A system and a memory device including a driver circuit, to perform first operations including driving a resistor-capacitor (RC) sensor circuit of an electronic device to a drive voltage using a representative copy of a current that drives an electronic circuit line of the electronic device. The system and memory device including the RC sensor circuit, coupled to the driver circuit, to perform second operations including determining a first sample voltage by sampling a first representative voltage generated at the RC sensor circuit, and determining a second sample voltage by sampling a second representative voltage generated at the RC sensor circuit. The ratio of the first sample voltage and the second sample voltage is indicative of an RC time constant of the electronic circuit line.

A system and a memory device including a driver circuit, to perform first operations including driving a resistor-capacitor (RC) sensor circuit of an electronic device to a drive voltage using a representative copy of a current that drives an electronic circuit line of the electronic device. The system and memory device including the RC sensor circuit, coupled to the driver circuit, to perform second operations including determining a first sample voltage by sampling a first representative voltage generated at the RC sensor circuit, and determining a second sample voltage by sampling a second representative voltage generated at the RC sensor circuit. The ratio of the first sample voltage and the second sample voltage is indicative of an RC time constant of the electronic circuit line.

The invention belongs to the technical field of alarm sounding component, and relates to state detection of an alarm sounding component. The invention provides a state detection device of an alarm sounding component, comprising: a detection circuit for applying a detection signal to control detection of an equivalent load capacitor of the alarm sounding component that is capacitive; a sampling circuit for sampling feedback information of the equivalent load capacitor of the alarm sounding component when a signal of the detection signal is applied to the alarm sounding component to obtain a sampled signal; and a controller for generating the detection signal, and analyzing and processing the sampled signal to obtain state information which can reflect a fault condition of the alarm sounding component.

The invention belongs to the technical field of alarm sounding component, and relates to state detection of an alarm sounding component. The invention provides a state detection device of an alarm sounding component, comprising: a detection circuit for applying a detection signal to control detection of an equivalent load capacitor of the alarm sounding component that is capacitive; a sampling circuit for sampling feedback information of the equivalent load capacitor of the alarm sounding component when a signal of the detection signal is applied to the alarm sounding component to obtain a sampled signal; and a controller for generating the detection signal, and analyzing and processing the sampled signal to obtain state information which can reflect a fault condition of the alarm sounding component.

Systems and methods for increasing the reliability of a wireless communication connection in a connected system are provided. Such systems and methods can include a control panel, a wireless access point that connects the control panel to the Internet via a first wireless communication connection, and a connection reliability module coupled to the wireless access point. In some embodiments, when the control panel detects a fault on the first wireless communication connection, the control panel can transmit a signal to the connection reliability module via a second wireless connection that is different than the first wireless connection, and responsive to receiving the signal, the connection reliability module can power cycle the wireless access point.

Systems and methods for increasing the reliability of a wireless communication connection in a connected system are provided. Such systems and methods can include a control panel, a wireless access point that connects the control panel to the Internet via a first wireless communication connection, and a connection reliability module coupled to the wireless access point. In some embodiments, when the control panel detects a fault on the first wireless communication connection, the control panel can transmit a signal to the connection reliability module via a second wireless connection that is different than the first wireless connection, and responsive to receiving the signal, the connection reliability module can power cycle the wireless access point.

A resistor-capacitor (RC) sensor circuit includes an integration capacitor configured to integrate a representative copy of a current that drives an electronic circuit line. The integration capacitor is configured to integrate over a first time period to generate a first representative voltage and over a second time period to generate a second representative voltage. The RC sensor circuit includes a sampling circuit coupled to the integration capacitor and configured to sample the first representative voltage and the second representative voltage. A ratio of the first sampled voltage and the second sampled voltage is indicative of an RC time constant of the electronic circuit line.

A resistor-capacitor (RC) sensor circuit includes an integration capacitor configured to integrate a representative copy of a current that drives an electronic circuit line. The integration capacitor is configured to integrate over a first time period to generate a first representative voltage and over a second time period to generate a second representative voltage. The RC sensor circuit includes a sampling circuit coupled to the integration capacitor and configured to sample the first representative voltage and the second representative voltage. A ratio of the first sampled voltage and the second sampled voltage is indicative of an RC time constant of the electronic circuit line.

A fire protection system 100 includes one or more fire protection components 12 that can each generate messages indicating an event. Messages are determined to be indicative of either critical or non-critical events. Data associated with messages indicative of critical events is stored in a first collection of event data 32, while data associated with messages indicative of non-critical events is stored in a second different collection of event data 32.

The RC sensor circuit includes a driver circuit that includes an output configured to drive the RC sensor circuit to a drive voltage using a representative copy of a current that drives an electronic circuit line. The RC sensor circuit includes an integration capacitor. The integration capacitor is configured to integrate the representative copy of the current over a first time period to generate a first representative voltage and over a second time period to generate a second representative voltage. The RC sensor circuit includes a sampling circuit coupled to the integration capacitor. The sampling circuit is configured to determine a first sample voltage by sampling the first representative voltage and a second sample voltage by sampling the second representative voltage. A ratio of the first sample voltage and the second sample voltage is indicative of an RC time constant of the electronic circuit line.