10%, Ripple (p-p) 10% or less (with power supply polarity protection)45 mA or lessNPN or PNP open collector 2 outputs (Selectable)80 mA28 V (at NPN output)1 V or less2.5 ms (with anti-chattering function: 20, 100, 500, 1000, 2000 ms)Yes?0.2% F.S. ?1 digitVariable (0 or above) Note 1)Variable (0 or above) Note 1)0.6 to 5 V ?2.5% F.S.?1% F.S. or lessApprox. 1 k 2.4 to 20 mA ?2.5% F.S.?
10%, Ripple (p-p) 10% or less (with power supply polarity protection)45 mA or lessNPN or PNP open collector 2 outputs (Selectable)80 mA28 V (at NPN output)1 V or less2.5 ms (with anti-chattering function: 20, 100, 500, 1000, 2000 ms)Yes?0.2% F.S. ?1 digitVariable (0 or above) Note 1)Variable (0 or above) Note 1)0.6 to 5 V ?2.5% F.S.?1% F.S. or lessApprox. 1 k 2.4 to 20 mA ?2.5% F.S.?
10%, Ripple (p-p) 10% or less (with power supply polarity protection)45 mA or lessNPN or PNP open collector 2 outputs (Selectable)80 mA28 V (at NPN output)1 V or less2.5 ms (with anti-chattering function: 20, 100, 500, 1000, 2000 ms)Yes?0.2% F.S. ?1 digitVariable (0 or above) Note 1)Variable (0 or above) Note 1)0.6 to 5 V ?2.5% F.S.?1% F.S. or lessApprox. 1 k 2.4 to 20 mA ?2.5% F.S.?
10%, Ripple (p-p) 10% or less (with power supply polarity protection)45 mA or lessNPN or PNP open collector 2 outputs (Selectable)80 mA28 V (at NPN output)1 V or less2.5 ms (with anti-chattering function: 20, 100, 500, 1000, 2000 ms)Yes?0.2% F.S. ?1 digitVariable (0 or above) Note 1)Variable (0 or above) Note 1)1 to 5 V ?2.5% F.S.?1% F.S. or lessApprox. 1 k 4 to 20 mA ?2.5% F.S.?
10%, Ripple (p-p) 10% or less (with power supply polarity protection)45 mA or lessNPN or PNP open collector 2 outputs (Selectable)80 mA28 V (at NPN output)1 V or less2.5 ms (with anti-chattering function: 20, 100, 500, 1000, 2000 ms)Yes?0.2% F.S. ?1 digitVariable (0 or above) Note 1)Variable (0 or above) Note 1)0.6 to 5 V ?2.5% F.S.?1% F.S. or lessApprox. 1 k 2.4 to 20 mA ?2.5% F.S.?
10%, Ripple (p-p) 10% or less (with power supply polarity protection)45 mA or lessNPN or PNP open collector 2 outputs (Selectable)80 mA28 V (at NPN output)1 V or less2.5 ms (with anti-chattering function: 20, 100, 500, 1000, 2000 ms)Yes?0.2% F.S. ?1 digitVariable (0 or above) Note 1)Variable (0 or above) Note 1)0.6 to 5 V ?2.5% F.S.?1% F.S. or lessApprox. 1 k 2.4 to 20 mA ?2.5% F.S.?
SI unit for Ethernet POWERLINK Specification Seal cap EX9-AWTS For M12 connector socket: 10 pcs. -30No.EX-OMV0023-A Power supply connector (1) Cable with power supply connector Part number: EX500-AP0 1 0S Connector specifications S Straight A Angle Cable length (L) 1 1000 [mm] 5 5000 [mm] EX500-AP0#0-S EX500-AP0#0-A Item Specifications Pin No.
(Example: If a product for 0 to 1 MPa can indicate pressure by 0.001 MPa, the indication resolution is 1/1000.) Indication unit The unit of pressure used in the display. The mode to set the items other than pressure. Pressure range, display color, operation mode, output format, response time and auto-preset can be set.
