DE19832203A1 - Activating electrically operated, current-consuming component through code word contained in data message of predetermined format - Google Patents

Abstract

The method involves switching a component from a standby mode to an active mode triggered through an input of wake-up information contained in a data message. The wake-up information consists of a certain data format and a code word contained in the data message. The data message is first checked for the valid data format, and the code word is subsequently searched for, whereby the component is switched into the active mode, if both checks have positive results. An Independent claim is provided for an electronic circuit implementing the activation.

Description

The invention relates to the field of electrical waking operated, power-consuming components, if these are in a sleep mode, such as in a stand-by mode. In particular The invention relates to a method for switching on an electric operated, power-consuming component from a sleep mode in its working mode, which switching on the component by the Input one contain the information for waking the component of the data telegram is triggered. The invention further relates to a electronic circuit arrangement for applying an electrical operated, power-consuming component with a wake-up signal comprising a receiving device for receiving an alarm gnals whose output is connected to the input of the component is.

In various applications, electrically operated, electricity consuming components in a sleep mode or standby mode switched when such a component is currently not required. On such shutdown of certain electronic components can ins special used to reduce electricity consumption the. Such power management to reduce electricity consumption ches is used, for example, in the motor vehicle sector for keyless access gait authorization control procedures used. Keyless entry  authorization control systems use radio remote control among other things systems comprising a transceiver unit on the motor vehicle side and one or more identification transmitters serving as "keys" (ID transmitter). In contrast to the mobile ID transmitter, which only works with one Operation consumes electricity, the receiver must be usually a superhet receiver, if possible Ensure constant readiness to receive, so that access to the Motor vehicle is given by an authorized user at any time.

These systems use a code from the mobile ID provider on the radio link to the vehicle-side transceiver is transmitted. Systems have been used for this purpose at which the receiver module must be switched on continuously. On such an electronic receiver module can be used to recognize a certain wake-up routine may be provided, according to the dependency either a specific code word or of the system used a certain data format must be recognized so that after recognition the code, the power-consuming component, such as a Microprocessor from its sleep mode to its work mode can be switched. When using systems in which the Transmission of a certain data format is provided as a wake-up code is, especially in a strongly (radio) disturbed environment frequent error detection of the received data format with a the result is correspondingly frequent waking up of the microprocessor. The The microprocessor therefore also becomes a power consumer when a wake-up code has actually not been sent.

To further save electricity, systems are used in which the Receiver is switched on and off cyclically and thus in one Polling mode is located. The time intervals in which the Receiver in its off state is sized that the response time of the system is sufficiently fast that the Polling mode is not noticeable to a user. The receiving of a sent code is then only possible in those time intervals Lich in which the receiver is ready to receive. For systems ver the detection of a specific data word as a wake-up signal turn, the recipient must of course at least as long remain switched so that the entire code word in this time interval can be received. To ensure secure reception of the code word  To guarantee, the recipient's willingness to receive must be timed amount to a multiple of the length of the code word sent.

However, it is desirable to have a method or an electronic scarf arrangement to be used in systems where power consumption is reduced even further.

The Erfin is based on the prior art discussed above Therefore, the task is based on the one hand, a switch an electrically operated, power-consuming component provide from a sleep mode to its work mode, the Current consumption compared to the previously known methods is reduced.

Accordingly, the invention is based on that discussed above State of the art the task of generic electronics cal circuit arrangement to provide, the current consumption in Ru hemodus is reduced.

The process-related problem is solved according to the invention by that the information intended to wake the component in one Data telegram cumulative from a certain data format and one in the data telegram contained code word, being in a first step the data format of the data telegram to its validity is checked out and taking this step when received gene data format has been recognized as the valid one, a check of the data telegram to the presence of a to wake the Component valid code word follows' where the current consumption The device is switched to its working mode if that Code word contained in the data telegram and as the valid for Awakening the component has been detected.

The circuit arrangement-related task is there according to the invention solved by that the circuit arrangement is an application-specific Circuit for operating a receiver in a polling operation as for recognizing the data tele coming in via the receiver gramms with regard to its data format and one contained therein Code word is assigned which circuit by means of an I / O cut start at the receiver and the interrupt input of the device  closed is.

According to the method provided by the invention, the Code to wake up the power consumption in a sleep mode appropriate component from the recognition of a valid data format and recognizing a code word contained in the wake-up signal cumulatively together. Only if both code components - data format and codeword - that have been recognized as the valid ones, that is power consuming electrical component from its sleep mode in switched his working mode. It is useful to use the code word to send in a different data format than the one that as Code should be recognized. By switching on the recognition of a valid code word following the recognition of a valid one Data format, the wake-up security of the component is significantly reduced Avoidance of false alarms increased. Hence one Electricity savings compared to such systems that only the detection recognize a certain data format, increased. To recognize one a recipient only needs one of the valid data formats shorter time to be ready to receive compared to the duration, which is also required to receive a valid code word. At an operation of the receiver in a polling mode those time intervals in which the recipient is in his is ready to receive, only to be so short that a sent data format can be recorded. It is therefore possible to Only leave the receiver in its ready-to-receive state when a valid data format has been received. The Power consumption of the receiver module is therefore initially on the Receiving a valid data format reduced; the switch-on time is only extended if a valid data format has been received is. The power-consuming component is only switched on, if a valid code word has also been recognized. The electricity consumption is therefore reduced to a minimum in such a method.

