SSF23 Series M16 internal fitting switch Internal fitting via M16 thread Stainless steel 316 Miniature design Temperature up to 120ºC User configurable N/O (make on rise) or N/C (make on fall) Technical Specification The SSF23 series is a compact vertical internally mounted device. Mounting is in the top or bottom of the tank from the inside, so requires access to the inside of the tank. These are manufactured in 316 grade Stainless steel. Mounting style Mounting thread Float & Stem material Maximum Temperature Maximum pressure Float SG Minimum fluid SG Cable length - standard 100cm/M12 connection Cable size 17/0.10 - AWG22 Cable conductor material Tinned copper Cable sheath material XLPE Cable temperature rating 125ºC Sealing gasket Silicone Tightening torque for fixing nut 2.0kg/cm VA V V A N/O (N/C) 50 300 300 0.5 Electrical Specification Contact Form Switching Power Max Switching Voltage AC Max Switching Voltage DC Max Switching Current Max All ratings are for resistive load only. The switch action may be reversed by removing the float, inverting and then refitting it to the stem. Standard Parts SSF23X100 SSF23XPM12 Available with either flying leads or M12 connection. Material SS 316 SS 316 Max Power 50VA 50VA Leadouts 100cm XLPE 17/0.1 M12 connection Custom versions can be made for particular applications. Please contact Cynergy3 with your requirements. Lead wire 1000mm Mechanical Dimensions Internal M16 316grade SS 120ºC 10 bar 0.7 0.8 Plug connections M12x1 M16x2 11.3 M16 15 Hex Nut 24mm AF 4 3 1 2 28 20 Hex 24mm AF 5 O22 5 19.5 Immersion depth 6 30.8 76.3 50 19.5 Immersion depth 6 30.8 76.3 He x2 4 50 O16 Ø8 Ø8 Ø28.8 Ø28.8 Cynergy3 Components Ltd. 7 Cobham Road Ferndown Industrial Estate Wimborne, Dorset BH21 7PE Telephone +44 (0) 1202 897969 Email:[email protected] ISO9001 C E R T I F I E D www.cynergy3.com © 2013Cynergy3 Components, All Rights Reserved. Specifications are subject to change without prior notice. Cynergy3 Components and the Cynergy3 Components logo are trademarks of Cynergy3 Components Limited.