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.js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row } .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="7b627fb56598816ec5a91e0c68c18148"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="7b627fb56598816ec5a91e0c68c18148"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="7b627fb56598816ec5a91e0c68c18148"] > 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pH 8+DHS Stirrer – Without Eletrode
Digital microprocessor-based pH meter with resolution ± 0.1 / 0.01 / 0.001 pH. Large, backlit colour graphic display. Manual or automatic temperature compensation and data logger function. Memory / recall up to 1000 data with date / time according to GLP. Automatic calibration from 1 to 3 points for pH according to GLP with date and time. Selectable buffer NIST, USA, DIN or user-definable (2 values).
Magnetic stirrer with independent control (optional).
Without electrode, with cable S7 / BNC, temperature probe NT 55, support holder, magnetic stirrer with adjustable speed, coloured pH buffers, glasses for calibration with stirring bars and power supply..
Key Features
Analog View |
Yes |
Calibration point indication |
Colored Becker |
Calibration report |
Numeric and graphic |
Display |
High definition color TFT, backlit |
GLP |
Date and time, calibration data display and calibration deadline |
Inputs |
BNC – RCA – banana 4 mm |
IP protection |
IP 54 |
Memory/ Datalogger |
1000 GLP data |
Multilanguage |
Eng – Ita – Deu – Esp – Fra – Cze |
Output |
USB – USB type B – RS232 |
Password |
4 numeric characters |
PC connection |
DataLink+ |
pH alarm range |
Min – Max |
Points of calibration pH |
1…3 automatic values / 2 custom values |
Printer connection |
RS232 |
Stability criteria |
Med – High – Tit |
Standard approved pH |
USA – NIST – 2 custom values |
Stirring speed control |
Magnetic stirrer with independent control |
Timer calibration due |
Hours / Days |
Specifications
Accuracy (pH) |
± 0,002 |
Accuracy (Temperature) |
± 0,2 °C |
mv measuring range (max.) |
+ 2000 |
mv measuring range (min.) |
– 2000 |
pH measuring range (max.) |
+ 16,00 |
pH measuring range (min.) |
– 2,00 |
pH resolution |
0,1 / 0,01 |
Temperature compensation |
0,0…100,0 °C |
Temperature measuring range (max.) |
+ 110,0 °C |
Temperature measuring range (min.) |
– 10,0 °C |
Temperature resolution |
0,1 °C |
Working temperature (max.) |
+ 45 °C |
Working temperature (min.) |
0 °C |
Supply
Power supply |
100 – 240 V / 50 – 60 Hz |
Dimensions & Weight
Dimension (LxWxH) |
162 x 185 x 56mm |
Weight |
709 g |
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