DE10023084A1 - Circuit for automatically switching on a device has signal plausibility monitoring device that only outputs signal for switching on device if data are contained in input signal - Google Patents

Abstract

The circuit has a device for monitoring a signal input for the application of an input signal (31) in sleep or wait mode and a switch-on device (15) for switching on the switched device when receiving a switch-on signal (32) from the monitoring device (12). The monitoring device has a signal plausibility monitoring device (21) that only outputs a signal for switching on the switched device if data are contained in the input signal. Independent claims are also included for the following: a method of automatically switching on a device.

Description

The invention relates to a circuit arrangement for automati switching on a device with a monitoring function direction for monitoring a signal input of a device to the presence of an input signal in a sleep or Waiting position, a switch-on device with the over security device is connected and which upon receipt of a Switch-on signal from the monitoring device the device switches on.

Circuit arrangements of the type mentioned are always then necessary if a device is in a sleeping or waiting position tion is provided, for example to increase power consumption reduce. In this case, the main power supply of the Device switched off. However, an auxiliary voltage remains source active so that the device can still accept commands can.

It is known the voltage amplitude of an input signal to monitor and evaluate, whereby if a defined threshold by the voltage of the input is assumed that a valid signal is present and thus the main power supply is activated. But not in any case, this is an adequate solution. Example In the case of open bus systems, the cabling acts as an on threshing floor The coupled interference voltages reach or above step very easily the amplitude of a valid signal, so that the concern of someone wrongly evaluated Signals accepted at the input and the main voltage supplier is switched on.

One way to solve the problem is to use it a second control line that connects in parallel  represents the data connection and only for control of the device is responsible. However, this represents an additional Chen effort both in the manufacture of the device cut represent as well as the wiring.

The object of the invention is therefore a safe switching on of a device in a sleeping or waiting position without providing an additional control line have to.

The task is through a circuit arrangement of the beginning mentioned type solved, which is characterized in that the Monitoring device a device for signal plausibility quality control and only then a signal to on switches the device to the switch-on device, if data is contained in the input signal.

In the circuit arrangement according to the invention is therefore not only monitors the voltage amplitude of the input signal, but also carried out a check whether the input signal contains data. In a further development of the invention is also evaluated whether the data contained in the one signal are included, specified criteria, at for example, a predetermined signal pattern. On Device in which an inventive scarf device is used, can also choose whether the received data is intended for it, or whether another res device is affected. In a simple embodiment however, it is only checked whether the signal contains data or Not. In an advantageous embodiment of an invention according to the circuit arrangement monitors an evaluation device the duration of an input signal recognized as valid. By Comparison with a specified minimum duration can be fixed whether a switch-on is necessary.  

The circuit arrangement according to the invention is especially then advantageous if the input signal is a serial signal, for example a fiber channel signal.

Further details and refinements of the invention are specified in the subclaims.

The invention is illustrated below with the aid of an embodiment game explained in more detail. It shows:

Fig. 1 shows a circuit arrangement for monitoring a gear signal A according to the prior art,

Fig. 2 shows an arrangement with two devices and a data and a control line for their connection and

Fig. 3 shows a circuit arrangement according to the invention as a block diagram.

In Fig. 1, several data lines 1 are connected to a monitoring device 2 of a device 3 . The monitoring device 2 has a comparator 4 which compares the signal level of the data lines 1 with a reference voltage value U _ref . The arrangement with the comparator 4 is shown schematically. If the voltage level of one of the data lines 1 exceeds the reference voltage value U _ref , the voltage at the output of the comparator 4 changes to a value indicating this. As a result, a switch-on device, which is connected to the monitoring device 2 , activates a main voltage supply 5 , so that the device 3 can start its regular operation. Especially when the data lines are operated as an open bus system, the coupling of high voltages through electrical or magnetic fields is often unavoidable. The voltage levels are so high that the voltage level of a regular data signal is often exceeded and the presence of a valid signal is erroneously recognized.

This is remedied by the arrangement shown in FIG. 2, consisting of two devices FC0 and FC1, which are connected to one another via an additional control line 6 to form a data line. The use of an additional control line 6 is avoided if a circuit arrangement according to the invention, which is shown in FIG. 3 as a block diagram, is used. At signal inputs 11 of a device 13 , in turn, there are several input signals 31 . In this exemplary embodiment, the signals 31 are checked in several instances. First, a device for signal plausibility control 21 of a monitoring device 12 determines whether data is present in the input signal 31 . In a second instance, the data are checked in an evaluation device 14 according to defined algorithms. A possible criterion is, for example, whether the data is present over a certain minimum period of time. At this point, any other algorithms can be provided that evaluate the information content of the data. Only if the signals 31 also meet the validity rules of the evaluation device 14 , the evaluation device 14 transmits a signal 32 to a switch-on device 15 . The switch-on device 15 additionally checks which settings are provided for an automatic voltage supply circuit or whether special requirements of a higher-level unit 16 are to be given priority. In regular operation, the automatic voltage supply circuit is activated and the switch-on device 15 activates a main voltage supply 17 .

The circuit arrangement according to the invention can also be used to switch off the device 13 . In this case, the monitoring device 12 does not check the presence of a valid signal 31 , but instead determines that no valid signal is present. The evaluation device 14 evaluates the time duration of the absence of a valid signal. If there is no valid signal for a prescribed minimum period of time, the device 13 switches to the sleeping or waiting position. It remains there until a valid signal is recognized again by the monitoring and evaluation device 12 and 14 .

Claims (8)

1. Circuit arrangement for automatically switching on a device with
a monitoring device ( 12 ) for monitoring a signal input ( 11 ) of the device ( 13 ) for the presence of an input signal ( 31 ) in a sleeping or waiting position,
an energizing means (15), the device with the monitor (12) and turns on upon receiving a switching signal A (32) of the monitoring device (12) the device,
characterized in that
the monitoring device ( 12 ) has a device for signal plausibility control ( 21 ) which only outputs a signal to switch on the device to the switch-on device ( 15 ) when the input signal ( 31 ) contains data. 2. Circuit arrangement according to claim 1, characterized in that in the device for signal plausibility control ( 21 ) egg ne check of the input signal ( 31 ) according to defined criteria for valid data. 3. Circuit arrangement according to claim 1, characterized in that the monitoring device ( 12 ) has an evaluation device ( 14 ) which evaluates the information content as validly recognized data. 4. Circuit arrangement according to claim 1, characterized in that the monitoring device ( 12 ) has an evaluation device ( 14 ) which compares the duration of an input signal recognized as valid ( 31 ) with a predetermined minimum duration. 5. Circuit arrangement according to one of claims 1 to 3, characterized in that the input signal ( 31 ) is a serial signal. 6. Circuit arrangement according to claim 5, characterized in that a fiber channel transmission path is connected to the signal input ( 11 ) and the circuit arrangement is part of a fiber channel device. 7. Procedure for automatically switching on devices with the following steps:

• - monitoring a signal input ( 11 ) of a device ( 13 ) in a sleeping or waiting position for the occurrence of a signal,
• - Switching on the device ( 13 ) when a signal ( 31 ) meeting certain criteria is present at the signal input ( 11 ),

characterized in that
the signal ( 31 ) at the signal input ( 11 ) is monitored for plausibility and the device ( 13 ) is only switched on if a valid signal is present at the signal input ( 11 ). 8. The method according to claim 7, characterized in that means for monitoring the plausibility ( 21 ) of the input signal are part of the device to be switched on ( 13 ) and are operated with an auxiliary voltage.