Radiation detection and acquisition system

US 4,677,300 A
Filed: 08/03/1984
Issued: 06/30/1987
Est. Priority Date: 08/03/1984
Status: Expired due to Term

First Claim

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1. A radiation detector comprising:

scintillator means for receiving radiation to be detected and for emitting scintillation light in response to received radiation,photoelectric transducer means optically coupled to said scintillator means for generating analog electrical pulses in response to detected scintillations at an output thereof, andelectronic circuit means electrically coupled to the output of said transducer means, said electronic circuit means including amplifier means for amplifying said analog electrical pulses, low level discriminator means for generating pulse count signals in response to the amplified analog electrical pulses exceeding a threshold level, pulse pile-up detector means for generating a pulse pile-up signal in response to saturation of said electronic circuit means, and balanced differential line driver means for digitally transmitting the pulse output signals and pulse pile-up signal to a remotely located differential line receiver, said pulse pile-up detector means including oscillator means for producing a pulse signal and means for passing the pulse signal from said oscillator means to said line driver means for transmission thereby in response to saturation of said electronic circuit means.

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Abstract

A radiation detection and acquisition system including a plurality of radiation detector modules each characterized by the integration in a compact package of a scintillator probe and supporting electronics which provide digital pulse count signals in response to detected scintillations that may be transmitted by a differential line driver on twisted shielded wire pairs over great distances to a count signal processing unit while maintaining signal integrity. The digital pulse count output is independent of the type of radiation detected whereby the same count signal processing unit may be employed with different detectors for respective different radiations. The detector module may also have an analog signal output so that it may be interfaced to an analog signal analyzer and a third output of the detector module provides a digital output signal that reflects saturation of the electronics due to a high rate of detected scintillation events (pulse pile-up). A remotely located, microprocessor-based signal processing unit is provided to acquire count signals received on multiple channels from respective detector probes, to display such data and to transmit such data to a controller or monitor for process control and/or monitoring. Acquisition is effected via at least one detector/processor interface module having plural transmission line inputs for connection to respective detection modules and a common transmission line output for connection of said inputs to the signal processing unit.

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19 Claims

1. A radiation detector comprising:
- scintillator means for receiving radiation to be detected and for emitting scintillation light in response to received radiation,photoelectric transducer means optically coupled to said scintillator means for generating analog electrical pulses in response to detected scintillations at an output thereof, andelectronic circuit means electrically coupled to the output of said transducer means, said electronic circuit means including amplifier means for amplifying said analog electrical pulses, low level discriminator means for generating pulse count signals in response to the amplified analog electrical pulses exceeding a threshold level, pulse pile-up detector means for generating a pulse pile-up signal in response to saturation of said electronic circuit means, and balanced differential line driver means for digitally transmitting the pulse output signals and pulse pile-up signal to a remotely located differential line receiver, said pulse pile-up detector means including oscillator means for producing a pulse signal and means for passing the pulse signal from said oscillator means to said line driver means for transmission thereby in response to saturation of said electronic circuit means.
- View Dependent Claims (2, 3)
- - 2. A radiation detector as set forth in claim 1, wherein said transducer means includes a photodiode and said amplifier means includes a charge sensitive amplifier electrically coupled to said photodiode.
  - 3. A radiation detector as set forth in claim 1 further comprising means for outputting the analog electrical pulses to a remotely located receiver therefor.

4. A radiation detector comprising:
- scintillator means for receiving radiation to be detected and for emitting scintillation light in response to received radiation,photoelectric transducer means optically coupled to said scintillator means for generating analog electrical pulses in response to detected scintillations at an output thereof,electronic circuit means electrically coupled to the output of said transducer means, said electronic circuit means including amplifier means for amplifying said analog electrical pulses, low level discriminator means for generating pulse count signals in response to the amplified analog electrical pulses exceeding a threshold level, pulse pile-up detector means for generating a pulse pile-up signal in response to saturation of said electronic circuit means, and balanced differential line driver means for digitally transmitting the pulse output signals and pulse pile-up signal to a remotely located differential line receiver, anda housing in which each of said scintillator means, transducer means and electronic circuit means is mounted.
- View Dependent Claims (5, 6, 7, 8, 9, 10, 11)
- - 5. A radiation detector and acquisition system comprising:
    - a plurality of radiation detector modules as set forth in claim 4,a remotely located signal processing unit operative to receive and process in parallel on respective channels the digital output signals transmitted by said plurality of detector modules, andat least one interface module at a location remote from said detector modules and said signal processing unit having plural transmission line inputs for connection to respective detection modules and a common transmission line output for connection of said inputs to said signal processing unit.
  - 6. A system as set forth in claim 5, wherein said interface module includes a power supply for powering each detector module connected thereto.
  - 7. A system as set forth in claim 5, wherein there are plural interface modules connected to a respective plurality of detector modules and to said signal processing unit by a respective common transmission line.
  - 8. A system as set forth in claim 5, wherein said signal processing unit includes a differential line receiver for the pulse count output signals of a respective detector module.
  - 9. A system as set forth in claim 5, wherein said interface module is located more proximate the detector modules connected thereto than said signal processing unit.
  - 10. A system as set forth in claim 5, wherein said signal processing unit is microprocessor-based and includes an asynchronous communication port for connection to another microprocessor control device.
  - 11. A system as set forth in claim 5, wherein said signal processing unit includes a pulse rate count display selectively connected to each channel to display the respective count rate.

