Comparison of dosimeters
Appearance
The following table compares features of dosimeters.
Device | Photo | Mfg. country | Size, mm | Weight, g | Power supply | Display | Sound | Vibration | Detector type | Range, μSv/h | Range, μR/h | Measurement time, seconds | Measuring of beta and gamma radiation and range of energy | PC link | Extra features |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
SA-05A[1] | Switzerland | 119x65x26.5 | 135 | Built-in lithium polymer battery | LCD | No | No | Geiger–Müller tube LND 713 | 0.01–6000 | No | 1–60 | 0.05–1.3 MeV | USB | Clock, calendar and data logger | |
ANRI 01-02 Sosna[2] | Russia | 133x82x45 | 350 | Nine-volt battery | LCD | Yes | No | Two to four Geiger–Müller tubes | 0.1–100 | 10–104 | 20±5 | Combined, 0.5–3.0 MeV | No | ||
bGeigie Nano[3][4] | Japan | 149x103x54 | 440 | Li-Po | LCD | No | Yes | one Geiger–Müller tube | 0–1000 | 0–100 | 1–60 | yes | USB, Bluetooth, and WiFi | Clock, GPS, open-source | |
bGeigieZen[3][5] | Japan | 17x9.9x47 | one 18650 | LCD with touchscreen | No | Yes | one Geiger–Müller tube | yes | USB, Bluetooth, and WiFi | Clock, GPS, open-source | |||||
bGeigieZen NFW[5] | Japan | 17x9.9x47 | one 18650 | LCD with touchscreen | No | Yes | one Geiger–Müller tube | yes | USB, Bluetooth, and WiFi | Clock, GPS, open-source | |||||
DKG-RM1203M[6] | Belarus | 125x42x24 | 90 | Two LR44 | LCD | Yes | No | Geiger–Müller tube | 0.01–2000 | 1–2*105 | ? | No | Infrared | Clock with alarm | |
MKS-05 «Terra-P» | Ukraine | 120×52×26 | 150 | Two AAA | LCD | Yes | No | Geiger–Müller tube | 0.1–1000 | 10–105 | 5–70 | Combined, 0.5–3.0 MeV | No | Clock with alarm, cover as option | |
MKS-05 «Terra» (New edition) | Ukraine | 120×52×26 | 150 | Two AAA | LCD with backlight | Yes | Yes | Geiger–Müller tube | 0.1–104 | 10–106 | 1–70 | Combined, 0.5–3.0 MeV | Bluetooth | Clock with alarm, cover | |
DKR-04 | ? | 74х48х16 | 50 | AAA | LCD | Yes | No | Semiconductor | 0.1–106 | 10–108 | 4–256 | No | No | ||
GQ GMC-300E +V4[7] | United States | AA | LCD with backlight | Yes | No | One Geiger–Müller tube | 328 | 32.8 | 1–60 | Combined | USB | ||||
GQ GMC-320 +V4[7] | United States | AA | LCD with backlight | Yes | No | One Geiger–Müller tube | 328 | 32.8 | 1–60 | Combined | USB | gyroscope, temperature sensor | |||
GQ GMC-320 +V5[7] | United States | AA | LCD with backlight | Yes | No | One Geiger–Müller tube | 328 | 32.8 | 1–60 | Combined | USB | WiFi, logging to a server, gyroscope, temperature sensor | |||
GQ GMC-300S[7] | United States | AA | LCD with backlight | Yes | No | One Geiger–Müller tube | 1000 | 100 | 1–60 | Combined | USB | ||||
GQ GMC-320S[7] | United States | AA | LCD with backlight | Yes | No | One Geiger–Müller tube | 1000 | 100 | 1–60 | Combined | USB | gyroscope, temperature sensor | |||
GQ GMC-SE[7] | United States | AA | LCD with backlight | Yes | No | One Geiger–Müller tube | 2000 | 200 | 1–60 | Combined | USB | ||||
GQ GMC-500[7] | United States | 18650 | LCD with backlight | Yes | No | One Geiger–Müller tube | 5000 | 500 | 1–60 | Combined | USB | WiFi, logging to a server, gyroscope | |||
