WO2009013141A2

WO2009013141A2 - Method and device for controlling a vehicle generator

Info

Publication number: WO2009013141A2
Application number: PCT/EP2008/058987
Authority: WO
Inventors: Michael Herz; Andre Micko
Original assignee: Robert Bosch Gmbh
Priority date: 2007-07-20
Filing date: 2008-07-10
Publication date: 2009-01-29
Also published as: DE102007034026A1; WO2009013141A3

Abstract

The invention relates to a method and a device for controlling a vehicle generator. In this context, the generator temperature which is sensed by means of a temperature sensor is compared with a first temperature threshold value and a second temperature threshold value. If the sensed generator temperature is higher than the first temperature threshold value but lower than the second temperature threshold value, an information signal is output to an external control unit, which initiates measures which reduce the generator temperature as a reaction to the information signal. If the sensed generator temperature is higher than the second temperature threshold value, the generator controller makes available an actuation signal for the vehicle generator, which reduces the output power of the vehicle generator.

Description

Method and device for controlling a vehicle generator

The invention relates to a method and a device for controlling a vehicle generator.

State of the art

It is already known to provide regulators for motor vehicle generators with a temperature sensor. This temperature sensor is positioned, for example, on an ASIC of the controller. The measured temperature is dependent on the ambient conditions prevailing there, for example the ambient temperature, and the operating point of the generator or regulator, for example the utilization rate of the generator.

The temperature detected by means of the temperature sensor is used, for example, to monitor limit temperatures, for example the maximum operating temperature of the ASIC. If the specified limit temperature is exceeded, then the controller responds in a predetermined manner. For example, it reduces or limits the excitation current to reduce the output power of the generator. This procedure provides protection against thermal overloading of the ASIC.

Furthermore, further components of the controller or of the generator can be monitored in a corresponding manner with regard to overheating, provided that a correlation exists with the temperature measured in the region of the ASIC. This influence of the regulator on the generator can go so far that the complete supply of the On-board network is disabled, so the generator no longer delivers power.

From DE 38 43 163 C2 a device for controlling a vehicle-three-phase generator is known. This known device has a rectifier arrangement and a voltage regulator which is provided for regulating the output voltage of the generator. The voltage regulator includes a circuit having temperature sensing means thermally coupled to a generator component or the rectifier assembly. The vehicle three-phase generator is operable in an over-excited state. From reaching a first predetermined threshold, which is a predetermined temperature or a first predetermined speed, the excitation current or the generator current is lowered. After reaching a second predefinable threshold, which is the predeterminable temperature or a second predetermined speed, the excitation current or the generator current is raised again. Due to the temperature measurement described above, the generator can be operated in the over-excited range until the temperature reaches a critical value. The subsequent reduction of the excitation current ensures that the temperature of the generator or of the regulator drops again.

Advantages of the invention

A method with the features specified in claim 1 and a device having the features specified in claim 2 have the advantage that already at a time before the controller applied to the generator with the output power of the generator reducing drive signals, an external control device defined by Actions, in particular a shutdown of non-safety consumers, can provide for a reduction of the output power of the generator. In this way can be defined on a detected elevated temperature to be reacted in the sense that the power supply of the safety-relevant consumers of the electrical system can be maintained longer than in the prior art. Only when the measured temperature exceeds the second predetermined temperature threshold, from which must be expected with a heat-related damage or destruction of components of the controller and / or the generator, the controller responds with a supply of the output power of the generator reducing drive signals for the generator.

Furthermore, there is a possibility of simply measuring application-dependent temperature profiles, namely via the information provided by the temperature sensor or controller divided into the following three temperature ranges:

- normal temperature,

- elevated temperature, - overtemperature.

Increased temperature is understood to mean a temperature which is higher than the first predefined temperature threshold value, but lower than the second temperature threshold value, above which damage to components of the controller and / or the generator must be expected. By overtemperature is meant a temperature which is higher than the second predetermined temperature threshold.

Further advantageous features of the invention will become apparent from the exemplification thereof with reference to the drawing. Drawing

1 shows a block diagram of a device for controlling a vehicle generator, from which the essential features of the invention can be seen.

description

FIG. 1 shows a block diagram of a device for controlling a vehicle generator.

The device shown has an alternator 1, which includes an excitation coil, three phase windings and a rectifier. This alternator is provided to supply the electrical system 15 of a vehicle. The regulation of the output voltage of the generator 1 is performed by a generator controller 2, which is connected via a brush holder 3 to the generator 1.

The generator 1 has in the usual way terminals D +, B +, DF and D- on. The vehicle electrical system 15 includes a vehicle battery 4, switchable loads 6 and an ignition coil 5. The brush holder 3 is constructed in the usual way.

The generator controller 2 has an ASIC 8, which contains a computing and control unit in the form of a microcomputer. Furthermore, a temperature sensor 9 is provided on the ASIC 8. Furthermore, the ASIC 8 is provided with a data interface 13. Furthermore, the generator controller 2 includes a switching transistor 10, a freewheeling diode 11, a switched between the emitter and the collector of the switching transistor 10 diode 12 and output terminals D +, DF and D-. The main task of the generator controller 2 is to provide control signals for the generator 1 during operation of the device, so that the generator 1 supplies a respectively required output power for the consumers of the electrical system 15. According to the present invention, during the operation of the apparatus, the control of the generator 1 is as follows:

The generator temperature provided by the temperature sensor 9 is compared in the ASIC 8 with a first predetermined temperature threshold and a second predetermined temperature threshold. The second temperature threshold value is chosen to be greater than the first temperature threshold value and corresponds to a temperature value, at which, if exceeded, damage to components of the generator controller 2 and / or the generator 1 must be expected.