[F11] [drE] [drE] Display resolution setting [1000] 1000-split [F13] [rEv] [rEv] Set Reverse display [oFF] Not reverse Power is supplied. [1.0] 1% of maximums rated flow PF2M701: 0.01 L/min, PF2M702: 0.02 L/min PF2M705: 0.05 L/min, PF2M710: 0.1 L/min PF2M725: 0.3 L/min, PF2M750: 0.5 L/min PF2M711: 1 L/min, PF2M721: 2 L/min DOWN button Selects the mode or decreases the ON/OFF set value.
10 L/min Minimum display unit Accumulated flow 10 L 100 L Display method: LCD Number of displays: 2 (Main display and Sub display) Colour: Red and green for main display Display colour (sub display): Orange Display (main display): 5 digits 7 segment Display (sub display): 6 digits 7 segment Display Operation LED OUT LED: Orange is ON when output is ON Protection IP65 Withstand voltage 1000
Ratio of discharge amount to fresh water () 100 90 80 70 60 50 40 30 20 10 0 1000 100 10 1 Viscosity (mPas) mPas Recommended typical condition B: Calculate discharge amount of fluid with viscosity 100mPas in case of discharge rate 4.5L/min and discharge pressure 0.1MPa. 1. Find ratio of discharge rate to fresh water for the fluid with viscosity 100mPas from the graph.
Ratio of discharge amount to fresh water () 100 90 80 70 60 50 40 30 20 10 0 1000 100 10 1 Viscosity (mPas) mPas Recommended typical condition B: Calculate discharge amount of fluid with viscosity 100mPas in case of discharge rate 4.5L/min and discharge pressure 0.1MPa. 1. Find ratio of discharge rate to fresh water for the fluid with viscosity 100mPas from the graph.
Example 1) ASCII mode Received function code: 04(0 0100)ASCII code 30h34h Abnormal function code: 84(1000 0100)ASCII code 38h34h Example 2) RTU mode Received function code:04 (0 0100) Abnormal function code:84 (1000 0100) 2) Error Code Assign error code below. 01: Function code of a command is outside the standard. 02: The specified address of register is outside the range. 03: Data field
(example: The following of 999(kPa) are displayed as A00(kPa), and it shows 1000 kPa.) (note4)When the display exceeds the lower bound value, " " is displayed.
(Page 9) 6 Bushing (bearing) 1000 fR[N] 100 Lateral load applied to rod end 100 80 63 10 50 40 1 0 500 1000 1500 Cylinder stroke [mm] Fig. 1 Allowable lateral load applied to rod end C a u t i o n Be certain to align the rod axis with the load and direction of movement when connecting.
The maximum detectable piston speed is: Auto switch operating range (mm) Time load applied(ms) V(mm/s)= 1000 Keep wiring as short as possible.
The maximum detectable piston speed is: Warning Warning Caution Warning Caution Auto switch operating range (mm) Time load applied(ms) V(mm/s)= 1000 8 -
Keep wiring as short as possible.
The maximum detectable piston speed is: Warning Caution Auto switch operating range (mm) Time load applied(ms) V(mm/s)= 1000 Keep wiring as short as possible.
The maximum piston speed is: Auto switch operating range (mm) Load applied time (ms) V(mm/s)= 1000 2. Take precautions when multiple rotary tables are used close together. When multiple auto switch rotary tables are used in close proximity, magnetic field interference may cause the auto switches to malfunction. Maintain a minimum cylinder separation of 40 mm.
When the product repeatedly cycles with partial strokes, operate it at a full stroke at least once a day or every 1000 strokes. Otherwise, lubrication may run out. 3. Do not use the product in applications where excessive external force or impact force is applied to it. The product can be damaged. The components, including the motor, are manufactured to precise tolerances.