Cooling Capacity: 2 kW, Type: Clean/DI Water, Pump Inverter Control: None, Option: C+N+Y
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
1 Applicable bore size B2 C2 d H2 CK1 SNJ-006B 6 8 9.2 M6 x 1.0 4 NTJ-006A 6 5.5 6.4 M3 x 0.5 2.4 Y-J016C 16 11 16.6 21 M5 x 0.8 SNJ-010C 10 11 12.7 M8 x 1.0 4 NTJ-010C 10 7 8.1 M4 x 0.7 3.2 Part no.
Cn is rounded down to the nearest whole number, using no more than three significant figures.
Applicable Connection Model T H1 H2 L1 L2 Mounting M Minimum Tube OD Thread UNF (Width (Width Hole Hole Applicable Connection Model T (M) H1 H2 L1 L2 Mounting M Effective Tube OD mm Thread (Width (Width Hole Orifice (mm 2) Inch Rc(PT) Across Flats) Across Flats) Diameter Rc(PT) Across Flats)Across Flats) Nylon/Ureth 1/8 1/4 KQE01-35 1/2-20 17.46 17.46 31.5 15 14 15.5 2.5 3.2 14 KQE23-02 M12x1
/A: Brass, N: Brass + Electroless nickel plated Bulkhead Connector: KQ2E H1 (Width across flats) H2 (Width across flats) L1 L2 Mounting hole M Effective area (mm2) Min. port size Applicable tubing O.D.
Actuating solenoid valve electric signal Valve opening O After a few seconds at 10-6Torr 90% 100% 90% Valve closing Operation time Responce time Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2+...1/Cn) when in series, and C=C1+C2+...Cn, when in parallel. 39 Series XL Technical Data 5 He leakage
Actuating solenoid valve electric signal Valve opening O After a few seconds at 10-6Torr 90% 100% 90% Valve closing Operation time Responce time Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2+...1/Cn) when in series, and C=C1+C2+...Cn, when in parallel. 39 Series XL Technical Data 5 He leakage
D M L2 L1 (mm) H1 Width across flats Minimum bore H2 Width across flats Effective area mm L2 When connected Model Applicable hose I.D.
P411020-5 P411030-5 P411040-5 P411050-5 Model CRB1LW50 CRB1LW63 CRB1LW80 CRB1LW100 Connector/Without lead wire CN Connectors are available only for auto switch types R73, R80, T79. Lead wire with connector part nos.
P411020-5 P411030-5 P411040-5 P411050-5 Model CRB1LW50 CRB1LW63 CRB1LW80 CRB1LW100 Connector/Without lead wire CN Connectors are available only for auto switch types R73, R80, T79. Lead wire with connector part nos.
P411020-5 P411030-5 P411040-5 P411050-5 Model CRB1LW50 CRB1LW63 CRB1LW80 CRB1LW100 Connector/Without lead wire CN Connectors are available only for auto switch types R73, R80, T79. Lead wire with connector part nos.
K V 1 10 XLA S P1P2 XL XL Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2++1/Cn) when in series, and C=C1+C2++Cn, when in parallel.
K V 1 10 XLA S P1P2 XL XL Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2++1/Cn) when in series, and C=C1+C2++Cn, when in parallel.
Cooling Capacity: 002 (2 kW), Type: 2 (Clean/DI Water)
Cooling Capacity: 2 kW, Type: Clean/DI Water, Pump Inverter Control: -, Option: -
Cooling Capacity: 002 (2 kW), Type: 2 (Clean/DI Water), Pump Inverter Control: None, Option: C (Analog Communication)
Cooling Capacity: 002 (2 kW), Type: 2 (Clean/DI Water), Pump Inverter Control: None, Option: N (NPT Fitting)
Cooling Capacity: 002 (2 kW), Type: 2 (Clean/DI Water), Pump Inverter Control: None, Option: CY (C+Y)
Cooling Capacity: 002 (2 kW), Type: 2 (Clean/DI Water), Pump Inverter Control: None, Option: NZ (N+Z)