Turck Linear Position / LTX Página 1 ⍾ Turck ⍾ Última modificación
The Turck Linear Position / LTX catalog features linear position sensors designed for hydraulic cylinders. These sensors are pressure resistant up to 340 bar (continuous), 680 bar (short-term), and shock-proof up to 100g or 1000g, with status indicated via a 3-colour LED.
LTX / Linear Position ⍾ Página 1
-
LTX100M-R10-LI0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX100M-R10-LU0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX250M-R10-LI0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX250M-R10-LU0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX500M-R10-LI0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX500M-R10-LU0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX1000M-R10-LI0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX1000M-R10-LU0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX1500M-R10-LI0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX1500M-R10-LU0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX2000M-R10-LI0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX2000M-R10-LU0-X3-H1151
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX200M-R10-SSI-2-GAF1-X3-H1161
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX500M-R10-SSI-2-GAF1-X3-H1161
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX1000M-R10-SSI-2-GAF1-X3-H1161
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX1500M-R10-SSI-2-GAF1-X3-H1161
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
LTX2000M-R10-SSI-2-GAF1-X3-H1161
Magnetostrictive linear position sensor, rod design. Suited for hydraulic cylinders. The sensor is pressure resistant up to 340 bar (permanent), 680 bar (short-term). Shock-proof u …
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
