CN202421191U - Portable food safety detector - Google Patents

Abstract

The utility model discloses a portable food safety detector. Existing detecting equipment is high in power consumption, large in size and unsuitable for carrying along. Voltage values required by light emitting diode in various colors are stored in a microprocessor. The microprocessor outputs the voltage value required by the light emitting diodes in the same color according to a matrix keyboard through internal software and a D/A (digital/analog) module integrated inside the microprocessor. Light emitted from the light emitting diodes is reflected by a lens to a cuvette, part of the light passing through solution in the cuvette is absorbed, residual light irradiates to another reflecting lens and is reflected into a photoelectric sensor, the photoelectric sensor converts optical signals into electrical signals, the electrical signals are converted into digital signals by an A/D module, the digital signals are processed in a chip to obtain concentration of toxic and harmful substance, and the concentration of the detected toxic and harmful substance is displayed on an LCD (liquid crystal display). The portable food safety detector is small in size, low in power consumption and high in precision, and has the functions of data acquiring, data processing, data storing and the like.

Description

A kind of portable food safety detector

Technical field

The utility model belongs to the embedded system technology field, is specifically related to a kind of portable food safety detector.

Background technology

Along with the acceleration of economic globalization, food trade constantly develops, and the food security in an area goes wrong and might be diffused into the surrounding area, even the whole world.At home, food-safety problem is of common occurrence, and " three chlorocyanamides " incident, " No. one, tonyred " incident, " malicious milk powder case " be exposure in the media repeatedly.Relating to the food poisoning that causes because of food interpolation unauthorized substances also happens occasionally.Food-safety problem has become the great public health problem that people pay close attention to.The food safety detection Equipment of Development is very urgent.Colourimetry is the food safety detection method of using always, and traditional colourimetry is confirmed component concentration to be measured through the coloring matter solution colour degree of depth relatively, can only accomplish qualitative judgement and can't accomplish quantitative test.The food safety detection instrument that utilizes colourimetry to set up is widely used, but this equipment power dissipation is big, and volume is not suitable for greatly carrying, and adopts the mode of laboratory measurement after the artificial sample mostly, is difficult to satisfy the requirement that real-time online detects.

Summary of the invention

The utility model is bigger to present large-scale food safety detection appearance power consumption, and precision is relatively low and be not suitable for on-the-spot the use, and traditional colourimetry is unfavorable for deficiency such as quantitative test harmful substance contents and proposed a kind of portable food safety detector.

The utility model comprises power management module, communication module, outer memory module, signal acquisition module external light source module input/output module and controller.Each module all adopts existing mature technology; Wherein, Power management module comprises with LM2596S to be the 5V voltage conversion circuit of core and to be the 3.3V voltage conversion circuit of core with LM1117-3.3; Communication module comprises RS232 interface, jtag interface and USB interface; Input/output module comprises matrix keyboard and LCD interface, and the 5V voltage conversion circuit that with LM2596S is core is the RS232 circuit, external light source module in the communication module and is that the 3.3V voltage conversion circuit of core provides 5V voltage with LM1117-3.3; The 3.3V voltage conversion circuit that with LM1117-3.3 is core is that jtag interface and the USB interface in controller module, outer memory module, signal acquisition module, input/output module and the communication module provides 3.3V voltage.Preserve in the controller and drive the needed magnitude of voltage of external light source module; Controller utilizes the needed voltage of the inner D/A module output external light source of controller according to the selection of input/output module, and the light that external light source sends is injected signal acquisition module after treatment; Signal acquisition module is converted into voltage signal with light signal; Through the inner A/D module converts of controller is digital signal, in controller, handles, and draws the concentration of poisonous and harmful substance; Input/output module shows the concentration of poisonous and harmful substance, and testing result is externally preserved in the memory module.Wherein the RS232 interface jtag interface in the communication module and USB interface is used for and outer computer between transmit data.

The 5V voltage conversion circuit comprises power management chip U1LM2596S, first capacitor C 1, second capacitor C 2, first inductance L 1 and voltage stabilizing diode D1; The positive pole of capacitor C 1 is connected with the 12V power supply with 1 pin of power management chip U1 LM2596S; The anode of 3 pins of the negative pole of capacitor C 1, power management chip U1LM2596S, 5 pins of power management chip U1LM2596S, voltage stabilizing diode D1 and the minus earth of second capacitor C 2, the positive pole of 4 pins of power management chip U1LM2596S, an end of inductance L 1, second capacitor C 2 is connected with voltage output end VDD5.0.The negative electrode of 2 pins of power management chip U1LM2596S, the other end of first inductance L 1 and diode D1 links to each other.

3.3V voltage conversion circuit comprises the 26 capacitor C the 26, the 27 capacitor C 27, power management chip LM1117,28 capacitor C, 28,29 capacitor C 29 and light emitting diode DS10; One end of the 26 capacitor C 26 is connected with 3 pins of the positive pole of VDD5.0 voltage output end, the 27 capacitor C 27 and power management chip LM1117; The negative electrode of the negative pole of the negative pole of the other end of the 26 capacitor C 26 and 27 capacitor C 27,1 pin of power management chip LM1117,28 capacitor C 28, an end of 29 capacitor C 29 and light emitting diode DS10 is connected and ground connection, and 2 pins of power management chip LM1117 are connected with the other end of the positive pole of 28 capacitor C 28,29 capacitor C 29, the anode of light emitting diode DS10.

Communication module comprises the 11 resistance R 11; The 12 resistance R 12; The 13 resistance R 13; The 14 resistance R 14; The 15 resistance R 15; The 16 resistance R 16; The 17 resistance R 17; The 18 resistance R 18; The 19 resistance R 19; The 20 resistance R 20; The 21 resistance R 21; The 22 resistance R 22; The 23 resistance R 23; The 24 resistance R 24; The 25 resistance R 25; The 26 resistance R 26; The 27 resistance R 27; The 28 resistance R 28; The 3rd capacitor C 3; The 4th capacitor C 4; The 5th capacitor C 5; The 7th capacitor C 7; The 8th capacitor C 8; The 9th capacitor C 9; The tenth capacitor C 10; The 11 capacitor C 11; 2*2 row pin JP20; FET 2SJ355; Jtag interface CON0; Serial communication electric level interface conversion chip MAX3232; Serial ports COM0; COM1 and USB interface U5.1 pin among the USB interface U5 links to each other with an end of an end of the 14 resistance R 14, the 11 resistance R 11, the anode of the 7th capacitor C 7,1 pin of JP20; The plus earth of the other end of the 14 resistance R 14 and the 7th capacitor C 7; The other end of the 11 resistance R 11 links to each other with the P1.30 pin of processor LPC2368; 2 pins among the USB interface U5 link to each other with an end of an end of the 18 resistance R 18, the 16 resistance R 16, the anode of the 3rd capacitor C 3,4 pins of JP20; The other end of the 18 resistance is connected with the negative electrode of the 3rd electric capacity and ground connection, and the other end of the 16 resistance R 16 links to each other with the P0.30 pin of processor LPC2368; 3 pins among the USB interface U5 link to each other with the positive pole of an end of the 19 resistance R 19, the 4th capacitor C 4, an end of the 17 resistance R 17, an end of the 15 resistance R 15,2 pins of JP20; The other end of the 19 resistance is connected with the negative electrode of the 4th capacitor C 4 and ground connection, and the other end of the 17 resistance R 17 links to each other with the P0.29 pin of processor LPC2368; The 3 pin ground connection of JP20; The other end of the 15 resistance R 15 extremely links to each other with the D of 2SJ355; The S utmost point of 2SJ355, an end of the 13 resistance R 13 link to each other with voltage VDD3.3; The other end of the 13 resistance R 13 extremely links to each other with an end of the 12 resistance R 12, the G of 2SJ355; The other end of the 12 resistance R 12 links to each other with the P2.9 pin of processor LPC2368; 4 pins among the USB interface U5 link to each other with the end of the second inductance C2; 6 pins among the USB interface U5 link to each other with an end of the 5th electric capacity; The other end of second inductance links to each other with the other end of the 5th electric capacity and ground connection; 5 pins among the USB interface U5 are built on stilts.

