GCD SERIES DC Operated Gage Heads SPECIFICATIONS Hermetically sealed housing 25 -inch 0.6 m repeatability IEC IP68 rating to 1,000 PSI 70 bars Long strokes up to 2 inches Hardened tool steel contact tip High side load resistance Long cycle life The GCD Series heavy-duty DC operated gage heads enable high performance in environments containing moisture, dirt, and fluid contaminants. These Gage heads are spring loaded LVDTs (Linear Variable Differential Transformers) with precision linear bearings and internal conditioning electronics. Operating on a nominal 15VDC supply, the GCD Series delivers an extremely linear, low noise 10VDC output. FEATURES These robust gage heads allow measurements over stroke ranges from 0.05 inch 1.27mm up to 2 inches 50.8mm . All-welded stainless steel The spring force is typically 9oz 255 grams at fully compressed construction electrical stroke. A removable black-chromed, hardened tool Resistant to harsh environments steel tip is threaded (4-48UNF-2A) to the working end. Internal MS type connector (MIL-C-5015) construction prevents the core and shaft from rotating as they Long cycle life move longitudinally. The integral electrical connector (welded) CE compliant provides for easy installation and allows replacing a damaged cable without sacrificing the sensor. Installation and adjustment Calibration certificate supplied with are facilitated by an external -20 mounting thread and the two each unit locknuts supplied with each unit. Air extend/spring retract available (Consult factory) Like in most of our LVDTs, the GCD windings are vacuum impregnated with a specially formulated, high temperature, APPLICATIONS flexible resin, and the coil assembly is potted inside its housing with a two-component epoxy. This provides excellent protection Factory automation against hostile environments such as high vibration and shock. Industrial printing equipment Steel mills The ruggedness, long life cycle, and very high reliability of the GCD Series provide a low cost of ownership over the life of the Metal thickness gaging equipment onto which they are installed. The one-piece front end Environments requiring hermetically (barrel which contains the bearing assembly), machined from sealed transducers solid stainless steel bar, coupled with a bronze bushing, has far In-process measurements greater resistance to bending forces and side loads compared to (feedback loop with PLC or CNC other designs. This is particularly important on the longer stroke controller) versions it reduces the common risk of probe damage/bending during installation or maintenance of industrial equipment. The GCD Series designs also require fewer parts and weld joints, thereby increasing overall structural integrity and reliability SENSOR SOLUTIONS /// GCD Series Rev. 7 07/2017 Page 1 GCD SERIES DC Operated Gage Heads PERFORMANCE SPECIFICATIONS ELECTRICAL SPECIFICATIONS Parameter GCD-050 GCD-125 GCD-250 GCD-500 GCD-1000 GCD-2000 Stroke/gaging range 0.050 1.27 0.125 3.17 0.25 6.35 0.50 12.7 1.0 25.4 2.0 50.8 Sensitivity, volts/inch 200 80 40 20 10 5 Input voltage +/-15VDC Input current 30mA, maximum Output at stroke ends +/-10VDC (Output is positive when the core is displaced from null towards the connector) Non-linearity 0.25% of FR, maximum Repeatability 25 -inch 0.6 m Stability 0.125% of FSO after warm up 15Hz, maximum Frequency response (dynamic) ENVIRONMENTAL SPECIFICATIONS & MATERIALS Operating temperature +32F to +160F 0C to 70C Survival temperature -65F to +200F -55C to 95C Shock survival 250 g (11ms half-sine) Vibration tolerance 10 g up to 2kHz Housing material AISI 400 Series stainless steel Electrical connector 6-pin MS type connector (MIL-C-5015) IEC 60529 rating IP68 to 1,000 PSI 70 bars with use of proper mating connector plug Notes: All values are nominal unless otherwise noted Dimensions are in inch mm unless otherwise noted FR: Full Range is the stroke range, end to end FR=2xS for S stroke range FSO (Full Scale Output): Largest absolute value of the outputs measured at the ends of the range WIRING INFORMATION A through F: Connector pin assignments SENSOR SOLUTIONS /// GCD Series Rev. 7 07/2017 Page 2