CN204258836U - A kind of power wire broadband carrier communication network module test macro - Google Patents

Abstract

A kind of power wire broadband carrier communication network module test macro, comprising: three phase mains; The A phase networking unit be connected with the A phase of described three phase mains, the B phase networking unit be connected with the B phase of described three phase mains, the C phase networking unit be connected with the C phase of described three phase mains, the networking unit in each phase described is interconnected by shielded type cable; Divide the concentrator that three lines are connected with described three phase mains; The processing unit be connected with described concentrator.Networking unit of the present utility model arranges multiple carrier module, and a carrier module is connected with a single-chip microcomputer, can be convenient for changing carrier module, and change any carrier module all can not influential system arrange; The CLIENT PROGRAM such as ammeter, Street lamps control or Smart Home can be write in single-chip microcomputer, do the networking test of multiple application.

Description

A kind of power wire broadband carrier communication network module test macro

Technical field

The utility model belongs to power-line carrier communication field, particularly relates to a kind of power wire broadband carrier communication network module test macro.

Background technology

In recent years, the power wire broadband carrier chip of energy conservation and home automation is applied to along with high pass Atheros and Huawei Hai Si release one after another, power wire broadband carrier technology replaces narrow-band power line carrier technology gradually with advantage more stable, more at a high speed, enters Electricity Meters Auto Transcription System, Street lamps control and Smart Home field.But, networking test platform for power wire broadband carrier communication module does not have a ripe scheme and can simulate various complicated site environment and realize flexible and changeable routing mode, is used for checking routing algorithm and the networking capability limit of different carrier scheme.

Current immediate solution is that publication number a kind of power line carrier disclosed in the Chinese invention patent application of 103700244A is checked meter networking test macro, it is by a concentrator, the Monophase electric power carrier networking experiment porch of carrier attenuation device and multiple electric energy meter composition, concentrator lambda line unit comprises total lambda line insert row, master switch, isolating transformer, first carrier attenuator, concentrator and the first line bank for each connection in concentrator lambda line unit, carrier electric power table unit comprises carrier attenuation device, carrier electric energy meter and the line bank for connection each in carrier electric power table unit, test connecting line between concentrator lambda line unit with each carrier electric power table unit to be connected respectively by the first line bank, line bank, this test macro adopts based on the setting of a concentrator lambda line unit, many carrier electric power table units, realizes the experimental study of single-phase electricity line of force carrier networking, by line bank wiring in backplate junction box or by patch jack on front panel, realize test needed for network topology connect, thus meet power line carrier check meter networking test demand.But this test macro adopts electric energy meter networking, volume is large, shielding is difficult, cost is high, cannot meet large-scale network-estabilishing requirement, and also limit range of application, application of can only checking meter.

Utility model content

The purpose of this utility model is to provide a kind of networking test macro of power wire broadband carrier module, can simulate various site environment and routing mode, checks routing algorithm and the networking capability limit of different bandwidth carrier scheme.

To achieve these goals, the utility model takes following technical solution:

Power wire broadband carrier communication network module test macro, comprising: three phase mains; The A phase networking unit be connected with the A phase of described three phase mains, the B phase networking unit be connected with the B phase of described three phase mains, the C phase networking unit be connected with the C phase of described three phase mains, the networking unit in each phase described is interconnected by shielded type cable; Divide the concentrator that three lines are connected with described three phase mains; The processing unit be connected with described concentrator.

The further technical scheme of the utility model is: described networking unit comprises circuit substrate, the carrier signal attenuator be arranged on described circuit substrate, power module and several carrier module, described circuit substrate is arranged in metal shell, in the inlet wire that described carrier signal attenuator is connected to shielded type cable and outlet, described power module is connected on the described carrier signal attenuator be connected with shielded type cable inlet wire, described power module is connected successively with described carrier module, and each carrier module described is connected with a single-chip microcomputer be arranged on circuit substrate.

The further technical scheme of the utility model is: described networking unit also comprises carrier signal coupler, diverter switch and radio frequency connector, described carrier signal coupler is connected on the shielded type cable between described two carrier signal attenuators, the other end of described carrier signal coupler is connected with diverter switch, described diverter switch is connected with each carrier module, and described diverter switch is connected with radio frequency connector through another carrier signal coupler simultaneously.