In this case, generator temperature is understood to mean a temperature which has been detected at a component of the generator device, for example at the generator regulator, at the rectifier, at the end shield of the generator or at another suitable point of the generator device.

If it is detected during the comparison that the generator temperature is lower than the first predetermined temperature threshold, then normal operation is present and the generator controller 2 provides the generator 1 in a conventional manner drive signals available to adjust the output power of the generator to the power supply present in the electrical system.

If, however, it is detected during the comparison that the generator temperature is greater than the first predetermined temperature threshold value and less than the second predetermined temperature threshold value, then there is an operation with increased temperature. In this operation at elevated temperature, the generator controller 2 continues to supply the generator 1 with drive signals in the usual way in order to adapt the output power of the generator to the energy requirement present in the electrical system. representation In addition, the ASIC 8 provides at its data interface 13 a message signal which contains information that the measured generator temperature is increased.

This message signal is transmitted via a data connection 14 to an external control unit 7. The control unit 7 is provided to provide one or more control signals sl, s2, s3, s4 in response to this message signal. By means of these control signals non-safety-relevant consumers 6 are turned off. By shutting down non-safety-relevant consumers, the output power required by the generator 1 is reduced. This in turn causes the generator temperature to drop until normal operation is restored.

Alternatively, or in addition to a shutdown of non-safety-relevant consumers, the control unit 7 can also provide control signals in response to the message signal, by means of which other measures reducing the generator temperature are initiated. An example of this is the connection of a fan 16, as indicated in the figure 1 with a dashed line.

If it is detected during the comparison that the generator temperature is greater than the second predetermined temperature threshold, then there is an operation at excess temperature, in which damage or even destruction of components of the generator controller 2 and also of the generator 1 must be expected. As soon as this overtemperature operation is detected, the generator controller 2 provides a drive signal for the generator which reduces the output power of the generator 1. As a result, the output power of the generator 1 is reduced without it being important whether non-safety-relevant consumers are switched on or not. In the present invention, after all, even when the measured generator temperature exceeds a predetermined first temperature threshold, this not yet critical temperature rise responds by this temperature increase is signaled to an external control device. This then checks long before inadmissibly high temperatures occur, whether by suitable countermeasures, in particular by switching off non-safety-relevant consumers and / or the connection of a fan, a further increase in temperature can be counteracted. In this case, all safety-relevant consumers can continue to be supplied with the energy they need.

Only when these countermeasures do not lead to success and the generator temperature exceeds the predetermined second temperature threshold does the generator controller 2 provide drive signals to the generator 1, on the basis of which the output power of the generator 1 is reduced. Only then can the case occur that the energy required to supply safety-relevant consumers can no longer be provided by the generator alone.

With this procedure, the energy supply of the safety-relevant consumers of a vehicle electrical system can be maintained longer than in known devices.

In the embodiment described above with reference to Figure 1, a three-phase generator is shown. In the method and apparatus of the invention but other types of generators can be used, for example, five-phase generators, generators with a controller with high-side output stage, etc.

Claims

claims

1. A method for controlling a vehicle generator with the following steps:

Detecting the generator temperature by means of a temperature sensor,

Comparing the detected generator temperature with a first predetermined temperature threshold and a second predetermined temperature threshold, which is greater than the first predetermined temperature threshold,

if the detected generator temperature is greater than the first temperature threshold, but less than the second temperature threshold, then outputting a report signal to a controller that initiates the generator temperature reducing action in response to the report signal,

if the detected generator temperature is greater than the second temperature threshold value, then providing a drive signal, which reduces the output power of the vehicle generator, to the vehicle generator.

2. The method according to claim 1, characterized in that the control unit in response to the message signal one or more on-board power consumers off.

3. The method according to claim 1 or 2, characterized in that the control unit switches on a fan in response to the message signal.

4. A device for controlling a vehicle generator with a generator (1), a generator controller (2), a Temperature sensor (9), a control device (7) and switchable consumers (6), characterized in that

- the generator controller (2) is provided to compare the temperature provided by the temperature sensor (9) with a first predetermined temperature threshold and a second predetermined temperature threshold, which is greater than the first temperature threshold, - the generator controller (2) is provided to if the generator temperature is greater than the first temperature threshold value and less than the second temperature threshold value, output a message signal for the control unit, - the control unit (7) is provided, in response to the message signal one or more control signals (sl, s2, s3 , s4), by means of which the generator temperature reducing measures can be introduced, and - the generator controller (2) is provided, then, when the generator temperature is greater than the second temperature threshold, the output power of the generator (1) reducing the control signal to the vehicle generator (1) issue.

5. Device according to claim 4, characterized in that the control device (7) is provided to provide one or more control signals (sl, s2, s3, s4) in response to the message signal, by means of which one or more of the consumers ( 6) can be switched off.

6. Apparatus according to claim 4 or 5, characterized in that the control device (7) is provided to hen, in response to the message signal to provide a control signal by means of which a fan (16) is switchable.