The present technology relates to an oscillation apparatus and an oscillation method allowing a variation in a frequency of a clock signal to fall within a predetermined range without using a reference clock signal. An oscillation apparatus includes an oscillation section oscillating a clock signal, an adjustment section changing a parameter of a constituent element constituting the oscillation section to thereby adjust a frequency of the clock signal, and a calibration control section controlling the adjustment section to perform frequency calibration of the oscillation section in a case in which a variation in a frequency of the clock signal oscillated by the oscillation section falls within a second range exceeding a first range permitted in an application of the clock signal.

The present technology relates to an oscillation apparatus and an oscillation method allowing a variation in a frequency of a clock signal to fall within a predetermined range without using a reference clock signal. An oscillation apparatus includes an oscillation section oscillating a clock signal, an adjustment section changing a parameter of a constituent element constituting the oscillation section to thereby adjust a frequency of the clock signal, and a calibration control section controlling the adjustment section to perform frequency calibration of the oscillation section in a case in which a variation in a frequency of the clock signal oscillated by the oscillation section falls within a second range exceeding a first range permitted in an application of the clock signal.

A filling level indicator for determining a filling level in a tank, having a resistor network, a contact element, and a magnetic element. The contact element is spaced apart from the resistor network and the magnetic element is movable relative to the resistor network and the contact element. The contact element has a contact region deflectable by the magnetic element. An electrically conductive connection between the contact region and the resistor network is produced by deflection of the contact region. The contact region is formed by a planar tape-shaped element and the contact region has contact portions that are spaced apart from one another in the circumferential direction. The contact portions are separated from one another by separation regions.

An amplifier receives an input and a feedback. A first transistor controlled by the amplifier output is coupled between a supply node and the feedback. A second transistor controlled by the amplifier output is coupled to the supply node and generates a bias current. A trimmed resistor coupled between the feedback and ground includes, for trimming resolution of N-bits, where X+Y=N: M resistors, where M=2.sup.X−1, each having a resistance equal to R*(2.sup.Y)*i, i being an index having a value ranging from 1 to 2.sup.X−1, a first of the M resistors having a resistance of R*2.sup.Y, a last of the M resistors having a resistance of R*2.sup.Y*(2.sup.X−1); and M switches associated with the M resistors. Each of the M resistors is between a first node and its associated one of the M switches. Each of the M switches couples its associated one of the M resistors to a second node.

An electronic device having a digitally controlled resistor is provided. The digitally controlled resistor includes various switch-resistor segments between voltage nodes. In one embodiment, the switch-resistor segment may include a resistor and a switch coupled parallel to the resistor. In another embodiment, the switch-resistor segment may include a resistor, a complement switch coupled in series with the resistor, and a switch coupled parallel to the resistor and the complement switch. Each switch included in the switch-resistor segment operates based on digital bits. Based on the logic value (either ‘0’ or ‘1’) assigned, the switches turn ON (when logic value is ‘1’) and OFF (when logic value is ‘0’). In some embodiments, the switches and the resistor included in the switch-transistor segment are arranged in a symmetrical manner between voltage nodes.

An electronic device having a digitally controlled resistor is provided. The digitally controlled resistor includes various switch-resistor segments between voltage nodes. In one embodiment, the switch-resistor segment may include a resistor and a switch coupled parallel to the resistor. In another embodiment, the switch-resistor segment may include a resistor, a complement switch coupled in series with the resistor, and a switch coupled parallel to the resistor and the complement switch. Each switch included in the switch-resistor segment operates based on digital bits. Based on the logic value (either ‘0’ or ‘1’) assigned, the switches turn ON (when logic value is ‘1’) and OFF (when logic value is ‘0’). In some embodiments, the switches and the resistor included in the switch-transistor segment are arranged in a symmetrical manner between voltage nodes.

Electrically resistive devices, such as voltage dividers, and methods of making the same are disclosed. An illustrative voltage divider may include a substrate having an axis, an electrically resistive path applied to the substrate, and at least one terminal positioned around the substrate and in contact with the electrically resistive path. The electrically resistive path may include a primary resistor and a secondary resistor, with the primary resistor having a higher electrical resistance than the secondary resistor. An adjustable displacement of the at least one terminal along the axis of the substrate may allow adjustment of at least one electrical resistance associated with the at least one terminal. An adjustable tightness of the at least one terminal around the substrate may allow adjustment of the at least one electrical resistance associated with the at least one terminal.

Electrically resistive devices, such as voltage dividers, and methods of making the same are disclosed. An illustrative voltage divider may include a substrate having an axis, an electrically resistive path applied to the substrate, and at least one terminal positioned around the substrate and in contact with the electrically resistive path. The electrically resistive path may include a primary resistor and a secondary resistor, with the primary resistor having a higher electrical resistance than the secondary resistor. An adjustable displacement of the at least one terminal along the axis of the substrate may allow adjustment of at least one electrical resistance associated with the at least one terminal. An adjustable tightness of the at least one terminal around the substrate may allow adjustment of the at least one electrical resistance associated with the at least one terminal.

The present invention is a modified potentiometer shaft that includes a light source for illuminating the top of the shaft. The shaft further includes electrical connections for providing power to the light source through the potentiometer assembly.

The present invention is a modified potentiometer shaft that includes a light source for illuminating the top of the shaft. The shaft further includes electrical connections for providing power to the light source through the potentiometer assembly.