Nuclear Electronics Division

The Nuclear Electronics Division (NED) follows recent advances in the field of nuclear electronics. In addition to its research and development activities, the Division is responsible for the maintenance and repair of electronic systems. Since its establishment the Division has designed and manufactured a variety of nuclear measurement instruments for the use of research institutions, medical and industrial establishments, civil defense and the army. Nuclear Electronic Division performs and certificates calibrations of dosimeters and dose rate meters used in radiation metrology in our country. It also attends comparison programs such as TLD postal dose comparison and transfer ionization chamber calibration organized by IAEA/WHO SSDL network. In addition, Nuclear Electronic Division collaborates with national and international institutions and universities and attends international research projects and if demanded, it gives technical consultancy service.

 

 Units:

Display # 
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Radiation Metrology Unit 7804

Subcategories

  • Nuclear Electronics and Instrumentation Unit

    Activities: 

    MAINTENANCE and REPAIR 

    This activity is being executed uninterruptedly since the establishment of Nuclear Electronics and Instrumentation Unit. It is the maintenance and repair of nuclear electronic instruments and systems used in Çekmece Nuclear Research and Training Center. Besides that, the military, universities, research centers and independent establishments using nuclear electronic instruments are supported, too.

     

     DEVELOPMENT of NUCLEAR MEASURING INSTRUMENTS


    This project has been started in 1986. It is aimed to design and produce nuclear instruments with the components mostly available in Turkish market. Developed prototypes are produced in priority for the needs of TAEA, but production is made also for the needs of university, research institutions, civil defense, the army and medical and industrial establishments. Gained know-how during the Project is applied to the developed prototypes, so models are developed to compete with new technology.

    Now, advanced microcontroller technology is being used to cover problems of radiation measurement. Control by microcontroller enables reliable, stable measurement and display of low level dos rate values. Generally, halogen quenched and energy compensated Geiger Muller counter tubes are used as radiation detectors in this project.

     

     

     

    EARLY WARNING ENVIRONMENTAL RADIATION MONITORING SYSTEM NETWORK (RESA)

    The RESA System consists of the remote stations to measure the radiation level and evaluate the data and of an information center running the server software on a personnel computer. The Center communicates with the remote stations through telephone lines. The remote station consists of a “smart probe” (in Figure 1) incorporating the detectors and measuring circuits and of a modem and an uninterrupted power supply unit. The probes continuously measure radiation dose rate in the range 0-400 R/h by two Geiger Muller detectors sensitive to gamma and X- Rays. They store the data in their built-in memories and transfer the information to the server when an alarm condition is raised or a hardware problem occurs.

    The server software manages the probes and the data obtained from measurements to minimize human interaction to the system. The main page of the server software is shown in Figure 2. The software has been designed to provide the user with a graphical (Figure 3.) environment. All the operations that can be conducted on the probes may be activated through maps (Figure4.), which help the user to locate them easily. There are two operating modes that can be selected from the center. Measurement in the fixed precision mode continues until the measurement reaches %95 statistical accuracy. The measuring period is proportional to the radiation dose rate. The measurement in average mode is terminated at the end of the time interval determined by the center. In this mode measurement accuracy is proportional to the radiation level.

     

    Figure 1. Smart Probe Figure 2. Main program window

     

     Figure 3. Dose rate data in graphical output Figure 4. Resa map