Design & Specification :
| Conductivity Range | : 0 to 20.00, 200.0, 2000 µS/Cm; 2 to 20.00, 200.0 ms/cm |
| Conductivity Resolution | : 0.001,0.01,0.1 µS/cm & 0.01, 0.001 mS/cm |
| TDS Range | : 0 to 10.00, 100.0, 1000 ppm; 10.00, 100.0 ppt(1ppt=10,000ppm) |
| TDS Resolution | : 0.001, 0.01, 0.1 ppm & 0.001, 0.01ppt |
| Range Selection | : Auto / Manual Ranging |
| Temperature Range | : 0 to 130.0ºC |
| Temperature Resolution | : 0.1ºC |
| Temp. Compensation | : Automatic & Manual |
| Temperature Coefficient | : 0-10.000 % per ºC (Adjustable) |
| Suitable Cell Constant | : 0.1, 0.5, 1.0 K |
| Adjustable Cell Constant | : 0.09 to 1.1 K |
| Cond. to TDS Conv. Fac. | : 0.40000 to 1.00000 (Adjustable) |
| Backlit LCD Display | : 16 x 2 line Alphanumeric |
| Printer Capability | : Yes – Parallel Port |
| Power Requirement | : DC Adaptor |
For more detail please contact :
PT. Inako Persada
Office : Cikarang, Bekasi, Indonesia
Phone : 021-89903505
Email : sales@inakopersada.com
Mobile/WA : 0853 5111 2309
Description
Conductivity is the parameter used to measure a solution’s ability to conduct an electric current. The term “Conductivity” is derived from Ohm’s Law which is defined as: E = I • R, where E is voltage applied between the two “plates” (shown in Figure 2.1), and an electrical current I will flow which is dependent on the resistance R of the conductor. Therefore, conductivity is defined as the reciprocal of resistance of a solution between two electrodes and it can be expressed as: G = I / R.
Application
Petroleum
Thermoelectrics
Nanomaterials
Explosives
Polymers
Geological
Thermal
Interface Materials
Metal Hydrides
Heat Transfer Fluids
Textiles
Cement & Concrete
Phase Change Materials
Thin Films
Photovoltaic
Insulation
Metals LED Lighting
Automotive