12. A radiation detector comprising:
- scintillator means for receiving radiation to be detected and for emitting scintillation light in response to received radiation;
  
  photoelectric transducer means optically coupled to said scintillator means for generating electrical charge pulses in response to detected scintillations;
  
  charge sensitive amplifier means coupled to said transducer means for producing analog pulse signals proportionately representative of the intensity of the electrical charge pulses;
  
  pulse shaper amplifier means for amplifying and shaping the analog pulse signal to a substantially symmetrical wave shape;
  
  low level discriminator means for generating pulse count signals in response to the amplified and shaped analog pulse signals exceeding a threshold level;
  
  differential line driver means for digitally transmitting the pulse count signals to a remotely located differential line receiver;
  
  pulse pile-up detector means for generating a pulse pile-up signal in response to saturation of said charge sensitive amplifier means; and
  
  a housing in which each of said scintillator means, transducer means, charge sensitive amplifier means, pulse shaper amplifier means, discriminator means , line driver means and pulse pile-up detector means is mounted.
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
- - 13. A radiation detector as set forth in claim 12, wherein said pulse shaper amplifier means includes plural low pass filter stages serially connected between said charge sensitive amplifier means and discriminator means, and gain adjusting potentiometer means electrically connecting two of said plural filter stages for adjusting the amplitude of the amplified and shaped analog pulse signal.
  - 14. A radiation detector as set forth in claim 13, wherein said charge sensitive amplifier means is provided with adjustment potentiometer means to adjust the amplitude of the charge pulse output of said charge sensitive amplifier means.
  - 15. A radiation detector as set forth in claim 12, wherein said charge sensitive amplifier means is provided with adjustment potentiometer means to adjust the amplitude of the charge pulse output of said charge sensitive amplifier means.
  - 16. A radiation detector as set forth in claim 12, wherein said transducer means includes a photodiode and said scintillator means includes a scintillation crystal optically coupled to said photodiode.
  - 17. A radiation detector as set forth in claim 16, wherein said crystal and diode are hermetically sealed in a metal can which provides electrostatic shielding.
  - 18. A radiation detector as set forth in claim 12, further comprising resistance driver means for transmitting the amplified and shaped analog pulse signals to a remotely located receiver therefor.
  - 19. A radiation detector as set forth in claim 12, wherein said discriminator means includes a high speed comparator having one input connected to the analog pulse signal output of said pulse shaper amplifier means and its other input connected to threshold adjusting means.

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Current Assignee
Saint-Gobain Ceramics & Plastics Incorporated (Compagnie de Saint-Gobain SA)
Original Assignee
Harshaw/Filtrol Partnership
Inventors
Velbeck, Kenneth, Tawil, Riad A.
Primary Examiner(s)
Fields, Carolyn E.
Assistant Examiner(s)
HANIG, RICHARD E

Application Number

US06/637,434
Time in Patent Office

1,061 Days
Field of Search

250/361, 250/369, 250/366, 340/853, 340/861, 340/870.02
US Class Current

250/366
CPC Class Codes

G01T 1/17   Circuit arrangements not ad...

G01T 1/20182   Modular detectors, e.g. til...

G01T 1/20184   Detector read-out circuitry...

G01T 1/20188   Auxiliary details, e.g. cas...

Radiation detection and acquisition system

First Claim

6 Assignments

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Abstract

17 Citations

19 Claims

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Radiation detection and acquisition system

First Claim

6 Assignments

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0 Petitions

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Accused Products

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Abstract

17 Citations

19 Claims

Specification

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