The MGA1752FH continuous liquid level sensors operate on a basic voltage divider network principle. As the float rises, a magnet in the float closes a series of reed switches in sequence which varies the tapped-off portion of the voltage divider resistor network. The MGA1752FH has the basic voltage divider output—the regulated DC voltage input equals the maximum voltage output. The MGA1752FH has a nominal 1,200 resistance thus, with a 10 Vdc supply, 8.3 mA of current are required.
The OMEGA™ MGA1752FH panel meters can be used to power and display the resistance from the LVR20 when relays are required, the DP25E-A meter can be used. For maximum accuracy, the readout device for the MGA1752FH should be zero and span adjusted after wiring is completed to compensate for any effects due to the resistance of the lead wires. The MGA1752FH can also be made intrinsically safe when used with OMEGA’s intrinsic safety barriers and when properly powered. The MGA1752FH Series is provided with a signal conditioner to provide a 4-20 mA output when powered by 10-30 Vdc. The MGA1752FH Series cannot be made intrinsically safe.
All MGA1752FH units are supplied with a J-box with screw terminal connections. All MGA1752FH units are supplied without a J-box with 24 inches of bare wire coming out of the top of the unit with a 1?2 MNPT conduit connection. All MGA1752FH and MGA1752FH Series units can be wired for increasing output with either increasing or decreasing height of liquid standard output is increasing output with increasing height. For other lengths, adaptor systems are available. They consist of two parts: the LVR-C coupling (2 x 2 FNPT) and an LVR-A pipe nipple (2 x 2 MNPT) of various lengths to change the insertion depth of the MGA1752FH or LVR30 sensor. When using the adaptors, a zero offset is introduced into the output signal which must be compensated for in the readout device (for example, the mA signal will not go down to 4 mA, nor will the voltage output go down to zero).
Retaining clip pliers are required to remove the float when using the adaptor system.