A remote radio frequency (RF) power sensing unit including a first module and a second module. The first module may be configured to generate a digital output representative of a power level of a radio frequency (RF) signal. The second module may be configured to convert the digital output of the first module to a digital signal communicating the power level and transmit the digital signal communicating the power level over a wireless communication channel using a wireless protocol.

A remote radio frequency (RF) power sensing unit including a first module and a second module. The first module may be configured to generate a digital output representative of a power level of a radio frequency (RF) signal. The second module may be configured to convert the digital output of the first module to a digital signal communicating the power level and transmit the digital signal communicating the power level over a wireless communication channel using a wireless protocol.

In accordance with an embodiment a device is usable to measure radio frequency (RF) signals including microwave signals to provide an alarm when a power level at its input exceeds predetermined levels. A user can attach the device to a coax cable on a microwave or wireless tower to determine if certain power levels are present and what levels are exceeded. If high power is indicated by the device, the user will then avoid attaching that coax cable to other measurement equipment which would be damaged by excessive RF power. The device is further usable, for example, to apply power to one coax cable in a cable bundle then identify which cable of the bundle is getting the power by connecting the device on the output end of each coax in the bundle, one by one.

A power detector for detecting the RMS power of an AC voltage includes a transconductor configured to receive the AC voltage and to provide a first current to a node with a non-linear relation between the first current and the voltage. A current output digital to analog converter is configured to receive a digital signal and to provide a second current to the node. A low pass filter is coupled to the node, and an inverter is coupled to the node and configured to provide a binary signal.

A power detector for detecting the RMS power of an AC voltage includes a transconductor configured to receive the AC voltage and to provide a first current to a node with a non-linear relation between the first current and the voltage. A current output digital to analog converter is configured to receive a digital signal and to provide a second current to the node. A low pass filter is coupled to the node, and an inverter is coupled to the node and configured to provide a binary signal.

A remote radio frequency (RF) power sensing unit includes a first module and a second module. The first module may be configured to generate an analog signal representative of a power level of a radio frequency (RF) signal. The second module may be configured to (i) receive a particular frequency of a plurality of frequencies over a wireless communication channel from a device, (ii) generate a value conveying a magnitude of said power level of said RF signal in response to said analog signal, (iii) convert said value into a digital signal communicating said power level based on said particular frequency indexed into a table, and (iv) transmit said digital signal communicating said power level and information identifying said radio frequency power sensing unit over said wireless communication channel to said device.

A remote radio frequency (RF) power sensing unit includes a first module and a second module. The first module may be configured to generate an analog signal representative of a power level of a radio frequency (RF) signal. The second module may be configured to (i) receive a particular frequency of a plurality of frequencies over a wireless communication channel from a device, (ii) generate a value conveying a magnitude of said power level of said RF signal in response to said analog signal, (iii) convert said value into a digital signal communicating said power level based on said particular frequency indexed into a table, and (iv) transmit said digital signal communicating said power level and information identifying said radio frequency power sensing unit over said wireless communication channel to said device.

A radio frequency (RF) power detector includes a first circuit having a first rectifying diode with a first terminal coupled to a first power supply voltage node. The first circuit also includes an input terminal coupled to a second terminal of the first rectifying diode, a first transistor having a first collector coupled to the second terminal of the first rectifying diode and a first emitter coupled to a reference voltage node, and a second transistor having a second emitter coupled to the reference voltage node and a second collector coupled to a second power supply voltage node. The first circuit further includes a low-pass filter network coupled between a first base of the first collector and a second base of the second transistor, and a first output terminal coupled to the second collector of the second transistor.

A radio frequency (RF) power detector includes a first circuit having a first rectifying diode with a first terminal coupled to a first power supply voltage node. The first circuit also includes an input terminal coupled to a second terminal of the first rectifying diode, a first transistor having a first collector coupled to the second terminal of the first rectifying diode and a first emitter coupled to a reference voltage node, and a second transistor having a second emitter coupled to the reference voltage node and a second collector coupled to a second power supply voltage node. The first circuit further includes a low-pass filter network coupled between a first base of the first collector and a second base of the second transistor, and a first output terminal coupled to the second collector of the second transistor.

A system includes a first circuit and a second circuit. The first circuit includes a first MOS transistor having a gate and a drain. The first circuit is configured to receive a radio frequency (RF) signal at the gate of the first MOS transistor. The drain of the first MOS transistor is configured to output a first current that is proportional to the square of the input voltage of the RF signal while receiving the RF signal. The second circuit includes a second MOS transistor having a source configured to receive a first current from the first circuit. The second MOS transistor is biased in a triode region and has a channel resistance between the source and a drain. The second circuit is configured to output a voltage proportional to the value of the power of the RF signal received by the first circuit.