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Specifications subject to change without notice. | USA 150630 | Page 1 of 2 I-320 Pulse Transmitter The Model I-320 is a compact, programmable transmitter capable of converting the signal from flow sensors to a scaled units/pulse signal. In addition to our standard square wave signal, it can also accept a sine wave making it a versatile transmitter for numerous applications. With an onboard micro-controller and digital circuitry, the I-320 is programmed from a Windows® based computer program. This eliminates the need to set dip switches and produces precise, accurate and drift free signals of high resolution. The compact cast epoxy body measures 1.75” (44mm) x 2.75” (70mm) x 1” (25mm) and can easily be mounted to panels, DIN rails or enclosures. With multiple inputs, ease of use and a variety of enclosures, the Model I-320 is a powerful and competitive transmitter for many of today’s demanding applications. Transmitter Only 1.50" I-320 ORDERING MATRIX SERIES Programmable Pulse Transmitter Side Signal (+) Signal (-) Shield .875" Sensor Input Power Out Output Pulse Out Pulse Out + Model: I-320 S/N: 320-00000 Input led AC L /DC + AC C /DC - - xx 00 01 02 03 04 output led D.I.C. Comm Port Power In 1.75" I-320 I-320 OPTIONS Transmitter Only W / NEMA 4X Enclosure W / Metal Enclosure W / Plastic Enclosure W / DIN Rail Mounting Clips 3.65" Pulse Transmitter EXAMPLE: 2.75" 3.25" Optional Enclosure (Ver. I-320-02 and I-320-03) 1.50" Specifications Power: — 12-30 VAC, 85 mA max — 12-40 VDC, 30 mA max — Reverse and over voltage protected to 40 VDC Input Frequency: — 0.4 to 10 kHz Transient Suppression: — Complies with IEC-801-4 electrical burst, fast transient specification. Pulse Output: — Isolated solid state switch in any standard or custom flow total units — Adjustable 50 mS to 1.0 second pulse output width in 50 mS increments — Maximum sinking current: 100 mA @ 36 VDC Side Temperature: — Operating: -20°F to 158°F (-29°C to 70°C) — Storage: -40°F to 185°F (-40°C to 85°C) 12700 Stowe Drive, Suite 100, Poway, CA 92064 | Ph: (858) 578.7887 & (888) GO.INTEC | relevantsolutions.com/inteccontrols Specifications subject to change without notice. | USA 150630 | Page 2 of 2 Calibration 2. “K” and Offset values - manually entered from values in sensor operators manual or automatically entered using the auto button. 3. Units per output pulse 4. Filter setting 5. Pulse width Once the values are set, the “send” command loads the transmitter. All programming can be saved with a file name for later reference. A full explanation of all settings is available through the software help file. Units can be calibrated at our facility or easily programmed in the field. Field calibration requires a I-A320 Programming kit (consisting of a custom cable and software) and an IBM compatible computer running a Windows® based operating system. In order to calibrate, the Model I-320 must be connected to power, and the I-A301 cable must be connected to an available 9-pin COM port on the computer. Once the software is loaded and communications with the transmitter are established, the following parameters are entered in the setup screens: 1. Units of measure Wiring Figure 1: Model I-320 Per standard wiring practices, the power must be off before making any wire connections. The terminal strips have removable plug-in connectors to make wiring easier. Pulse Output 1. Refer to Figure 1 for terminal connections. Input and Sensor Output Led Input 2. Connect power supply positive (+) or AC Load to terminal marked AC Pulse Out L /DC +. Pulse Out + 3. Connect power supply negative (-) or AC Common to terminal marked Power Out output led AC C /DC -. Signal (+) Model: I-320 4. Series I-200 sensor, connect the red wire to Signal (+) terminal, black Signal (-) S/N: 320-00000 wire to Signal (-) terminal and the shield to Shield terminal (Disregard Shield Input led shield for the IR sensors). D.I.C. 5. Series I-4000 sensor, connect the red wire to Power Out terminal, clear AC L /DC + Comm wire to Signal (+) terminal, black wire to Signal (-) terminal, and shield Port AC C /DC wire to Shield terminal. DIC 6. If wiring to a sine wave output sensor consult factory. Power Communications Input 7. Connect Pulse(+) from pulse input device to Pulse Out(+) of I-320, Port connect Pulse(-) from pulse input device to Pulse Out(-) of I-320. 8. For maximum EMI Protection, connect Model I-320 ground lug to panel ground. 9. Ensure that all connections are tight, then plug connector into header. Power In Sensor Input Output Ground Lug Figure 2: Wiring I-320 to Series I-2000 or I-4000 to a generic pulse input device Red White(Clear) Black Shield Red Black Shield Power Out Signal (+) Signal (-) 12-40VDC or 12-30VAC Power Supply + - Shield AC L /DC + AC C /DC - Sensor Input Pulse Transmitter Pulse Out Pulse Out + output led Model: I-320 S/N: 320-00000 Input led Power In Series I-200 Sensor Output Series I-4000 Sensor D.I.C. Comm Port Pulse Input Device w/ internal pull up Caution: Maintain electrical polarity of output 12700 Stowe Drive, Suite 100, Poway, CA 92064 | Ph: (858) 578.7887 & (888) GO.INTEC | relevantsolutions.com/inteccontrols