DE20320474U1 - Electric heater for a motor vehicle has parallel groups of heating elements with on off switches and control and a monitor for short circuits or circuit breaks - Google Patents

Abstract

An electric heater (10) for a motor vehicle comprises parallel groups of heating elements with selective on/off switches (16), a switch control, a total current measurer (26) and a monitor for short circuits or circuit breaks which determines the current difference when each element is by-passed and compares with threshold values.

Description

The invention relates to an electrical Heating for a vehicle. This heater is in particular additional heating in motor vehicles, e.g. during the Phase is switched on in which the cooling water of the engine is not yet Has assumed operating temperature.

Comfortable automotive air conditioners are equipped with additional electric heaters that a variety have switchable electrical heating elements in groups. The heating elements are usually designed as PTC resistance elements. ever according to the heat requirement one or more groups of heating elements are switched on. This is done by switch elements, mostly in the form of transistors are realized. For the proper operation of such an electrical auxiliary heater is a surveillance short circuit or wire break required. For example based on the heating elements of a switched on group of Heating elements flowing Electricity. Transistors with separate current outputs can be checked by reading this output, whether no current is flowing (wire break) or a much too high current is flowing (short circuit).

In order to deliver the from an additional electrical heater Heating power if possible exactly to the current heat demand to be able to adjust it is necessary, if possible to be able to switch many groups of heating elements individually. The in turn, however, means that the current outputs of the switching transistors interrogating monitoring unit accordingly complex, namely multi-channel, must be trained.

The invention has for its object a electric heater for to create a vehicle, in particular a motor vehicle, in which The supervision on short circuit and wire break also relatively simple and reliable takes place when the heating a variety of individually switchable Has heating elements or groups of heating elements.

To solve this problem with the invention provides an electric heater for a vehicle, which is provided with

• - several groups of heating elements connected in parallel, wherein each group comprises at least one heating element,
• - several Switch elements for switching the heating element groups on and off,
• - one Control unit for controlling the switch elements for switching on and off Turning them off,
• - one Total current determination unit for determining the sum of the currents all each switched on heating element groups and
• - a monitoring unit to monitor the Heating element group for short circuit or wire break,
• - in which the monitoring unit the difference between that before switching a heating element group flowing Total current and the total current flowing after switching is determined and
• - in which the monitoring unit detects a short circuit in the switched heating element group, if the current difference is greater than is a predeterminable short-circuit threshold value, and a line break detects when the current difference is less than a break threshold is.

The electric heater according to the invention comprises multiple groups of heating elements, each having at least one heating element have and separated from each other by a control unit controlled switch elements can be switched on and off. By all currents flowing when the heating element groups are flowing through as a total current a total current determining device determines. A monitoring unit monitors the size of this Total current taking into account the heating element groups currently switched on and when switching over (Switching on or off) a heating element group. By ongoing The total current can be determined (continuously or at intervals) be recorded. It is crucial that the total current before and is determined after switching over a heating element group. The control unit switches over a heating element group controlled and above out from a parent Temperature control unit triggered. So would so it is sufficient if the temperature control device Switching over of a heating element group "announces", before that means before Switching to determine the total current, even after it has been completed Then switch again to determine.

On all of the previously described Wise it is possible determine the current difference that occurs when switching over a heating element group. If the current difference is relatively small, i.e. less than a line break threshold, so there is a break in the switched heating element group recognized. If the current difference is very large, that means greater than a short circuit threshold, so a short circuit in the switched Heating element group can be recognized.

The procedure described above can basically be carried out both when switching on and when switching off a heating element group. Depending on the nature of the heating elements, the current differences when switching a heating element group on and off can be different. This is the case, for example, when PTC resistance elements are used as heating elements, the current consumption of which is greater in the cold state than in the heated state. The connection of PTC resistance element groups calls because the PTC resistance stand elements are still cold, when determining the current difference when switching on, consequently larger current differences than when switching off, in which the PTC resistance elements are heated, which results in a more reliable detection / monitoring of functionality when determining the current difference when switching on.

In an advantageous development of the The invention provides that switching transistors as switch elements with current outputs be used. These current outputs immediately deliver a signal for the Load current and thus for the current through an activated heating element group. Other options current acquisition are also conceivable. For example, the currents could pass through all Heating element groups also over a common shunt resistor are routed, on which the current is then determined.