GQ GMC-500+[7] | United States | 135x78x25 | 18650 | LCD with backlight | Yes | No | Two Geiger–Müller tubes | 0–42500 | 0–4.25*106 | 1–60 | Combined | USB | WiFi, logging to a server, gyroscope | ||
GQ GMC-800[7] | United States | AA | LCD with backlight | Yes | No | One Geiger–Müller tube | 2000 | 200 | 1–60 | Combined | USB | ||||
GQ GMC-600[7] | United States | 18650 | LCD with backlight | Yes | No | SBT-11 | 4250 | 425 | 1–60 | Combined | USB | WiFi, logging to a server, gyroscope | |||
GQ GMC-600+[7] | United States | 18650 | LCD with backlight | Yes | No | LND 7317 | 10000 | 1000 | 1–60 | Combined | USB | WiFi, logging to a server, gyroscope | |||
GQ GMC-510[7] | United States | 18650 | LCD with backlight | Yes | No | M4011 | 4250 | 425 | 1–60 | Combined | USB | WiFi, logging to a server, gyroscope | |||
GQ GMC-520[7] | United States | 18650 | LCD with backlight | Yes | No | M4011 | 4250 | 425 | 1–60 | Combined | USB | WiFi, logging to a server, gyroscope | |||
GQ GMC-520+[7] | United States | 18650 | LCD with backlight | Yes | No | M4011 | 4250 | 425 | 1–60 | Combined | USB | WiFi, logging to a server, gyroscope | |||
Radex RD1503, RD1503+ | Russia | 105х60х26 | 90 | One or two AAA | LCD with backlight | Yes | Only RD1503+ | Geiger–Müller tube | 0.05–10 | 5–1000 | up to 40 | Combined, 0.1–1,25 MeV | No | ||
Radex RD1706 | Russia | 105х60х26 | 90 | One or two AAA | LCD with backlight | Yes | Yes | Two Geiger–Müller tubes | 0.05–1000 | 5–105 | 1–26 | Combined, 0.1–1.25 MeV | No | Background mode | |
Radex RD1212 | Russia | 97x68x24 | 80 | One or two AAA | LCD with backlight | Yes | Yes | One Geiger–Müller tube | 0.05–999 | 5–105 | 1–10 | Combined, 0.4–3.5 MeV | USB | Background mode, integrated flashlight, time and date functions, multilingual | |
Radex RD1008 | Russia | 140х64х26 | 175 | AA | LCD with backlight | Yes | Yes | Two Geiger–Müller tubes | 0.1–1000 | 2–120 | 2–21 | Separated, 0.05–3.5 MeV | No | Background mode, separated indication of beta and gamma radiation | |
RadiaCode 102[8][9][10] | Cyprus | conflicting answers (124x35x20 or 123x34x18) | 65 | built-in Lithium polymer battery | LCD with backlight | Yes | CsI(Tl) scintillator | 0.01–1000 | 1-105 | 0.5 | yes | USB and Bluetooth | thermometer, GPS, clock | ||
RadiaCode 103[8][9][11] | Cyprus | conflicting answers (124x35x20 or 123x34x18) | 65 | built-in Lithium polymer battery | LCD with backlight | Yes | CsI(Tl) scintillator | 0.01–1000 | 1-105 | 0.5 | yes | USB and Bluetooth | thermometer, GPS, clock | ||
RadiaCode 103G[8][9][12] | Cyprus | conflicting answers (124x35x20 or 123x34x18) | 70 | built-in Lithium polymer battery | LCD with backlight | Yes | GAGG(Ce) Scintillator | 0.01–1000 | 1-105 | 0.5 | yes | USB and Bluetooth | thermometer, GPS, clock | ||
RadTarge II D300[13] | China | 69x46x17 | 60 | Built-in lithium ion battery | LCD with backlight | Yes | Yes | YSO scintillator + SiPM | 0.5–5000 | 50–5*105 | < 8 | No, 0.03–1.5 MeV | USB | Dose equivalent rate + accumulated dose meter, pager-like clip, time and date functions, data logging and export (via Mac/PC software) | |
RadTarge II D700[14] | China | 69x46x17 | 60 | Built-in lithium-ion battery | LCD with backlight | Yes | Yes | YSO scintillator + SiPM | 0.01–1000 | 1–105 | < 2 | No, 0.02–3 MeV | USB | Dose equivalent rate + accumulated dose meter, pager-like clip, time and date functions, data logging and export (via Mac/PC software) | |
