DE490776C - Battery consisting of two or more partial batteries - Google Patents

Description

Multiple battery consisting of two or more partial batteries tapped batteries are used unevenly, for example anode batteries strongest between the minus plug and the first tap. Under minus plug is understood here as the one with the filaments of the connected electron tubes is in a leading position. The most stressed cells are natural exhausted earlier than the rest and thereby cause a premature end of the entire battery, the cells of which are therefore poorly utilized in some cases. Around To counter this l'belstand has been suggested, the most stressed To arrange cell block interchangeably; but this has the disadvantage that its tension falls relatively quickly during operation, which requires frequent readjustments makes necessary. It is also a certain amount of technical knowledge requiring replacements quite inconvenient. It has also been suggested for the most heavily used compartment of the battery is larger cells or more to use cells connected in parallel. In the first case one has the disadvantage that the resistance of the cells in question is as high as that of the rest Cells because the internal resistance of elements - proportionality of the radial Dimensions provided - practically only depends on their height, but this must be the same for all cells for structural reasons. In the latter case one has the advantage of reduced resistance, but the disadvantage that as a result of the inevitable irregularities in the rest breaks equalizing currents occur between the cells connected in parallel, which reduce their capacity. All of these disadvantages are alleviated according to the invention by a hybrid battery eliminated, which consists in the fact that several groups of cells connected in series are connected to each other at their negative poles. This is the number of cells expediently chosen in each group so that the total stresses (taking into account the voltage drop during use) that required for the individual taps Correspond to maximum voltages. In general, the individual groups need the first half of the cells not to be provided with tapping contacts, as a result the manufacture of such batteries is simplified. The hybrid has the great advantage that with her a mutual influence of the connected Electron tubes (so-called crosstalk) and a galvanic! Causing! Noise! Feedback is impossible. Of course, anode batteries with hybrid connection can be used according to of the invention can also be structurally combined with grid bias batteries by whose positive pole is connected to the common negative pole of the anode current groups. Since in such combined batteries the position of the negative pole is fixed, so the supply line connected to the heating filaments cannot be connected arbitrarily you can use cells for the grid battery that is practically currentless in the company use lower capacity.

In some cases it is advantageous to use the positive poles instead of the negative poles to connect with each other. You can also connect two forked batteries against each other, by connecting the common plus pole of the lines with the common minus pole of the other connects.

In the figures, two exemplary embodiments are shown schematically shown, namely in Fig. i the circuit diagram of an anode battery without and in Figure 2 one with grid bias cells.

An anode battery that lasts for umpteen. i is switched is suitable for receivers with oxide filament tubes or tubes where the grille has a positive voltage can be obtained without grid currents occurring. For recipients with ordinary tubes it can only be used in conjunction with a grid battery, if the required negative grid bias voltages are not achieved by some circuit be generated. In the figure, I and II mean two batteries, the second of which has a larger number of cells, i.e. a higher voltage. The two negative poles are conductively connected to each other. Sockets .b are arranged on the common Negative pole, on the two positive poles and on some taps that have a setting of the two anode voltages with an accuracy of about 10%. One of the sockets marked Aa supplies the anode voltage for the audio tube and the preamplification taken from one of the sockets labeled Ae the Anode voltage of the end lamp. In area Aa the battery II has no tapping possibilities, to connect a wrong port. An anode battery designed according to FIG is of course also suitable for operating a triple tube without a built-in one Coupling links.

2 shows the circuit of an anode battery for a receiver with high frequency amplification by a double grid tube and with final amplification by an ordinary end lamp which cannot tolerate positive grid voltages. A third battery III has been added here, from the. the grid voltages are tapped. The battery III has sockets on the negative pole and on the penultimate cell. Your positive pole is connected to the common negative pole of the other two batteries. The relatively high grid bias voltage for the end lamp can be tapped at Ge, the grid voltage of 1.5 volts at Oh , which is at rest for all pre-tubes. The space charge grid is connected to one of the sockets Gy of the battery I, the anodes of the high-frequency tubes to one of the sockets Ah of the battery II and the anode of the low-frequency tube to one of the sockets An. Since the space charge grid current is approximately as strong as the sum of all anode currents, both batteries supplying current are loaded approximately equally; they are therefore exhausted approximately at the same time, so that the whole battery is used much better than an ordinary anode battery, in which the comparatively small number of cells. between the negative pole and the space charge grid point -, - ker space charge and anode current and must therefore exhaust themselves prematurely. An anode battery designed according to FIG. 2 is of course also suitable for receivers with a double high-frequency tube and a triple low-frequency tube with built-in coupling elements. For a receiver without a double grid tube, the anode battery according to the invention would be modified so that the sub-battery I is provided with sockets for connecting the anodes of all pre-tubes and the sub-battery II only with the sockets for the end lamp anode, because the anode quiescent current of the end lamp is approximately as strong is like the sum of the other anode currents. In the case of special batteries for certain receivers, a different distribution of the sockets may be more appropriate. You will always be guided by your point of view to distribute the load as evenly as possible on the individual branches.

A battery according to the invention would fail if the partial batteries could be tapped at points of the same potential, because then the Taps could be bridged, in which case the same inconveniences would appear, as in the case of batteries with partial batteries connected in parallel. In addition, there would be a certain amount of uncertainty regarding the correct connection. For this reason and to enforce the intended In batteries according to the invention, load distribution is provided by tapping contacts only arranged at points of different potential.

Claims (1)

PATLNTAN SPRL CFIR ;: i. Consisting of two or more partial batteries Battery, characterized in that the partial batteries only on one of their eponymous Poles are firmly connected to one another and that the partial batteries have tapping contacts have different potentials at points. z. Battery according to claim i, characterized characterized in that the common pole is preceded by a further group of cells is.