ETHERNET/IP DC CONTROLLER, ELECTRIC ACTUATOR CONTROLLER, N31, 0.21 lb
ETHERNET/IP DC CONTROLLER, ELECTRIC ACTUATOR CONTROLLER, N31, 0.23 lb
Series LECP6 controller has two available modes for the setting software and teaching box. In the easy mode, the operation can be started by only setting the speed, position, etc. Using the normal mode allows a further detailed setup. A few of the main functions of the LECP6 controller are actuator control, specified force operation, separated power supply, and returning the actuator
LECP1 series is a programless controller capable of setting up an electric actuator operation without using a PC or teaching box. Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to
LECP1 series is a programless controller capable of setting up an electric actuator operation without using a PC or teaching box. Through the combination of parallel I/O inputs, 14 points of positioning are available. The speed and acceleration of the positioning can be set by the switch for each operating direction. A single signal sent to a dedicated terminal returns an actuator to
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, INVALID P/N (INCOMPLETE P/N), ACTUATOR, ELECTRIC ACTUATOR, 2C, LE ACTUATOR, NO SIZE RATING, 2.09439 lb, Stroke [mm]Model3050100150200250300350400450500Manufacturable stroke range [mm]LEY16PPPPPPP????10 to 300
Magnetic Field Resistant 2-color Indication Type Solid State Auto Switch Rough guide for distance from conductor to prevent malfunction (10,000A: 30cm or more).
AF AR IR VEX ALD900 Mounting/Adjustment AW Caution qProvide about 30cm of space above and below the D.P. Lube or the D.P.
(L) W E L d 11 30 11 11.8 (1) ACPWM 30cm 10{IglIgnIgaK(Ig2Igm)}[mA](11.1) K NV M NV-SP NV-SW NV-CP NV-CW NV-HW 1 Ig1 Iga Ig2 Igm Ign BV-C1 NFB 3 NV-L Igl (11.3) Ig2 (11.3) Ign (FR-BIF-(H) ()4.4mA) Iga(11.6) Igm (11.5) 120 120 100 100 80 80 60 60 40 40 [mA] [mA] [mA] [mA] 20 20 0 2 0 2 100 5.5 14 38 14 100 5.5 38 8 3.5 22 60 150 8 3.5 22 60 150 30 80 30 80 2] [mm 2] [mm [mm2] [mm2]
(L) W E L d 11 25 11. 11.9 (1) ACPWM 30cm 10 {Ig1 + Ign + Iga + K (Ig2 + Igm)} [mA] (11.1) K NV M NV-SP NV-SW NV-CP NV-CW NV-HW 1 Ig1 Iga Ig2 Igm Ign BV-C1 NFB 3 NV-L Ig1: (11.5) Ig2: (11.5) Ign: (FR-BIF14.4mA) Iga: (11.3) Igm: (11.2) 120 10 0 [mA] 80 60 40 20 0 2 5.5 14 38 100 3.5 8 22 60 15 0 80 30 [mm] 11.7 CV1km(lg1lg2) 11 26 11. 11.2 (Igm) [W] [mA] 50750 0.1 11.3 (Iga
(L) W E L d 13 25 13 13.7 (1) ACPWM 30cm 10{IglIgnIgaK(Ig2Igm)}[mA] (14.1) K NV NV-SP NV-SW NV-CP NV-CW NV-HW M 1 Ig1 Iga Ig2 Igm Ign BV-C1 NFB 3 NV-L Igl (13.4 ) Ig2 (13.4 ) Ign (FR-BIF-(H)()4.4mA) Iga(13.5 ) Igm((13.4 ) 120 100 80 60 40 [mA] [mA] 20 0 2 100 5.5 14 38 8 3.5 22 60 150 30 80 [mm] [mm2] a. 200V 13.4 CV1km(lg1lg2) 13 26 13 13.4 (Igm) [kW] [mA] 0.051 0.1 13.5 (Iga) [kW
Make the input and output cables as short as possible, and also make the grounding cable as long as possible (about 30cm) to minimize leakage currents.
Make the input and output cables as short as possible, and also make the grounding cable as long as possible (about 30cm) to minimize leakage currents.
Make the input and output cables as short as possible, and also make the grounding cable as long as possible (about 30cm) to minimize leakage currents.
Make the input and output cables as short as possible, and also make the grounding cable as long as possible (about 30cm) to minimize leakage currents.
Make the input and output cables as short as possible, and also make the grounding cable as long as possible (about 30cm) to minimize leakage currents.