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LnRiLWZpZWxke21hcmdpbi1ib3R0b206MC43NmVtfS50Yi1maWVsZC0tbGVmdHt0ZXh0LWFsaWduOmxlZnR9LnRiLWZpZWxkLS1jZW50ZXJ7dGV4dC1hbGlnbjpjZW50ZXJ9LnRiLWZpZWxkLS1yaWdodHt0ZXh0LWFsaWduOnJpZ2h0fS50Yi1maWVsZF9fc2t5cGVfcHJldmlld3twYWRkaW5nOjEwcHggMjBweDtib3JkZXItcmFkaXVzOjNweDtjb2xvcjojZmZmO2JhY2tncm91bmQ6IzAwYWZlZTtkaXNwbGF5OmlubGluZS1ibG9ja311bC5nbGlkZV9fc2xpZGVze21hcmdpbjowfQ==
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REVIO – Only Instriment
Professional portable multiparameter with triple power supply (battery, PC, mains) with backlit color graphic display, for excellent data visualization in all lighting conditions, thanks also to the possibility of automatically and manually adjusting the contrast and lighting of the display.
Instrument in rigid case, with NT 55 temperature probe 3 meter cable, S7-BNC cable and accessories. Without sensors.
Key Features
Alarm settings |
Yes |
Auto Off |
Yes |
Automatic brightness control |
Yes |
Automatic pressure compensation |
Yes |
Calibration point indication |
Yes, with value |
Calibration report |
Yes |
Cell type |
2 poles |
DHS compatible |
Yes |
Display |
Backlight coloured high definition TFT |
Electrode status indication |
Yes |
GLP |
Yes |
Inputs |
3x BNC – RCA – Banana 4 mm Ref |
ION calibration points |
2…5 |
ISE measuring unit |
mg/l – g/l – mol/l |
Memory |
10.000 data |
Multilanguage |
Eng – Ita – Deu – Esp – Fra – Cze |
Output |
Micro USB |
Online help |
Yes |
Password |
Yes, 4 numerical scripts |
pH alarm range |
Yes |
Points of calibration Cond |
1…4 automatic values / 1 custom value |
Points of calibration ORP |
1 |
Points of calibration pH |
1…5 automatic values / 5 custom values |
Selectable Cell constant |
0,1 / 1 / 10 |
Stability criteria |
3 levels |
Standard approved Cond |
84 µS – 147 µS – 1413 µS – 12,88 mS – 111,8 mS |
Standard approved pH |
USA – NIST – DIN 19266 |
Timer calibration due |
Yes |
Temperature calibration |
Yes |
Ultrapure water compensation |
Yes |
Specifications
Accuracy (Cond) |
± 1 % f.s |
Accuracy (pH) |
± 0,002 |
Accuracy (Resistivity) |
± 1 % f.s. |
Accuracy (Salinity) |
± 1 % f.s. |
Accuracy (TDS) |
± 1 % f.s. |
Accuracy (Temperature) |
± 0,2 °C |
Barometric pressure accuracy |
± 0,5 % |
Barometric pressure measuring range (max.) |
1100 mbar |
Barometric pressure measuring range (min.) |
300 mbar |
Barometric pressure resolution |
1 mbar |
Cond measuring range (max.) |
1000 mS |
Cond measuring range (min.) |
0,01 µS |
Cond resolution |
0,01 / 0,1 / 1 µS/cm (automatic scale) |
Dissolved Oxygen measuring range (max.) |
50,0 mg/l |
Dissolved Oxygen measuring range (min.) |
0,00 mg/l |
DO Accuracy |
1,5 % f.s. |
DO resolution |
0,1 |
ISE accuracy |
0,5 % f.s. / 1 % f.s. |
ISE measuring range (max.) |
19999 ppm |
ISE measuring range (min.) |
0,001 ppm |
ISE resolution |
0,001 / 0,1 (automatic scale) |
O2 saturation accuracy |
± 10 % |
O2 saturation measuring range (max.) |
400 % |
O2 saturation measuring range (min.) |
0,0 % |
O2 saturation resolution |
0,1 % |
ORP measuring range (max.) |
+ 2000 |
ORP measuring range (min.) |
– 2000 |
ORP resolution |
0,1 / 1 |
Parameters |
pH, ORP, ISE, EC, TDS, Salinity, Resistivity, DO, Temperature |
pH measuring range (max.) |
+ 20,00 |
pH measuring range (min.) |
– 2,00 |
pH resolution |
0,1 / 0,01 / 0,001 |
Reference temperature (max.) |
+ 30 °C |
Reference temperature (min.) |
+ 15 °C |
Resistivity measuring range (max.) |
10,00 MOhm*cm |
Resistivity measuring range (min.) |
1,00 Ohm*cm |
Salinity compensation |
Yes |
Salinity measuring range (max.) |
100 ppt |
Salinity measuring range (min.) |
0,01 ppm |
TDS Factor |
0.40…1.00 |
TDS Factor (max) |
1.00 |
TDS Factor (min) |
0.40 |
TDS measuring range (max.) |
500 g/l |
Temperature coefficent (max) |
10,00 % / °C |
TDS measuring range (min.) |
0.1 mg/l |
Temperature coefficent (min) |
0,00 % / °C |
Temperature compensation |
0,0…100,0 °C |
Temperature measuring range (max.) |
+130,0 °C |
Temperature measuring range (min.) |
– 30 °C |
Temperature resolution |
0,1 °C |
Supply
Power supply |
4 x AA 1,5 V battery/USB Adaptor |
Dimension and Weight
Dimension (LxWxH) |
185 x 85 x 45 mm |
Dimension (LxWxH) |
|
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