Low-cost radon detector
First Claim
1. A detector for alpha particles produced by radioactive decay in a test medium, comprising:
- a solid state diode having a depletion layer disposed close enough to the test medium that alpha particles emitted in the test medium deposit energy in the depletion layer;
a first amplifier connected to amplify a signal produced by the diode, the first amplifier being operable to produce an output pulse upon energy being deposited in the depletion layer;
a second amplifier having at least one connection in common with the first amplifier, the second amplifier having inputs connected other than to the signal produced by the diode, whereby both the first and second amplifiers produce output pulses due to transients and only the first amplifier produces output pulses due to alpha particles; and
,logic means operable to sense output pulses occurring on the first amplifier only, and to ignore output pulses occurring on both the first and second amplifiers.
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Accused Products
Abstract
A low-cost radon detector using a solid state diode having a depletion layer disposed close enough to a test medium that alpha particles deposit their energy in the depletion layer. The signal produced by the diode is amplified and pulses are discriminated for levels over a threshold typical of pulse levels produced by radioactive decay of radon daughters on the surface of the sensor. More than one amplifier and threshold detector are provided, and the sensor can have plural solid state diodes. Pulses occurring exclusively on one channel are counted and pulses occurring in coincidence on more than one channel are ignored as instances of transient disturbance. A conductive enclosure around the sensor element can be biased to force radon daughter ions to plate out the sensor, whereupon decay of the daughters produces pulses falling closely into pulse height ranges well above the noise threshold. Pulse counts and time lapse are monitored both long term and short term.
53 Citations
26 Claims
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1. A detector for alpha particles produced by radioactive decay in a test medium, comprising:
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a solid state diode having a depletion layer disposed close enough to the test medium that alpha particles emitted in the test medium deposit energy in the depletion layer; a first amplifier connected to amplify a signal produced by the diode, the first amplifier being operable to produce an output pulse upon energy being deposited in the depletion layer; a second amplifier having at least one connection in common with the first amplifier, the second amplifier having inputs connected other than to the signal produced by the diode, whereby both the first and second amplifiers produce output pulses due to transients and only the first amplifier produces output pulses due to alpha particles; and
,logic means operable to sense output pulses occurring on the first amplifier only, and to ignore output pulses occurring on both the first and second amplifiers. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A radon detector responsive to alpha emissions of radon daughters, comprising:
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a solid state diode sensor element havinga depletion layer disposed close enoughto a surface exposed to a test sample that alpha particles produced by radioactive decay adjacent the surface deposit energy in the depletion layer, the sensor element being at least one low cost standard grade photovoltaic diode; an enclosure partly surrounding the sensor element including a conductive shell, ambient gases diffusing into the enclosure, the conductive shell and the sensor being biased at a low DC voltage to produce a low DC voltage gradiant more positive on the conductive shell, whereby positively charged ions including radon daughters in the immediate vicinity of the sensor are drawn to the sensor and alpha decays of the radon daughters adjacent the sensor tend to occur directly on the sensor; a voltage sensitive amplifier operable to amplify a voltage pulse in the sensor element occurring due to said energy deposited in the depletion layer, and to produce an amplified pulse; and
,at least one threshold detector operable to discriminate amplified pulses from the sensor element according to pulse level, the level being chosen high eneough to exclude alpha emissions characteristic of radon decay remote from the sensor element and to include alpha emissions characteristic of decay of radon daughters immediately on the sensor. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A radon detector responsive to alpha emissions of radon daughters, comprising:
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a solid state diode sensor element having a depletion layer disposed close enough to a surface exposed to a test sample that alpha particles produced by radioactive decay adjacent the surface deposit energy in the depletion layer; an enclosure partly surrounding the sensor element including a conductive shell, ambient gases diffusing into the enclosure, the conductive shell and the sensor being biased to produce a DC voltage gradiant more positive on the conductive shell, whereby positively charged ions including radon daughters are drawn to the sensor; at least one threshold detector operable to discriminate pulses produced by the sensor element according to pulse level, the level being chosen high enough to exclude alpha emissions characteristic of radon decay remote from the sensor element and to include alpha emissions characteristic of energy levels emitted during radioactive decay of at least one of polonium 210, polonium 214 and polonium 218, occurring directly on the surface of the sensor element; means to count discriminated pulses and to compare an actual count to an expected count for a known radon concentration, plus a background count; and
,means for increasing the expected background count over time, such that a count reflecting radioactive emissions of previously-plated radon daughters on the sensor element are added to correct the background count.
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23. A radon detector responsive to alpha emissions of radon daughters, comprising:
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a solid state diode sensor element having a depletion layer disposed close enough to a test sample that alpha particles produced by radioactive decay in the test sample deposit energy in the depletion layer; an amplifier connected to amplify pulses produced by the sensor element due to the energy deposited in the depletion layer; a threshold detector operable to discriminate amplified pulses from the amplifier as pulses in a predetermined pulse height range; a logic and timing means operable to count the pulses in the predetermined pulse height range and to determine lapse of time, the logic means having means defining a test interval, operative to count a number of said pulses up to a maximum pulse count and operative to sense lapse of time up to a maximum time interval, the maximum pulse count and the maximum time interval being a pulse count and a time interval chosen to reach a predetermined statistical confidence level respecting a concentration of radon at a given threshold concentration in sampled air in the enclosure, and wherein reaching the maximum pulse count prior to the maximum time interval is arranged to initiate an at-risk indicating condition and reaching the maximum time interval prior to the maximum pulse count is arranged to initiate a safe indicating condition, whereupon the pulse count and the sensed time, are reset, the logic and timing means further comprising at least two registers for long term risk assessment, one of the registers accumulating pulse counts and the other of the registers accumulating a count of long term risk assessment intervals, said long term risk assessment intervals being equal to an average lapse of time between pulses at the given threshold concentration, whereby a comparison of contents of the registers reflects average concentration over and under the given threshold concentration.
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24. A radon detector, comprising:
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means for producing and counting pulses responsive to alpha decay of at least one of radon and radon daughters; means for producing and counting pulses representing lapse of time; and
,logic and timing means operative to count alpha decay pulses up to a predetermined maximum pulse count and operative to sense lapse of time up to a maximum time pulse count, the maximum pulse count and the maximum time interval being a pulse count and a time interval chosen to reach a predetermined statistical confidence level respecting concentration of radon at a given threshold concentration, reaching the maximum pulse count prior to the maximum time interval representing a concentration at least equal to the threshold concentration, the logic and timing means comprising at least two registers for long term risk assessment, one of the registers accumulating alpha decay pulse counts and the other of the registers accumulating a count of long term risk assessment intervals, said long term risk assessment intervals being equal to an average lapse of time between pulses expected at the given threshold concentration, whereby a comparison of contents of the two registers reflects average concentration over and under the given threshold concentration.
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25. A radon detector, comprising:
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means for producing and counting pulses occurring due to alpha decay of at least one of radon and radon daughters in a test sample, a count of said pulses over time including a background due to pulses apart from radioactive decay of radon and radon daughters in said test sample, a background count being predetermined from at least one of an estimated and a measured background count; logic and timing means operable to determine when said count, exclusive of the background count, exceeds a level representing a predetermined concentration of radon; and
,means for increasing the background count over time to account for alpha emissions of radon daughters from previous test samples plating out on the detector and there accumulating over time. - View Dependent Claims (26)
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Specification