DE10042702A1 - Operating electrical power supply device involves checking state of first accumulator prior to high current discharge phase, charging from second energy source if load capacity inadequate - Google Patents

Abstract

The method involves checking the state of a first accumulator prior to a high current discharge phase. If the load capacity of the accumulator is not adequate then the first accumulator is charged from the second energy source before being discharged. Charging from the second energy source can continue during discharging.

Description

The invention relates to a method for operating a power supply device, which a first high-current loadable battery, a second energy source and one Contains device for the control and monitoring of charge and discharge.

Power supply devices that contain accumulators are in many designs known shapes. In special configurations, in addition to an accumulator, there is a second one Energy source, for example a second battery, a fuel cell or a solar module available. In addition, such power supply facilities have necessary devices to remove the first accumulator from the second Charge energy source and to control and to charge and discharge the energy sources monitor.

At the start of an internal combustion engine, a turbine or a fuel cell or at Similar high current loads on a battery, it is often crucial that not only the required electrical power is provided, but that this is also the case with a sufficiently high voltage level happens.

For this reason, optimized for this application are generally high current-carrying starter batteries are used due to their relatively low resistance the aforementioned condition even at low temperatures and / or low charge most of the time. However, there are cases where either the required lei can not be delivered or at an insufficient voltage level, so that z. B. electronic components that have a certain minimum voltage for their function need, are no longer operational.

In addition to the high-current loadable starter battery, there is another energy source available supply, there are further opportunities to improve the situation. So z. B. with a two-battery vehicle electrical system in a motor vehicle, the function of supplying high electrical power transferred to one of the two batteries while the other at only moderate electrical load this can give off at a fairly high voltage level. This ensures that the electronic compo fed by the latter battery nents are fully functional, while the voltage level is at high power charged battery is irrelevant as long as the required electrical power is delivered becomes.  

However, there are also cases in which this division of functions is not possible or not is desired, or where the high power at a high voltage level must be ben.

A simple parallel connection of the additional energy source, such as another battery mulator battery, a fuel cell, a solar module or the like for the actual starter battery is usually not useful. Either these are additional ones Power output too low or at an unsuitable voltage level veau, or the means required to adjust the tension levels (tension converters, DC / DC converters) are not designed for these high powers.

The object of the invention is to provide sufficient performance even in such cases of the high-current loadable battery and to avoid High current load an impermissibly low voltage level is reached.

This object is achieved according to the invention in a method of the type mentioned at the outset solved by the features of the characterizing part of claim 1. More beneficial Refinements of the method can be found in the subclaims.

According to the invention, the actual starter battery or a first high current load The accumulator is not supported by the other energy sources until it is at a high level Performance should be discharged, but partially charged shortly before.

It has been shown that the voltage level of an accumulator battery with high Service is discharged at short notice by a previous temporary charging can not be raised insignificantly. Through this temporary recharge even if you only with moderate charging power, the accumulator is in a non-equilibrium stood offset, so that with a strong discharge that followed a little later, it increased the discharge has charging voltage.

This method is advantageous for all electrochemical storage sources, in particular but for those in which the active materials in one or both electrodes immediately bar after a previous charge in a thermodynamic state, the is different from that if they have the same state of charge due to previous discharges would have reached. Examples of such electrodes are the positive lead dioxide electrode Lead accumulator and the positive nickel oxide electrode of nickel metal hydride and nickel cadmium accumulators. These types of accumulators are hysteresis-like phenomena  known, the width of the hysteresis on the order of one to a few Percent of the total storage capacity of the battery.

The additional energy source can be a further accumulator battery, a fuel cell, a solar panel, a flywheel or any other device that is immediate can generate electrical energy from another form of energy.

According to the invention, the high-current battery can only be charged if if it was previously determined by an assessment of the load capacity of the batteries, that otherwise an inadmissibly low voltage level can be reached during discharge that would and / or if previously by an assessment of the loading capacity and the resilience of the high-current loadable battery was determined by a previous Charge during the subsequent discharge is likely to have a sufficient voltage level veau can be achieved.

It can be advantageous to charge the high-current battery from the other Ren second energy source even during the high-power discharge of the first battery to continue tors. The duration and / or charging power and / or the delay until ready Position of the high discharge power depends on the previous assessment of the Performance of the first accumulator, its temperature and / or the operating conditions conditions of the supplied high-performance consumer.

According to the invention, when a high-performance load is demanded of the first high current loadable battery delays this load until one is sufficient appropriate charging has taken place and the fact and / or the occasion and / or the The duration of this delay is displayed.

