DE102004046186A1 - Conversion module for use in power line communication, especially on board a ship, has an interface that converts communications bus data into I2C or SM bus data or vice versa - Google Patents

Abstract

Conversion module (2) for connection of a unit to a power supply line (4) for transmission of data from the unit or to it. The module has an interface (8) that converts bus data into I2C (inter-integrated circuit) bus data or SM (system management) bus data or vice versa. The invention also relates to a corresponding partial network with a power supply line and a data injection device and a ship with data network with at least an inventive partial network.

Description

The The present invention relates to a converter module for the connection a device to a power supply line on which data for and / or transferable from the device are. Furthermore, the invention relates to a subnetwork with a Power supply line and with a data feed-in device, for feeding data from a data network into the power supply line is prepared. Furthermore The invention relates to a ship with a data network.

By a coupling of data with a data feed device are data from a parent Data network on the power supply line transferable.

A Technology of transmission of data over a power supply line, a so-called "power line communication", is basically known. Thus, e.g. For the control of electrical equipment in the power distribution network Control data directly via transmit the power line, wherein the information to be sent to the AC voltage of Power supply line to be modulated. In private households are so-called "baby phones", which is a transmission of Speech signals over enable the power line, known.

at a power line communication (PLC) is the power distribution network, for example, by feeding with a "Powerline Ethernet Bridge", for data transmission used.

The The object underlying the invention is an arrangement to create the opportunity a cost-effective Network connection of devices offers low data traffic.

Devices with a low data rate are, for example, thermostats, fire detectors, Status displays, motion detectors, etc.

These Task is according to the invention in the The aforementioned converter module, through an interface, the data in I2C bus data or SMBus data or bus data of a compatible bus and / or the I2C bus data or SMBus data or bus data of a compatible bus into the data, solved.

Of the I2C bus is a cheaper working according to the master / slave principle Two-wire bus with common ground line. Sensors, Actuators, Integrated Circuits with standard functions or peripheral interface controllers, so-called PICs, are with integrated I2C bus interface in the specialized trade available. These functional building blocks or devices provide their data and / or Measurement results as I2C bus data ready. Interesting are also combi ICs such as. the DS1629 from Dallas-Semiconductor, in addition to a real time clock also contains an SRAM and a digital thermometer. One Another DS chip, the DS1280, can be used for complete monitoring of voltages, fan speeds and use temperature.

Of the I2C bus and the SMBus, the Smart Management Bus, are basically compatible to each other. The two buses operate, up to 100KHz, with the same Clock frequency, but the I2C bus still has the versions for 400KHz and 2MHz. Due to this compatibility will be hereafter I2C bus data and SMBus data equated.

To a preferred embodiment of the converter module, the interface of the converter module an I2C bus connection or an SMBus connection on. Such, for example, a plug connection or a Two-wire clamp connection, is with advantage in and / or at the interface easily accessible arranged.

To Another preferred embodiment, the interface a detection means for detecting the via the power supply line out Data, such as a powerline device on. A powerline module, e.g. the INT51MX from the company Intelon, is a highly integrated Circuit with all for the modulation / demodulation of the on the power supply line out Data necessary functions.

It is expedient the interface has a microcontroller. The microcontroller can be flexibly and application-specifically programmed become. Advantageously takes over the microcontroller performs the control tasks on the interface.

• – eine Kommunikation mit dem Erfassungsmittel, insbesondere mit dem Powerline-Baustein, und/oder eine Steuerung des Erfassungsmittels, insbesondere des Powerline-Bausteins,
• – ein IP-Stack Mechanismus,
• – eine Kontrollmöglichkeiten über http,
• – eine Ausgabe der Daten auf einen I2C-Bus.

In a further preferred embodiment of the invention, one or more of the following functionalities are implemented in the microcontroller:

• A communication with the detection means, in particular with the powerline module, and / or a control of the detection means, in particular of the powerline module,
• An IP stack mechanism,
• - a control over http,
• - an output of the data on an I2C bus.

