WIRING EXAMPLESINSTALLATION INSTRUCTIONSINSTALLATION1. Determine mounting location for the sensor near the conductor to be monitored. The sensor should be located AT LEAST 1/2” from any uninsulated conductor.2. Drill a single 3/32” pilot hole for mounting the sensor; en-sure no drill shavings are present in enclosure. 3. Thread INSULATED CONDUCTOR ONLY, 600VAC MAX to be monitored through the iris of the sensor.4. Reconnect the conductor and torque appropriately.5. Screw mount the sensor to the enclosure.6. Wire the output of the sensor to a control panel digital input loop not to exceed 30VAC/DC wetting voltage. Tighten terminals to 3.5 in-lb.7. Follow directions for CALIBRATION.Disconnect, lock out and tag out all power supplies during installation senvainc.com 1-866-660-8864 (F)1-503-296-2529 9290 SW Nimbus Ave. Beaverton Oregon 97008C-1320, AdjustableSolid-CoreDigital OutputFailure to follow these instructions will result in death or serious injury.• Follow ALL requirements in NFPA 70E for safe work practices and for Personal Protective Equipment (USA) and other appli-cable local codes when installing this product• Only qualified electrical personnel should install this product. • Read, understand, and follow all instructions thoroughly• Install only on insulated conductors• Lock out and tag out all power sources prior to installation. Use properly rated voltage sensing instrument to determine no voltage is present Failure to follow these instructions could result in death or serious injury.• Equipment monitored/operated by this device may start with-out warning. Keep clear of apparatus at all timesIMPORTANT WARNINGS• Only qualified trade installers should install this product• This product is not intended for life-safety applications• Do not install in hazardous or classified locations• The installer is responsible for all applicable codes• This product must be installed in a suitable electrical enclosureAutomated equipment may start without warnngDANGERWARNINGHazard of electrical shock, explosion, and arc flashWARNING!PRODUCT APPLICATION LIMITATION:Senva products are not designed for life or safety applications. Senva products are not intended for use in critical applications such as nuclear facilities, human implantable device or life support. Senva is not liable, in whole or in part, for any claims or damages arising from such uses.V+DICONTROLLER(SINKING)24VACDIV+DI(SOURCING)(AC)ALTERNATECONTROLLER ARRANGEMENTSINSULATED PRIMARYAC CONDUCTOR600VAC MAXV+DIDIDIVACGNDNOTE: Device is NOT polarity sensitive.vMOTOR FLA Over401502030103PZSTroubleshootingSymptomCausesRemedySensor output does not change stateAmperage is below sensor minimum thresholdWrap monitored conductor turns through sensor. See Tech TipsAdjustment incorrectSee Conventional Calibra-tion procedureTesting with ohm meter yields incorrect resultsSolid state output may show approx. 1 ohm or lessIncorrect control wiringEnsure control loop voltage is present Motor NameplateMODEL 2345 HP 10 KW 7.5 RPM 3450 Hz 60 AMP 28.4 PH 3 S.F. 1.15MOTOR FLATrip40150203010PRESET CALIBRATION (Typical)Adjust knob on sensor to motor full load amperage (FLA) as indicated on motor nameplate or overload protection device. The sensor scale is pre-calibrated for motors operating at a minimum of 75% FLA. On startup, the sensor output will close when monitored current exceeds 70% FLA, and open if current is below 60% FLA to indicate load loss (broken belt, coupling shear, etc.) For lightly loaded (oversized) motors operating below 75% FLA, the sensor should be set to a proportionally lower FLA to ensure positive status detection and avoid nuisance alarms.Smaller (less than 5HP) motors and/or lightly loaded motors may not have sufficient reduction in amperage (below 60% FLA) for the sensor to detect belt loss immediately. The sensor will detect the belt loss when the motor is restarted, as long as the unloaded motor current is below 70% FLA.For improved performance on small and lightly loaded motors, the following options are recommended: 1. Consider using model C-2330, self- calibrating, microcontroller based sensor. 2. Perform conventional calibration.Conventional Calibration (High Accuracy)Follow all safety precautions outlined in this manual. Follow ALL requirements in NFPA 70E for safe work practices and for Personal Protective Equipment (USA) and other applicable local codes when installing this product. Read all warnings carefully.1. Adjust knob on sensor to maximum FLA. (Fully clockwise)2. With motor operating normally, adjust knob SLOWLY counter-clockwise until LED is lit.3. Adjust knob a few degrees more to prevent nuisance alarms.Part NumberC-1320Amperage Range0.75A (on)~50A (50A Max.)Output TypeNO, solid-state FETOutput Rating1.0A@30VAC/DC Max.Temperature Rating-15~60 ° CInsulation Class600V RMS. For use on insulated conductors only! Use minimum 75 ° C insulated conductorSensor PowerInducedFrequency Range50/60HzDimensions ( LxWxH)2.27” x 1.61” x 0.69”Sensor Aperture0.5”100%85%75%70%Motor FLANormal Run Range(Closed above this level)Sensor Threshold(Open below this level)60%}OFFNormal Alarm Range55%35%BELT LOSS40%5-20HP20-100HP>>1-5HP}100%85%75%70%Motor FLANormal Run Range(Closed above this level)Sensor Threshold(Open below this level)60%}OFFNormal Alarm Range55%35%<- BELT LOSS40%5-20HP20-100HP>>1-5HP}Normal OperationSmall / Lightly Loaded Motor Operation1. Set knob to motor FLA.1. Set knob proportionally below FLA.2. Belt loss will be detected on restart.3. Perform Conventional Calibration for best results.Maximum surrounding air ambient, 60 ° C. For use in Pollution Degree 2 Environment.Revised 5/30/2014 Document #152-0030-0ANext >