HRX-OM-R016

4000 Ambient Ambient 3500 3500 temperature temperature or or Cooling capacityW Cooling capacityW 3000 3000 facility water temperature facility water temperature 2500 2500 2000 2000 25 32 40 25 32 40 1500 1500 1000 1000 500 500 0 0 0 10 20 30 40 50 0 10 20 30 40 50 Circulating fluid temperature Circulating fluid temperature 50Hz 60Hz The cooling capacity will be reduced by 300W when option

HRX-OM-W038

4000 3000 25 25 3000 32 32 40 40 2000 2000 1000 1000 0 0 0 10 20 30 40 50 0 10 20 30 40 50 Circulating fluid temperature[] Circulating fluid temperature[] 50Hz 60Hz *The cooling capacity will be reduced by 300W when option: T and MT are selected.

HRX-OM-O021

4000 25 25 3000 3000 32 32 2000 2000 40 40 1000 1000 0 0 0 10 20 30 40 50 0 10 20 30 40 50 Circulating fluid temperature [] Circulating fluid temperature [] 50Hz 60Hz Fig. 9-4 Cooling capacity(HRS050--20-(BJM)) 9.5 Heating capacity 9.5.1 HRS050-A-20-(BJM) 2000 2000 Ambient Ambient temperature temperature 1500 1500 5 Heating capacity [W] Heating capacity [W] 5 20 20 25 25 1000 32 1000 32

HRX-OM-R005

4000 32 3000 3000 32 2000 2000 40 40 1000 1000 0 0 0 10 20 30 40 50 0 10 20 30 40 50 Circulating fluid temperature Circulating fluid temperature 60Hz 50Hz Fig. 9-4 Cooling capacity(HRS060--20-(BJM)) 1. 5 1. 5 1. 5 1. 5 1. 5 1. 5 kW kW kW kW kW kW 1 1 1 1 1 1 0. 5 0. 5 0. 5 0. 5 0. 5 0. 5 0 0 0 0 0 0 9.5 Heating capacity 0 2 0 2 0 2 0 1 2 0 1 2 0 1 2 HRS060-A-2050Hz HRS060-A-2050Hz

energy saving effect

radiation amount/Facility water specifications> 10 s 5 s 2 s Min. 1 s 0.5 s 0.2 s 0.1 s Model Heat radiation [kW] Facility water specifications HRSH100-Wl-l Approx. 20 Refer to "Facility water system" in the specifications on pages 167 and 169. 0.05 s HRSH150-Wl-l Approx. 27 HRSH200-Wl-l Approx. 34 HRSH250-Wl-l Approx. 40 0.02 s 0.01 s 100 135 200 300 400 500 600 700 1000 1500 2000 3000 4000

Vacuum Unit Ejector / Vacuum Pump System

. -30 -20 -10 0 0 1000 2000 3000 4000 5000 6000 Piping length [mm] mm Fig. A. Vacuum pressure for piping (ZK215) Tube TU0805 or T0806 Tube TU1065 or T1075 Nipple KQ2N08-99 Straight type of different diameter KQ2H08-10A Fig. B Example of piping -74No. ZK2-OM01301 In addition, the exhaust port should not be blocked or pressurized.

AC Servo Motor Driver (Pulse input type/Positioning type ）

SPECIAL ADJUSTMENT FUNCTIONS (b) Switching timing chart Command pulses Droop pulses Command pulses +CDL Droop pulses [pulse] 0 -CDL After-switching gain 63.4% Before-switching gain Gain switching CDT = 100 ms Load to motor inertia ratio 4.00 10.00 4.00 10.00 Position loop gain 120 84 120 84 Speed loop gain 3000 4000 3000 4000 Speed integral compensation 20 50 20 50 3) When the

HRX-OM-W002

Ambient temp. 2500 2500 2500 2500 4000 4000 Ambient temp. or or Ambient temp. Ambient temp. Ambient temp. 2500 2500 Ambient temp. Ambient temp. 2500 2500 or Facility water temp. Facility water temp. Ambient temp. 3500 or or or 3500 or or 2000 2000 2000 2000 Facility water temp. Facility water temp. or Facility water temp. Facility water temp. Facility water temp. Facility water temp.

