The present disclosure provides a device and method of operation thereof relating to a manufacturing test block with a plug that has a contaminant within the plug. The manufacturing test block contains a plurality of apertures and a plug with a contaminant within it that is to be sensed by a detector. Specifically, the present disclosure relates to a manufacturing test block that is customizable in shape to a customer's needs that can be placed on a conveyor system in order to test for contaminants within the conveyor line full of packaged products while not interrupting the other packages.

The present disclosure provides a device and method of operation thereof relating to a manufacturing test block with a plug that has a contaminant within the plug. The manufacturing test block contains a plurality of apertures and a plug with a contaminant within it that is to be sensed by a detector. Specifically, the present disclosure relates to a manufacturing test block that is customizable in shape to a customer's needs that can be placed on a conveyor system in order to test for contaminants within the conveyor line full of packaged products while not interrupting the other packages.

A leak detection system includes a testing interface, which includes a rotation holder configured to retain and rotate a package. The testing interface includes a plunger apparatus configured to actuate a plunger to apply a pressure to the package before and/or during the package being inspected using a high voltage leak detection (HVLD) apparatus. The testing interface also includes a controller configured to operate and coordinate the operation of the testing interface with operation of the HVLD apparatus.

A leak detection system includes a testing interface, which includes a rotation holder configured to retain and rotate a package. The testing interface includes a plunger apparatus configured to actuate a plunger to apply a pressure to the package before and/or during the package being inspected using a high voltage leak detection (HVLD) apparatus. The testing interface also includes a controller configured to operate and coordinate the operation of the testing interface with operation of the HVLD apparatus.

A method for utilizing a lubricating oil composition in which the content of a metal-based cleaning agent (X) having a base value of 100 mgKOH/g or less is 630 mass ppm or less in terms of metal atoms, and the content of sulfated ash is 1.5 mass % or less. The method includes measuring at least one physical property value among the capacitance and the dielectric constant of the lubricating oil composition while using the lubricating oil composition, and evaluating the progress of degradation of the lubricating oil composition.

The present invention provides a method for controlling a speed of a polypeptide passing through a nanopore and use thereof in determining an amino acid sequence of a polypeptide. Specifically, the method comprises: conjugating a polynucleotide to the polypeptide to give a polynucleotide-polypeptide conjugate, and applying a voltage across the nanopore in the presence of a polynucleotide binding enzyme to move the conjugate through the nanopore. The polynucleotide binding enzyme controls the movement of the polynucleotide and thereby controls the movement of the conjugated polypeptide in the nanopore, thus controlling the speed of the polypeptide passing through the nanopore. While controlling the speed of the polypeptide, the present invention reads a nanopore current signal during the process of the polypeptide passing through the nanopore to give an electrical signal of the polypeptide. The electrical signal can be further used to acquire an amino acid sequence of the polypeptide, to identify the polypeptide or a part thereof, or to establish a library of polypeptide electrical signals.

The present invention provides a method for controlling a speed of a polypeptide passing through a nanopore and use thereof in determining an amino acid sequence of a polypeptide. Specifically, the method comprises: conjugating a polynucleotide to the polypeptide to give a polynucleotide-polypeptide conjugate, and applying a voltage across the nanopore in the presence of a polynucleotide binding enzyme to move the conjugate through the nanopore. The polynucleotide binding enzyme controls the movement of the polynucleotide and thereby controls the movement of the conjugated polypeptide in the nanopore, thus controlling the speed of the polypeptide passing through the nanopore. While controlling the speed of the polypeptide, the present invention reads a nanopore current signal during the process of the polypeptide passing through the nanopore to give an electrical signal of the polypeptide. The electrical signal can be further used to acquire an amino acid sequence of the polypeptide, to identify the polypeptide or a part thereof, or to establish a library of polypeptide electrical signals.

Disclosed herein are a soil moisture sensor and an operating method thereof. The soil moisture sensor includes a first probe including a pair of first electrodes extending in a first direction; a first resonance circuit connected to the pair of first electrodes of the first probe through a pair of first ports, and configured such that a first AC signal is applied thereto; a second resonance circuit having the same impedance as the first resonance circuit, and configured such that a second AC signal having the same characteristics as the first AC signal while being a reference AC signal is applied thereto; and a determination circuit configured to receive a first electrical signal and a second electrical signal and to determine the moisture in the soil based on the first resonant frequency of the first electrical signal and the second resonant frequency of the second electrical signal.

A microfluidic device, a microfluidic detection assembly and a detection method for the microfluidic device. The microfluidic device includes a first substrate and a second substrate; the first substrate and the second substrate are oppositely arranged to define a channel between the first substrate and the second substrate, the channel is configured for liquid to flow, the first substrate includes a base substrate and a plurality of control assemblies which are arranged on the base substrate along an extending direction of the channel, each of the plurality of control assemblies includes: a first electrode, a second electrode and a plurality of coils, and the first electrode is configured to input currents into the plurality of coils, and the plurality of coils are connected in parallel to the second electrode.

A method for functional testing of aerosol provision devices may include performing a functional state transition test of a power unit. The functional state transition test of the power unit may include extracting a unique identifier from the power unit of an aerosol provision device responsive to operable coupling of the power unit to a test fixture, determining a transition code based on the unique identifier, providing the transition code to the power unit via the test fixture to transition the power unit from an initial state to a transitioned state, and transitioning the power unit to the initial state.