37608-EN_Ver2.4.fm/2
References,
characteristics
Type of operator
Weight (kg)
Contact operation
Switch actuation
Type of actuation
Maximum actuation speed
Mechanical durability
(in millions of operating cycles)
Minimum force or
torque
Cable entry (3)
(1) Form conforming to EN 50047, see page 31900/8.
(2) Switches with gold contacts or ring type connections: please consult our Regional Sales Office.
(3) For an entry tapped for a n° 11 cable gland, replace P16 in the reference by G11. Examples: XCK P2110P16 becomes XCK P2110G11, ZCP EP16 becomes
Type of head
References
Characteristics
ZCP EG11.
2-pole N/C + N/O
snap action (XE2S P2151)
2-pole N/C + N/O
break before make, slow break
(XE2N P2151)
2-pole N/C + N/C
simultaneous, slow break
(XE2N P2141)
2-pole N/C + N/C
snap action (XE2S P2141)
3-pole N/C + N/C + N/O
snap action (XE3S P2141)
3-pole N/C + N/C + N/O
break before make, slow break
(XE3N P2141)
(2) (3)
For tripping
For positive opening
Form B (1)
Plunger (fixing by the body)
Metal end plunger Metal end plunger
XCK P2110P16
21-22
13-14
21-22
13-14
XCK P2510P16
ZCP 29 +
ZCP EP16 +
ZCE 10
ZCP 27 +
ZCP EP16 +
ZCE 10
11-12
21-22
ZCP 39 +
ZCP EP16 +
ZCE 10
ZCP 37 +
ZCP EP16 +
ZCE 10
0.090
On end
0.5 m/s
15
15 N
45 N
1 entry tapped M16 x 1.5 mm for ISO cable gland, clamping capacity 4 to 8 mm
21-22
13-14
11-12
21-22
11-12
21-22
21-22
31-32
13-14
21-22
31-32
13-14
21-22
31-32
13-14
0
0
0
0
0
0
0,9
0,9
0,9
1,8
1,8 4,5(P)
1,8
1,8
1,8
1,8
contact closed
contact open
3
3,2(P)
3
3,2(P)
3,2(P)
5mm
4,5(P)
4,5(P)
5mm
5mm
5mm
5mm
5mm
Limit switches
Osiswitch
Compact design, plastic, type XCK P
Complete units with 1 ISO M16 x 1.5 cable entry
with elastomer
boot
XCK P2111P16
21-22
13-14
21-22
13-14
XCK P2511P16
ZCP 29 +
ZCP EP16 +
ZCE 11
ZCP 27 +
ZCP EP16 +
ZCE 11
11-12
21-22
ZCP 39 +
ZCP EP16 +
ZCE 11
ZCP 37 +
ZCP EP16 +
ZCE 11
0.090
21-22
13-14
11-12
21-22
11-12
21-22
21-22
31-32
13-14
21-22
31-32
13-14
21-22
31-32
13-14
0
0
0
0
0
0
0,9
0,9
0,9
1,8
1,8 4,5(P)
1,8
1,8
1,8
1,8
3
3,2(P)
3
3,2(P)
3,2(P)
5mm
4,5(P)
4,5(P)
5mm
5mm
5mm
5mm
5mm
Form C (1)
(A)(B) = cam displacement
(P) = positive opening point
®
Steel roller plunger Thermoplastic
XCK P2102P16
XCK P2502P16
21-22
13-14
ZCP 29 +
ZCP EP16 +
ZCE 02
ZCP 27 +
ZCP EP16 +
ZCE 02
11-12
21-22
ZCP 39 +
ZCP EP16 +
ZCE 02
ZCP 37 +
ZCP EP16 +
ZCE 02
0.095
By 30° cam
10
12 N
36 N
21-22
13-14
21-22
13-14
11-12
21-22
11-12
21-22
21-22
31-32
13-14
21-22
31-32
13-14
21-22
31-32
13-14
0
0
0
0
3,1(A)
Universal, Osiconcept
0
3,1(A) 7,8(P)
0
3,1(A)
1,5
3,1(A)
3,1(A)
3,1
5,2
1,5
1,5
5,2
5,6(P)
5,6(P)
mm
5,6(P)
7,8(P)
7,8(P)
mm
mm
mm
mm
mm
Form E (1)
rollerleverplunger,
horizontalactuation
in 1 direction
XCK P2121P16
XCK P2521P16
ZCP 29 +
ZCP EP16 +
ZCE 21
ZCP 27 +
ZCP EP16 +
ZCE 21
ZCP 39 +
ZCP EP16 +
ZCE 21
ZCP 37 +
ZCP EP16 +
ZCE 21
0.105
1 m/s
15
6 N
18 N
11-12
21-22
21-22
31-32
13-14
21-22
13-14
21-22
13-14
21-22
13-14
11-12
21-22
11-12
21-22
21-22
31-32
13-14
21-22
31-32
13-14
0
0
6,5(A) 15,7(P)
6,5(A)
0
0
0
0
6,6(A) 11,6(P)
6,5(A)
3
6,5(A)
6,5(A)
10,5
3
10,5
3
11,3(P)
mm
11,3(P)
15,7(P)
15,7(P)
mm
mm
mm
mm
mm
operation
Thermoplastic
rollerleverplunger,
vertical actuation
in 1 direction
XCK P2127P16
XCK P2527P16
ZCP 29 +
ZCP EP16 +
ZCE 27
ZCP 27 +
ZCP EP16 +
ZCE 27
11-12
21-22
ZCP 39 +
ZCP EP16 +
ZCE 27
ZCP 37 +
ZCP EP16 +
ZCE 27
21-22
31-32
13-14
0.100
21-22
13-14
21-22
13-14
21-22
13-14
11-12
21-22
11-12
21-22
21-22
31-32
13-14
21-22
31-32
13-14
0
0
6,5(B) 15,7(P)
6,5(B)
N/C contact with positive opening
0
0
0
0
6,5(B)
6,6(B) 11,6(P)
3
6,5(B)
6,5(B)
10,5
3
3
10,5
11,3(P)
mm
®
11,3(P)
15,7(P)
15,7(P)
mm
mm
mm
mm
mm
Thermoplastic
roller lever plunger,
horiz. or vert. actu-
ation in 1 direction
XCK P2128P16
XCK P2528P16
21-22
13-14
ZCP 29 +
ZCP EP16 +
ZCE 28
11-12
21-22
11-12
21-22
ZCP 27 +
ZCP EP16 +
ZCE 28
11-12
21-22
ZCP 39 +
ZCP EP16 +
ZCE 28
ZCP 37 +
ZCP EP16 +
ZCE 28
21-22
31-32
13-14
0.105
Schneider Electric
21-22
13-14
21-22
13-14
21-22
31-32
13-14
21-22
31-32
13-14
0
0
0
9,8(A) 22,5(P)
9,8(A)
0
0
0
9,8(A)
4,9
5,3(A)
9,8(A)
9,8(A)
4,9
4,9
16,1
16,1
17,2(P)
mm
17,2(P)
22,5(P)
22,5(P)
mm
mm
mm
mm
mm
0