The measuring cup includes numerous embodiments configured for a user to precisely determine the cup contents without need to lift the cup to one's eye level or to lower the eye level to the level of the cup contents. The various embodiments include folding cups; cups having transparent passages in the wall; cups having adjustably positionable bottoms; cups having level indicator rods in the cup interior extending upward from the cup bottom; cups having one or more filaments extending across the cup interior; cups having rigid level indicators spanning the cup interior; cups having adjustably positionable level indicator tabs therein; cups having buoyant level indicator tabs adjustably positionable in the cup interior; and cups having removable clip-on scales extending down along the interior of the cup wall, the scales having a plurality of attachment points for the removable attachment of a level indicator tab at a desired attachment point.

The measuring cup includes numerous embodiments configured for a user to precisely determine the cup contents without need to lift the cup to one's eye level or to lower the eye level to the level of the cup contents. The various embodiments include folding cups; cups having transparent passages in the wall; cups having adjustably positionable bottoms; cups having level indicator rods in the cup interior extending upward from the cup bottom; cups having one or more filaments extending across the cup interior; cups having rigid level indicators spanning the cup interior; cups having adjustably positionable level indicator tabs therein; cups having buoyant level indicator tabs adjustably positionable in the cup interior; and cups having removable clip-on scales extending down along the interior of the cup wall, the scales having a plurality of attachment points for the removable attachment of a level indicator tab at a desired attachment point.

A fuel-level detection system is configured to determine a fuel level in a fuel system. A comparative fuel probe is associated with the fuel system and includes a capacitive probe assembly configured to provide a comparative capacitive reading, and a float assembly configured to provide a comparative float reading. A comparator is configured to receive the comparative capacitive reading and to receive the comparative float reading, and to determine a corrective factor based at least in part on the comparative capacitive reading and the comparative float reading. A set of capacitive probes is associated with the fuel system. The fuel level in the fuel system is determined by comparing each local capacitive reading from each capacitive probe in the set of capacitive probes with the corrective factor.

A fuel-level detection system is configured to determine a fuel level in a fuel system. A comparative fuel probe is associated with the fuel system and includes a capacitive probe assembly configured to provide a comparative capacitive reading, and a float assembly configured to provide a comparative float reading. A comparator is configured to receive the comparative capacitive reading and to receive the comparative float reading, and to determine a corrective factor based at least in part on the comparative capacitive reading and the comparative float reading. A set of capacitive probes is associated with the fuel system. The fuel level in the fuel system is determined by comparing each local capacitive reading from each capacitive probe in the set of capacitive probes with the corrective factor.

An electrical connection includes a first electrical conductor assembly having a first electrical conductor with a first electrical conductor surface and a second electrical conductor assembly having a second electrical conductor with a second electrical conductor surface which is engaged with the first electrical conductor surface such that the second electrical conductor assembly and the first electrical conductor assembly reciprocate relative to each other along a path. The first electrical conductor surface and the second electrical conductor surface provide electrical communication between the first electrical conductor assembly and the second electrical conductor assembly along the path. The second electrical conductor surface has a first area of gold having a first magnitude of hardness which engages the first electrical conductor surface and also has a second area of gold having a second magnitude of hardness which is greater than the first magnitude of hardness.

A liquid amount detecting device may be provided with a first detector disposed in a first storage part; a second detector disposed in a second storage part; and a connecting cable. The first detector may include: a first float; a first arm; a first magnetic sensor which generates a first analog signal corresponding to the movement of the first arm; and a first output terminal which outputs a first output voltage value corresponding to the first analog signal. The second detector may include: a second float; a second arm; a second magnetic sensor which generates a second analog signal corresponding to the movement of the second arm; a reference terminal; and a second output terminal which outputs a second output voltage value corresponding to an integrated voltage value in which a voltage value indicated by the second analog signal and the first output voltage value are integrated.

A liquid amount detecting device may be provided with a first detector disposed in a first storage part; a second detector disposed in a second storage part; and a connecting cable. The first detector may include: a first float; a first arm; a first magnetic sensor which generates a first analog signal corresponding to the movement of the first arm; and a first output terminal which outputs a first output voltage value corresponding to the first analog signal. The second detector may include: a second float; a second arm; a second magnetic sensor which generates a second analog signal corresponding to the movement of the second arm; a reference terminal; and a second output terminal which outputs a second output voltage value corresponding to an integrated voltage value in which a voltage value indicated by the second analog signal and the first output voltage value are integrated.

A fluid level sensor assembly comprises a sensor mounted to a sensor housing. A carrier extends from the sensor housing in an angled orientation. A float is located within the carrier such that the float may move along a longitudinal axis of the carrier. A fragment is secured to the float, and the sensor detects a location of the fragment as the float moves within the carrier.

A fluid level sensor assembly comprises a sensor mounted to a sensor housing. A carrier extends from the sensor housing in an angled orientation. A float is located within the carrier such that the float may move along a longitudinal axis of the carrier. A fragment is secured to the float, and the sensor detects a location of the fragment as the float moves within the carrier.

A liquid-level detection device includes a rotatable body that rotates in accordance with a liquid surface, a fixation body that includes a main body part fixed to a container and a supporting part projecting from the main body part in an axial direction along a rotation axis of the rotatable body to rotatably support the rotatable body, a pair of magnet parts that are held by the rotatable body in an arrangement positioning the supporting part therebetween and that generates a magnetic flux passing through the supporting part, and a detecting part that includes a magnetoelectric conversion device disposed in the supporting part and that outputs a detection result according to a density of the magnetic flux passing through the magnetoelectric conversion device. The rotatable body includes a magnetic shield member entirely covering a projection region of a space located between the pair of magnet parts, which is projected outward in the axial direction, to limit leakage of the magnetic flux. The magnetic shield member is located outward of the supporting part and the pair of magnet parts in the axial direction to include an exposed surface which is exposed into the container.