The control of the Powerline module for optimal management of data telegrams can via the microcontroller. For an example, with a remote control room, convenient data evaluation and / or output of any diagnostic functions an IP stack and control options over HTTP are implemented. The hypertext transfer protocol (HTTP) is a stateless data exchange protocol for the transmission of data. It is one of the protocols that the TCP / IP protocol stack provides. It is assigned to the application layer. Primarily, it is used in the framework of the World Wide Web for the transmission of web pages, for example, web browsers access web servers almost exclusively with this protocol. The control options implemented via HTTP thus represent a "mini-web server".

The Data provided with the Powerline module will help of the microcontroller is output to the I2C bus or SMBus devices on the SMBus. The transfer of the I2C bus data to the I2C bus connection is for the direct Connection of components and / or devices designed with integrated I2C connection. For example, by adjusting the input and / or termination resistors, a Current limitation, a reverse polarity protection, a standardized plug connection is the handling of such a bus connection easy and the susceptibility is low. An identification of the two I2C bus lines in one Serial clock line, also referred to as SCL, and into a serial data line, also referred to as SDA, is an advantage.

In Another preferred embodiment is advantageously the converter module by a solderless and / or stripping-free and / or screwless connection device for connection to the Energy supply line prepared. For example, the connection is via vampire terminals to the power supply line or a 230V electric cable feasible. This solution provides a simple connection of converter modules to a 230V Electric cable.

With Advantage is the converter module by one with the power supply line prepared related power supply device. There the power supply line carries data and supply voltage the power supply via the power supply line can be fed. The power supply device provides, for example, several DC supply voltages, for example, 3.3V and 6.5V, for the different logics in the used Powerline components and microcontrollers ready.

It is expedient that the connection device, the interface and the power supply device form a structural unit. The structural unit is preferred a robust if necessary industrial requirements grown easily installable housing.

A advantageous use of the interface and / or the structural Unit is located in a subnetwork with a power supply line and with a data feed-in device for feeding is prepared from data from a data network that at least having a converter module mentioned above. Such a subnet is advantageously with a very simple installation effort realizable.

A Advantageous use of the subnetwork provides that a ship having at least one such subnet with a data network. As part of the expansion of an example service used Integrated Network on ships need many terminals with low Data rate, e.g. Loudspeakers, fire detectors, thermostats, displays, etc., integrated. A subnet with translator modules is both for cost reasons as well as for the sake of easy handling particularly advantageous. Often the terminals need one Operating voltage. With the use of a so-called. "Powerline" wiring, the Use of a conventional 230V cable for simultaneous transmission of Data, can e.g. Alarm sirens with the necessary power supply voltage be supplied. Furthermore, with this type of cabling, especially in ships, achieved a significant weight savings become.

One preferred, but by no means limiting embodiment The invention will now be explained in more detail with reference to the drawing. to Clarification, the drawing is not executed to scale, and Certain features are shown only schematically. In detail show the

1 a converter module on a power supply line,

2 a subnet with converter modules.

1 shows a converter module 2 which is connected to a power supply line 4 connected. Via a connection device 6 There is a releasable electrical connection to the power supply line 4 , To convert the over the power supply line 4 Guided data in the I2C standard is in the converter module 2 an interface 8th contain. the interface 8th is a printed circuit board in multilayer technology with a detection means 10 for the data and a microcontroller 12 , The detection means 10 to collect the data is called Powerline module below. The powerline module is a single-chip solution with all functionalities for the implementation and transfer of the on the power supply line 4 guided data to the microcontroller 12 ,

The on the 230V of the power supply line 4 modulated data are using the Powerline module 10 demodulated and sent to the microcontroller 12 passed. The powerline module 10 is among other things by the microcontroller 12 controlled. In the microcontroller 12 is not just the software for controlling the Powerline module 10 but also the implementation of an IP stack mechanism and a control over http and the output of the data on or to the I2C connector 14 ,

2 shows a subnet 21 with converter modules 22 to 30 , which has a switch 18a to a parent data network 18 via a data feed device 20 connected. The to the power supply line 4 connected converter modules 22 to 30 be over the power supply line 4 supplied with voltage and data.

