PH870CDTCXX
Ryton body flat surface electrode.
Ryton double junction flat surface pH electrode with Pt1000.
The FLS pH 800 electrodes line feature a robust Ryton body combined with a self‑cleaning flat surface and a reliable Pt1000 to ensure accurate measurements of dirty liquids and aggressive solutions. A large coupling improves performance in the presence of suspended solids. The new 870 electrodes allow direct installation by means of the ¾” thread present in the body, in‑line installation by means of the threads in the lower part of the electrode or immersion installation by means of the threads on the electrode end. Models are also available for specific installations: horizontal mounting (‑HM), low conductivity samples (‑LC), aggressive solutions (HF<2%), low pH values (‑HF).
| Reference | product.detail.attribute.Characteristics | Operative Range | product.detail.attribute.Reference solution | Cable** | Connection | Installation | Weight (gr.) |
|---|---|---|---|---|---|---|---|
| PH870CDTC | Pt100 included | pH 0-14* | KCl 3.5 M | Not required | 5 m (16,5 ft.) | 3/4" NPT | 250 |
| PH870CDTCHF | Pt100 included | 0-14 pH / presence of hydrofluoric acid (max 2%)* | KCl 3.5 M | Not required | 5 m (16,5 ft.) | 3/4" NPT | 250 |
| PH870CDTCHM | Pt100 included | 0-14 pH / horizontal mounting* | KCl 3.5 M | Not required | 5 m (16,5 ft.) | 3/4" NPT | 250 |
| PH870CDTCLC | Pt100 included | 0-14 pH /low conductivity ( < 100 μS )* | KCl 3.5 M | Not required | 5 m (16,5 ft.) | 3/4" NPT | 250 |
*(0-12,3 pH without Na+ error)
** (Sold separately)
APPLICATIONS:
- Processing and manufacturing industry
- Transformation of chemicals
- Water treatment processes
- Cooling processes
- Heating processes
MAIN CHARACTERISTICS:
- Combined temperature sensor
- Flat surface electrodes
- Robust Ryton body
- Double‑threaded body for in‑line and immersion installations
- Double coupling technology
- HM option for horizontal mounting
- HF option for liquids containing hydrofluoric acid (max 2%)
- LC option for liquids with conductivity below 100 μS/cm