The anode of light emitting diode DS9 links to each other with VDD3.3; The negative electrode of the 9th light emitting diode DS9 links to each other with an end of the 20 resistance R 20; The other end of the 20 resistance R 20 links to each other with the P1.18 pin of processor LPC2368.

One end of 1 pin among the JTAG, 2 pins, the 21 resistance R 21, an end of the 22 resistance R 22, an end of the 23 resistance R 23, an end of the 24 resistance R 24, an end of the 25 resistance R 25 link to each other with VDD3.3; 3 pins among the JTAG, the other end of the 21 resistance R 21 link to each other with the nTRST pin of processor LPC2368; 5 pins among the JTAG, the other end of the 22 resistance R 22 link to each other with the TDI pin of processor LPC2368; 7 pins among the JTAG, the other end of the 23 resistance R 23 link to each other with the TMS pin of processor LPC2368; 9 pins among the JTAG, an end of the 29 resistance R 26 link to each other with the TCK pin of processor LPC2368; 11 pins among the JTAG, the other end of the 24 resistance R 24 link to each other with the RTCK pin of processor LPC2368; 13 pins among the JTAG, the other end of the 25 resistance R 25 link to each other with the TDO pin of processor LPC2368; 15 pins among the JTAG link to each other with the nRST pin of processor LPC2368; 17 pins among the JTAG link to each other with the 27 resistance R 27; 19 pins among the JTAG link to each other with an end of the 28 resistance R 28; The other end of the other end of the 26 resistance R 26, the other end of the 27 resistance R 27, the 28 resistance R 28 and 4 pins of JTAG, 6 pins, 8 pins, 10 pins, 12 pins, 14 pins, 16 pins, 18 pins, 20 pins connect and ground connection.

16 pins of serial communication electric level interface conversion chip U6 MAX3232 link to each other with VDD5.0; 1 pin of U6 MAX3232 links to each other with an end of the tenth capacitor C 10; 3 pins of U6 MAX3232 link to each other with the other end of the tenth capacitor C 10; 4 pins of U6 MAX3232 link to each other with an end of the 11 capacitor C 11; 5 pins of U6 MAX3232 link to each other with the other end of the 11 capacitor C 11; 11 pins of U6 MAX3232 link to each other with the P0.2 pin of processor LPC2368; 12 pins of U6 MAX3232 link to each other with the P0.3 pin of processor LPC2368; 10 pins of U6 MAX3232 link to each other with the P0.10 pin of processor LPC2368; 9 pins of U6 MAX3232 link to each other with the P0.11 pin of processor LPC2368; 2 pins of U6 MAX3232 link to each other with an end of the 8th capacitor C 8 and ground connection; 6 pins of U6 MAX3232 link to each other with an end of the 9th capacitor C 9; 15 pins of U6 MAX3232 link to each other with the other end of the other end of the 9th capacitor C 9, the 8th capacitor C 8; 14 pins of U6 MAX3232 link to each other with 2 pins of serial ports COM0; 13 pins of U6 MAX3232 link to each other with 3 pins of serial ports COM0; 7 pins of U6 MAX3232 link to each other with 2 pins of serial ports COM1; 8 pins of U6 MAX3232 link to each other with 3 pins of serial ports COM1.The 5 pin ground connection of serial ports COM0, serial ports COM1 ground connection.

Outer memory module comprises first resistance R 1, the 3rd resistance R 3,32Mb storer SST25VF032 U3 and the 6th capacitor C 6; 0 pin of U3 links to each other with the P0.16 pin of processor LPC2368; 1 pin of U3 links to each other with the P0.17 pin of processor LPC2368; 6 pins of U3 link to each other with the P0.18 pin of processor LPC2368; 7 pins of U3 link to each other with the P0.19 pin of processor LPC2368, and 2 pins of U3, the P0.25 pin of processor LPC2368 and an end of first resistance R 1 link to each other, another termination VDD3.3 of first resistance R 1; The 3 pin ground connection of U3, an end of 4 pins of U3, the 3rd resistance R 3 and a termination VDD3.3 of the 6th capacitor C 6, the other end ground connection of the 6th capacitor C 6,5 pins of U3 are connected with the 3rd resistance R 3 other ends.

Signal acquisition module is photoelectric sensor OTP101 U2,1 pin of photoelectric sensor U2 and 3 pin ground connection, and 4 pins of U2 link to each other with the P1.31 pin of processor LPC2368 with 5 pins, and 2 pins of U2 link to each other with the 3.3V power supply.

