LEC-OM07605CN 225 2A 43 4A 10.8 0B 204 2B 41 4B 10.4 0C 187 2C 40 4C 10 0D 173 2D 38 4D 9.7 0E 160 2E 37 4E 9.4 0F 150 2F 36 4F 9.1 10 140 30 35.2 50 8.8 11 132 31 33.1 51 8.3 12 125 32 31.3 52 7.8 13 118 33 29.6 53 7.4 14 112 34 28.1 54 7.0 15 107 35 26.8 55 6.7 16 102 36 25.6 56 6.4 17 97 37 24.5 57 6.1 18 93 38 23.4 58 5.9 19 90 39 22.5 59 5.6 1A 86 3A 21.6 5A 5.4 1B 83 3B 20.8 5B 5.2 1C 80 3C 20.1 5C
Take measures to prevent the fluid from freezing when it is below 5C, since this may cause damage to the switch and lead to a malfunction. Never use the switch in an environment where there are drastic temperature changes even when these temperatures fall within the specified temperature range. Wiring Warning 1. Verify the color and the terminal number when wiring.
If the fluid temperature is 5C or below, the moisture in the circuit could freeze, causing damage to the seals and leading to equipment malfunction. Therefore, take appropriate measures to prevent freezing. Refer to SMC's Air Preparation Equipment catalog for further details on compressed air quality. 7.
If the fluid temperature is 5C or less, the moisture in the circuit could freeze, causing damage to the seals and leading to equipment malfunction. Therefore, take appropriate measures to prevent freezing. Refer to SMC Air Preparation System for further details on compressed air quality.
Water 15% Ethylene Glycol Aqueous Solution Physical property value Physical property value Temperature Density r [kg/L] Specific heat C [J/(kgK)] Current unit system Density r [kg/L] Specific heat C [J/(kgK)] Current unit system Weight volume ratio c [kgf/L] Specific heat C [cal/(kgfC)] 5C 1.00 4.2 x 103 1.00 1 x 103 Weight volume ratio c [kgf/L] Specific heat C [cal/(kgfC)] 5C 1.02 3.91
Port R Operating Fluid and Ambient Temperature Operating fluid temperature (C) (3) Vacuum Ambient temperature (C) Temperature conditions Air (Standard) Oil (Standard) (V) Port P Port A Maximum Minimum 60 5 (1) 40 5 40 40 5 5 (2) Note 1) Dew point: 5C or less Note 2) 500 cSt or less Note 3) V in parentheses is option symbol. Option Material No.
Dispense Volume: 1 (5 to 50 μL), Type: 2 (Base Mounted), Voltage: 6 (12 VDC), Fluid Contact Material: A (Body: PEEK; Diaphragm: EPDM; Check Valve: EPDM)
Dispense Volume: 1 (5 to 50 μL), Type: 2 (Base Mounted), Voltage: 5 (24 VDC), Fluid Contact Material: B (Body: PEEK; Diaphragm: FKM; Check Valve: FKM)
Dispense Volume: 1 (5 to 50 μL), Type: 2 (Base Mounted), Voltage: 5 (24 VDC), Fluid Contact Material: A (Body: PEEK; Diaphragm: EPDM; Check Valve: EPDM)
Dispense Volume: 1 (5 to 50 μL), Type: 2 (Base Mounted), Voltage: 5 (24 VDC), Fluid Contact Material: D (Body: PP; Diaphragm: FKM; Check Valve: FKM)
Dispense Volume: 1 (5 to 50 μL), Type: 2 (Base Mounted), Voltage: 6 (12 VDC), Fluid Contact Material: D (Body: PP; Diaphragm: FKM; Check Valve: FKM)
Dispense Volume: 5 to 50 μL, Type: Base Mounted, Voltage: 12 VDC, Fluid Contact Material: Body: PEEK; Diaphragm: EPDM; Check Valve: EPDM, Port Size: -
Dispense Volume: 5 to 50 μL, Type: Base Mounted, Voltage: 24 VDC, Fluid Contact Material: Body: PEEK; Diaphragm: FKM; Check Valve: FKM, Port Size: -
Dispense Volume: 5 to 50 μL, Type: Base Mounted, Voltage: 24 VDC, Fluid Contact Material: Body: PEEK; Diaphragm: EPDM; Check Valve: EPDM, Port Size: -
Dispense Volume: 5 to 50 μL, Type: Base Mounted, Voltage: 24 VDC, Fluid Contact Material: Body: PP; Diaphragm: FKM; Check Valve: FKM, Port Size: -
Dispense Volume: 5 to 50 μL, Type: Base Mounted, Voltage: 12 VDC, Fluid Contact Material: Body: PP; Diaphragm: FKM; Check Valve: FKM, Port Size: -
53 3234 1 10 mm or 3/8" 36.0 50.0 322 106 6468 1 10 mm or 3/8" 70.0 100.0 QP Stroke volume dm3 / in3 NPT Piping Air (s) Spring (s) Piping Air (s) Spring (s) Piping Air (s) Spring (s) 1C 0.62 37 3/8 10 mm or 3/8" [6 mm or 1/4" (x)] * * 10 mm or 3/8" [6 mm or 1/4" (x)] 1.2* 2.1* 2C 1.08 66 3/8 10 mm or 3/8" 2.4 3.0 3C 2.18 133 3/8 10 mm or 3/8" 4.8 5.2 4C 4.34 265 3/8 10 mm or 3/8" 3.2 3.7 5C
If the fluid temperature is 5C or less, the moisture in the circuit could freeze, causing damage to the seals or equipment malfunction. Therefore, take appropriate measures to prevent freezing.
If the fluid temperature is 5C or less, the moisture in the circuit could freeze, causing damage to the seals and equipment malfunction. Therefore, take appropriate measures to prevent freezing. Operating Environment Warning (1) Do not use in an atmosphere containing corrosive gases, chemicals, sea water, water, steam, or where there is direct contact with any of these.
If the fluid temperature is 5C or less, the moisture in the circuit could freeze, causing damage to the seals and equipment malfunction. Therefore, take appropriate measures to prevent freezing. Operating Environment Warning (1) Do not use in an atmosphere containing corrosive gases, chemicals, sea water, water, steam, or where there is direct contact with any of these.