At a first converter module 22 is a speaker assembly 32 connected. The speaker assembly 32 is prepared as alarm horn. An unillustrated higher-level control room is connected to the data network 18 in conjunction and can thus alarm data via the data feed 20 and the power supply line 4 to the first converter module 22 pass on. In the first converter module 22 the alarm data are demodulated, evaluated, processed and sent to an I2C bus-compatible loudspeaker module 32 passed.

From a second converter module 24 be via a temperature sensor 34 Temperature data or measured values are forwarded to the superordinate data network and thus to the higher-level control room.

A third converter module 26 Cyclically collects data from a fire detector 36 , In case of fire, the fire detector sets 36 a certain signal sequence over the I2C bus to the converter module 26 from. This signal sequence is prepared for powerline transmission by the universal module and can thus via the data feed device 20 to the parent data network 18 be passed on.

A fourth converter module 28 allows a control panel 38 the data exchange via the power supply line with the superordinate data network 18 , On the control panel 38 For example, simple text messages are output and simple pushbutton commands are queried.

On a fifth converter module 30 are four temperature sensors 40 to 43 connected via the I2C bus.

The I2C bus 39 works according to the master-slave principle. A master, in this case the converter module 30 , calls the various slaves one after the other, here the temperature sensors 40 to 43 , on. That is, the fifth converter module 30 got the master role assigned. For a query of the slaves, the master first sends the start condition, followed by the I2C address of the subscriber that it wants to reach. After data communication, readout of the temperature value, the master terminates the connection with the stop condition. Then a new communication to another slave can be established. Another slave is in this case another temperature sensor. By this simple way to detect local temperatures, for example, a highly sensitive machine part can be temperature-monitored to its limit temperatures.

Claims (10)

Converter module ( 2 ) for connecting a device to a power supply line ( 4 ) on which data for and / or can be transferred from the device, characterized by an interface ( 8th ) which converts data into I2C bus data or SMBus data or bus data of a compatible bus and / or the I2C bus data or SMBus data or bus data of a compatible bus into the data. Converter module ( 2 ) according to claim 1, characterized in that the interface ( 8th ) an I2C bus connection ( 14 ) or an SMBus connection. Converter module ( 2 ) according to one of claims 1 or 2, characterized in that the interface ( 8th ) a detection means ( 10 ) for detecting the via the power supply line ( 4 ), for example a powerline module. Converter module ( 2 ) according to one of claims 1 to 3, characterized in that the interface ( 8th ) a microcontroller ( 12 ) having. Converter module ( 2 ) according to claim 4, characterized in that in the microcontroller ( 12 ) one or more of the following functionalities are implemented: a communication with the detection means ( 10 ), in particular with the powerline module, and / or a control of the detection means ( 10 ), in particular the powerline module, - an IP stack mechanism, - a control over http, - an output of the data on an I2C bus. Converter module ( 2 ) according to one of claims 1 to 5, characterized by a solderless and / or stripping-free and / or screwless connection device ( 6 ) for connection to the power supply line ( 4 ). Converter module ( 2 ) according to one of claims 1 to 6, characterized by a with the power supply line ( 4 ) associated power supply device ( 16 ). Converter module ( 2 ) according to claims 6 and 7, characterized in that the connecting device ( 6 ), the interface ( 8th ) and the power supply device ( 16 ) form a structural unit. Subnetwork ( 21 ) with a power supply line ( 4 ) and with a data feed-in device ( 20 ) for feeding data from a data network ( 18 ) in the power supply line ( 4 ) is characterized by at least one converter module ( 2 ) according to claims 1 to 9. Ship with a data network ( 18 ), characterized by at least one subnetwork ( 21 ) according to claim 9.