Subaru Robin Power Products RGV12100 Appliances without any indication as to power consumption

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NOTE 2 : Motor-driven appliances mentioned in lets (3) and (4) vary in their required motor starting power depending on the kind of motor and start-up load. If it is difficult to determine the optimum generator capacity, select a generator with a larger capacity.

(5)Appliances without any indication as to power consumption

Some appliances have no indication as to power consumption; but instead the work load (output) is indicated. In such a case, power consumption is to be worked out according to the numerical formula mentioned below.

(Output of electrical appliance) (Power consumption) (Efficiency)

Efficiencies of some electrical appliances are as follows: Single-phase motor ・・・・・・・・・0.6 to 0.75

Three-phase motor・・・・・・・・・・0.65 to 0.9

Fluorescent lamp ・・・・・・・・・・・0.7 to 0.8

The smaller the motor, the lower the efficiency.

Example 1 : A 40 W fluorescent lamp means that its luminous output is 40W. Its efficiency is

0.7and accordingly, power consumption will be 40÷0.7=57W. As explained in Item(2), multiply this power consumption value of 57 W by 1.2 to 2 and you will get the figure of the necessary capacity of a generator. In other words, a genera- tor with a rated output of 1000 W capacity can light nine to fourteen 40W fluores- cent lamps.

Example 2 : Generally speaking, a 400 W motor means that its work load is 400 W. Efficiency of this motor is 0.7 and power consumption will be 400÷0.7=570 W. When this motor is used for a motor-driven tool, the capacity of the generator should be multiple of 570W by 1.2 to 3 as explained in the Item (3).

570 (W)×1.2 to 3=684 (W) to1710 (W)

Applications

Applicable Wattage (W)

 

RGV12100 (60 Hz)

 

 

 

Incandescent Lamp, Heater

10000

 

 

Fluorescent Lamp, Electric Tool

4950

 

 

Pump, Compressor

2500

 

 

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Contents Generators Contents - 04- Specifications - 1-Performance Curves - 2-General Description of Generator - 3-Control Panel - 4-Serial Number - 5-Construction and Function Stator- 6- Rotor Brush / Brush HolderCurrent Transformer Diode Unit RGV13100T only5 A.V.R Automatic Voltage Regulator RGV12100 only ECU Electronic Control Unit- 8- Idle Control Unit RGV12100 only - 9-OIL Pressure Switch AC Switch NO-FUSE BreakerRelief Valve - 10-AC Receptacle RGV13100T- 11- - 12- AC plug DescriptionConnecting to Domestic Circuit House Wiring Gfci Receptacle- 13- - 14- - 15- AC Three Phase Receptacle RGV13100T only - 16-Description of Generator Operation Primary Exciting Action RGV12100Voltage Regulating Mechanism RGV12100 - 17-Current Transformer Control RGV13100T Advantages of Current Transformer Control RGV13100T- 18- Safety Precautions Do not place inflammable materials near the generatorOperate the generator on a level surface Do not operate with wet hands or in the rainIncandescent lamp, heater, etc. with a power factor Range of ApplicationsMotor driven tools and light electrical appliances - 20-Appliances without any indication as to power consumption - 21-- 22- Measuring Procedures Measuring Instruments- 23- AC Output Measuring - 24-Measuring Insulation Resistance Stator- 25- Rotor Control PanelCurrent Transformer RGV13100T - 26-Checking Functional Members Pilot Lamp and VoltmeterAC Receptacles - 27-RGV12100 - 28-Rotor Assembly Exciting Coil RGV12100 only- 29- Brush A.V.RAutomatic Voltage Regulator - 30-Current Transformer RGV13100T only - 31-Idle Control Unit RGV12100 only- 32- - 33- Disassembly and Assembly Preparation and PrecautionsDisassembly Procedures Control Panel AlternatorComponent Parts - 35-Generator assembly Control Box RGV12100 Control Box RGV13100T Fuel Tank Generator Assembling Procedures Front Cover - 40-- 41- Rear Cover - 42-- 43- Troubleshooting No AC outputAC Voltage is too high or too low Check engine speed Check if engine is overheatedEngine dose not run - 45-Wiring Diagram - 46-- 47- Lively Blvd. Wood Dale, IL 60191 Phone 630-350-8200 Fax
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