... | @@ -51,7 +51,7 @@ Design |
... | @@ -51,7 +51,7 @@ Design |
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- sglux [SiC UV TOCONs / Broadband UV
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- sglux [SiC UV TOCONs / Broadband UV
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sensor](https://sglux.de/en/product-category/sic-uv-tocons/broadband-tocons/)
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sensor](https://sglux.de/en/product-category/sic-uv-tocons/broadband-tocons/)
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- [TOCON\_ABC4](https://sglux.de/en/product/tocon_abc4-en/)
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- [TOCON\_ABC3](https://sglux.de/en/product/tocon_abc3-en/)
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- Gives 0-5V output
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- Gives 0-5V output
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- "Scatter" (tolerance) of ±20%. Should be able to calibrate this
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- "Scatter" (tolerance) of ±20%. Should be able to calibrate this
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out.
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out.
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... | @@ -68,10 +68,11 @@ Design |
... | @@ -68,10 +68,11 @@ Design |
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- See [*Comparison of different UV sensors for use in an XP
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- See [*Comparison of different UV sensors for use in an XP
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radiometer*](https://www.ohwr.org/project/uv-mask/wikis/Documents/Comparison-of-dierent-UV-sensors), A.
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radiometer*](https://www.ohwr.org/project/uv-mask/wikis/Documents/Comparison-of-dierent-UV-sensors), A.
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Butterworth, December 16, 2018 (paragraph above Table 1).
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Butterworth, December 16, 2018 (paragraph above Table 1).
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- Full display 199 mMED/hr = 0.199 MED/hr = (1,1542\*0.24) µW/cm² =
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- 1 MED/hr = 5.8 \* 0.24 µW/cm² = 1.392 µW/cm² for wideband sensor.
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1.999 V
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- Full display 199 mMED/hr = 0.199 MED/hr = 0.199 \* 1.392 µW/cm² =
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- 5V TOCON should have max. irradiance at (5/1.999) \* 1.1542\*024
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0.277 µW/cm² = 1.999 V
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= 0.693 µW/cm²
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- 5V TOCON should have max. irradiance at (5/1.999) \* 0.277 =
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0.693 µW/cm²
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- [TOCON\_ABC3](https://sglux.de/en/product/tocon_abc3-en/)
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- [TOCON\_ABC3](https://sglux.de/en/product/tocon_abc3-en/)
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max. irradiance (saturation limit) at 290 nm (peak
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max. irradiance (saturation limit) at 290 nm (peak
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wavelength) is approx. 1.8 µW/cm2
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wavelength) is approx. 1.8 µW/cm2
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