Systems and Methods for Improving Throughput, Precision, and Accuracy in Electronic Trace Detectors

We claim: 1 . A method for clearing a trace detector of one or more substances, wherein the trace detector comprises a desorber in flow communication with a detector and wherein the detector comprises a detector input, a first port, and a second port, the method comprising: operating a detector pump, wherein the detector pump is configured to direct air flow through a first valve to an inlet of the desorber and direct air flow through the first port to the detector; operating a sample pump, wherein the sample pump is configured to direct air flow from the second port of the detector; using the desorber, vaporizing the one or more substances; using the detector, initiating a detection process for a first predefined time period in order to detect a presence of the one or more substances; in response to detecting the presence of the one or more substances, generating an alarm indicating the presence of at least one contaminant or interferant; in response to detecting the presence of the one or more substances, automatically terminating detection before the first predefined period of time has elapsed; after terminating detection, clearing the detector, wherein clearing the detector comprises, for a second predefined period of time: stopping air flow out of the second port of the detector; closing the first valve to stop air flow from the detector pump to the inlet of the desorber; and increasing air flow from the detector pump to the first port to the detector. 2 . The method of claim 1 , further comprising causing an amount of the contaminants or the interferants in the trace detector to become less than a configurable amount, wherein the configurable amount ranges from 60 to 80% of a detectable signal intensity required to generate an alarm. 3 . The method of claim 1 further comprising, after the second predefined period of time, opening the first valve and re-directing air flow through the first valve to the inlet of the desorber, thereby re-initiating air flow out of the second port of the detector. 4 . The method of claim 1 , wherein the detector pump is driven at a maximum voltage corresponding to a maximum flow rate and pressure of the detector. 5 . The method of claim 1 , wherein the contaminants comprise one or more of TNT, RDX, Tetryl, nitrates, PETN, HMTD, lactic acid, interferences, or narcotics. 6 . The method of claim 1 wherein the detector is at least one of an ion mobility spectrometer (IMS), an ion trap mobility spectrometer (ITMS), a drift spectrometer (DS), a non-linear drift spectrometer, a field ion spectrometer (FIS), a radio frequency ion mobility increment spectrometer (IMIS), a field asymmetric ion mobility spectrometer (FAIMS), an ultra-high-field FAIMS, a differential ion mobility spectrometer (DIMS), a differential mobility spectrometer (DMS), a traveling wave ion mobility spectrometer, a mass spectrometer (MS), or a gas chromatograph (GC). 7 . The method of claim 1 wherein the interferents comprise at least one of a health product, a beauty product, food, drink, dirt, dust, oil, or grease. 8 . The method of claim 1 further comprising, using the sample pump, generating one or a plurality of pressure pulses. 9 . The method of claim 1 wherein stopping air flow out of the second port of the detector comprises at least one of closing a second valve positioned between the sample pump and the second port or stopping the sample pump. 10 . The method of claim 1 wherein the second predefined period of time ranges from one second to 60 seconds. 11 . The method of claim 1 wherein the second predefined period of time is based on at least one of a sample size or substance type. 12 . The method of claim 1 further comprising, after the second predefined period of time: measuring a residual presence of the one or more substances; determining an alarm condition based on a residual presence of the one or more substances; and repeatedly clearing the detector based on the determined alarm condition. 13 . The method of claim 12 further comprising preparing the detector for further sampling if the alarm condition indicates the residual presence of the one or more substances below a predefined threshold. 14 . The method of claim 1 further comprising performing a clearing of the detector after a predetermined amount of operating time of the trace detector is completed. 15 . A trace detection system adapted to detect a presence of one or more substances, comprising: a housing; a first pump positioned in the housing and configured to direct air from outside the housing; a detector positioned in the housing, wherein the detector comprises a first port configured to receive a sample gas flow and a second port in flow communication with the first pump; a second pump positioned in the housing, wherein the second pump is in flow communication with the first port and is configured to generate the sample gas flow; a desorber positioned in the housing and in flow communication with the first pump; a first valve positioned between the desorber and the first pump; and a controller configured to: operate the trace detection system in a first mode for a first period of time wherein in the first mode: the first pump is configured to direct air flow through the first valve to an inlet of the desorber and direct air flow through the second port of the detector; the second pump is configured to direct air flow from the first port of the detector; the desorber is configured to vaporize the one or more substances; the detector is configured to detect a presence of the one or more substances and, in response to detecting the presence of the one or more substances, generate an alarm and terminate the first mode prior to the first predefined period of time elapsing; operate the trace detection system in a second mode wherein in the second mode: the detector is configured to be cleared for a second predefined period of time by stopping air flow out of the first port of the detector, closing the first valve to stop air flow from the first pump to the inlet of the desorber, and increasing air flow from the first pump to the second port of the detector. 16 . The trace detection system of claim 15 wherein, after the second predefined period of time, the controller is configured to open the first valve and re-direct air flow through the first valve to the inlet of the desorber, thereby re-initiating air flow out of the first port of the detector. 17 . The trace detection system of claim 15 further comprising, using the second pump, generating a plurality of pressure pulses. 18 . The trace detection system of claim 15 wherein the controller is configured to stop air flow out of the first port of the detector by closing a second valve positioned between the second pump and the first port or stopping the second pump. 19 . The trace detection system of claim 15 wherein the second predefined period of time ranges from one second to 60 seconds. 20 . The trace detection system of claim 15 wherein the second predefined period of time is based on at least one of a sample size or substance type. 21 . The trace detection system of claim 15 wherein, after the second predefined period of time, the controller is configured to: measure a residual presence of the one or more substances; determine an alarm condition based on a residual presence of the one or more substances; and repeat clearing the detector based on the determined alarm condition.