The high-current loadable battery is discharged directly or through a short pause separately on the load. At room temperature the break should be at for example not longer than 1 minute and preferably not longer than 10 seconds. These periods of time are halved by 10 degrees in each case temperatures and double to lower temperatures. The duration of the La manure is advantageously at least as long as the duration of the discharge, preferably however at least 3 times as long. The amount of charge loaded during loading should advantageously at least 10%, in particular at least 30% and preferably min at least correspond to 50% of the amount of charge removed during unloading.  

The process according to the invention is explained in more detail below with the aid of two examples tert.

example 1

A lead accumulator with a nominal voltage of 12 V and a nominal capacity of 44 Ah was used on one Brought state of charge of 60% and then tempered to a temperature of 25 ° C. To Setting the temperature balance, the battery was charged for one minute voltage of 16 V. The charging current averaged approximately 62 A. Unmit The accumulator was then telbar with a current of 220 A for a period of time discharged for 5 seconds. So about 3720 As were invited and about 1100 As unloaded.

Fig. 1, the voltage behavior of this accumulator, as well as in curve K2 shows the behavior in a curve K1 identical secondary battery according to the same previous therapy, but without a preceding short term charge immediately prior to discharge. There is an increase in the discharge voltage of approximately 300 mV.

Example 2

An electrical vehicle electrical system consists of two accumulator batteries, one of which only one is suitable for starting an internal combustion engine (starter battery). The other serves to supply the other electrical system consumers (supply battery) and is not designed for high current loads, but more for high energetic throughput. There is also a voltage converter that is suitable for generating electrical energy from the second energy storage in the starter battery (first high current loadable battery) convict, e.g. B. a suitable DC / DC converter. Next to it is a battery condition There is voltage for the starter battery. If the driver's start request is recognized, then so the battery status detection of the starter battery checks whether it is likely to do so in will be able to perform the requested typical under the given operating conditions deliver electrical power. If this is the case, the start takes place as usual. Is this but not the case, the status detection checks whether a previous one Recharge from the second accumulator battery (second energy source) the situation like this can be improved far enough that the performance of the starter battery is sufficient is increased. In this case, the starter battery is recharged by electrical energy gie triggered from the second accumulator battery via the DC / DC converter. simultaneously the driver is informed about this process - which delays his start request. To After completing a sufficient charging time, he is asked to confirm that he wants to start to repeat. If he does so, the start is carried out.  

Fig. 2 shows the voltage behavior of two similar accumulators brought to a state of charge of 50% and were heated to 18 ° C.

Subsequently, the one accumulator (curve K1) was immediately discharged at 220 A for 5 seconds the. The other accumulator (curve K2) was initially at a drawer for one minute voltage of 16 V, with an average charging current of 17 A. This was followed by a pause of 10 s to simulate the driver's reaction time and then the discharge with 220 A for 5 seconds.

So about 1020 As were loaded and about 1100 As were unloaded. The one in the starter battery The charging power of approx. 250 W (16 V × 17 A on average) can also be used at low Temperatures such as -18 ° C are released by the second supply battery. In the Discharge shows an increase in the discharge voltage of about 300 mV.

The progressive voltage drop observed after 4 seconds (curve K1) is not yet after 5 seconds by the procedure according to the invention observed.

Claims (10)

1. A method of operating a power supply device which contains a first high-current loadable battery, a second energy source and a device for controlling and monitoring charge and discharge, characterized in that the state of this battery is checked before a high-current discharge of the first battery and that in the event of insufficient Resilience of the first battery is charged before it is discharged from the second energy source. 2. The method according to claim 1, characterized in that the charge of the first Ak accumulator from the second energy source even during high-power discharge of the first accumulator is continued. 3. The method according to claim 1 or 2, characterized in that the charging time and / or charging power and / or the delay until the high discharge is provided performance depending on the previous assessment of performance of the first battery, its temperature and / or the operating conditions of the supplied high-performance consumer is controlled. 4. The method according to any one of claims 1 to 3, characterized in that in the Request a high performance load on the first accumulator this load is delayed until sufficient charging has taken place and that the Fact and / or the reason and / or duration of this delay is displayed. 5. The method according to any one of claims 1 to 4, characterized in that the first Accumulator is the starter battery in a vehicle electrical system. 6. The method according to any one of claims 1 to 5, characterized in that the second Energy source is another battery or a fuel cell. 7. The method according to any one of claims 1 to 6, characterized in that the discharge the first accumulator immediately or by a short pause separates from the charge, the pause at room temperature not longer than approx. Lasts 10 seconds.   8. The method according to any one of claims 1 to 7, characterized in that the duration the charge is at least as long as the duration of the discharge. 9. The method according to any one of claims 1 to 8, characterized in that the at Load of cargo loaded at least 50% of the amount removed during unloading corresponds to the amount of charge. 10. The method according to any one of claims 1 to 9, characterized in that the charge of the first accumulator only takes place if an assessment of its La deficiency and resilience was determined by a previous load A sufficient voltage level is expected to be reached during discharge can.