CN209215544U - A kind of comprehensive debugging device - Google Patents

Abstract

The utility model provides a kind of comprehensive debugging device, including adapter head interface；Interface protection module；Power management module；Network carrier signal couples sampling unit；LCD display module；Backup power system；Carrier module interface；ARM9 core board；GPRS module interface and state indicator module etc..Comprehensive debugging device provided by the utility model has the advantages that fast response time, stable testing, memory management functions are powerful, supports teledata interaction.

Description

A kind of comprehensive debugging device

Technical field

The utility model relates to carrier communication field more particularly to a kind of comprehensive debugging devices.

Background technique

Most of fields of electronic circuit are rapidly captured with its distinctive performance and popularized to digital circuit, more and more Household electrical appliance, more and more Industrial Control Computers are gradually replaced digital circuit.And show powerful vitality.But It is that, suitable for the small portable testing tool of digital circuit, the development of digital circuit could not be kept up with always, could not is number electricity Road debugging test provide one it is advantageous side in.The measurement of traditional multimeter, current voltmeter almost loses significance of which. Because digital circuit is always operating at two stable switch states.It seems to be not relevant for specific Current Voltage state, and It is more the signal intensity focused on logical meaning.

However traditional comprehensive debugging device, in data transmission procedure, response speed is slower, Caton is easy to produce, in data Memory management functions are weaker when storage, cannot largely be stored in new data, in addition do not support teledata to hand over when transmitting data Mutually.

Therefore, it is necessary to provide a kind of new comprehensive debugging device solution above-mentioned technical problem.

Utility model content

It is strong that the technical issues of the utility model solves is to provide a kind of fast response time, stable testing, memory management functions Greatly, the comprehensive debugging device of teledata interaction is supported.

In order to solve the above technical problems, comprehensive debugging device provided by the utility model includes: adapter head interface；Interface protection Module；Power management module；Network carrier signal couples sampling unit；LCD display module；Backup power system；Carrier module Interface；ARM9 core board；GPRS module interface；State indicator module；Multi-function extension mouth；USB-Device interface；USB- Host interface；RS232 interface；Keyboard and RJ45 interface；It is unidirectionally to connect between the adapter head interface；The adapter head interface It is directed toward the interface protection module；The interface protection module connects and is directed toward the power management module, and the interface is protected Protecting between module and the power management module is unidirectionally to connect；The interface protection module connects and is directed toward the network carrier Signal couples sampling unit, and it is unidirectionally to connect that the interface protection module couples between sampling unit with the network carrier signal It connects；The power management module connects and is directed toward the LCD display module, and the power management module and the LCD show mould It is unidirectionally to connect between group；The backup power system is bi-directionally connected with the power management module；The carrier module interface Including routing module interface, three interfaces and single-phase, the carrier module interface is mutually bi-directionally connected with the interface protection module； The ARM9 core board include STM32AD sampling, clock module, SDRAM, ARM926EJ-S, NANDFLASH, RST management, DM9161 is bi-directionally connected between the ARM9 core board and the carrier module interface；The GPRS module interface with it is described ARM9 core board is bi-directionally connected；The ARM9 core board connects and is directed toward the state indicator module, and the ARM9 core board It is unidirectionally to connect between the state indicator module；It is two-way company between the Multi-function extension mouth and the ARM9 core board It connects；It is to be bi-directionally connected between the USB-Device interface and the ARM9 core board；The USB-Host interface with it is described It is to be bi-directionally connected between ARM9 core board；It is to be bi-directionally connected between the RS232 interface and the ARM9 core board；The keyboard The ARM9 core board is connected and be directed toward, and is unidirectionally to connect between the keyboard and the ARM9 core board；The RJ45 connects It is to be bi-directionally connected between mouth and the ARM9 core board.

Preferably, the interface protection module is separately connected and is directed toward the power management module and the network carrier is believed Number coupling sampling unit, and the interface protection module couples sampling with the power management module and the network carrier signal The PLC being bi-directionally connected with the carrier module interface is provided between unit connection.

Preferably, the power management module be also respectively connected with and be directed toward network carrier signal coupling sampling unit, The ARM9 core board and the GPRS module interface, and the power management module couples sampling with the network carrier signal It is unidirectionally to connect between unit, the ARM9 core board and GPRS module interface.

