DE102017207603A1 - Electronic device for a motor vehicle - Google Patents

Abstract

The invention relates to an electronic component for a motor vehicle with a first subcomponent (12 volt side), which is operated with a first voltage to a first voltage terminal (1), and with a second subcomponent (48 volt side), the is operated at a second voltage at a second voltage terminal (2) whose value is a multiple of the value of the first voltage, the component having a communication device (3) within which the first voltage is galvanically isolated from the second voltage, wherein the second sub-component (48-volt side) has a microprocessor (4) for controlling the communication device (3), wherein the second sub-component (48-volt side) a power supply circuit (6) for providing a supply voltage in particular for the microprocessor (4) and the communication device (3), and wherein the first voltage connection (1) via a poled in the flow direction D iode (D) is connected to the voltage supply device (6).

Description

In motor vehicles are increasingly coming electrical systems with two voltages, one of which has a value of 12 volts to 14 volts, ie the value of the usual lead-acid battery and the other has a value of about 48 volts. With the higher voltage, high-power consumers can be better operated, since a lower current flows and thus smaller cross-sections can be used, which reduces the line weight and saves costs for line material.

However, the circuits and devices that are powered by the lower voltage usually need to be well insulated against the higher voltage, otherwise they could be damaged. The same is true for components operating at both voltage levels and thus containing circuit parts operating at the first voltage of 12 volts to 14 volts and those operating at the second voltage of about 48 volts.

On the other hand, communication with such a component should take place, for which purpose, for example, a CAN transceiver can be used as the communication device. If the separation of the two voltage levels is carried out on the communication device and consequently the communication device is operated with both voltages or voltages derived therefrom, both voltages must also be applied to the component for a communication.

This is not the case if the second voltage of about 48 volts may not be available yet. Nevertheless, however, a communication should be possible.

It is therefore an object of the invention to enable communication with a component having two voltage levels of a multi-voltage vehicle electrical system, even if the higher voltage is not present.

The object is achieved by a device according to claim 1. Advantageous developments are specified in the subclaims.

Accordingly, the electronic component for a motor vehicle having a first sub-component operated at a first voltage at a first voltage terminal and a second sub-component operated at a second voltage at a second voltage terminal whose value is a multiple of the value of wherein the component comprises a communication device within which the first voltage is galvanically isolated from the second voltage, wherein the second sub-component comprises a microprocessor for controlling the communication device, wherein the second sub-component is a voltage supply circuit for providing a supply voltage in particular for comprising the microprocessor and the communication device, and wherein the first voltage source is connected via a directionally polarized diode to the voltage supply device.

As long as the second higher voltage is not yet applied to the voltage supply circuit, the voltage supply circuit is supplied via the diode from the voltage at the first voltage terminal, so that the communication device is functional. In this case, a cost-effective connection of the first voltage connection with the voltage supply circuit is created with the diode, which causes a galvanic separation of the second higher voltage from the voltage level of the first voltage.

In an embodiment of the component according to the invention, the communication device is a CAN transceiver.

In a further embodiment of the component according to the invention, the first voltage has a value of 12 volts - 14 volts and the second voltage has a value of 48 +/- 2 volts.

In a further embodiment of the component according to the invention, the ground potential of the first voltage is connected to the ground potential of the second voltage in the motor vehicle.

The invention will be described below with reference to an embodiment with reference to a figure.

The 1 schematically shows a block diagram of an electronic component, in which a first voltage terminal 1 with a first voltage of 12 volts through a voltage regulator 5 with a supply voltage input VDD2 of a CAN transceiver designed as a communication device 3 connected is. The first voltage source 1 supplies the components of a first sub-component 12 volt side, which lies on a first voltage level, which are not shown for reasons of clarity.

A second subcomponent 48 volt side, which is at a second voltage level of about 48 volts, has at least one microcontroller 4 and a power supply device 6 on. The output of the power supply 6 is connected to a power supply input of the microcontroller 4 and another power supply input VDD1 of the communication device 3 connected.

The power supply device 6 is with a second voltage connection 2 connected to which a voltage of about 48 Volts can be applied, from the normal operation, the supply voltages for the microcontroller 4 and the communication device 3 be generated. These supply voltages are usually in the range of 3 Volts up to 5 volts.

If, however, at the second voltage connection 2 the second tension of 48 Volt is not present, would be the communication device 3 not functional, because then the power supply device 6 could not generate the supply voltages yet.

In accordance with the invention, therefore, the first voltage connection 1 via a diode D polarized in the direction of flow with the voltage supply device 6 connected, so that on the one hand at least the 12 volts at the first voltage connection 1 at the power supply device 6 abuts and consequently the microcontroller 4 and the communication device 3 supplied with a supply voltage at the second voltage level, on the other hand, however, a galvanic isolation of the two voltage levels is present when the 48 volts at the second voltage terminal 2 issue.

Claims (4)

An electronic component for a motor vehicle having a first subcomponent (12 volt side) operating at a first voltage at a first voltage terminal (1) and a second subcomponent (48 volt side) operating at a second voltage is operated at a second voltage terminal (2) whose value is a multiple of the value of the first voltage, the component having a communication device (3) within which the first voltage is galvanically isolated from the second voltage, wherein the second subcomponent (48 volt side) has a microprocessor (4) for controlling the communication device (3), wherein the second subcomponent (48 volt side) comprises a voltage supply circuit (6) for providing a supply voltage to at least the microprocessor (4) and the communication device (3), and wherein the first voltage terminal (1) is connected to the voltage supply device (6) via a diode (D) polarized in the direction of flow. Electronic device after Claim 1 , characterized in that the communication device (3) is a CAN transceiver. Electronic device after Claim 1 or 2 , characterized in that the first voltage has a value of 12 volts - 14 volts and the second voltage has a value of 48 +/- 2 volts. Electronic device according to one of the preceding claims, characterized in that the ground potential (GND12) of the first voltage is connected to the ground potential (GND48) of the second voltage in the motor vehicle.

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