In a further advantageous embodiment the invention provides that the monitoring unit also if none of the heating element groups is switched over, for monitoring on short-circuit the current current value with a predefinable short-circuit threshold compares and detects on short circuit if the current value is greater than that Short-circuit threshold is.

In the above description the invention is assumed for the sake of simplicity that a current difference always results from a change in load. May cause a current difference but also, for example, a change in the supply voltage of the heating elements (electrical system fluctuations). When determining the current difference is to be assessed accordingly.

Synonymous with the invention it goes without saying if a voltage difference is determined instead of the current difference the difference in voltage drops across a resistor, for example before and after switching a heating element group.

The invention is described below the drawing, in which an example of an additional electric heater with control and monitoring electronics is illustrated, explained.

The electric heater 10 includes several heating elements that can be switched on and off individually 12 , which are designed as PTC resistance elements in this exemplary embodiment. These heating elements 12 are connected in parallel to each other. There may also be more heating elements connected in series in each branch.

The heating elements 12 are about an arrangement 14 from a variety of switch elements 16 switched on and off in the form of switching transistors. The control of these switch elements 16 is carried out by a control unit 18 , which is designed for example as a microprocessor. This microprocessor also has one as a monitoring unit 20 trained part on, the values over the current total current (at the entrance 22 ) and the current supply voltage (at the input 24 ) are supplied and a total current determination unit 26 includes.

When monitoring the heating elements 12 the procedure is now such that the monitoring unit 20 before switching (switching on or off) a heating element 12 determines the current total current. After switching over the heating element group, this process is repeated, whereby a current difference is determined. If this current difference is below a lower threshold value, which, for example, is to be set close to 0 volts, the total current therefore changes despite a heating element being switched over (switched on or off) 12 Not. This suggests that there is a line break in the connected line.

However, the current difference is relative high, i.e. larger than an upper threshold value, a short circuit in the or switched off heating line.

The monitoring described above for everyone heating sections can be carried out according to the invention, without this a multi-channel monitoring unit is required. On the contrary, a single-channel monitoring unit is sufficient without losing out in terms of of reliability of the surveillance activity have to be accepted. So that can with the structure according to the invention expensive microprocessors and multiplexers avoided as well as on fault measures to be dispensed with. All this simplifies the structure of the control and surveillance electronics the electrical according to the invention Heater.

This electric heater can but also independently Always monitor for short circuits by switching individual heating strings on or off. Here only the current difference or the current current value determined. If this is above the upper threshold, it can can be assumed that at least in one of the heating strands There is a short circuit. This short circuit can then be switched off all heating sections and successive switching on of the heating strings detected and that is when the current difference between the current values before and after switching on a heating element is excessively large. The last switched on The heating element is then defective. You could have a faulty heating element also determine that initially all heating sections be switched on and one after the other of the heating strings again be switched off. With this procedure, too, it will be give a current difference value that is excessively high. The last one switched off The heating element is then the defective one.

Claims (5)

Electric heating ( 10 ) for a vehicle with - several groups of heating elements connected in parallel ( 12 ), with each group min at least a heating element ( 12 ) includes - several switch elements ( 16 ) for switching the heating element groups on and off, - a control unit for controlling the switch elements ( 16 ) for switching on and off the same, - a total current determination unit ( 26 ) to determine the sum of the currents through all the heating element groups that are switched on and - a monitoring unit ( 20 ) for monitoring the heating element group for short circuits or wire breaks, - the monitoring unit ( 20 ) the difference between the total current flowing before switching over a heating element group and the total current flowing after switching over is determined and - the monitoring unit ( 20 ) detects a short circuit in the switched heating element group if the current difference is greater than a predeterminable short circuit threshold value, and detects a line break if the current difference is less than a break threshold value. Electric heating ( 10 ) according to claim 1, characterized in that the switch elements ( 16 ) are designed as switching transistors with current outputs. Electric heating ( 10 ) according to claim 1 or 2, characterized in that the heating elements ( 12 ) are designed as PTC elements. Electric heating ( 10 ) according to one of claims 1 to 3, characterized in that the monitoring unit ( 18 ) monitoring a heating element group ( 12 ) for short circuit or wire break always when switching on a heating element group ( 12 ). Electric heating ( 10 ) according to one of claims 1 to 4, characterized in that the monitoring unit ( 20 ) even if no heating element group is switched over, compares the current value with a predeterminable short-circuit threshold value for monitoring for short-circuit and detects for short-circuit if the current value is greater than the short-circuit threshold value.