Sensor device for use in controlling irrigation

What is claimed is: 1. A wireless rain and temperature sensor comprising: a housing at least partially covering a first sensor, a controller and a wireless transmitter; the first sensor comprising a moisture absorptive material located to be contacted by rain fall and configured to expand in response to the contact with the rain fall and contract in response to an absence of the rain fall, wherein the moisture absorptive material comprises a plurality of hygroscopic material disks wherein the first sensor further comprises a component coupled to a first portion of the moisture absorptive material and configured to move with the expansion and contraction of the moisture absorptive material; and wherein there is no rain fall threshold set at the wireless rain sensor; a temperature sensor at least partially covered by the housing; the controller coupled to the first sensor and configured to output signals corresponding to a variable amount of expansion and contraction of the moisture absorptive material, wherein the controller is coupled to the temperature sensor and configured to output signals corresponding to a variable air temperature; and the wireless transmitter configured to transmit wireless signals, at least one wireless signal comprising data corresponding to the variable amount of expansion and contraction of the moisture absorptive material and additional data corresponding to the variable air temperature. 2. The wireless rain and temperature sensor of claim 1 wherein the wireless transmitter transmits wireless signals comprising the data corresponding to the variable amount of expansion of the moisture absorptive material independent of the variable amount of expansion of the moisture absorptive material. 3. The wireless rain and temperature sensor of claim 1 wherein the wireless transmitter transmits wireless signals comprising the data corresponding to the variable amount of expansion of the moisture absorptive material independent of a rain fall threshold. 4. The wireless rain and temperature sensor of claim 1 wherein a second portion of the moisture absorptive material is fixed such that the moisture absorptive material expands in a direction away from the second portion and the component moves in the direction away from the second portion. 5. The wireless rain and temperature sensor of claim 1 wherein the first portion of the moisture absorptive material is opposite the second portion. 6. The wireless rain and temperature sensor of claim 1 wherein the first sensor further comprises a spring fixed at one end and coupled at a second end to the component, wherein the spring is configured to cause the component to apply biasing pressure on the moisture absorptive material against expansion of the moisture absorptive material. 7. The wireless rain and temperature sensor of claim 1 wherein the first sensor further comprises: a first element; a second element coupled to the component and configured to move with the component and relative to the first element causing a change in a variable corresponding to the amount of rain; and wherein the controller is configured to measure the variable, the variable corresponding to the amount if expansion and contraction of the moisture absorptive material.