MY1 Example) D-Y59AL Impact resistance 1000m/S Insulation resistance 50M or more at 500VDC (between lead wire and case) Withstand voltage 1000VAC for 1min.
[oC] correction coefficient Less than 1000m 45 1.00 1000m or more Less than 1500m 42 0.85 1500m or more Less than 2000m 38 0.80 2000m or more Less than 2500m 35 0.75 2500m or more Less than 3000m 32 0.70 Installation/Operation in accordance with the UL standard The product cannot be used in the environment shown below: Environment at an altitude of 2000 meters or more Environment at a
[oC] correction coefficient Less than 1000m 45 1.00 1000m or more Less than 1500 m 42 0.85 1500m or more Less than 2000m 38 0.80 2000m or more Less than 2500m 35 0.75 2500m or more Less than 3000m 32 0.70 If heat from the product cannot be sufficiently radiated due to a rise in the ambient temperature, a lack of ventilation, high elevation, etc., the refrigerant circuit pressure on the high
Environment Conditions (Note 1) Ambient temperature In operation (Note 2) 0 to 55 Under preservation or under transportation -20 to 65 Ambient humidity In operation, under preservation or under transportation 90%RH or less Altitude In operation or under preservation 1000m or lower Under transportation 10m or lower Note 1.
(b) Environment Environment Conditions [ ] (Note 2) 0 to 55 In operation [ ] 32 to 131 (Note 1) [ ] 20 to 65 Ambient temperature In storage, [ ] 4 to 149 in transportation In operation, Ambient humidity in storage, 90 RH or less in transportation In operation, in storage 1000m or less Maximum altitude In transportation 10m or less Note 1.
(1) 0+55() 0+40() -20+65() -15+70() 90%RH() 80%RH() 90%RH() () 1000m LECS-S5 LECS-S7 LECS-S8 () 5.9m/s2 XY49m/s2 .
(1) 0+55() 0+40() -20+65() -15+70() 90%RH() 80%RH() 90%RH() () 1000m LECSS2-T5 LECSS2-T7 LECSS2-T8 LECSS2-T9 () 5.9m/s2 XY49m/s2 (2) (FR-BIF) (UVW), A 5 (UVW)(UVW) U U U U V V M V M V W W W W DC DC 24 V DC 24 V DOCOM DOCOM RA RA U,V,WCN2 (3) (4) A 6 () (5) DC24V ALM()MBR( ) RA B U DC 24 V (6) 10 (7) A 7 () 1.(:) (1) (2) 2.(:) (1) 1 (2) (3) (4) , [](:) EEP-ROM
Oilproof heavy-duty flexible vinyl cable, 3.4, 0.15mm, 2 cores (Brown, Blue [Red, Black]), 3m Impact resistance . 1000m/s Insulation resistance ... 50M or more at 500VDC (between lead wire and case) Withstand voltage . 1000VAC for 1 min. (between lead wire and case) Ambient temperature ... 10 to 60C Enclosure .
Cooling capacity Product of 45oC Altitude [m] coefficient Product of 40oC (High temperature type [Optional]) Less than 1000m 40 45 1.00 Less than 1500m 38 42 0.85 Less than 2000m 36 38 0.80 Less than 2500m 34 35 0.75 Less than 3000m 32 32 0.70 Bevelled place. Location where the product is affected by strong vibrations or impacts.
Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at altitude of 1000m or higher. Therefore, the maximum ambient temperature to use and the cooling capacity will lower according to the descriptions in the table below. Please select the thermo chiller considering the descriptions. 1.
Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at altitude of 1000m or higher. Therefore, the maximum ambient temperature to use and the cooling capacity will lower according to the descriptions in the table below. Please select the thermo chiller considering the descriptions. 1.
Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at altitude of 1000m or higher. Therefore, the maximum ambient temperature to use and the cooling capacity will lower according to the descriptions in the table below. Please select the thermo chiller considering the descriptions. 1.
*Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at altitude of 1000m or higher. Therefore, the maximum ambient temperature to use and the cooling capacity will lower according to the descriptions in the table below. Please select the thermo chiller considering the descriptions. 1.
*Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at altitude of 1000m or higher. Therefore, the maximum ambient temperature to use and the cooling capacity will lower according to the descriptions in the table below. Please select the thermo chiller considering the descriptions. 1.
*Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at altitude of 1000m or higher. Therefore, the maximum ambient temperature to use and the cooling capacity will lower according to the descriptions in the table below. Please select the thermo chiller considering the descriptions. 1.
Thermo-chiller installation in high altitude of 1000 meters or more Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at altitude of 1000m or higher. For this reason, the maximum ambient temperature for the thermo-chiller operation and the cooling capacity will be reduced.
Location without adequate space for maintenance as required. 3.2 Installation HRL Series 3-4 HRX-OM-W060 Chapter 3 Transport and Setting Up Thermo-chiller installation in high altitude of 1000 meters or more Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at altitude of 1000m or higher.
For the product installation or operation in accordance with UL standards, see below. 3.2 Installation HRL Series 3-4 HRX-OM-Y098 Chapter 3 Transport and Setting Up Thermo-chiller installation at high altitude of 1000 meters or more Due to the lower air density, the heat radiation efficiencies of the devices in the product will be lower at an altitude of 1000m or higher.
For the product installation or operation in accordance with UL standards, see below. 3.2 Installation HRL Series 3-4 HRX-OM-X037 Chapter 3 Transport and Setting Up Thermo-chiller installation at high altitude of 1000 meters or more Due to the lower air density, the heat radiation efficiencies of the devices in the product will be lower at an altitude of 1000m or higher.
[C] correction coefficient Less than 1000m 40 1.00 1000 m or more Less than 1500 m 38 0.85 1500m or more Less than 2000m 36 0.80 2000m or more Less than 2500m 34 0.75 2500m or more Less than 3000m 32 0.70 Installation/Operation in accordance with the UL standard The product cannot be used in the environment shown below: Environment at an altitude of 2000 meters or more Environment at a