Prices for larger quantities may be obtained by contacting us or by clicking the RFQ below.
OEM quantities, more than 100 units or special instructions:
select a duty cycle
C
I
L
P
Special Comments
Quantity adjustment on next page
Series E-22-150
If the internal wire gauge for winding is predetermined or if the "voltage" is different from the above, enter the desired information in the above box labeled "Special Comments" and select the closest "voltage" and "duty cycle".
C = Continuous (100%) Duty Cycle, Maximum On-Time = Infinite Approximate Input Power = 5 Watts
Holding force against cold rolled steel with a thickness of:
0.375” (9.5 mm): 49 Lb (22.2 Kgf – 218 N)
0.250” (6.4 mm): 46 Lb (20.9 Kgf – 205 N)
0.188” (4.8 mm): 43 Lb (19.5 Kgf – 191 N)
0.125” (3.2 mm): 39 Lb (17.7 Kgf – 174 N)
I = Intermittent (50%) Duty Cycle, Maximum On-Time = 600 Seconds Approximate Input Power = 10 Watts
Holding force against cold rolled steel with a thickness of:
0.375” (9.5 mm): 53 Lb (24.0 Kgf – 236 N)
0.250” (6.4 mm): 51 Lb (23.1 Kgf – 227 N)
0.188” (4.8 mm): 48 Lb (21.8 Kgf – 214 N)
0.125” (3.2 mm): 44 Lb (20.0 Kgf – 196 N)
L = Long Pulse (25%) Duty Cycle, Maximum On-Time = 180 Seconds Approximate Input Power = 20 Watts
Holding force against cold rolled steel with a thickness of:
0.375” (9.5 mm): 61 Lb (27.7 Kgf – 271 N)
0.250” (6.4 mm): 59 Lb (26.8 Kgf – 263 N)
0.188” (4.8 mm): 55 Lb (24.9 Kgf – 245 N)
0.125” (3.2 mm): 51 Lb (23.1 Kgf – 227 N)
P = Pulse (10%) Duty Cycle, Maximum On-Time = 60 Seconds Approximate Input Power = 50 Watts
Holding force against cold rolled steel with a thickness of:
0.375” (9.5 mm): 75 Lb (34.0 Kgf – 334 N)
0.250” (6.4 mm): 71 Lb (32.2 Kgf – 316 N)
0.188” (4.8 mm): 66 Lb (29.9 Kgf – 294 N)
0.125” (3.2 mm): 62 Lb (28.1 Kgf – 276 N)
Tubular Low Profile Electromagnet, 1.50" (38 mm) DIA X 2.15" (55 mm) L.
Mounting: 10-32 threaded hole.
Minimum Heat Sink: Equivalent of 6.0" x 6.0" x 0.125" (152 mm x 152 mm x 3.2 mm) metal Plate
All values are at 25ºC.
Duty Cycle= on time/(on time+off time) in one cycle of operation when voltage is being cycled on and off.
V = R × I
P = V × I = V² /R = R × I²
V = input D.C. voltage (volts) R = electromagnet resistance (ohms) I = current used by electromagnet (amperes) P = input power to electromagnet (watts)