| Limping | L- or T-shaped housing |
| Measuring ranges (kPa) [e.max.] | 32 130 |
| Weight per kg (without indicator) | 3,6 |
| Accuracy | ±0.15% |
| Materials in contact with the process | Stainless steel 316, Stainless steel 316 L |
| Case materials | Standard: low-copper aluminum alloy with polyurethane epoxy coating (2 layers). Option: 316 stainless steel |
| Membrane materials | Stainless steel 316 |
| Stability | ±0.15% of maximum scale for 10 years |
| Elevation / Deletion | Equal to the upper limit of static pressure. |
| Process temperature | -40 to +120 °C for silicone sensor filling -20 to +80 °C for fluorinated oil sensor filling |
| Ambient temperature | from -40 to +85 °C -20 to +80 °C for LCD indicators - 40 to +60 °C for shutdown option -10 to +60 °C for fluorinated oil-filled sensors |
| Power supply | 10.5 V to 45 V DC |
| Output signal / Load resistance | 4 to 20 mA |
| Damping | Configuration between 0.06 and 32 seconds |
| Zero and span adjustment | Via external sensor screw, local three-button indicator or HART™ protocol |
| Electrical connections | G1/2, 1/2-14 NPT, Pg13.5 or M20 × 1.5, depending on application datasheet |
| Options | Indicator, local configurator with LCD display, integrated lightning arrester, oxygen service, chlorine service, degreasing, datasheet NACE, vacuum service, optional nameplate, cell lining |
PRESSURE TRANSMITTER DIFFERENTIAL FOR HYDROGEN – FKC WITH HYDROSEAL MEMBRANE: DESIGNED FOR DEMANDING HIGH-HYDROGEN ENVIRONMENTS The pressure transmitter differential for hydrogen - FKC with hydroseal membrane is specifically developed to meet the challenges of measurement in hydrogen-rich environments. Thanks to its protective membrane and robust design, it ensures precise and durable measurement even in extreme industrial conditions. FEATURES OF THE PRESSURE TRANSMITTER DIFFERENTIAL FOR HYDROGEN – FKC WITH HYDROSEAL MEMBRANE - Measurement technology: differential pressure transmitter with isolated cell - Hydrogen-resistant Hydroseal diaphragm - Compatible with high-pressure and corrosive environments - High accuracy and excellent long-term stability - Chemically resistant materials APPLICATIONS Ideal for hydrogen production, distribution, or storage facilities, as well as for demanding industrial processes requiring reliable differential pressure measurement. BENEFITS Optimized design for hydrogen-containing media High reliability under severe conditions Easy integration into existing control systems Reduced maintenance costs due to diaphragm durability