RadTarge II D900[15] | China | 69x46x17 | 60 | Built-in lithium-ion battery | LCD with backlight | Yes | Yes | YSO scintillator + SiPM | 0.1–105 | 10–107 | < 6 | No, 0.02–3 MeV | USB | Dose equivalent rate + accumulated dose meter, pager-like clip, time and date functions, data logging and export (via Mac/PC software) | |
RKSB-104 | Belarus | 154х77х39 | 350 | Nine-volt battery | LCD | No | No | Two Geiger–Müller tubes | 0.1–100 | 10–2*104 | 18–400 | Combined, 0.5–3.0 MeV | No | ||
DKG-RM1610 | Belarus | 58х58х18 | 70 | Built-in accumulator | LCD | Yes | Yes | One Geiger–Müller tube | 0.01–1.2*106 | 1–1.2*108 | ? | No | USB | Shock protection | |
EcotestCARD | Ukraine | 80 | CR2450 | LCD | Yes | No | Semiconductor | 0.1–106 | 10–108 | ? | ? | Infrared |
References
[edit]- ^ Allimann.com
- ^ Дозиметр-радиометр АНРИ-01-02 "Сосна"
- ^ a b "Features - bGeigieZen". bgeigiezen.safecast.jp. 2022-02-24. Archived from the original on 2024-12-02. Retrieved 2024-12-02.
- ^ "Specifications". GitHub. Archived from the original on 2024-12-02. Retrieved 2024-12-02.
- ^ a b "bGeigieZen Assembled". bgeigiezen.safecast.jp. 2023-07-21. Archived from the original on 2024-12-02. Retrieved 2024-12-02.
- ^ Polimaster DKG-RM1203M or find a current model at Polimaster Ltd.
- ^ a b c d e f g h i j k l m n "GQ Geiger Counter Selection Guide". GQ Electronics LLC. Retrieved 2022-10-06.
- ^ a b c "Radiacode 1ox series". Radiacode. Archived from the original on 2024-11-27. Retrieved 2024-11-27.
- ^ a b c Kolotukhin, Igor. "Quick Guide Manual". radiacode cyberspace. Radiacode. Archived from the original on 2024-11-27. Retrieved 2024-11-27 – via Coda.
- ^ "Detector of nuclear radiation and spectrometer Radiacode 102: SKU RC102". Radiacode. Archived from the original on 2024-11-27. Retrieved 2024-11-27.
- ^ "Detector of nuclear radiation and spectrometer Radiacode 103G: SKU RC103". Radiacode. Archived from the original on 2024-11-27. Retrieved 2024-11-27.
- ^ "Detector of nuclear radiation and spectrometer Radiacode 103G: SKU RC103G". Radiacode. Archived from the original on 2024-11-27. Retrieved 2024-11-27.
- ^ "Electronic Personal Dosimeter | RadTarge II D300 | X-Z LAB". X-Z LAB. Retrieved 2016-11-14.
- ^ "Electronic Personal Dosimeter | RadTarge II D700 | X-Z LAB". X-Z LAB. Retrieved 2016-11-14.
- ^ "Electronic Personal Dosimeter | RadTarge II D900 | X-Z LAB". X-Z LAB. Retrieved 2016-11-14.
Literature
[edit]- "Intercomparison of personal dose equivalent measurements by active personal dosimeters" (PDF). International Atomic Energy Agency. Chicago. 2007.
- Bordy JM, Daures J, Clairand I, Denozière M, Donadille L, d'Errico F, Gouriou J, Itié C, Struelens L (2008). "Evaluation of the calibration procedure of active personal dosemeters for interventional radiology". Radiation Protection Dosimetry. 131 (1): 87–92. doi:10.1093/rpd/ncn225. PMID 18757898.
- "Comparison of Personal Dosimeters". Radiation Emergency Medical Management (REMM). United States Department of Health and Human Services. Retrieved October 10, 2022.