The further technical scheme of the utility model is: the double socket of 2X6 pin that described carrier module is XS4 by model is connected with single-chip microcomputer.

The further technical scheme of the utility model is: described carrier module is that the double socket of the 2x4 pin of XS2 is connected with diverter switch by model.

The further technical scheme of the utility model is: the networking unit of each phase described is interconnected by coaxial feeder, and the coaxial feeder connecting adjacent sets net unit is connected on the radio frequency connector of networking unit, and coaxial feeder is provided with adjustable attenuator.

The further technical scheme of the utility model is: also comprise the Arbitrary Waveform Generator be connected with described processing unit and networking unit, and described Arbitrary Waveform Generator is connected with the radio frequency connector of described networking unit.

The further technical scheme of the utility model is: described adjustable attenuator is program control adjustable attenuator or manual adjustable attenuator, and described processing unit is connected with described adjustable attenuator by coaxial feeder.

The further technical scheme of the utility model is: described carrier signal attenuator is low-pass filter circuit, it is connected with shielded type cable by connector J3, 1 pin of J3 is connected with ring-shaped inductors L22, the ring-shaped inductors L22 other end is connected with coupler, 1 pin is connected with X electric capacity C1 simultaneously, X electric capacity C1 is connected with ring-shaped inductors L21, 2 pin of J3 pick shell, 3 pin of J3 are connected with ring-shaped inductors L21, the ring-shaped inductors L21 other end is connected with coupler, the ring-shaped inductors L21 other end is connected with Y capacitance C171 simultaneously, the Y capacitance C171 other end is connected with Y capacitance C172, the Y capacitance C171 other end picks shell simultaneously, the Y capacitance C172 other end is connected with ring-shaped inductors L22.

The further technical scheme of the utility model is: described carrier signal coupler comprises Y capacitance C217, the C218 of two 4.7nF, Y capacitance C217 one end is connected with carrier signal attenuator, the other end is connected with diverter switch, Y capacitance C218 one end is connected with carrier signal attenuator, and the other end is connected with diverter switch

From above technical scheme, networking unit of the present utility model is connected with three phase mains triple line respectively, and the phase networking unit in each phase is interconnected by shielded type cable, or by being connected after shielded radio frequency line serial connection adjustable attenuator, realizes flexible networking; Pluggable multiple removable carrier module on networking element circuit substrate, each carrier module is connected with a single-chip microcomputer, the physical address of carrier module reads in from single-chip microcomputer, carrier module can be convenient for changing, and change any carrier module all can not influential system arrange, the CLIENT PROGRAM such as ammeter, Street lamps control or Smart Home can be write in single-chip microcomputer, do the networking test of multiple application.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment, simple introduction is done below by the accompanying drawing used required in embodiment or description of the prior art, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structured flowchart of the utility model embodiment;

Fig. 2 is the structured flowchart of the utility model networking unit;

Fig. 3 is the circuit diagram of the utility model embodiment single-chip microcomputer;

The circuit diagram of the double socket of XS2 of the 2x4 pin that Fig. 4 provides for the utility model embodiment;

The circuit diagram of the double socket of XS4 of the 2x6 pin that Fig. 5 provides for the utility model embodiment;

Fig. 6 is the circuit diagram of the carrier signal attenuator of the utility model embodiment;

Fig. 7 is the circuit diagram of the carrier signal coupler of the utility model embodiment;

Fig. 8 is the schematic diagram of the utility model embodiment networking unit interface;

Fig. 9 is the schematic diagram adopting coaxial feeder Connecting groups net unit.

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in more detail.