Preferably, the ARM9 core board also couples sampling unit respectively at the network carrier signal and the LCD is aobvious Show to be to be bi-directionally connected between mould group.

Preferably, the size of the LCD display module is 160mm × 160mm.

Preferably, the memory capacity of the SDRAM is 32M.

Preferably, the memory capacity of the NANDFLASH is 128M.

Compared with the relevant technologies, comprehensive debugging device provided by the utility model is had the following beneficial effects:

The utility model provides a kind of comprehensive debugging device, is unidirectionally to connect between the adapter head interface, the adapter head Interface is directed toward the interface protection module, and the interface protection module connects and is directed toward the power management module, and described connects It is unidirectionally to connect between mouth protective module and the power management module, is conducive to the equipment peace of electric line carrier communication occasion Dress, field adjustable, the interface protection module connect and are directed toward the network carrier signal coupling sampling unit, and the interface It is unidirectionally to connect that protective module couples between sampling unit with the network carrier signal, and the power management module connects and refers to It is unidirectionally to connect between the power management module and the LCD display module to the LCD display module, realizes debugger Teledata interaction, the main service station of connection, the also real-time copy reading of support teledata, file transmission, the carrier module interface with The interface protection module is bi-directionally connected, and is bi-directionally connected between the ARM9 core board and the carrier module interface, is made to adjust It tries device and realizes that functional application multitasking, fast response time and memory management functions are powerful.

Detailed description of the invention

It is a kind of operation principle schematic diagram of preferred embodiment of comprehensive debugging device provided by the utility model between Fig. 1.

Fig. 2 is the utility model ARM9 core board structural schematic diagram；

Figure label: 1, adapter head interface, 2, interface protection module, 3, power management module, 4, network carrier signal coupling Sampling unit is closed, 5, LCD display module, 6, backup power system, 7, carrier module interface, 71, module interface, 72, three connect Mouthful, 73, single-phase, 8, ARM9 core board, 81, STM32AD sampling, 82, clock module, 83, SDRAM, 84, ARM926EJ-S, 85, NANDFLASH, 86, RST management, 87, DM9161,9, GPRS module interface, 10, state indicator module, 11, multi-functional Extend mouth, 12, USB-Device interface, 13, USB-Host interface, 14, RS232 interface, 15, keyboard, 16, RJ45 interface.

Specific embodiment

The utility model is described in further detail with embodiment with reference to the accompanying drawing.

Please refer to Fig. 1 to Fig. 2, a kind of comprehensive debugging device, including adapter head interface 1, interface protection module 2, power supply Management module 3, network carrier signal coupling sampling unit 4, LCD display module 5, backup power system 6, carrier module interface 7, ARM9 core board 8, GPRS module interface 9, state indicator module 10, Multi-function extension mouth 11, USB-Device interface 12, USB- Host interface 13, RS232 interface 14, keyboard 15, RJ45 interface 16 are unidirectionally to connect between the adapter head interface 1；It is described suitable The interface protection module 2 is directed toward with head interface 1；The interface protection module 2 connects and is directed toward the power management module 3, It and between the interface protection module 2 and the power management module 3 is unidirectionally to connect；The connection of interface protection module 2 is simultaneously It is directed toward the network carrier signal coupling sampling unit 4, and the interface protection module 2 is coupled with the network carrier signal and adopted It is unidirectionally to connect between sample unit 4；The power management module 3 connects and is directed toward the LCD display module 5, the power supply pipe Managing between module 3 and the LCD display module 5 is unidirectionally to connect；The backup power system 6 and the power management module 3 It is bi-directionally connected；The carrier module interface 7 includes routing module interface 71, three interfaces 72 and single-phase 73, the carrier module Interface 7 is bi-directionally connected with the interface protection module 2；The ARM9 core board 8 include STM32AD sampling 81, clock module 82, SDRAM83, ARM926EJ-S84, NANDFLASH85, RST manage 86, DM916187, the ARM9 core board 8 and the carrier wave It is to be bi-directionally connected between module interface 7；The GPRS module interface 9 is bi-directionally connected with the ARM9 core board 8；The ARM9 core Core 8 connects and is directed toward the state indicator module, and is single between the ARM9 core board 8 and the state indicator module 10 To connection；It is to be bi-directionally connected between the Multi-function extension mouth 11 and the ARM9 core board 8；The USB-Device interface 12 It is to be bi-directionally connected between the ARM9 core board 8；It is two-way between the USB-Host interface 13 and the ARM9 core board 8 Connection；It is to be bi-directionally connected between the RS232 interface 14 and the ARM9 core board 8；The keyboard 15 is connected and is directed toward described ARM9 core board 8, and be unidirectionally to connect between the keyboard 15 and the ARM9 core board 8；The RJ4516 interface with it is described It is to be bi-directionally connected between ARM9 core board 8.