The external light source module comprises analog switch cd4051U4, the 4th resistance R 4, the 5th resistance R 5, the 6th resistance R 6, the 7th resistance R 7, the 8th resistance R 8, the 9th resistance R 9, the tenth resistance R 10, violet light diode DS8, blue LED DS7, cyan light emitting diode DS6, green LED DS5, yellow light-emitting diode DS4, orange luminescence diode DS3, red light emitting diodes DS2.1 pin of analog switch cd4051U4 links to each other with an end of the 4th resistance R 4, and the other end of the 4th resistance R 4 links to each other with violet light diode DS8 anode; 2 pins of analog switch cd4051U4 link to each other with an end of the 5th resistance R 5, and the other end of the 5th resistance R 5 links to each other with blue LED DS7 anode; 4 pins of analog switch cd4051U4 link to each other with an end of the 6th resistance R 6, and the other end of the 6th resistance R 6 links to each other with cyan light emitting diode DS6 anode; 5 pins of analog switch cd4051U4 link to each other with an end of the 7th resistance R 7, and the other end of the 7th resistance R 7 links to each other with green LED DS5 anode; 13 pins of analog switch cd4051U4 link to each other with an end of the 8th resistance R 8, and the other end of the 8th resistance R 8 links to each other with yellow light-emitting diode DS4 anode; 14 pins of analog switch cd4051U4 link to each other with an end of the 9th resistance R 9, and the other end of the 9th resistance R 9 links to each other with orange luminescence diode DS3 anode; 15 pins of analog switch cd4051U4 link to each other with an end of the tenth resistance R 10, and the other end of the tenth resistance R 10 links to each other with red light emitting diodes DS2 anode; The negative electrode of the negative electrode of the negative electrode of the negative electrode of DS8, the negative electrode of DS7, DS6, the negative electrode of DS5, DS4, the negative electrode of DS3, DS2 links to each other and ground connection; 7 pins of analog switch cd4051U4 link to each other with 8 pins and ground connection; 9 pins of analog switch cd4051U4 link to each other with the P0.4 pin of processor LPC2368; 10 pins of analog switch cd4051U4 link to each other with the P0.1 pin of processor LPC2368; 11 pins of analog switch cd405U4 1 link to each other with the P0.0 pin of processor LPC2368; 6 pins of analog switch cd4051U4 link to each other with the P3.25 pin of processor LPC2368; 3 pins of analog switch cd4051U4 link to each other with the P0.26 pin of processor LPC2368, and 6 pins of analog switch cd4051U4 meet VDD5.0.

Input/output module comprises that LCD interface, first switch S 1, second switch S2, the 3rd switch S 3, the 4th switch S 4, the 5th switch S 5, the 6th switch S 6, minion close that S7, octavo close S8, the 9th switch S 9, the tenth switch S the 10, the 11 switch S 11, twelvemo is closed S12, the 32 resistance R the 32, the 33 resistance R the 33, the 34 resistance R the 34, the 35 resistance R the 35, the 36 resistance R the 36, the 37 resistance R 37 and the 38 resistance R 38.One end of one end of one end of first switch S 1, the 5th switch S 5, the 9th switch S 9 links to each other with the P0.8 pin of processor LPC2368 with an end of the 32 resistance R 32; One end of one end of the end of second switch S2, the 6th switch S 6, the tenth switch S 10 links to each other with the P0.9 pin of processor LPC2368 with an end of the 33 resistance R 33; An end, an end of the 11 switch S 11 and an end of the 34 resistance R 34 that one end of the 3rd switch S 3, minion are closed S7 link to each other with the P0.15 pin of processor LPC2368; One end of the 4th switch S 4, octavo are closed the end of S8, the end of twelvemo pass S12 and an end of the 35 resistance R 35 and are linked to each other with the P0.20 pin of processor LPC2368; The other end of the other end of the other end of first switch S 1, second switch S2, the 3rd switch S 3, the 4th switch S 4 the other end and an end of the 38 resistance R 38 link to each other with the P0.7 pin of processor LPC2368; The other end, the octavo that the other end of the other end of the 5th switch S 5, the 6th switch S 6, minion close S7 close S8 the other end and an end of the 37 resistance R 37 link to each other with the P0.6 pin of processor LPC2368; The other end of the other end of the 9th switch S 9, the tenth switch S 10, the other end of the 11 switch S 11, twelvemo close the other end of S12 and an end of the 36 resistance R 36 links to each other with the P0.5 pin of processor LPC2368; The other end of the other end of the 38 resistance R 38, the other end of the 37 resistance R 37, the 36 resistance R 36 links to each other and ground connection; The other end of the 32 resistance R 32, the other end of the 33 resistance R 33, the other end of the 34 resistance R 34, the other end of the 35 resistance R 35 link to each other with VDD3.3.

1 pin of LCD interface links to each other with VDD3.3; 2 pins of LCD interface link to each other with the P2.0 of processor LPC2368; 3 pins of LCD interface link to each other with the P2.1 of processor LPC2368; 4 pins of LCD interface link to each other with the P2.2 of processor LPC2368; 5 pins of LCD interface link to each other with the P2.3 of processor LPC2368; 6 pins of LCD interface link to each other with the P0.22 of processor LPC2368; 7 pins of LCD interface link to each other with the P0.23 of processor LPC2368; 8 pins of LCD interface link to each other with the P0.24 of processor LPC2368; 9 pins of LCD interface link to each other with the P0.27 of processor LPC2368; 10 pins of LCD interface link to each other with the P0.28 of processor LPC2368; 11 pins of LCD interface link to each other with the P0.21 of processor LPC2368; 12 pins of LCD interface link to each other with the P1.0 of processor LPC2368; 13 pins of LCD interface link to each other with the P1.1 of processor LPC2368; 14 pins of LCD interface link to each other with the P1.4 of processor LPC2368; 15 pins of LCD interface link to each other with the P1.8 of processor LPC2368; 16 pins of LCD interface link to each other with the P1.9 of processor LPC2368; 17 pin ground connection of LCD interface.

Control module is microprocessor LPC2368, and 12 pins of LPC2368,10 pins, 84 pins, 42 pins, 13 pins, 96 pins, 71 pins, 54 pins, 28 pins meet VDD3.3; 11 pins, 83 pins, 97 pins, 72 pins, 55 pins, 41 pins, 31 pins, 15 pin ground connection.

The beneficial effect of the utility model: this device volume is little, and is low in energy consumption, and precision is high; Possess functions such as data acquisition, processing and storage; Can detect the content of poisonous and harmful substance fast, utilize LCD, show concentration of narmful substance as visual interface; And testing result carried out field print, have low-power consumption, precision advantages of higher simple to operate, easy to carry simultaneously.

Description of drawings:

Fig. 1 is the hardware configuration synoptic diagram of the utility model;

Fig. 2 is the 5V voltage conversion circuit schematic diagram of the utility model;

Fig. 3 is the 3.3V voltage conversion circuit schematic diagram of the utility model;

Fig. 4 is the communication module circuit theory diagrams of the utility model;

Fig. 5 is the outer memory module circuit theory diagrams of the utility model;

Fig. 6 is the signal acquisition module circuit theory diagrams of the utility model;

Fig. 7 is the external light source modular circuit schematic diagram of the utility model;

Fig. 8 is the input/output module circuit theory diagrams of the utility model;

Fig. 9 is the control module circuit theory diagrams of the utility model;

Figure 10 is the index path in the utility model.

Embodiment

Do bright specifically below in conjunction with accompanying drawing to each module in the utility model.