Embodiment

As shown in Figure 1, the networking test macro of the three-phase low-voltage power wire broadband carrier communication module of the present embodiment comprises three phase mains 1, concentrator 2, processing unit 3, A phase networking unit 4, B phase networking unit 5, C phase networking unit 6.Wherein, what three phase mains 1 adopted is a single-phase linear variable frequency power supply turning three-phase, and three phase mains 1 is connected with A phase networking unit 4, B phase networking unit 5, C phase networking unit 6 respectively by shielded type cable.Concentrator is 2 is low pressure broadband power line carrier communication unit, this low pressure broadband power line carrier communication unit is product sold on market, and it meets the requirement of terminal communication unit in GB Q-GDW 1379.4-2013 power user power consumption information acquisition system inspection technology specification the 4th part (communication unit inspection technology specification).Concentrator 2 of the present utility model, as networking host node, separates three-phase by shielded type cable and is connected with A phase networking unit 4, B phase networking unit 5 and C phase networking unit 6 respectively, three networking unit networkings unit cascaded with other networking again.Networking unit of the present utility model can separate three testing jigs (not shown) by three-phase and put to facilitate management.Be connected by data line between concentrator 2 with processing unit 3, the data line adopted can be the netting twines such as twisted-pair feeder, coaxial cable, optical fiber, and processing unit 3 of the present utility model is computer.

The utility model all can arrange many group networking unit in each phase line, and the structure of networking unit is all identical, is connected between each phase networking unit by shielded type cable.With reference to shown in Fig. 2, networking unit 2 comprises carrier signal attenuator 2-1, power module 2-2, several carrier module 2-3, circuit substrate 2-4, carrier signal coupler 2-5, diverter switch 2-6, radio frequency connector 2-7 and metal shell (not shown), wherein, carrier signal attenuator 2-1, power module 2-2, carrier module 2-3, carrier signal coupler 2-5, diverter switch 2-6 and radio frequency connector 2-7 are all arranged on circuit substrate 2-4.Circuit substrate 2-4 is arranged in metal shell, and metal shell connects the ground wire of AC power, and is connected with testing jig, to block Space Coupling between node.The inlet wire and outlet of networking unit shielded type cable are all connected with a carrier signal attenuator 2-1, carrier signal attenuator is the attenuation rate that carrier signal provides suitable, fixing when being transmitted between two adjacent nodes (networking unit) by shielded type cable, stops carrier signal by conduction and radiation across grade coupled.Be connected by shielded type cable between two carrier signal attenuator 2-1, wherein, the carrier signal attenuator 2-1 be connected with the inlet wire of shielded type cable is also connected with power module 2-2, power module 2-2 is connected with each carrier module 2-2, the power module of the present embodiment is the AC/DC power module of 12V/15W, it is connected with each carrier module successively by 12V direct current supply line, for each carrier module provides DC power supply.

The carrier module 2-2 of the present embodiment is connected with circuit substrate 2-4 by row's faller gill mother (connector), is connected between each carrier module 2-2 by the holding wire on circuit substrate.In the present embodiment, circuit substrate 2-4 is provided with 12 carrier module 2-2 and the single-chip microcomputer corresponding with carrier module quantity (not shown), a single-chip microcomputer on each carrier module connecting circuit substrate, the model of the present embodiment single-chip microcomputer is R5F21284 (Fig. 3), reads in single-chip microcomputer address as Self address after carrier module powers on.Carrier module by row faller gill mother be connected with circuit substrate, can carrier module be convenient for changing, and change any carrier module all can not influential system setting; If single-chip microcomputer write electric energy meter DL/T645 interface protocol, then application of can checking meter, single-chip microcomputer also can write the CLIENT PROGRAM such as Street lamps control or Smart Home, does the networking test of multiple application.As shown in Figure 4 and Figure 5, row's mother socket of the present embodiment adopts the double socket of XS2 of 2x4 pin and the double socket of XS4 of 2x6 pin, carrier module is connected with circuit substrate by female XS2 with XS4 of row's faller gill, each pin of row's faller gill mother defines about the requirement of communication carrier module pin definitions by Q-GDW 1355-2013 single-phase intelligent electric energy meter pattern specification annex F, wherein XS2 is high-tension terminal, XS4 is Low-voltage socket, and carrier module is connected with single-chip microcomputer by XS4, is connected with diverter switch by XS2.

Carrier signal coupler 2-5 is connected on the shielded type cable between two carrier signal attenuator 2-1, the other end of carrier signal coupler 2-5 is connected with diverter switch 2-6, diverter switch 2-6 is connected with each carrier module 2-2 by holding wire, and diverter switch 2-6 is connected with radio frequency connector 2-7 through another carrier signal coupler 2-5 by holding wire simultaneously.Interconnection mode between each phase networking unit can be connected by shielded type cable and/or coaxial feeder, is controlled to adopt which kind of mode to realize interconnection between networking unit to propagate carrier signal, can realize mixed networking mode by diverter switch 2-7.