In terms of circuit technology, one is used to implement such a method on the polling operation of the recipient, the evaluation of the received NEN data format and the evaluation of a contained in the wake-up signal ned code word directed application-specific circuit turns. During the power consumption of a superhet receiver construction  as part of a keyless access control facility Motor vehicles is between 3 and 20 mA, the power consumption such an application-specific circuit be less than 0.1 mA wear. The application-specific circuit is expediently as Integrated circuit and thus designed as an ASIC. The recipient and the downstream component to be woken up, for example a Microprocessors are attached to the I / O interface of the ASIC module closed.

By the staggered (two-stage) recognition according to the invention tuned codes used to wake up a power consuming device elements are provided, with only one data in the first step format detection is provided, it needs to receive the Wecksi intended receivers not only in short time intervals to be ready to receive, but needs, as im in an execution example provided to be switched on only in such time intervals that are several times longer than those time intervals in which the recipient is ready to receive. This measure also leads to a reduction in power consumption in the sleep mode of such electronic circuitry.

Such a method is preferred in the context of a keyless one Access authorization control used for a motor vehicle. The Be load of the motor vehicle battery is then when the engine is off reduced to a minimum.

Further advantages of the invention and refinements are part of it the other subclaims and the following description of a Embodiment. Show it:

Fig. 1: a schematic block diagram of an electronic circuit arrangement for applying signals of an electrically operated, power-consuming device having Weck,

Fig. 2: a flow chart illustrating a method for switching on an electrically operated, power-consuming component from a sleep mode in its working mode and

Fig. 3 is a diagrammatic view of the power consumption of the circuit arrangement of Fig. 1.

An electronic circuit arrangement 1 is used to apply egg nes microprocessor 2 with wake-up signals. The circuit arrangement 1 further comprises a receiver 3 to which a receiving antenna 4 is connected on the input side. The receiver 3 is connected to the I / O interface 5 of an ASIC 6 . The microprocessor 2 is also connected with its interrupt input to the I / O interface 5 of the ASIC 6 .

The circuit arrangement 1 is part of a transceiver used in a motor vehicle not shown to perform a keyless access authorization control. This control system also includes at least one ID transmitter, from which a wake-up signal is sent for the subsequent implementation of a question-answer dialog for the access authorization control if the person wearing this ID transmitter wishes to have access to the motor vehicle.

In its idle mode, in which the motor of the motor vehicle is generally switched off, the receiver 3 is in a polling mode in which it was switched on and off between its ready-to-receive operating state and its non-operational state. It is provided that the ratio of switch-on time to switch-off time is approximately 1:10. With an assumed current consumption of the receiver of 5 mA, this results in a current consumption of 0.5 mA with respect to the receiver module 3 . The polling operation of the receiver 3 is controlled by the ASIC 6 . The ASIC 6 has a self-consumption of less than 0.1 mA. The polling operation of the receiver 3 is shown in the flow chart shown in FIG. 2 in the two boxes above. The microprocessor 2 is in this idle or standby mode during this operation of the ASIC 6 or the receiver 3 . The I / O interface 5 of the ASIC 6 is connected as an output, the level of which is high.

If a valid data format is received within a time interval in which the receiver 3 is ready to receive, then the polling operation of the receiver 3 is interrupted in a first step, the receiver 3 remaining switched to receive. By the receiver 3 remaining in its ready-to-receive state, the latter can now receive a code word contained in a data telegram. To reduce the reception time of the code word it can be provided that the code word is sent as a preamble to a longer or more extensive data telegram and thus at its beginning. Provision can also be made to send the preamble several times in the data telegram. This is particularly recommended if longer data telegrams are to be sent. After the preamble has been sent, a coding with regard to the position of the preamble in the data telegram is expediently specified in the data telegram. The resulting advantages lead to a reduction in the duty cycle of the receiver. On the one hand, the receiver does not need to be switched on to receive the entire data telegram to recognize the code word (preamble), but only over the length of a data telegram section. On the other hand, the on-time of the receiver only needs to be one data telegram length in order to receive the entire data telegram, since even at the beginning of the reception of a data telegram, for example in its second preamble position, the received coding can be sorted by its components so that it can be sorted can then be evaluated as intended. If no code word or no valid code word is contained in the data telegram, the receiver 3 is switched back to polling mode by the ASIC 6 . If the valid code word is also recognized in the transmitted data telegram after recognition of the valid data format, then the receiver 3 is switched permanently to its ready-to-receive operating state and the level of the I / O interface 5 of the ASIC 6 is pulled low. Due to the level change of this interface 5 , an interrupt is output to the microprocessor 2 by means of the falling edge. The microprocessor 2 is awakened by this interrupt signal and brought into its operating state. The ASIC 6 then switches its I / O interface 5 as an input. The operational microprocessor 2 takes over the further evaluation of the data telegram. If the data telegram has been evaluated and all actions have been carried out, which may also include a bidirectional question-answer dialog, the ASIC 6 resumes operation by means of a reset pulse triggered by the microprocessor 2 and controls the receiver 3 again in its polling -Business. The I / O interface 5 is then in turn connected as an output with a high level.