As shown in Figure 1, the utility model comprises power management module 1, communication module 2, outer memory module 3, signal acquisition module 4 external light source modules, 5 input/output modules 6 and controller 7.Each module all adopts existing mature technology; Wherein, Power management module 1 comprises with LM2596S to be the 5V voltage conversion circuit 1-1 of core and to be the 3.3V voltage conversion circuit 1-2 of core with LM1117-3.3; Communication module 2 comprises RS232 interface 2-1, jtag interface 2-2 and USB interface 2-3; Input/output module 6 comprises matrix keyboard 6-1 and LCD interface 6-2, and the 5V voltage conversion circuit 1-1 that with LM2596S is core is the RS232 circuit 2-1, external light source module 5 in the communication module 2 and is that the 3.3V voltage conversion circuit 1-2 of core provides 5V voltage with LM1117-3.3; The 3.3V voltage conversion circuit 1-2 that with LM1117-3.3 is core is that jtag interface 2-2 and the USB interface 2-3 in controller module 7, outer memory module 3, signal acquisition module 4, input/output module 6 and the communication module 2 provides 3.3V voltage.Preserve in the controller 7 and drive external light source module 5 needed magnitudes of voltage; Controller 7 utilizes controller 7 inner D/A module output external light source 5 needed voltages according to the selection of input/output module 6, and the light that external light source 5 sends is injected signal acquisition module 4 after treatment; Signal acquisition module 4 is converted into voltage signal with light signal; Through controller 7 inner A/D module converts is digital signal, in controller 7, handles, and draws the concentration of poisonous and harmful substance; Input/output module 6-2 shows the concentration of poisonous and harmful substance, and testing result is externally preserved in the memory module 3.Wherein the RS232 interface 2-1JTAG interface 2-2 in the communication module 2 and USB interface 2-3 is used for and outer computer between transmit data.

As shown in Figure 2; The 5V voltage conversion circuit comprises power management chip U1LM2596S, first capacitor C 1, second capacitor C 2, first inductance L 1 and voltage stabilizing diode D1; The positive pole of capacitor C 1 is connected with the 12V power supply with 1 pin of power management chip U1 LM2596S; The anode of 3 pins of the negative pole of capacitor C 1, power management chip U1LM2596S, 5 pins of power management chip U1LM2596S, voltage stabilizing diode D1 and the minus earth of second capacitor C 2, the positive pole of 4 pins of power management chip U1LM2596S, an end of inductance L 1, second capacitor C 2 is connected with voltage output end VDD5.0.The negative electrode of 2 pins of power management chip U1LM2596S, the other end of first inductance L 1 and diode D1 links to each other.

As shown in Figure 3; 3.3V voltage conversion circuit comprises the 26 capacitor C the 26, the 27 capacitor C 27, power management chip LM1117,28 capacitor C, 28,29 capacitor C 29 and light emitting diode DS10; One end of the 26 capacitor C 26 is connected with 3 pins of the positive pole of VDD5.0 voltage output end, the 27 capacitor C 27 and power management chip LM1117; The negative electrode of the negative pole of the negative pole of the other end of the 26 capacitor C 26 and 27 capacitor C 27,1 pin of power management chip LM1117,28 capacitor C 28, an end of 29 capacitor C 29 and light emitting diode DS10 is connected and ground connection, and 2 pins of power management chip LM1117 are connected with the other end of the positive pole of 28 capacitor C 28,29 capacitor C 29, the anode of light emitting diode DS10.

As shown in Figure 4, communication module comprises the 11 resistance R the 11, the 12 resistance R the 12, the 13 resistance R the 13, the 14 resistance R the 14, the 15 resistance R the 15, the 16 resistance R the 16, the 17 resistance R the 17, the 18 resistance R the 18, the 19 resistance R the 19, the 20 resistance R the 20, the 21 resistance R the 21, the 22 resistance R the 22, the 23 resistance R the 23, the 24 resistance R the 24, the 25 resistance R the 25, the 26 resistance R the 26, the 27 resistance R the 27, the 28 resistance R 28, the 3rd capacitor C 3, the 4th capacitor C 4, the 5th capacitor C 5, the 7th capacitor C 7, the 8th capacitor C 8, the 9th capacitor C 9, the tenth capacitor C the 10, the 11 capacitor C 11,2*2 row pin JP20, FET 2SJ355, jtag interface CON0, serial communication electric level interface conversion chip MAX3232, serial ports COM0, COM1 and USB interface U5.1 pin among the USB interface U5 links to each other with an end of an end of the 14 resistance R 14, the 11 resistance R 11, the anode of the 7th capacitor C 7,1 pin of JP20; The plus earth of the other end of the 14 resistance R 14 and the 7th capacitor C 7; The other end of the 11 resistance R 11 links to each other with the P1.30 pin of processor LPC2368; 2 pins among the USB interface U5 link to each other with an end of an end of the 18 resistance R 18, the 16 resistance R 16, the anode of the 3rd capacitor C 3,4 pins of JP20; The other end of the 18 resistance is connected with the negative electrode of the 3rd electric capacity and ground connection, and the other end of the 16 resistance R 16 links to each other with the P0.30 pin of processor LPC2368; 3 pins among the USB interface U5 link to each other with the positive pole of an end of the 19 resistance R 19, the 4th capacitor C 4, an end of the 17 resistance R 17, an end of the 15 resistance R 15,2 pins of JP20; The other end of the 19 resistance is connected with the negative electrode of the 4th capacitor C 4 and ground connection, and the other end of the 17 resistance R 17 links to each other with the P0.29 pin of processor LPC2368; The 3 pin ground connection of JP20; The other end of the 15 resistance R 15 extremely links to each other with the D of 2SJ355; The S utmost point of 2SJ355, an end of the 13 resistance R 13 link to each other with voltage VDD3.3; The other end of the 13 resistance R 13 extremely links to each other with an end of the 12 resistance R 12, the G of 2SJ355; The other end of the 12 resistance R 12 links to each other with the P2.9 pin of processor LPC2368; 4 pins among the USB interface U5 link to each other with the end of the second inductance C2; 6 pins among the USB interface U5 link to each other with an end of the 5th electric capacity; The other end of second inductance links to each other with the other end of the 5th electric capacity and ground connection; 5 pins among the USB interface U5 are built on stilts.

The anode of light emitting diode DS9 links to each other with VDD3.3; The negative electrode of the 9th light emitting diode DS9 links to each other with an end of the 20 resistance R 20; The other end of the 20 resistance R 20 links to each other with the P1.18 pin of processor LPC2368.

One end of 1 pin among the JTAG, 2 pins, the 21 resistance R 21, an end of the 22 resistance R 22, an end of the 23 resistance R 23, an end of the 24 resistance R 24, an end of the 25 resistance R 25 link to each other with VDD3.3; 3 pins among the JTAG, the other end of the 21 resistance R 21 link to each other with the nTRST pin of processor LPC2368; 5 pins among the JTAG, the other end of the 22 resistance R 22 link to each other with the TDI pin of processor LPC2368; 7 pins among the JTAG, the other end of the 23 resistance R 23 link to each other with the TMS pin of processor LPC2368; 9 pins among the JTAG, an end of the 29 resistance R 26 link to each other with the TCK pin of processor LPC2368; 11 pins among the JTAG, the other end of the 24 resistance R 24 link to each other with the RTCK pin of processor LPC2368; 13 pins among the JTAG, the other end of the 25 resistance R 25 link to each other with the TDO pin of processor LPC2368; 15 pins among the JTAG link to each other with the nRST pin of processor LPC2368; 17 pins among the JTAG link to each other with the 27 resistance R 27; 19 pins among the JTAG link to each other with an end of the 28 resistance R 28; The other end of the other end of the 26 resistance R 26, the other end of the 27 resistance R 27, the 28 resistance R 28 and 4 pins of JTAG, 6 pins, 8 pins, 10 pins, 12 pins, 14 pins, 16 pins, 18 pins, 20 pins connect and ground connection.

