Certain aspects relate to systems and usage techniques for modular lateral flow assay reader devices that can receive a number of different modules having a barcode scanning input device and optional network connectivity capabilities. A barcode scanning module can provide a simple input method that reduces errors compared to manual data entry. A network connectivity module can enable transmission of test results over a public network for standardizing, tracking and electronically connecting test results from assay reader devices located throughout a network. Such devices can programmatically implement a simplified workflow whereby pressing a single button readies the device for imaging, analyzing, and data storage/transmission and, in some implementations, configures the device to operate in one of a plurality of device operation modes.

Certain aspects relate to systems and usage techniques for modular lateral flow assay reader devices that can receive a number of different modules having a barcode scanning input device and optional network connectivity capabilities. A barcode scanning module can provide a simple input method that reduces errors compared to manual data entry. A network connectivity module can enable transmission of test results over a public network for standardizing, tracking and electronically connecting test results from assay reader devices located throughout a network. Such devices can programmatically implement a simplified workflow whereby pressing a single button readies the device for imaging, analyzing, and data storage/transmission and, in some implementations, configures the device to operate in one of a plurality of device operation modes.

A current sensor element includes a resistance section, a first electrically conductive connection section connected to a first end of the resistance section and having a first voltage measurement contact, and a second electrically conductive connection section connected to a second end of the resistance section and having a second voltage measurement contact and a third voltage measurement contact. The first electrically conductive connection section and the second electrically conductive connection section are connectable to feed a current to be measured through the resistance section. The first voltage measurement contact, the second voltage measurement contact, and the third voltage measurement contact are arranged in a way that a first resistance between the first voltage measurement contact and the second voltage measurement contact is smaller than a second resistance between the first voltage measurement contact and the third voltage measurement contact.

Provided is a current detecting device comprising a current detecting resistor including a pair of electrodes and a resistive element; a pair of lands on which the current detecting resistor is adapted to be mounted; connection portions adapted to connect the two electrodes and the two lands, respectively; and a pair of wires connected to the two respective electrodes and adapted to detect a voltage. Positions where the two wires are connected to the two respective electrodes are located in regions on a further inner side than inner ends of the connection portions.

A method for monitoring the power consumption of an electrical consumer that has a capacitive load and the controllable circuit element and the consumer are connected in series. The amplitude of the current flowing through the consumer, the voltage dropping across the consumer, and the change over time of the voltage dropping across the consumer are sensed. An allowed operating current amplitude is calculated from the voltage dropping across the consumer and from a predefined power. A charging current amplitude of the capacitive load is calculated from the change over time of the voltage dropping across the consumer. An allowed instantaneous current amplitude is calculated. The allowed instantaneous current amplitude is compared with the amplitude of the current flowing through the consumer and the electrical resistance of the circuit element is increased if the amplitude of the current flowing through the consumer is greater than the allowed instantaneous current amplitude.

An integrated circuit that can include a driver having a first driver output, and a first resistance coupled between a first node coupled to the first driver output and a second node. The first resistance can include a process resistor including a first material having a first temperature coefficient, and an interconnect resistor configured to provide at least 20% of the first resistance and including a second material having a second temperature coefficient which changes resistance in an opposite direction with temperature as compared to the first temperature coefficient. A first terminal of the interconnect resistor is directly connected to a first terminal of the process resistor.

A packet intercept system includes probes along the field area network. A portion of the probes are mobile probes configured to receive and process a global positioning system signal. Intercepting by the mobile probes includes implementing a global positioning tag in each packet in the traffic data stream intercepted by the mobile probes, the global positioning tag includes a timestamp and global positioning system coordinates, derived from the global position system signal. The packet intercept system backhauls the traffic data stream to an additional network that is distinct from the field area network. Processors on the additional network obtain the traffic data stream and process the stream into a live traffic data stream by ordering each packet intercepted by the mobile probes in the processed live traffic data stream, based on the timestamp. The processors analyze the processed live traffic data stream.

A current sense resistor integrated with an integrated circuit die where the integrated circuit die is housed in a flip-chip semiconductor package includes a metal layer formed over a passivation layer of the integrated circuit die where the metal layer having an array of metal pillars extending therefrom. The metal pillars are electrically connected to a first leadframe portion and a second leadframe portion of the semiconductor package where the first leadframe portion and the second leadframe portion are electrically isolated from each other and physically separated by a separation of a first distance. The current sense resistor is formed in a portion of the metal layer spanning the separation between the first and second leadframe portions, the first and second leadframe portions forming terminals of the current sense resistor.

A method of operating an inverter including the steps of detecting the temperature of the at least one electrolytic capacitor; selecting at least one of a plurality of switching patterns based on the temperature of the at least one electrolytic capacitor; and generating a ripple current across the at least one electrolytic capacitor by operating the inverter from the at least one of the plurality of switching patterns for preheating of the at least one electrolytic capacitor.

A test circuit includes a pull-up device, a pull-down device, a switch circuit and a voltage-setting unit. The pull-up device is used to receive a first control signal and coupled to a first end of the device-under-test. The pull-down device is used to receive a second control signal and coupled to the first end of the device-under-test. The switch unit is controlled by a switch signal, used to receive a testing signal and coupled to a second end of the device-under-test. The voltage-setting unit is controlled by a third control signal, used to pull the second end of the device-under-test to a predetermined voltage.