Voltage/frequency ratio - Energy Saving, quadratic U/f VIA switch-configurable current: 0.20 mA, impedance: 250 Ohm, resolution 10 bitsĨ bits, 1 stop, odd even or no configurable parity VIB configurable PTC probe: 0.6 probes, impedance: 1500 Ohm VIB configurable voltage: 0.10 V DC 24 V max, impedance: 30000 Ohm, resolution 10 bits VIA switch-configurable voltage: 0.10 V DC 24 V max, impedance: 30000 Ohm, resolution 10 bits ![]() Write multiple registers (16) 2 words maximum Read holding registers (03) 2 words maximum Negative logic (sink) (F, R, RES), >= 16 V (state 0), = 1 mOhm 500 V DC for 1 minute It is eco-friendly and complies with directives such as RoHS, WEEE, etc.relating to environmental protection. The Altivar 212 drive can easily be adapted to all building management systems thanks to its numerous functions and communication protocols integrated as standard, Modbus, METASYS N2, APOGEE FLN P1 and BACnet. It is designed to be mounted in vertical position (+/- 10 °) on a panel, thanks to 4 fixing holes. The Altivar 212 offers optional motor chokes which can increase the maximum cable lengths between the drive and the motor and limit disturbance at the motor terminals. It is also CE, UL, CSA, C-Tick and NOM certified. It conforms to international standards IEC/EN 6 and IEC/EN 61800-3 (immunity and conducted and radiated EMC emissions). It is specifically designed for the most common fluid management applications in tertiary sector buildings (HVAC) like heating, ventilation, air conditioning and pumping. It weighs 7.5kg and its dimensions are, 215mm wide, 297mm high, 192mm deep. Thanks to its cable temperature rise reduction technology, the Altivar 212 drive offers immediate, disturbance-free operation avoiding additional options such as a line choke or DC choke to deal with current harmonics. Its design is based on eco-energy with a reduction in energy consumption of up to 70% compared to a conventional control system. It works at a rated power up to 1.5kW / 2hp and a rated voltage from 380V to 480V AC. Its protection index is IP55 and it has a built-in EMC filter. With the steps above, you should have no problem getting your motor up and running.This Altivar 212 variable speed drive can feed 3-phase asynchronous motors. An incorrect wiring connection could cause the motor to malfunction, so make sure to double-check all connections. Having the right wiring diagram for Dayton AC electric motors is essential for proper operation and upkeep. If the voltage is too high, you may need to adjust the wiring slightly or check the wiring diagram for more information. It should be running within the range specified in the wiring diagram. This will help avoid shorts and other potential problems.įinally, turn on the motor and check the voltage. You may need to check the wiring again to make sure all the connections are secure. Once you've checked the wiring, plug in the motor. Also, be sure to double-check the connections to ensure that everything is firmly in place and the wiring diagram matches up correctly. ![]() It's best to secure the wire connections to the terminal board with screws rather than taping them, which can lead to shorts. Once you've connected the wires, secure them in place with a screwdriver. These are the three main phases of electricity, and each one requires its own lead. You'll need to connect your wiring to the "L1", "L2" and "元" terminals of the motor. When wiring a Dayton AC electric motor, start by disconnecting the power supply. You should always refer to the manufacturer's guide or instructions before attempting to wire any device. We'll examine the basics of wiring up Dayton AC electric motors and show you how to make sure your motor is properly wired and functioning correctly.įirst and foremost, it's important to note that all wiring diagrams vary between brands and models. Do you have a wiring diagram for Dayton AC electric motors? If so, this article is for you.
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