The interface protection module 2 is separately connected and is directed toward the power management module 3 and the network carrier signal coupling Sampling unit 4 is closed, and the interface protection module 2 couples sampling with the power management module 3 and the network carrier signal It is provided with the PLC being bi-directionally connected with the carrier module interface 7 between the connection of unit 4, is advantageously implemented the function of PLC.

The power management module 3 is also respectively connected with and is directed toward network carrier signal coupling sampling unit 4, described ARM9 core board 8 and the GPRS module interface 9, and the power management module 3 couples sampling with the network carrier signal It is unidirectionally to connect between unit 4, the ARM9 core board 8 and GPRS module interface 9, realizes that the power management module 3 controls The network carrier signal coupling sampling unit 4, the ARM9 core board 8 and the GPRS module interface 9.

The ARM9 core board 8 also couples sampling unit 4 and the LCD display module respectively at the network carrier signal To be bi-directionally connected between 5, realize that the LCD display module 5 couples sampling unit 4 with the network carrier signal and mutually passes number According to.

The size of the LCD display module 5 is 160mm × 160mm, enables the LCD display module 5 that can simply carry.

The memory capacity of the SDRAM83 is 32M, realizes that debugger memory capacity is big.

The memory capacity of the NANDFLASH85 is 128M, makes the NANDFLASH85 that can store mass data.

The working principle of comprehensive debugging device provided by the utility model is as follows:

Adapter head interface 1 is connected into the interface protection module 2 first, the adapter head interface 1 is directed toward the interface and protects Protect module 2, the interface protection module 2 is connected and be directed toward the power management module 3, and the interface protection module 2 with It is unidirectionally to connect between the power management module 3；The interface protection module 2 is connected and is directed toward the network carrier signal Sampling unit 4 is coupled, and it is unidirectionally to connect between sampling unit 4 that the interface protection module 2 is coupled with the network carrier signal It connects, the power management module 3 is connected and be directed toward the LCD display module 5, the power management module 3 and LCD is aobvious Show to be unidirectionally to connect between mould group 5, the backup power system 6 and the power management module 3 are bi-directionally connected, by the load Wave module interface 7 is bi-directionally connected with the interface protection module 2, by the ARM9 core board 8 and the carrier module interface 7 it Between to be bi-directionally connected, the GPRS module interface 9 and the ARM9 core board 8 are bi-directionally connected, the ARM9 core board 8 is connected The state indicator module is connect and is directed toward, and is unidirectionally to connect between the ARM9 core board 8 and the state indicator module 10, Will between the Multi-function extension mouth 11 and the ARM9 core board 8 to be bi-directionally connected, by the USB-Device interface 12 with It will be two-way between the USB-Host interface 13 and the ARM9 core board 8 to be bi-directionally connected between the ARM9 core board 8 The keyboard 15, to be bi-directionally connected, will be connected and be directed toward between the RS232 interface 14 and the ARM9 core board 8 by connection The ARM9 core board 8, and be unidirectionally to connect between the keyboard 15 and the ARM9 core board 8, by the RJ4516 interface To be bi-directionally connected between the ARM9 core board 8, the interface protection module 2 and the power management module 3 and the electricity It is provided with the PLC being bi-directionally connected with the carrier module interface 7 between the coupling connection of sampling unit 4 of net carrier signal, it will be described Power management module 3 is also respectively connected with and is directed toward the coupling of network carrier the signal sampling unit 4,8 and of ARM9 core board The GPRS module interface 9, and the power management module 3 couples sampling unit 4, the ARM9 with the network carrier signal It is unidirectionally to connect between core board 8 and GPRS module interface 9, the ARM9 core board 8 is also believed respectively at the network carrier To be bi-directionally connected between number between coupling sampling unit 4 and the LCD display module 5.

