Safety electronic device for presence detection inside a vehicle

The invention claimed is: 1. A device, comprising: a printed circuit board; an audio sensor coupled to the printed circuit board and configured to detect an adult voice and a child's voice as different from one another in a passenger compartment of a vehicle; a motion sensor coupled to the printed circuit board and configured to detect whether the vehicle is in a still state; and a processing circuit coupled to the printed circuit board and coupled to the audio and motion sensors, wherein in operation, the processing circuit: processes sensor data of the motion sensors to determine that the vehicle is in the still state; and processes the sensor data of the audio sensor in one or more of a time domain or a frequency domain to identify a sound characteristic pattern indicative of the child's voice as different from the adult voice in the passenger compartment of the vehicle. 2. The device of claim 1 wherein the audio sensor is configured to detect sound characteristic of a cry of a child in one or more of a time domain or a frequency domain. 3. The device according to claim 1 wherein the audio sensor is configured to detect a sound characteristic pattern of the adult voice in one or more of a time domain or a frequency domain. 4. The device of claim 1 wherein the processing circuit is configured to process the sensor data of the audio sensor in one or more of the time domain or the frequency domain to identify a sound characteristic pattern indicative of the adult voice in the passenger compartment of the vehicle. 5. The device of claim 1 wherein the processing circuit is configured to process the sensor data of the audio sensor in one or more of the time domain or the frequency domain to identify that the sensor data does not contain the sound characteristic pattern of the adult voice in the passenger compartment of the vehicle. 6. The device according to claim 1 wherein the audio sensor is configured to detect a sound characteristic pattern of dog bark in one or more of a time domain or a frequency domain. 7. The device of claim 6 wherein the processing circuit is configured to process the sensor data of the audio sensor in one or more of the time domain or the frequency domain to identify a sound characteristic pattern indicative of a dog barking in the passenger compartment of the vehicle. 8. The device of claim 1 wherein the processing circuit is configured to analyze the sensor data of the audio sensor to determine temporal repeatability or a predominant frequency of an audio signal represented by the sensor data. 9. The device of claim 1 wherein the audio sensor is configured to detect sound characteristic pattern of a noise in one or more of a time domain or a frequency domain. 10. The device of claim 9 wherein the processing circuit is configured to process the sensor data of the audio sensor in one or more of the time domain or the frequency domain to identify a sound characteristic pattern indicative of the noise in the passenger compartment of the vehicle. 11. The device of claim 10 wherein the processing circuit performs noise cancellation on the sensor data of the audio sensor in response to the sound characteristic pattern of the noise being identified in the sensor data of the audio sensor. 12. The device of claim 1 wherein a movement sensor includes a MEMS accelerometer sensor and a MEMS gyroscope sensor configured to detect a linear-acceleration signal and an angular-acceleration signal of the vehicle, and the processing circuit is configured to process the linear-acceleration signal and an angular-acceleration signal to identify patterns indicative of a movement state or the still state of the vehicle. 13. The device of claim 1 , comprising a temperature sensor configured to detect a temperature signal indicative of a temperature in the vehicle, wherein the processing circuit is configured to process the temperature signal to determine a situation of danger as a function of the temperature. 14. The device of claim 13 wherein the processing circuit is configured to evolve in a state of the situation of danger from a first level of danger to a second level of danger in response to the processing of the temperature signal detecting presence of an environmental condition that is harmful for a child in the passenger compartment of the vehicle. 15. A device installed in a vehicle, comprising: an electronic detection circuit including: an audio sensor that in operation senses a sound signal in a passenger compartment; a movement sensor that in operation senses a movement signal indicating a movement state of the vehicle; an environmental sensor that in operation senses an environmental signal of an environmental condition of the passenger compartment; and a processing circuit coupled to the audio, movement and environmental sensors and that in operation: processes the movement, and the environmental signals to determine that the vehicle is in a non-movement state and the environmental condition of the passenger compartment is harmful for a child; and processes sensor data of the audio sensor in one or more of a time domain or a frequency domain to identify a sound characteristic pattern indicative of a child's voice as different from an adult's voice in the passenger compartment of the vehicle. 16. The device of claim 15 wherein the electronic detection circuit includes a printed circuit board that is attached to a child's seat in the passenger compartment, the audio sensor, the movement sensor, and the environmental sensor are coupled to the printed circuit board. 17. A method, comprising: acquiring a sound-sensing signal in a passenger compartment of a vehicle; acquiring a movement-sensing signal of the vehicle; acquiring an environmental-sensing signal in the passenger compartment of the vehicle; detecting a child is in the passenger compartment and no responsible person is in the passenger compartment of the vehicle by evaluating the sound-sensing signals in one or more of a time domain or a frequency domain to identify a voice of the child as different from an adult's voice; determining that the movement-sensing signal is indicative of a non-movement state of the vehicle; determining that the environmental-sensing signal is indicative of a harmful condition in the passenger compartment for the child; and transmitting a communication indicative of the child being in the passenger compartment with no responsible person. 18. The method of claim 17 wherein the processing the sound-sensing signal includes processing the sound-sensing signal in one or more of a time domain and a frequency domain to identify a sound characteristic pattern indicative of the child crying in the vehicle and to identify a sound characteristic of adult speech is not contained in the sound signal. 19. The method of claim 17 wherein the processing the sound-sensing signal includes processing the sound-sensing signal in one or more of a time domain and a frequency domain to identify a sound characteristic pattern indicative of the movement state of the vehicle.