Secure human fingerprint sensor

What is claimed is: 1. A method for authenticating a request to access a locked mobile device equipped with a fingerprint detection module, the method comprising: operating a contact monitoring sensor on the mobile device to monitor when the contact monitoring sensor is touched to activate the fingerprint detection module to acquire a pattern of a fingerprint and when the contact monitoring sensor is not touched to deactivate the fingerprint detection module to not acquire a pattern of a fingerprint, wherein the fingerprint detection module includes a different sensor from the contact monitoring sensor; responsive to detecting a contact from an object with the fingerprint detection module based on output from the contact monitoring sensor, operating an optical detection module within the fingerprint detection module to direct probe light to the object and to detect light from the object to extract blood oxygen level information associated with a heartbeat of a living person from the detected light for determining whether the detected contact from the object is from human skin of a living person; responsive to determining that the detected contact from the object is from human skin, operating an image capturing module within the fingerprint detection module that is separated from the optical detection module to capture a spatial pattern of a contact part of the object for detecting fingerprint data; comparing the detected fingerprint data from the image capturing module against stored fingerprint profiles associated with an authorized user of the locked mobile device; and granting or denying the request to access the locked mobile device based on whether the heartbeat is present in the object based on detection by the optical detection module and the comparison of the detected fingerprint data from the image capturing module to stored fingerprint profiles associated with an authorized user of the locked mobile device. 2. The method of claim 1 , comprising: detecting a signal from the contact monitoring sensor indicating a contact from the object; and turning on the optical detection module to emit the probe light after a contact is detected at the contact monitoring sensor, thus saving power in the locked mobile device. 3. The method of claim 2 , wherein detecting the signal includes detecting an increase in a capacitive load coupled to the metal ring using circuitry integrated with the fingerprint detection module. 4. The method of claim 1 , wherein the image capturing module within the fingerprint detection module includes a capacitive fingerprint sensor capable of sensing fingerprint features and the optical detection module within the fingerprint detection module is located outside the capacitive fingerprint sensor. 5. The method of claim 1 , wherein determining whether the detected contact from the object is from human skin based on extracting blood oxygen level information associated with a heartbeat of a living person includes: emitting detection light of at least one selected wavelength using one or more light emitting sources within the fingerprint detection module; detecting at least a portion of the emitted detection light which is reflected off of the object making contact with the fingerprint detection module using at least one photodetection element within the fingerprint detection module; and processing output signals responsive to detecting of the at least a portion of the detection light from the at least one photodetection element corresponding to the at least one selected wavelength. 6. The method of claim 5 , wherein the at least one selected wavelength includes two wavelengths; and comparing a signal ratio of output signals corresponding to the two selected wavelengths with a predetermined value of the same signal ratio calibrated from human skin. 7. The method of claim 1 , wherein the determining whether the detected contact from the object is from human skin is performed using a signal processing circuit integrated with the fingerprint detection module. 8. The method of claim 1 , wherein the comparing the comparing of the detected fingerprint data from the image capturing module against stored fingerprint profiles associated with an authorized user of the locked mobile device includes: measuring one-directional (1D) skin profile of the human skin; and determining whether the 1D skin profile substantially matches a human fingerprint. 9. The method of claim 1 , wherein detecting the fingerprint data from the human skin includes using a detection circuit integrated with the fingerprint detection module. 10. The method of claim 1 , wherein the comparing the obtained fingerprint data against stored fingerprint profiles associated with an authorized user of the locked mobile device includes using an application processor of the mobile device. 11. The method of claim 5 , wherein granting or denying the request to access the locked mobile device based on the comparing includes: based on the detected presence of a heartbeat, granting the request to access the locked mobile device when the comparing confirms that the detected fingerprint data from the image capturing module matches one or more of the stored fingerprint profiles associated with an authorized user of the locked mobile device. 12. The method of claim 1 , wherein measuring a heartbeat of a living person from the detected light comprises measuring relative light reflection of the human skin of the detection light corresponding to the at least one selected wavelength emitted by the one or more light emitting sources. 13. The method of claim 1 wherein the optical detection module includes a light emitting source which includes one or more light emitting diode (LED) lights that produce the probe light. 14. The method of claim 13 where the light emitting source is modulated at a predetermined frequency and a detection circuit demodulates this frequency. 15. A method for authenticating a request to access a locked mobile device equipped with a fingerprint detection module for fingerprint sensing and a contact monitoring sensor at or near the fingerprint detection module for sensing a touch, comprising: operating the contact monitoring sensor to monitor when the contact monitoring sensor is touched to activate the fingerprint detection module to acquire a pattern of a fingerprint and when the contact monitoring sensor is not touched to deactivate the fingerprint detection module to not acquire a pattern of a fingerprint, wherein the fingerprint detection module includes a different sensor from the contact monitoring sensor; switching the fingerprint detection out of the standby mode to obtain measurements of a fingerprint input from the same person after the touch sensor indicates there is a touch on the fingerprint detection module; determining whether the detected contact provided by the person is from a live person; comparing fingerprint data from the obtained fingerprint input against one or more stored fingerprint profiles associated with an authorized user of the locked mobile device; determining granting or denying the person's access based on both of whether there is match in the fingerprint data and whether the detected contact indicates the contact is from a live person; and after completing the determining and after the contact monitoring sensor indicates there is not a touch on the fingerprint detection module, switching the fingerprint detection back to the standby mode to save power. 16. The method as in claim 15 , wherein the access is granted when there is match in the fingerprint data and the d