Carrier signal attenuator of the present utility model is low-pass filter circuit, as shown in Figure 6, carrier signal attenuator comprises the ring-shaped inductors L21 of two, a L22 and X electric capacity C1, two Y capacitance C171, C172, in the present embodiment, carrier signal attenuator is connected with shielded type cable by connector J3, 1 pin of J3 is connected with ring-shaped inductors L22, the ring-shaped inductors L22 other end is connected with coupler, 1 pin is connected with X electric capacity C1 simultaneously, X electric capacity C1 is connected with ring-shaped inductors L21, 2 pin of J3 pick shell, 3 pin of J3 are connected with ring-shaped inductors L21, the ring-shaped inductors L21 other end is connected with coupler, the ring-shaped inductors L21 other end is connected with Y capacitance C171 simultaneously, the Y capacitance C171 other end is connected with Y capacitance C172, the Y capacitance C171 other end picks shell simultaneously, the Y capacitance C172 other end is connected with ring-shaped inductors L22.The resonance frequency of the ring-shaped inductors of the present embodiment need higher than 30MHZ, inductance value needs enough guarantees to have 1MHZ signal to be greater than about 50dB and to decay, generally select about 15-25uH, make carrier signal attenuator can for carrier signal provides the decay of 40-50dB in 1-30MHz frequency range, the current value of ring-shaped inductors preferably selects more than 5A, to ensure that each phase can connect the carrier module of 500-1000 left and right.

As shown in Figure 7, carrier signal coupler comprises Y capacitance C217, the C218 of two 4.7nF, Y capacitance C217 one end is connected with carrier signal attenuator, the other end is connected with diverter switch, Y capacitance C218 one end is connected with carrier signal attenuator, the other end is connected with diverter switch, and dpdt double-pole double-throw (DPDT) diverter switch is connected with XS2 vehicle seat, and carrier signal coupler can accomplish that in 1-30MHz frequency range Insertion Loss is less than 1dB.

As shown in Figure 8, the networking unit of the present embodiment is provided with SMA antenna pedestal (radio frequency connector) and exchanges shielding three and plugs in power line and exchange three plug-and-sockets with one, cascade is carried out by three plug-and-sockets and power line, conveniently can be connected with this node adjacent node up and down by SMA antenna pedestal simultaneously, realize free topology networking.

Networking unit of the present utility model is provided with shielded type cable connector and radio frequency connector, shielded type cable or coaxial feeder can be selected to interconnect when cascade network unit, when adopting shielded type cable interconnection, then power supply and the transmission of carrier signal are all realized by shielded type cable, now circuit substrate can not be arranged carrier signal coupler and diverter switch and radio frequency connector, when adopting coaxial feeder interconnection, by diverter switch switching signal path, carrier signal is made to walk coaxial feeder passage, shielded type cable is only for power supply, with reference to Fig. 9, when adopting coaxial feeder to carry out carrier signal transmission, the coaxial feeder connecting adjacent sets net unit is connected on the radio frequency connector of networking unit, coaxial feeder needs be connected in series manual or program control adjustable attenuator, processing unit 3 is connected with program control adjustable attenuator, control program control adjustable attenuator break-make by control bus or regulate pad value size to realize the networking of computer self adaptation, and by regulating pad value size to control each internodal route repeated direction, adopt manual adjustable attenuator can realize manual networking, adopt programmable attenuator then can realize computer program-control networking.In addition, the Arbitrary Waveform Generator be connected is set, the interference signal of any amplitude can be injected with processing unit and networking unit, to simulate various special on-the-spot applied environment.Processing unit is connected with concentrator, read the routing iinformation of each node, operate each node reset or on roll off the production line, read electricity and other information, test throughput etc., and record all real time datas.The data analysis collected is arranged, thus sets up out different models, for controlling test macro.Computer can adopt LABVIEW or other gui tools to run friendly, patterned human interface software.

