Toro SA41 owner manual Radio Frequency Interference, Handy Hint

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RADIO FREQUENCY INTERFERENCE

For many years, Radio Frequency Interference (RFI) has been an annoying problem for owners of Inverters. RFI in a domestic situation causes noise or interference on a radio or TV receiver. Most of the problems with RFI in a Remote Area Power Supply (RAPS) installation involve AM radio reception.

Considerable development time has resulted in a reduction of the RFI produced by the SA41 to a level that complies with Australian Standard AS1044. Compliance to this standard means RFI is low but how well the inverter performs in a particular installation can vary. Below are some suggestions to help reduce the effects of RFI in your installation.

It is recommended that the power system including the inverter is housed at least 15 metres from the home.

Ensure a good earth stake is placed as close to the inverter as possible. See installation on page 3 for wiring.

Avoid running DC wiring into the home, if at all possible. If this cannot be avoided, run DC and AC in separate conduits separated by as much distance as practicable. All DC wiring should also be kept as short as possible.

To further reduce the effects of RFI, it is important that your AM radio has good signal strength. This will enable your radio to reject any noise being produced by your inverter, regulator, controllers or DC lighting. If possible, try moving the radio around to improve signal strength or use an external aerial. Some of today's building materials such as steel roofs and foil insulation may form a barrier to incoming radio signals. If an external aerial is required, it should be on the outside of the home, mounted as high as practicable and as far from the battery shed as possible. Connection from the aerial to the radio should be via a low loss coaxial cable.

PLEASE NOTE: The aerial must be an AM RADIO type. A TV aerial will not work.

HANDY HINT

It is very important that you become familiar with the functioning of your inverter. Since most Inverters are remotely sited from the home, it is not always easy to know if the inverter is ON or pulsing. An easy way to determine this is to plug a small child's night light (neon type) into a power point which is easily visible, or replace the power point with a safety type with a neon indicator. This will indicate the inverter's operation by flashing when the inverter is pulsing and remaining on when the inverter is brought on by a load.

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Contents Selectronic Australia Installation Warranty CardIntroduction Supply Connection of AC and DC WiringRED = Battery Positive + Black = Battery Negative Status Status Standby Inverter OFF Inverter on Status ResetOperation Energy ManagementWhere the Optional 200 AMP Current Shunt is Installed Minimum Charge Controller Outputs SettingsOn with OFF Set Control On with on On with Time Set Control Duration LockoutSET DAY More SettingsBuzzer on / OFF Buzzer LockoutLockout Current Shunt Settings External Shunt AC Volts SettingAlarm Inputs Alarm InputLOW Charge Alarm Battery CapacityCharge in Battery Minimum Charge in BatteryOverload Shutdown and Alarms Heatsink TOO HOT Fault FindingAlarm 1 Active Alarm 2 ActiveInverter Shuts Down with LOW Volts SA41 Maintenance System MaintenanceBattery Maintenance Demand Start Section SA41 Electrical SpecificationsHandy Hint Radio Frequency InterferenceDemand Start Current Appendix I DiagnosticsTransformer Temperature Heatsink TemperatureAppendix II Flow Diagram for Displays and Settings Minimum charge Displays Switching Between READINGS, Minimum CHARGE, and DiagnosticsDiagnostic Displays Minimum Charge DisplayCO+LAH INV CO, LO A/H orFrom previous General Appendix III SA Inverter OptionsSA-SB-01 Interface KIT SA-SB-01 Interface Connections Alarm Inputs ExamplesExt. Keypad no Set Parameters Installation of SA-KP-01 Optional KeypadZero DC Amps OFF Set Parameters Installation of SA-S200 Optional Current ShuntAmps 0.0A OUT Battery Ext. Shunt no Set ParametersProduct Warranty Conditions Mounting Template for SA-KP-01 Keypad