16 pins of serial communication electric level interface conversion chip U6 MAX3232 link to each other with VDD5.0; 1 pin of U6 MAX3232 links to each other with an end of the tenth capacitor C 10; 3 pins of U6 MAX3232 link to each other with the other end of the tenth capacitor C 10; 4 pins of U6 MAX3232 link to each other with an end of the 11 capacitor C 11; 5 pins of U6 MAX3232 link to each other with the other end of the 11 capacitor C 11; 11 pins of U6 MAX3232 link to each other with the P0.2 pin of processor LPC2368; 12 pins of U6 MAX3232 link to each other with the P0.3 pin of processor LPC2368; 10 pins of U6 MAX3232 link to each other with the P0.10 pin of processor LPC2368; 9 pins of U6 MAX3232 link to each other with the P0.11 pin of processor LPC2368; 2 pins of U6 MAX3232 link to each other with an end of the 8th capacitor C 8 and ground connection; 6 pins of U6 MAX3232 link to each other with an end of the 9th capacitor C 9; 15 pins of U6 MAX3232 link to each other with the other end of the other end of the 9th capacitor C 9, the 8th capacitor C 8; 14 pins of U6 MAX3232 link to each other with 2 pins of serial ports COM0; 13 pins of U6 MAX3232 link to each other with 3 pins of serial ports COM0; 7 pins of U6 MAX3232 link to each other with 2 pins of serial ports COM1; 8 pins of U6 MAX3232 link to each other with 3 pins of serial ports COM1.The 5 pin ground connection of serial ports COM0, serial ports COM1 ground connection.

As shown in Figure 5; Outer memory module comprises first resistance R 1, the 3rd resistance R 3,32Mb storer SST25VF032 U3 and the 6th capacitor C 6; 0 pin of U3 links to each other with the P0.16 pin of processor LPC2368; 1 pin of U3 links to each other with the P0.17 pin of processor LPC2368, and 6 pins of U3 link to each other with the P0.18 pin of processor LPC2368, and 7 pins of U3 link to each other with the P0.19 pin of processor LPC2368; 2 pins of U3, the P0.25 pin of processor LPC2368 and an end of first resistance R 1 link to each other, another termination VDD3.3 of first resistance R 1; The 3 pin ground connection of U3, an end of 4 pins of U3, the 3rd resistance R 3 and a termination VDD3.3 of the 6th capacitor C 6, the other end ground connection of the 6th capacitor C 6,5 pins of U3 are connected with the 3rd resistance R 3 other ends.

As shown in Figure 6, signal acquisition module is photoelectric sensor OTP101 U2,1 pin of photoelectric sensor U2 and 3 pin ground connection, and 4 pins of U2 link to each other with the P1.31 pin of processor LPC2368 with 5 pins, and 2 pins of U2 link to each other with the 3.3V power supply.

As shown in Figure 7, the external light source module comprises analog switch cd4051U4, the 4th resistance R 4, the 5th resistance R 5, the 6th resistance R 6, the 7th resistance R 7, the 8th resistance R 8, the 9th resistance R 9, the tenth resistance R 10, violet light diode DS8, blue LED DS7, cyan light emitting diode DS6, green LED DS5, yellow light-emitting diode DS4, orange luminescence diode DS3, red light emitting diodes DS2.1 pin of analog switch cd4051U4 links to each other with an end of the 4th resistance R 4, and the other end of the 4th resistance R 4 links to each other with violet light diode DS8 anode; 2 pins of analog switch cd4051U4 link to each other with an end of the 5th resistance R 5, and the other end of the 5th resistance R 5 links to each other with blue LED DS7 anode; 4 pins of analog switch cd4051U4 link to each other with an end of the 6th resistance R 6, and the other end of the 6th resistance R 6 links to each other with cyan light emitting diode DS6 anode; 5 pins of analog switch cd4051U4 link to each other with an end of the 7th resistance R 7, and the other end of the 7th resistance R 7 links to each other with green LED DS5 anode; 13 pins of analog switch cd4051U4 link to each other with an end of the 8th resistance R 8, and the other end of the 8th resistance R 8 links to each other with yellow light-emitting diode DS4 anode; 14 pins of analog switch cd4051U4 link to each other with an end of the 9th resistance R 9, and the other end of the 9th resistance R 9 links to each other with orange luminescence diode DS3 anode; 15 pins of analog switch cd4051U4 link to each other with an end of the tenth resistance R 10, and the other end of the tenth resistance R 10 links to each other with red light emitting diodes DS2 anode; The negative electrode of the negative electrode of the negative electrode of the negative electrode of DS8, the negative electrode of DS7, DS6, the negative electrode of DS5, DS4, the negative electrode of DS3, DS2 links to each other and ground connection; 7 pins of analog switch cd4051U4 link to each other with 8 pins and ground connection; 9 pins of analog switch cd4051U4 link to each other with the P0.4 pin of processor LPC2368; 10 pins of analog switch cd4051U4 link to each other with the P0.1 pin of processor LPC2368; 11 pins of analog switch cd405U4 1 link to each other with the P0.0 pin of processor LPC2368; 6 pins of analog switch cd4051U4 link to each other with the P3.25 pin of processor LPC2368; 3 pins of analog switch cd4051U4 link to each other with the P0.26 pin of processor LPC2368, and 6 pins of analog switch cd4051U4 meet VDD5.0.

