Application-based power consumption optimization for sensing devices

What is claimed is: 1. An industrial sensor, comprising: a memory that stores computer-executable software components; and a processor, operatively coupled to the memory, that executes the computer-executable software components, the computer-executable software components comprising: a sensing component that detects occurrence of an event relating to operation of an industrial machine; an output control component that generates an output signal based on detection of the occurrence of the event, wherein the sensing component and the output control component operate in accordance with variable operating parameters that define a performance level of the industrial sensor, the variable operating parameters including at least a response time parameter defining a minimum duration between detection of the event by the industrial sensor and generation of the output signal and at least one of a sensing range, an operating frequency at which the output control component can switch the output signal between states, a level of immunity to environmental noise, a communication speed, or a visual interface setting; a mode detection component that measures a current operating speed of the industrial machine; and a profile control component that scales the response time parameter based on the current operating speed, wherein the mode detection component is further configured to receive input data indicating a current operating mode of the industrial machine, and the profile control component scales at least one of the variable operating parameters based on the current operating mode. 2. The industrial sensor of claim 1 , wherein the profile control component requests, via a configuration interface display, information regarding the sensing application, and selects one or more values for the variable operating parameters based on the information. 3. The industrial sensor of claim 2 , wherein the information regarding the sensing application comprises at least one of a type of the sensing application, a distance range within which the event must be detected by the industrial sensor before generating the output signal, an amount of environmental noise within an installation environment, a type of the environmental noise, or an amount of mechanical vibration at the installation environment. 4. The industrial sensor of claim 1 , wherein the memory comprises a profile storage area that stores multiple configuration profiles that define respective sets of values for the variable operating parameters, the profile control component selects a configuration profile from the multiple configuration profiles based on the characteristic of the sensing application, and selection of the configuration profile causes the industrial sensor to operate in accordance with a set of values for the variable operating parameters defined by the configuration profile. 5. The industrial sensor of claim 1 , wherein the computer-executable software components further comprise an environment detection component that measures an amount of mechanical vibration in proximity of the industrial sensor, wherein the profile control component scales at least one of the variable operating parameters based on the amount of mechanical vibration. 6. The industrial sensor of claim 1 , wherein the computer-executable software components further comprise an environment detection component that measures one or more environmental factors in proximity of the industrial sensor, wherein the profile control component scales at least one of the variable operating parameters based on the one or more environmental factors, and the one or more environmental factors comprise at least one of an amount of ambient environmental noise, an amount of air pollution in proximity of the industrial sensor, or an ambient temperature in proximity of the industrial sensor. 7. The industrial sensor of claim 1 , wherein the industrial sensor comprises one of a photoelectric sensor, a proximity sensor, a laser sensor, a two-dimensional optical area sensor, a three-dimensional optical area sensor, or a telemetry device. 8. A method, comprising: operating, by an industrial sensor comprising a processor, in accordance with variable operating parameters that define a performance level of the industrial sensor, the variable operating parameters comprising a response time parameter defining a minimum duration between detection of an event by the industrial sensor and generation of an output signal in response to the detection, and at least one of a sensing range, an operating frequency at which the output signal switches between states, a level of immunity to environmental noise, a communication speed, or a visual interface setting, receiving, by the industrial sensor, input data indicating a current operating mode of an industrial machine being monitored by the industrial sensor; scaling, by the industrial sensor, at least one of the variable operating parameters based on the current operating mode; measuring, by an industrial sensor comprising a processor, a current operating speed of the industrial machine; scaling, by the industrial sensor, the response time parameter of the industrial sensor based on the current operating speed to yield a scaled response time parameter; and operating, by the industrial sensor, in accordance with the scaled response time parameter. 9. The method of claim 8 , further comprising: determining, by the industrial sensor, a characteristic of a sensing application within which the industrial sensor is used; and scaling, by the industrial sensor, at least one of the variable operating parameters of the industrial sensor based on the characteristic. 10. The method of claim 9 , further comprising: generating, by the industrial sensor via a configuration interface, a series of prompts for information about the sensing application; and receiving, by the industrial sensor, the information in response to the generating, wherein the scaling the at least one of the variable operating parameters comprises scaling the at least one of the variable operating parameters based on the information. 11. The method of claim 10 , wherein the generating the series of prompts comprises requesting information regarding at least one of a type of the sensing application, a distance range within which the event must be detected by the industrial sensor before generating the output signal, an amount of ambient environmental noise within an installation environment, a type of the environmental noise, or an amount of mechanical vibration at the installation environment. 12. The method of claim 9 , wherein the scaling the at least one of the variable operating parameters based on the characteristic comprises: selecting, based on the characteristic of the sensing application, a configuration profile from a set of configuration profiles stored on a memory of the industrial sensor, wherein the set of configuration profiles define respective sets of values for the variable operating parameters; and loading a set of values for the variable operating parameters defined by the configuration profile. 13. The method of claim 9 , further comprising: measuring, by the industrial sensor, one or more environmental factors within a sensing environment of the industrial sensor, wherein the one or more environmental factors comprise at least one of an amount of ambient noise, mechanical vibration, an amount of air pollution in the sensing environment, or a temperature; and scaling the at least one of the variable operating parameters further based on the one or more environmental factors. 14. A non-transitory