display device (8).