WIRING EXAMPLEINSTALLATION INSTRUCTIONS senvainc.com 1-866-660-8864 (F)1-503-296-2529 9290 SW Nimbus Ave. Beaverton Oregon 97008C-2344, Multi RangeMini Split-Core0-10vdc 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 without 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 enclo-sureAutomated equipment may start without warningDANGERWARNINGHazard 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.SETUP1. Sensor is factory calibrated to three ranges. No field calibra-tion is required.2. Move selector switch to desired factory calibrated range setting. Selected range should be greater than the maximum motor current.INSTALLATION1. 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. Sensor features a flexible iris which allows the sensor to hang on the conductor if local codes permit. A bracket is included for screw mounting or attaching to DIN rail. For screw mounting, drill two 3/32” pilot holes using the bracket as a template; ensure no drill shavings are present in enclosure. At-tach bracket with screws provided.3. Clamp sensor around INSULATED CONDUCTOR ONLY, 600VAC MAX to be monitored.4. Snap the sensor into the mounting bracket.5. Wire the output of the sensor to a control panel analog input. Sensor is self-powered. Tighten terminals to 3.5 in-lb.Disconnect, lock out and tag out all power supplies during installationINSULATED PRIMARYAC CONDUCTOR600VAC MAXNOTE: Device IS polarity sensitive.v0-10VDCOutput+ -6030120SensedAmperageRangeCONTROLLERAIAIGND3PZS152-0264-0A300AMPS300:5A CT5AMPSPart NumberC-2344Amperage RangeSwitch selectable 30/60/120 amps (200A Max.)Output TypeSelf-Powered Voltage output 0-10VDCAccuracy+/-2% F.S. over 10 to 100% rangeTemperature Rating-15~60 ° CInsulation Class600V RMS. For use on insulated conductors only! Use minimum 75 ° C insulated conductorSensor PowerInducedFrequency Range50/60HzDimensions ( LxWxH)2.94” x 2.23” x 0.82” (1.4” H with optional relay module)Sensor Aperture0.75”OPERATIONThe C-2344 provides a 0-10vdc output signal proportional to moni-tored current. A switch allows field selection of 30, 60, or 120 amps full-scale. Typical load status applications include: z Load trending z Monitoring process motors and pumps z Heater current monitoringDIMENSIONSTECH TIPSOn low current loads, wrap sensor multiple times to increase sensitivityCAUTION: Do not exceed sensor maximum current. The current detected by the sensor will increase 1X with each wrap.To monitor loads greater than the current sensor maximum ratingUse a properly rated 5A CT as shown below CAUTION!5A CTs can present hazardous voltages. Install CTs in accordance with manufacturers instructions. Terminate the CT secondary wiring before energizing primary conductor.Remember to consider the ratio of the CT secondary to the sensor full-scale range to determine sensor output. Example: A 300:5A CT will produce 5 amps max, which is 1/6th of the 30 amp full-scale range of the C-2344. Applying this ratio (1/6) to the 10 volt output gives 1.67VDC output at 300 A.2.232.502.12O.18.57.82LoadAmpsFactory calibrated0ASensor Output0 V10 VDC30/60/120ATroubleshootingSymptomCausesRemedySensor output is over 10 voltsAmperage is above selected maximum ramgeSee Tech Tip for monitoring loads greater than current sensor maximum ratingNo output or wrong output voltageWiring errorCheck polarityCheck ground connectionIncorrect scalingVerify controller scalingMaximum surrounding air ambient, 60 ° C. For use in Pollution Degree 2 Environment.152-0264-0ANext >