± 0.04% Accuracy
± 0.2% per 15 years Stability
90 ms Response Time
15,200 psia Maximum Over Pressure
Exida and TUV SIL 2/3 Certified
Local Parameter Setting (LPS)
± 0.04% Accuracy
± 0.2% per 15 years Stability
90 ms Response Time
10,800 psig Maximum Over Pressure
Exida and TUV SIL 2/3 Certified
Local Parameter Setting (LPS)
± 0.04% Accuracy (0.025% Accuracy optional)
± 0.1% per 15 years Stability
90 ms Response Time
Exida and TUV SIL 2/3 Certified
Local Parameter Setting (LPS)
± 0.075% Accuracy
± 0.2% per 15 years Stability
90 ms Response Time
Exida and TUV SIL 2/3 Certification
LPS (Local Parameter Setting)
± 0.075% Accuracy
± 0.1% Stability per 1 year
120 ms Response Time
Exida and TUV SIL2 / SIL3 Certified
LPS (Local Parameter Setting)
Signal Characterizer for the 4 to 20 mA output
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Signal output: 4-20mA HART digital communication protocol
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Power supply: DC24V
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Ambient temperature: -25-80°C
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Liquid temperature: 1-40-120°C
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Process isolation diaphragm: stainless steel, Hastelloy, Monel, non-ferrous metals, etc.
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Connection mode: threaded connection Filling liquid: silicone oil and inert liquid
Local Indicator
Advanced Diagnostics
Digital Performance
Signal Characterization
± 0.055% Accuracy (0.04% Accuracy optional)
± 0.1% Stability per 10 years
90 ms Response Time
Exida and TUV SIL 2/3 Certified
Local Parameter Setting (LPS)
Accuracy ± 0.1 %
Stability ± 0.2 % url/10 years
The response time is 90 milliseclic
TUV and EXIDA SIL2 / SIL3 certification
Maximum work pressure 3,600 PSI
Accuracy ± 0.075%
Stability ± 0.1% URL/1 year
Response time 120 ms
TUV and Exida SIL2 / SIL3 certification
10-stage signal curve characterization
Local Parameter Setting (LPS)
0.2% Accuracy
700 ms Response Time
External Zero Adjustment
BRAIN or HART communication signals
Full lattice liquid crystal display
Dual frequency excitation method
Durable and easy to operate.