As shown in Figure 8, input/output module comprises that LCD interface, first switch S 1, second switch S2, the 3rd switch S 3, the 4th switch S 4, the 5th switch S 5, the 6th switch S 6, minion close that S7, octavo close S8, the 9th switch S 9, the tenth switch S the 10, the 11 switch S 11, twelvemo is closed S12, the 32 resistance R the 32, the 33 resistance R the 33, the 34 resistance R the 34, the 35 resistance R the 35, the 36 resistance R the 36, the 37 resistance R 37 and the 38 resistance R 38.One end of one end of one end of first switch S 1, the 5th switch S 5, the 9th switch S 9 links to each other with the P0.8 pin of processor LPC2368 with an end of the 32 resistance R 32; One end of one end of the end of second switch S2, the 6th switch S 6, the tenth switch S 10 links to each other with the P0.9 pin of processor LPC2368 with an end of the 33 resistance R 33; An end, an end of the 11 switch S 11 and an end of the 34 resistance R 34 that one end of the 3rd switch S 3, minion are closed S7 link to each other with the P0.15 pin of processor LPC2368; One end of the 4th switch S 4, octavo are closed the end of S8, the end of twelvemo pass S12 and an end of the 35 resistance R 35 and are linked to each other with the P0.20 pin of processor LPC2368; The other end of the other end of the other end of first switch S 1, second switch S2, the 3rd switch S 3, the 4th switch S 4 the other end and an end of the 38 resistance R 38 link to each other with the P0.7 pin of processor LPC2368; The other end, the octavo that the other end of the other end of the 5th switch S 5, the 6th switch S 6, minion close S7 close S8 the other end and an end of the 37 resistance R 37 link to each other with the P0.6 pin of processor LPC2368; The other end of the other end of the 9th switch S 9, the tenth switch S 10, the other end of the 11 switch S 11, twelvemo close the other end of S12 and an end of the 36 resistance R 36 links to each other with the P0.5 pin of processor LPC2368; The other end of the other end of the 38 resistance R 38, the other end of the 37 resistance R 37, the 36 resistance R 36 links to each other and ground connection; The other end of the 32 resistance R 32, the other end of the 33 resistance R 33, the other end of the 34 resistance R 34, the other end of the 35 resistance R 35 link to each other with VDD3.3.

1 pin of LCD interface links to each other with VDD3.3; 2 pins of LCD interface link to each other with the P2.0 of processor LPC2368; 3 pins of LCD interface link to each other with the P2.1 of processor LPC2368; 4 pins of LCD interface link to each other with the P2.2 of processor LPC2368; 5 pins of LCD interface link to each other with the P2.3 of processor LPC2368; 6 pins of LCD interface link to each other with the P0.22 of processor LPC2368; 7 pins of LCD interface link to each other with the P0.23 of processor LPC2368; 8 pins of LCD interface link to each other with the P0.24 of processor LPC2368; 9 pins of LCD interface link to each other with the P0.27 of processor LPC2368; 10 pins of LCD interface link to each other with the P0.28 of processor LPC2368; 11 pins of LCD interface link to each other with the P0.21 of processor LPC2368; 12 pins of LCD interface link to each other with the P1.0 of processor LPC2368; 13 pins of LCD interface link to each other with the P1.1 of processor LPC2368; 14 pins of LCD interface link to each other with the P1.4 of processor LPC2368; 15 pins of LCD interface link to each other with the P1.8 of processor LPC2368; 16 pins of LCD interface link to each other with the P1.9 of processor LPC2368; 17 pin ground connection of LCD interface.

As shown in Figure 9, control module is microprocessor LPC2368, and 12 pins of LPC2368,10 pins, 84 pins, 42 pins, 13 pins, 96 pins, 71 pins, 54 pins, 28 pins meet VDD3.3; 11 pins, 83 pins, 97 pins, 72 pins, 55 pins, 41 pins, 31 pins, 15 pin ground connection.

Shown in figure 10, index path mainly comprises 7 light emitting diodes, a cuvette and two eyeglasses.

The work engineering of portable food safety detector is following: preserve the needed magnitude of voltage of versicolor light emitting diode among the microprocessor LPC2368, microprocessor LPC2368 is according to matrix keyboard, through in house software; Utilize wherein a kind of needed magnitude of voltage of light emitting diode of color of the integrated D/A module output of microprocessor internal, the light that light emitting diode sends is through the eyeglass reflection, for cuvette provides light source; Light source is through the colorimetric pool internal solution, and part light is absorbed, another piece reflecting optics of rest of light directive; Be reflected into photoelectric sensor then; Photoelectric sensor is converted into electric signal with light signal, is digital signal through the A/D module converts, in chip, handles; Draw the concentration of poisonous and harmful substance, on LCD, demonstrate the concentration of tested poisonous and harmful substance.

Claims (1)

1. portable food safety detector; It is characterized in that: this detector comprises power management module, communication module, outer memory module, signal acquisition module external light source module input/output module and controller; Each module all adopts existing mature technology; Wherein, Power management module comprises with LM2596S to be the 5V voltage conversion circuit of core and to be the 3.3V voltage conversion circuit of core with LM1117-3.3; Communication module comprises RS232 interface, jtag interface and USB interface, and input/output module comprises matrix keyboard and LCD interface, and the 5V voltage conversion circuit that with LM2596S is core is the RS232 circuit, external light source module in the communication module and is that the 3.3V voltage conversion circuit of core provides 5V voltage with LM1117-3.3; The 3.3V voltage conversion circuit that with LM1117-3.3 is core is that jtag interface and the USB interface in controller module, outer memory module, signal acquisition module, input/output module and the communication module provides 3.3V voltage; Preserve in the controller and drive the needed magnitude of voltage of external light source module; Controller is according to the selection of input/output module; Utilize the needed voltage of the inner D/A module output external light source of controller, the light that external light source sends is injected signal acquisition module after treatment, and signal acquisition module is converted into voltage signal with light signal; Through the inner A/D module converts of controller is digital signal; In controller, handle, draw the concentration of poisonous and harmful substance, input/output module shows the concentration of poisonous and harmful substance; And testing result externally preserved in the memory module, wherein the RS232 interface jtag interface in the communication module and USB interface is used for and outer computer between transmit data;

The 5V voltage conversion circuit comprises power management chip U1LM2596S, first capacitor C 1, second capacitor C 2, first inductance L 1 and voltage stabilizing diode D1; The positive pole of capacitor C 1 is connected with the 12V power supply with 1 pin of power management chip U1 LM2596S; The anode of 3 pins of the negative pole of capacitor C 1, power management chip U1LM2596S, 5 pins of power management chip U1LM2596S, voltage stabilizing diode D1 and the minus earth of second capacitor C 2; The positive pole of 4 pins of power management chip U1LM2596S, an end of inductance L 1, second capacitor C 2 is connected with voltage output end VDD5.0, and the negative electrode of 2 pins of power management chip U1LM2596S, the other end of first inductance L 1 and diode D1 links to each other;

3.3V voltage conversion circuit comprises the 26 capacitor C the 26, the 27 capacitor C 27, power management chip LM1117,28 capacitor C, 28,29 capacitor C 29 and light emitting diode DS10; One end of the 26 capacitor C 26 is connected with 3 pins of the positive pole of VDD5.0 voltage output end, the 27 capacitor C 27 and power management chip LM1117; The negative electrode of the negative pole of the negative pole of the other end of the 26 capacitor C 26 and 27 capacitor C 27,1 pin of power management chip LM1117,28 capacitor C 28, an end of 29 capacitor C 29 and light emitting diode DS10 is connected and ground connection, and 2 pins of power management chip LM1117 are connected with the other end of the positive pole of 28 capacitor C 28,29 capacitor C 29, the anode of light emitting diode DS10;