Above embodiment is only in order to illustrate that the technical solution of the utility model is not intended to limit, although be described in detail the utility model with reference to above-described embodiment, those of ordinary skill in the field are to be understood that, still can modify to embodiment of the present utility model or equivalent replacement, and not departing from any amendment of the utility model spirit and scope or equivalent replacement, it all should be encompassed among right of the present utility model.

Claims (10)

1. a power wire broadband carrier communication network module test macro, is characterized in that, comprising:

Three phase mains;

The A phase networking unit be connected with the A phase of described three phase mains, the B phase networking unit be connected with the B phase of described three phase mains, the C phase networking unit be connected with the C phase of described three phase mains, the networking unit in each phase described is interconnected by shielded type cable;

Divide the concentrator that three lines are connected with described three phase mains;

The processing unit be connected with described concentrator.

2. power wire broadband carrier communication network module test macro as claimed in claim 1, it is characterized in that: described networking unit comprises circuit substrate, be arranged at the carrier signal attenuator on described circuit substrate, power module and several carrier module, described circuit substrate is arranged in metal shell, in the inlet wire that described carrier signal attenuator is connected to shielded type cable and outlet, described power module is connected on the described carrier signal attenuator be connected with shielded type cable inlet wire, described power module is connected successively with described carrier module, each carrier module described is connected with a single-chip microcomputer be arranged on circuit substrate.

3. power wire broadband carrier communication network module test macro as claimed in claim 2, it is characterized in that: described networking unit also comprises carrier signal coupler, diverter switch and radio frequency connector, described carrier signal coupler is connected on the shielded type cable between described two carrier signal attenuators, the other end of described carrier signal coupler is connected with diverter switch, described diverter switch is connected with each carrier module, and described diverter switch is connected with radio frequency connector through another carrier signal coupler simultaneously.

4. power wire broadband carrier communication network module test macro as claimed in claim 2 or claim 3, is characterized in that: the double socket of 2X6 pin that described carrier module is XS4 by model is connected with single-chip microcomputer.

5. the power wire broadband carrier communication network module test macro as described in Claims 2 or 3 or 4, is characterized in that: described carrier module is that the double socket of the 2x4 pin of XS2 is connected with diverter switch by model.

6. power wire broadband carrier communication network module test macro as claimed in claim 3, it is characterized in that: the networking unit of each phase described is interconnected by coaxial feeder, the coaxial feeder connecting adjacent sets net unit is connected on the radio frequency connector of networking unit, and coaxial feeder is provided with adjustable attenuator.

7. power wire broadband carrier communication network module test macro as claimed in claim 6, it is characterized in that: also comprise the Arbitrary Waveform Generator be connected with described processing unit and networking unit, described Arbitrary Waveform Generator is connected with the radio frequency connector of described networking unit.

8. power wire broadband carrier communication network module test macro as claimed in claim 6, is characterized in that: described adjustable attenuator is program control adjustable attenuator or manual adjustable attenuator, and described processing unit is connected with described adjustable attenuator by coaxial feeder.

9. power wire broadband carrier communication network module test macro as claimed in claim 3, it is characterized in that: carrier signal attenuator is low-pass filter circuit, it is connected with shielded type cable by connector J3, 1 pin of J3 is connected with ring-shaped inductors L22, the ring-shaped inductors L22 other end is connected with coupler, 1 pin is connected with X electric capacity C1 simultaneously, X electric capacity C1 is connected with ring-shaped inductors L21, 2 pin of J3 pick shell, 3 pin of J3 are connected with ring-shaped inductors L21, the ring-shaped inductors L21 other end is connected with coupler, the ring-shaped inductors L21 other end is connected with Y capacitance C171 simultaneously, the Y capacitance C171 other end is connected with Y capacitance C172, the Y capacitance C171 other end picks shell simultaneously, the Y capacitance C172 other end is connected with ring-shaped inductors L22.

10. power wire broadband carrier communication network module test macro as claimed in claim 3, it is characterized in that: described carrier signal coupler comprises Y capacitance C217, the C218 of two 4.7nF, Y capacitance C217 one end is connected with carrier signal attenuator, the other end is connected with diverter switch, Y capacitance C218 one end is connected with carrier signal attenuator, and the other end is connected with diverter switch.