It is obvious to a person skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and And without departing substantially from the spirit or essential attributes of the utility model, it can realize that this is practical new in other specific forms Type.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, this is practical new The range of type is indicated by the appended claims rather than the foregoing description, it is intended that containing for the equivalent requirements of the claims will be fallen in All changes in justice and range are embraced therein.It should not treat any reference in the claims as limiting Related claim.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (7)

1. a kind of comprehensive debugging device, which is characterized in that including adapter head interface (1), interface protection module (2), power management mould Block (3), network carrier signal couple sampling unit (4), LCD display module (5), backup power system (6), carrier module interface (7), ARM9 core board (8), GPRS module interface (9), state indicator module (10), Multi-function extension mouth (11), USB- Device interface (12), USB-Host interface (13), RS232 interface (14), keyboard (15), RJ45 interface (16), the adaptation It is unidirectionally to connect between head interface (1)；The adapter head interface (1) is directed toward the interface protection module (2)；The interface protection Module (2) is connected and is directed toward the power management module (3), and the interface protection module (2) and the power management module It (3) is unidirectionally to connect between；The interface protection module (2) connects and is directed toward the network carrier signal coupling sampling unit It (4), is and between the interface protection module (2) and network carrier signal coupling sampling unit (4) unidirectionally to connect；It is described Power management module (3) connects and is directed toward the LCD display module (5), and the power management module (3) and the LCD are shown It is unidirectionally to connect between mould group (5)；The backup power system (6) is bi-directionally connected with the power management module (3)；The load Wave module interface (7) includes routing module interface (71), three interfaces (72) and single-phase (73), the carrier module interface (7) It is bi-directionally connected with the interface protection module (2)；The ARM9 core board (8) includes STM32AD sampling (81), clock module (82), SDRAM (83), ARM926EJ-S (84), NANDFLASH (85), RST manage (86), DM9161 (87), the ARM9 core It is to be bi-directionally connected between core (8) and the carrier module interface (7)；The GPRS module interface (9) and the ARM9 core Plate (8) is bi-directionally connected；The ARM9 core board (8) connects and is directed toward the state indicator module, and the ARM9 core board (8) It is unidirectionally to connect between the state indicator module (10)；The Multi-function extension mouth (11) and the ARM9 core board (8) Between to be bi-directionally connected；It is to be bi-directionally connected between the USB-Device interface (12) and the ARM9 core board (8)；It is described It is to be bi-directionally connected between USB-Host interface (13) and the ARM9 core board (8)；The RS232 interface (14) and the ARM9 It is to be bi-directionally connected between core board (8)；The keyboard (15) connects and is directed toward the ARM9 core board (8), and the keyboard It (15) is unidirectionally to connect between the ARM9 core board (8)；Between RJ (4516) interface and the ARM9 core board (8) To be bi-directionally connected.

2. comprehensive debugging device according to claim 1, which is characterized in that the interface protection module (2) is separately connected simultaneously It is directed toward the power management module (3) to couple sampling unit (4) with the network carrier signal, and the interface protection module (2) with the power management module (3) and the network carrier signal coupling sampling unit (4) connect between be provided with it is described The PLC that carrier module interface (7) is bi-directionally connected.

3. comprehensive debugging device according to claim 1, which is characterized in that the power management module (3) is also respectively connected with And it is directed toward network carrier signal coupling sampling unit (4), the ARM9 core board (8) and the GPRS module interface (9), And the power management module (3) coupled with the network carrier signal sampling unit (4), the ARM9 core board (8) and It is unidirectionally to connect between GPRS module interface (9).

4. comprehensive debugging device according to claim 1, which is characterized in that the ARM9 core board (8) is also respectively at described It is to be bi-directionally connected between network carrier signal coupling sampling unit (4) and the LCD display module (5).

5. comprehensive debugging device according to claim 1, which is characterized in that the size of the LCD display module (5) is 160mm×160mm。

6. comprehensive debugging device according to claim 1, which is characterized in that the memory capacity of the SDRAM (83) is 32M.

7. comprehensive debugging device according to claim 1, which is characterized in that the memory capacity of the NANDFLASH (85) is 128M。