Technical Document
Specifications
Brand
SMCMaximum Input Pressure
1MPa
Maximum Flow Rate
6L/min
Minimum Operating Temperature
0°C
Integral Check Valve
Yes
Maximum Operating Temperature
+50°C
Overall Length
56mm
Overall Height
86 (For Single Unit) mm, 89 (For Manifold) mm
Overall Width
15mm
Overall Dimensions
56 x 15 x 86 (For Single Unit) mm, 56 x 15 x 89 (For Manifold) mm
Country of Origin
Japan
Product details
Compact Series ITV0000
Compact Series ITV0000 Electro-Pneumatic Pressure Regulators work on the principle that when the input signal rises, the air supply solenoid valve turns on. As a result, part of the supply pressure passes through the air supply solenoid valve, and changes to output pressure. This output pressure then feeds back to the control circuit through the pressure sensor. Pressure corrections within the ITV0000 continue until the output pressure becomes proportional to the input signal, enabling output pressure that is proportional to the input signal.
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SR 2,214.01
Each (ex VAT)
SR 2,546.11
Each (inc. VAT)
1
SR 2,214.01
Each (ex VAT)
SR 2,546.11
Each (inc. VAT)
1
Technical Document
Specifications
Brand
SMCMaximum Input Pressure
1MPa
Maximum Flow Rate
6L/min
Minimum Operating Temperature
0°C
Integral Check Valve
Yes
Maximum Operating Temperature
+50°C
Overall Length
56mm
Overall Height
86 (For Single Unit) mm, 89 (For Manifold) mm
Overall Width
15mm
Overall Dimensions
56 x 15 x 86 (For Single Unit) mm, 56 x 15 x 89 (For Manifold) mm
Country of Origin
Japan
Product details
Compact Series ITV0000
Compact Series ITV0000 Electro-Pneumatic Pressure Regulators work on the principle that when the input signal rises, the air supply solenoid valve turns on. As a result, part of the supply pressure passes through the air supply solenoid valve, and changes to output pressure. This output pressure then feeds back to the control circuit through the pressure sensor. Pressure corrections within the ITV0000 continue until the output pressure becomes proportional to the input signal, enabling output pressure that is proportional to the input signal.