Communication module comprises the 11 resistance R the 11, the 12 resistance R the 12, the 13 resistance R the 13, the 14 resistance R the 14, the 15 resistance R the 15, the 16 resistance R the 16, the 17 resistance R the 17, the 18 resistance R the 18, the 19 resistance R the 19, the 20 resistance R the 20, the 21 resistance R the 21, the 22 resistance R the 22, the 23 resistance R the 23, the 24 resistance R the 24, the 25 resistance R the 25, the 26 resistance R the 26, the 27 resistance R the 27, the 28 resistance R 28, the 3rd capacitor C 3, the 4th capacitor C 4, the 5th capacitor C 5, the 7th capacitor C 7, the 8th capacitor C 8, the 9th capacitor C 9, the tenth capacitor C the 10, the 11 capacitor C 11,2*2 row pin JP20, FET 2SJ355, jtag interface CON0, serial communication electric level interface conversion chip MAX3232, serial ports COM0, COM1 and USB interface U5, and 1 pin among the USB interface U5 links to each other with an end of an end of the 14 resistance R 14, the 11 resistance R 11, the anode of the 7th capacitor C 7,1 pin of JP20; The plus earth of the other end of the 14 resistance R 14 and the 7th capacitor C 7; The other end of the 11 resistance R 11 links to each other with the P1.30 pin of processor LPC2368; 2 pins among the USB interface U5 link to each other with an end of an end of the 18 resistance R 18, the 16 resistance R 16, the anode of the 3rd capacitor C 3,4 pins of JP20; The other end of the 18 resistance is connected with the negative electrode of the 3rd electric capacity and ground connection, and the other end of the 16 resistance R 16 links to each other with the P0.30 pin of processor LPC2368; 3 pins among the USB interface U5 link to each other with the positive pole of an end of the 19 resistance R 19, the 4th capacitor C 4, an end of the 17 resistance R 17, an end of the 15 resistance R 15,2 pins of JP20; The other end of the 19 resistance is connected with the negative electrode of the 4th capacitor C 4 and ground connection, and the other end of the 17 resistance R 17 links to each other with the P0.29 pin of processor LPC2368; The 3 pin ground connection of JP20; The other end of the 15 resistance R 15 extremely links to each other with the D of 2SJ355; The S utmost point of 2SJ355, an end of the 13 resistance R 13 link to each other with voltage VDD3.3; The other end of the 13 resistance R 13 extremely links to each other with an end of the 12 resistance R 12, the G of 2SJ355; The other end of the 12 resistance R 12 links to each other with the P2.9 pin of processor LPC2368; 4 pins among the USB interface U5 link to each other with the end of the second inductance C2; 6 pins among the USB interface U5 link to each other with an end of the 5th electric capacity; The other end of second inductance links to each other with the other end of the 5th electric capacity and ground connection; 5 pins among the USB interface U5 are built on stilts;

The anode of light emitting diode DS9 links to each other with VDD3.3; The negative electrode of the 9th light emitting diode DS9 links to each other with an end of the 20 resistance R 20; The other end of the 20 resistance R 20 links to each other with the P1.18 pin of processor LPC2368;

One end of 1 pin among the JTAG, 2 pins, the 21 resistance R 21, an end of the 22 resistance R 22, an end of the 23 resistance R 23, an end of the 24 resistance R 24, an end of the 25 resistance R 25 link to each other with VDD3.3; 3 pins among the JTAG, the other end of the 21 resistance R 21 link to each other with the nTRST pin of processor LPC2368; 5 pins among the JTAG, the other end of the 22 resistance R 22 link to each other with the TDI pin of processor LPC2368; 7 pins among the JTAG, the other end of the 23 resistance R 23 link to each other with the TMS pin of processor LPC2368; 9 pins among the JTAG, an end of the 29 resistance R 26 link to each other with the TCK pin of processor LPC2368; 11 pins among the JTAG, the other end of the 24 resistance R 24 link to each other with the RTCK pin of processor LPC2368; 13 pins among the JTAG, the other end of the 25 resistance R 25 link to each other with the TDO pin of processor LPC2368; 15 pins among the JTAG link to each other with the nRST pin of processor LPC2368; 17 pins among the JTAG link to each other with the 27 resistance R 27; 19 pins among the JTAG link to each other with an end of the 28 resistance R 28; The other end of the other end of the 26 resistance R 26, the other end of the 27 resistance R 27, the 28 resistance R 28 and 4 pins of JTAG, 6 pins, 8 pins, 10 pins, 12 pins, 14 pins, 16 pins, 18 pins, 20 pins connect and ground connection;

16 pins of serial communication electric level interface conversion chip U6 MAX3232 link to each other with VDD5.0; 1 pin of U6 MAX3232 links to each other with an end of the tenth capacitor C 10; 3 pins of U6 MAX3232 link to each other with the other end of the tenth capacitor C 10; 4 pins of U6 MAX3232 link to each other with an end of the 11 capacitor C 11; 5 pins of U6 MAX3232 link to each other with the other end of the 11 capacitor C 11; 11 pins of U6 MAX3232 link to each other with the P0.2 pin of processor LPC2368; 12 pins of U6 MAX3232 link to each other with the P0.3 pin of processor LPC2368; 10 pins of U6 MAX3232 link to each other with the P0.10 pin of processor LPC2368; 9 pins of U6 MAX3232 link to each other with the P0.11 pin of processor LPC2368; 2 pins of U6 MAX3232 link to each other with an end of the 8th capacitor C 8 and ground connection; 6 pins of U6 MAX3232 link to each other with an end of the 9th capacitor C 9; 15 pins of U6 MAX3232 link to each other with the other end of the other end of the 9th capacitor C 9, the 8th capacitor C 8; 14 pins of U6 MAX3232 link to each other with 2 pins of serial ports COM0; 13 pins of U6 MAX3232 link to each other with 3 pins of serial ports COM0; 7 pins of U6 MAX3232 link to each other with 2 pins of serial ports COM1; 8 pins of U6 MAX3232 link to each other with 3 pins of serial ports COM1, the 5 pin ground connection of serial ports COM0, serial ports COM1 ground connection;

Outer memory module comprises first resistance R 1, the 3rd resistance R 3,32Mb storer SST25VF032 U3 and the 6th capacitor C 6; 0 pin of U3 links to each other with the P0.16 pin of processor LPC2368; 1 pin of U3 links to each other with the P0.17 pin of processor LPC2368; 6 pins of U3 link to each other with the P0.18 pin of processor LPC2368; 7 pins of U3 link to each other with the P0.19 pin of processor LPC2368, and 2 pins of U3, the P0.25 pin of processor LPC2368 and an end of first resistance R 1 link to each other, another termination VDD3.3 of first resistance R 1; The 3 pin ground connection of U3, an end of 4 pins of U3, the 3rd resistance R 3 and a termination VDD3.3 of the 6th capacitor C 6, the other end ground connection of the 6th capacitor C 6,5 pins of U3 are connected with the 3rd resistance R 3 other ends;

