Battery tester with apertures for plural types and sizes of cells
First Claim
1. A battery tester comprising a tablet shaped body having a thickness which is very small compares with its length and width, at least one recess in the body shaped to receive batteries to be tested an having a taper within the thickness of the body configured to guide terminals of said batteries into contact with test contacts within the thickness of the body, and a battery testing circuit within the thickness of the body and connected to said test contacts, the battery testing circuit including comparator carrying out comparisons of a voltage appearing across said contacts with plural reference voltages, and an array of light emitting diodes driven by said comparators to display results of said comparisons, wherein the body defines one recess in one face of the body, the recess having a bottom wall parallel to said one face of the body and peripheral side walls, the taper being defined by converging opposite side walls of the recess, one test contact being located in at least one of said opposite side walls of the recess, and the other being located on a bottom wall of the recess, whereby a button cell to be tested may be placed with one terminal resting on the bottom wall of the recess to contact said other terminal and moved into the taper until another terminal formed by a peripheral side wall of the cell contacts said one test contact.
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Accused Products
Abstract
A low profile battery tester uses tapered apertures to located batteries in a thin tablet shaped body for testing. In one embodiment for conventional dry cells, the taper is in openings through the body, and in another embodiment for button cells the aperture does not extend through the body and the taper is in the plane of the body. A display of battery condition is provided by an array of light emitting diodes mostly driven by comparators, voltage references for the comparators being provided by a circuit including one of the light emitting diodes.
27 Citations
3 Claims
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1. A battery tester comprising a tablet shaped body having a thickness which is very small compares with its length and width, at least one recess in the body shaped to receive batteries to be tested an having a taper within the thickness of the body configured to guide terminals of said batteries into contact with test contacts within the thickness of the body, and a battery testing circuit within the thickness of the body and connected to said test contacts, the battery testing circuit including comparator carrying out comparisons of a voltage appearing across said contacts with plural reference voltages, and an array of light emitting diodes driven by said comparators to display results of said comparisons, wherein the body defines one recess in one face of the body, the recess having a bottom wall parallel to said one face of the body and peripheral side walls, the taper being defined by converging opposite side walls of the recess, one test contact being located in at least one of said opposite side walls of the recess, and the other being located on a bottom wall of the recess, whereby a button cell to be tested may be placed with one terminal resting on the bottom wall of the recess to contact said other terminal and moved into the taper until another terminal formed by a peripheral side wall of the cell contacts said one test contact.
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2. A battery tester comprising a tablet shaped body having a thickness which is very small compared with its length and width, at least one recess in the body shaped to receive batteries to be tested and having a taper within the thickness of the body configured to guide terminals of said batteries into contact with test contacts within the thickness of the body, and a battery testing circuit within the thickness of the body and connected to said test contacts, the battery testing circuit including comparators carrying out comparisons of a voltage appearing across said contacts with plural reference voltages, and an array of light emitting diodes driven by said comparators to display results of said comparisons,
wherein the test circuit comprises a reference voltage generator, a divided chain of resistors across which the reference voltage generator generates a reference voltage, multiple comparators each connected to a different mode of the divider chain and to an intermediate point of a resistor chain connected between the test contacts, and light emitting diodes driven by outputs of said comparators, and wherein the reference voltage generator includes a first forward biased light emitting diode in series with a load resistor to provide, an initial visual indication from the device, and a further forward biased diode in series with a further resistor, the series combination of the further diode and further resistor being in parallel with the first light emitting diode, the voltage across said further diode providing the reference voltage.
Specification