High-precision Digital Pressure Switch ( compatible)

-58.02 [Calculation example] (1) Conversion from the process data to the pressure measurement value (For ISE70 series, unit specification MPa and PD = 2000) Pr = a (PD) + b = 0.00025 2000 0.25 = 0.25 [MPa] (2) Conversion from the pressure measurement value to the process data (For ISE70 series, unit specification MPa and Pr = 0.75 [MPa]) (PD) = (Pr b) / a = [0.75 (0.25)]/0.00025 = 4000

High-precision Digital Pressure Switch

580.15 [Calculation example] (1) Conversion from the process data to the pressure measurement value (For ISE70G series, unit specification MPa and PD = 2000) Pr = a (PD) + b = 0.00025 2000 0.25 = 0.25 [MPa] (2) Conversion from the pressure measurement value to the process data (For ISE70G series, unit specification MPa and Pr = 0.75 [MPa]) (PD) = (Pr b) / a = [0.75 (0.25)]/0.00025 = 4000

High-precision Digital Pressure Switch ( compatible)

-1813 [Calculation example] (1) Conversion from the process data to the pressure measurement value (For ISE79S series, unit specification MPa and PD = 2000) Pr = a (PD) + b = 0.0125 2000 12.5 = 12.5 [MPa] (2) Conversion from the pressure measurement value to the process data (For ISE79S series, unit specification MPa and Pr = 37.5 [MPa]) (PD) = (Pr b) / a = [37.5 (-12.5)] / 0.0125 = 4000

AC Servo Motor Driver (Pulse input type/Positioning type)

(<1000 stroke)/0001 (>1000 stroke) Home position return type PE03 0010 3 (Stopper type) Home position return direction PE03 0010 1 (Motor side) Home position return Speed (rpm) PE04 500 90 180 360 629 90 180 360 Home position return/JOG operation Accelerationeration/D eceleration time constants (msec) PE07 100 1000 500 250 143 1000 500 250 Home position return position data (m) PE08 0 -4000

Mechanically Jointed Rodless Cylinders

Guide for Using MY3M Side Support 200 (1200) 180 160 m 140 Weight W (kg) 120 MY3M63 l 100 (800) 80 MY3M40 60 (700) m l 40 MY3M25 (600) m 20 MY3M16 0 1000 2000 3000 4000 0 l l Support spacing l1 (mm) Note) A side support must be used to keep the spacing from exceeding the value inside the parentheses.

LEC-OM069xx

The ratio must satisfy: 0.001< (Pn20E/Pn210) < 4000. Set the electronic gear ratio in the range: 0.001< (Pn20E/Pn210) < 4000.

HRX-OM-S004

4min 2min 1min 30s 20s Operating time Max. 10s 5s 2s Min. 1s 0.5s 0.2s 0.1s 0.05s 0.02s 0.01s 100 135 200 300 400 500 600700 1000 1500 2000 3000 4000 Current (% for breaker capacity) For HRS100-A/W-46 HRS150-A/W-46 3.3 Installation HRS Series 3-14 HRX-OM-S004 Chapter 3 Transport and Setting Up Preparation for operation 1.

Refrigerated Air Dryers

Three-phase type IDF TR 5 1700 Capacity Power supply voltage Symbol Applicable air dryer Capacity Symbol Inlet voltage Outlet voltage Type 1700 IDF22E-30, IDF37E-30 IDU22E-30, IDU37E-30 1.7 kVA 5 220 VAC (50 Hz) 220 to 240 VAC (60 Hz) 200 VAC (50 Hz) 200, 220 VAC (60 Hz) Threephase 6 380, 400, 415 VAC (50 Hz) 380 to 440 VAC (60 Hz) 4000 IDF55E-30, IDF75E-30 IDU55E-30, IDU75E-30 4 kVA 7000

LEC-OM071xx

The ratio must satisfy: 0.001< (Pn20E/Pn210) < 4000. Set the electronic gear ratio in the range: 0.001< (Pn20E/Pn210) < 4000. The electronic gear ratio is out of the setting range.

AC Servo Motor Driver (Network card type ）

SPECIAL ADJUSTMENT FUNCTIONS (b) Switching timing chart Command pulses Droop pulses Command pulses +CDL Droop pulses [pulse] 0 -CDL After-sw itching gain 63.4% Before-sw itching gain Gain sw itching CDT = 100 ms Load to motor inertia ratio 4.00 10.00 4.00 10.00 Position loop gain 120 84 120 84 Speed loop gain 3000 4000 3000 4000 Speed integral compensation 20 50 20 50 3) When

Air Cylinder NCA1 Series

168 202 275 cylinders, oversized piston rods may be required. 1000 27 60 105 155 190 257 330 1400 24 53 92 142 174 244 308 385 1800 23 48 82 127 160 230 296 366 It must be noted, however, that oversized piston rods transmit more side load 2400 19 45 75 114 145 213 281 347 than is the case with more flexible smaller rods; therefore, the use of oversized 3200 16 41 67 103 130 194 261 329 4000

HRX-OM-Z002

If it has a shorter operating time, there is a possibility of accidental breaker trip due to the internal motors' inrush currents of this product. 4h 2h 1h 30min 20min 14min 10min 6min 4min Max . operating time 2min 1min 30s 20s 10s 5s 2s Min. 1s 0.5s 0.2s 0.1s 0.05s 0.02s 0.01s 100 135 200 300 400 500 600 700 1000 1500 2000 3000 4000 Current (% of rated current) Operating characteristics