Signal acquisition module is photoelectric sensor OTP101 U2,1 pin of photoelectric sensor U2 and 3 pin ground connection, and 4 pins of U2 link to each other with the P1.31 pin of processor LPC2368 with 5 pins, and 2 pins of U2 link to each other with the 3.3V power supply;

The external light source module comprises analog switch cd4051U4, the 4th resistance R 4, the 5th resistance R 5, the 6th resistance R 6, the 7th resistance R 7, the 8th resistance R 8, the 9th resistance R 9, the tenth resistance R 10, violet light diode DS8, blue LED DS7, cyan light emitting diode DS6, green LED DS5, yellow light-emitting diode DS4, orange luminescence diode DS3, red light emitting diodes DS2; 1 pin of analog switch cd4051U4 links to each other with an end of the 4th resistance R 4, and the other end of the 4th resistance R 4 links to each other with violet light diode DS8 anode; 2 pins of analog switch cd4051U4 link to each other with an end of the 5th resistance R 5, and the other end of the 5th resistance R 5 links to each other with blue LED DS7 anode; 4 pins of analog switch cd4051U4 link to each other with an end of the 6th resistance R 6, and the other end of the 6th resistance R 6 links to each other with cyan light emitting diode DS6 anode; 5 pins of analog switch cd4051U4 link to each other with an end of the 7th resistance R 7, and the other end of the 7th resistance R 7 links to each other with green LED DS5 anode; 13 pins of analog switch cd4051U4 link to each other with an end of the 8th resistance R 8, and the other end of the 8th resistance R 8 links to each other with yellow light-emitting diode DS4 anode; 14 pins of analog switch cd4051U4 link to each other with an end of the 9th resistance R 9, and the other end of the 9th resistance R 9 links to each other with orange luminescence diode DS3 anode; 15 pins of analog switch cd4051U4 link to each other with an end of the tenth resistance R 10, and the other end of the tenth resistance R 10 links to each other with red light emitting diodes DS2 anode; The negative electrode of the negative electrode of the negative electrode of the negative electrode of DS8, the negative electrode of DS7, DS6, the negative electrode of DS5, DS4, the negative electrode of DS3, DS2 links to each other and ground connection; 7 pins of analog switch cd4051U4 link to each other with 8 pins and ground connection; 9 pins of analog switch cd4051U4 link to each other with the P0.4 pin of processor LPC2368; 10 pins of analog switch cd4051U4 link to each other with the P0.1 pin of processor LPC2368; 11 pins of analog switch cd405U4 1 link to each other with the P0.0 pin of processor LPC2368; 6 pins of analog switch cd4051U4 link to each other with the P3.25 pin of processor LPC2368; 3 pins of analog switch cd4051U4 link to each other with the P0.26 pin of processor LPC2368, and 6 pins of analog switch cd4051U4 meet VDD5.0;

Input/output module comprises that LCD interface, first switch S 1, second switch S2, the 3rd switch S 3, the 4th switch S 4, the 5th switch S 5, the 6th switch S 6, minion close that S7, octavo close S8, the 9th switch S 9, the tenth switch S the 10, the 11 switch S 11, twelvemo is closed S12, the 32 resistance R the 32, the 33 resistance R the 33, the 34 resistance R the 34, the 35 resistance R the 35, the 36 resistance R the 36, the 37 resistance R 37 and an end of the 38 resistance R 38, the first switch S 1, an end of the 5th switch S 5, an end of the 9th switch S 9 and an end of the 32 resistance R 32 and linked to each other with the P0.8 pin of processor LPC2368; One end of one end of the end of second switch S2, the 6th switch S 6, the tenth switch S 10 links to each other with the P0.9 pin of processor LPC2368 with an end of the 33 resistance R 33; An end, an end of the 11 switch S 11 and an end of the 34 resistance R 34 that one end of the 3rd switch S 3, minion are closed S7 link to each other with the P0.15 pin of processor LPC2368; One end of the 4th switch S 4, octavo are closed the end of S8, the end of twelvemo pass S12 and an end of the 35 resistance R 35 and are linked to each other with the P0.20 pin of processor LPC2368; The other end of the other end of the other end of first switch S 1, second switch S2, the 3rd switch S 3, the 4th switch S 4 the other end and an end of the 38 resistance R 38 link to each other with the P0.7 pin of processor LPC2368; The other end, the octavo that the other end of the other end of the 5th switch S 5, the 6th switch S 6, minion close S7 close S8 the other end and an end of the 37 resistance R 37 link to each other with the P0.6 pin of processor LPC2368; The other end of the other end of the 9th switch S 9, the tenth switch S 10, the other end of the 11 switch S 11, twelvemo close the other end of S12 and an end of the 36 resistance R 36 links to each other with the P0.5 pin of processor LPC2368; The other end of the other end of the 38 resistance R 38, the other end of the 37 resistance R 37, the 36 resistance R 36 links to each other and ground connection; The other end of the 32 resistance R 32, the other end of the 33 resistance R 33, the other end of the 34 resistance R 34, the other end of the 35 resistance R 35 link to each other with VDD3.3;

1 pin of LCD interface links to each other with VDD3.3; 2 pins of LCD interface link to each other with the P2.0 of processor LPC2368; 3 pins of LCD interface link to each other with the P2.1 of processor LPC2368; 4 pins of LCD interface link to each other with the P2.2 of processor LPC2368; 5 pins of LCD interface link to each other with the P2.3 of processor LPC2368; 6 pins of LCD interface link to each other with the P0.22 of processor LPC2368; 7 pins of LCD interface link to each other with the P0.23 of processor LPC2368; 8 pins of LCD interface link to each other with the P0.24 of processor LPC2368; 9 pins of LCD interface link to each other with the P0.27 of processor LPC2368; 10 pins of LCD interface link to each other with the P0.28 of processor LPC2368; 11 pins of LCD interface link to each other with the P0.21 of processor LPC2368; 12 pins of LCD interface link to each other with the P1.0 of processor LPC2368; 13 pins of LCD interface link to each other with the P1.1 of processor LPC2368; 14 pins of LCD interface link to each other with the P1.4 of processor LPC2368; 15 pins of LCD interface link to each other with the P1.8 of processor LPC2368; 16 pins of LCD interface link to each other with the P1.9 of processor LPC2368; 17 pin ground connection of LCD interface;

Control module is microprocessor LPC2368, and 12 pins of LPC2368,10 pins, 84 pins, 42 pins, 13 pins, 96 pins, 71 pins, 54 pins, 28 pins meet VDD3.3; 11 pins, 83 pins, 97 pins, 72 pins, 55 pins, 41 pins, 31 pins, 15 pin ground connection.

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