The current consumption resulting from the operation of this method is summarized schematically in the diagram in FIG. 3, in which the x-axis is the time axis and in which the current consumption [mA] is plotted on the y-axis. It is clear from this diagram that the ASIC 6 has only a very low power consumption for controlling the polling operation of the receiver 3 and for recognizing a data format of a received data telegram and a code word contained therein. Only in the time intervals in which the polling operation of the receiver 3 is ready to receive does the power consumption increase by the amount of power required by the receiver 3 . In the illustrated embodiment, this is approximately 5 mA. When a valid data format is received, the power consumption initially remains constant due to a longer switch-on time of the receiver 3 , corresponding to a power consumption resulting from the operation of the receiver 3 and of the ASIC 6 . If a valid code word has been recognized by the ASIC 6 in the received data telegram, the microprocessor 2 is awakened, as described above, so that it is in its operational state and is therefore also a corresponding power consumer. The power consumption of such a microprocessor generally exceeds the power consumption of the receiver. If the microprocessor 2 is ready for operation, the ASIC 6 is in the switched-off state, so that the total current consumption of the circuit arrangement 1 is reduced by the current consumption of the ASIC 6 . After from the microprocessor 3, the circuit arrangement 1 is switched back to the polling operation of the receiver 3 , which is controlled by the ASIC 6 , the current consumption is as shown in FIG. 3 until a valid data format is received .

In a further embodiment it is provided that the ASIC is designed such that the switch-off duration of the receiver  is variably adjustable. This measure allows the response time and the system's power consumption application-specific, such as Choose freely depending on the time of day. It can also be provided that To change the operating mode of the ASIC so that the first alarm level - the data format recognition - made with different numbers of bits shall be. With the help of this setting, the priority and also the Set the response time of the system to suit the application. Furthermore, be provided that to increase the reaction rate of System the processor's oscillator (s) remain on even when the processor shuts down in its standby mode is. The oscillators only require a fraction of the amount of electricity entire processor.  

Reference list

1

Electronic circuitry

2nd

microprocessor

3rd

receiver

4th

antenna

5

I / O interface

6

ASIC

Claims (7)

1. A method for switching on an electrically operated, Stromver consuming component from a sleep mode in its Ar beitsmodus, which switching on the component is triggered by the input of a data telegram containing the information for waking the component, characterized in that the for waking the Component ( 2 ) specific information in a data telegram consists cumulatively of a certain data format and a code word contained in the data telegram, the data format of the data telegram being checked for its validity in a first step and taking into account this step if that received data format has been recognized as the valid one, the data telegram is checked for the presence of a code word valid for waking the component ( 2 ), the power-consuming component ( 2 ) being switched to its working mode if the code word is contained in the data telegram and al s the valid one for waking the component has been recognized. 2. The method according to claim 1, characterized in that the method is used in the context of a keyless access authorization control for a motor vehicle, in which the wake-up signal over a radio link for waking a processor ( 2 ) provided as a power-consuming component is sent and by one the processor ( 2 ) upstream receiver ( 3 ) is received, which receiver ( 3 ) is cyclically switched between its ready to receive and its off mode (polling mode), the control of the polling mode of the receiver ( 3 ), the checking of a received data telegram with regard to its data format and a code word contained therein is carried out by a specific circuit ( 6 ) aimed at these specific applications and the polling operation of the receiver ( 3 ) being interrupted after receiving a valid data format and the receiver ( 3 ) is ready to receive hold on. 3. The method according to claim 2, characterized in that the phases in which the receiver ( 3 ) is in the off mode are temporally several times longer than those phases in which the receiver ( 3 ) is ready to receive. 4. The method according to claim 2 or 3, characterized in that the processor ( 2 ) by an application-specific circuit ( 6 ) generated interrupt from its idle mode is switched into its operating mode. 5. Electronic circuit arrangement for supplying an electrically operated, current-consuming component with wake-up signals comprising a receiving device for receiving a wake-up signal, the output of which is connected to the input of the component, characterized in that the circuit arrangement ( 1 ) has an application-specific circuit ( 6 ) for operating a Receiver ( 3 ) in a polling mode and for recognizing the data telegram received via the receiver ( 3 ) with regard to its data format and a code word contained therein, which circuit ( 6 ) is assigned to the receiver by means of an I / O interface ( 5 ) ( 3 ) and the interrupt input of the component ( 2 ) is connected. 6. The device according to claim 5, characterized in that the component is a processor, in particular a microprocessor ( 2 ). 7. The device according to claim 5 or 6, characterized in that the application-specific circuit is an integrated circuit (ASIC) ( 6 ).