Wireless transceiver

What is claimed is: 1. A method for monitoring and reporting environmental conditions within a building, comprising: receiving, with a monitoring station configured to communicate using wireless communication and power-line communication, a message that includes a smoke indication and a checksum, the smoke indication indicating the existence of an emergency condition, the message including the smoke indication being generated by, and communicated using the wireless communication from, a sensor unit in response to the sensor unit detecting, with a smoke sensor, an amount of smoke within the building that is above a threshold value for the amount of smoke, the sensor unit including a location identifier that identifies a location of the sensor unit within the building; receiving, by the monitoring station, the location identifier from the sensor unit when the message is generated by and communicated from the sensor unit, wherein an indication of the location of the sensor unit is associated with the received location identifier; generating a notification of the emergency condition, the notification including the indication of the location of the sensor unit; and causing, by the monitoring station and via the power-line communication, the notification of the emergency condition for the amount of smoke to be communicated, via the Internet, to a user device. 2. The method of claim 1 , wherein the sensor unit includes a carbon monoxide sensor, the method comprising: receiving, from the sensor unit, a carbon monoxide indication that indicates the existence of the emergency condition, the carbon monoxide indication indicating that a level of carbon monoxide detected by the carbon monoxide sensor is above of a threshold value for the level of carbon monoxide; and causing a notification of the emergency condition for the level of carbon monoxide to be communicated to the user device. 3. The method of claim 1 , wherein the sensor unit includes: a controller coupled to one or more sensors for sensing at least one environmental condition of the building, the one or more sensors including the smoke sensor; and a transceiver coupled to the controller and operable to communicate with the monitoring station. 4. The method of claim 3 , wherein the sensor unit operates in one of: a low-power mode in which the controller operates with the one or more sensors to sense the at least one environmental condition of the building and the transceiver is disabled; or an alert mode in which the controller operates with the one or more sensors to sense the at least one environmental condition of the building and the transceiver is enabled to communicate with the base unit. 5. The method of claim 4 , wherein the sensor unit is configured to operate in the alert mode during the existence of the emergency condition, and configured to operate in the low-power mode when the emergency condition does not exist. 6. The method of claim 1 , wherein a spread-spectrum technique is used for said receiving the message. 7. A system for monitoring and reporting environmental conditions within a building, the system comprising: a monitoring station configured to: communicate using wireless communication and power-line communication; receive a message that includes an emergency condition indicator and an authenticity portion for use in verifying an authenticity of the message, from a sensor unit that generates the message and communicates the message using the wireless communication, the emergency condition indicator indicating the existence of an emergency condition, the sensor unit including a smoke sensor configured to detect an amount of smoke within the building that is above of a threshold value for the amount of smoke, the sensor unit including a location identifier that identifies a location of the sensor unit within the building; receive the location identifier from the sensor unit when the message is generated by and communicated from the sensor unit, wherein an indication of the location of the sensor unit is associated with the received location identifier; in response to the emergency condition indicator received from the sensor unit, generate a notification of the emergency condition, the notification including the indication of the location of the sensor unit; and cause, via the power-line communication, the notification of the emergency condition for the amount of smoke to be communicated, via the Internet, to a user device. 8. The system of claim 7 , wherein: the sensor unit includes a carbon monoxide sensor configured to detect a level of carbon monoxide that is above a threshold value for the level of carbon monoxide; and the monitoring station is configured to receive the emergency condition indicator for the level of carbon monoxide detected by the carbon monoxide sensor, and cause a notification of the emergency condition for the level of carbon monoxide to be communicated to the user device. 9. The system of claim 7 , wherein the sensor unit includes: a controller coupled to one or more sensors for sensing at least one environmental condition of the building, the one or more sensors including the smoke sensor; and a transceiver coupled to the controller and operable to communicate with the monitoring station. 10. The system of claim 9 , wherein the sensor unit is configured to operate in one of: a low-power mode in which the controller operates with the one or more sensors to sense the at least one environmental condition of the building and the transceiver is disabled; or an alert mode in which the controller operates with the one or more sensors to sense the at least one environmental condition of the building and the transceiver is enabled to communicate with the monitoring station. 11. The system of claim 10 , wherein the sensor unit is configured to operate in the alert mode during the existence of the emergency condition, and configured to operate in the low-power mode when the emergency condition does not exist. 12. The system of claim 7 , wherein: the sensor unit comprises different types of sensors; and the monitoring station is configured to receive a different emergency condition indicator from the sensor unit based on which sensor of the different types of sensors is activated having detected the emergency condition. 13. The system of claim 7 , wherein the sensor unit further includes a humidity sensor and a temperature sensor. 14. The system of claim 7 , wherein the monitoring station is configured to communicate with the sensor unit using a spread-spectrum technique. 15. The system of claim 7 , further comprising a repeater configured to: receive the message from the sensor unit; and transmit the received message to the monitoring station. 16. The system of claim 7 , wherein the monitoring station is configured to communicate one or more control commands to the sensor unit for controlling an operation of the sensor unit. 17. A device for monitoring and reporting environmental conditions within a building, the device comprising: one or more transceivers to communicate using wireless communication or power-line communication; and a controller operatively coupled to the one or more transceivers and configured to: receive an encrypted message that includes a smoke indication, the smoke indication indicating the existence of an emergency condition, the encrypted message including the smoke indication being generated by, and communicated using the wireless communication from, a sensor unit in response to the sensor unit detecting with a smoke sensor, an amoun