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6

 

EG300

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6.4 

Speed GAIN, INT, and DIF Setting 

6.4.1  After  the  engine  has  started  and  reached 

operating  speed  adjust  GAIN  clockwise  until 
engine  speed  oscillates  rapidly.  Then  adjust 
GAIN  counterclockwise  to  a  point  where  engine 
speed just becomes stable. (Go to 6.4.3) 

6.4.2  If  engine  speed  is  oscillating  at  a  rate  of  once 

cycle every 2 to 5 seconds then slowly adjust INT 
counterclockwise  until  speed  is  stable.  If 
adjustment to maximum does not stop the engine 
speed  oscillation  it  could  be  an  “extreme  slow 
response” engine. Turn ON SW-6 (extreme slow 
response engine) and repeat this step again. 

6.4.3  Observe  the  variation  in  engine  speed  between 

load  and  unload  condition.  If  the  rise  or  fall  in 
speed  is  greater  than  allowed  then  adjust  DIF 
clockwise.  If  engine  speed  becomes  unstable 
after  adjustment  then  return  DIF  to  its  original 
setting and increase INT. Repeat the steps above 
until linkage oscillates 3 to 5 times in one second 
and  then  becomes  stable.  This  is  the  correct 
setting. 

For details on speed gain (GAIN), integral (INT), 
derivative (DIF), refer to. 

http://edu.kutai.com.tw/egspeed.pdf

 

NOTICE 

1. If  GAIN  is  set  too  low  engine  speed  could

accelerate directly to over speed when started or
could  oscillate  slowly,  with  a  period  of  3  –  5
seconds, so should be avoided.

2. If GAIN and/or DIF are set too high engine speed

could  easily  be  made  to  oscillate.  Adjust  GAIN
and  DIF  repeatedly  until  optimal  settings  are
achieved.

3. Engine speed instability can be divided into slow

oscillations (once every 2 to 5 seconds) and rapid
oscillations  (2  to  8  times  per  second);  slow
oscillation  is  usually  because  GAIN  is  too  low
and/or  INT  is  too  high.  Rapid  oscillations,
however, can occur in two ways:

4. 2 – 4 times per second – GAIN setting too high.

4 – 8 times per second – DIF setting too high.

6.5 

Remote Speed Pot Adjustment 

The  EG3002  provides  two  remote  speed  adjustment 

methods.  One  uses  a  5  K

Ω

  potentiometer  to  provide 

5%  speed  adjustment  remotely  up  to  60  meters.  The 
other uses an analog input voltage that provides 1.5% 
speed  adjustment  for  each  1  Vdc.  For  connection 
details see Section 5. Wiring Diagram. 

NOTICE 

Increasing  or  decreasing  the  resistance  of  the 
Remote  Speed  Pot  will  not  affect  frequency 
adjustment range. 

To  increase  the  external  frequency  adjustment 
range, short terminals 8 & 9 together and connect 
to the center tap of the remote speed pot. 

To  decrease  the  external  frequency  adjustment 
range install resistor (R)  in series with terminal 9 
and the center tap of remote speed pot.  
 

6.6 

Parallel Generator Operation 

When  a  generator  is  used  in  parallel  operation  the 
speed  DROOP  is  used  to  distribute  power  between 
generator sets. Clockwise adjustment will increase the 
rate of speed Droop. A speed Droop of 2% at maximum 
load is recommended. 

DROOP setting calculation is as follows

 

F1 = (1 – D) x F2 

F

1

 = Droop speed with load (RPM or Hz) 

D = Droop rate setting x load ratio 
F

2

 = Operating speed (RPM or Hz) 

Example:  If  speed  Droop  is  3%  under  full  load. When 
current  load  is  80%  of  generator  capacity  and  engine 
speed  is  1800  RPM  then  Engine  speed  will  be  (1  – 
0.03 x 0.8) x 1800 = 1757 RPM. 

Summary of Contents for EG3000

Page 1: ...232568 Email info sp powerworld com www sp powerworld com EG3000 Electronic Engine Governor Controller User Manual Engine Start Smoke Limiting function IDLE Speed Setting For External Built in PT Pump type and hydraulic drive actuators Newly added extreme slow response engine setting ...

Page 2: ... 10 000 Hz Voltage 1 120 Vac RMS Speed Temperature Shift Less than 3 at temperature range 40 to 80 C Frequency Adjustment Speed Adjustment pot 25 turn Environment Setting range 600 9 500 Hz With DIP Switch Operating Temperature 40 to 80 C Storage Temperature 40 to 85 C Remote Speed Potentiometer Terminals 6 7 9 Relative Humidity Max 95 Max 7 5 KΩ 1 watt potentiometer Vibration 5 5Gs 60 Hz Isochron...

Page 3: ...signal from the load sharing controller Must be isolated from battery power Terminal 6 is ground of load sharing controller Terminal 8 is input signal from controller 1 2 Battery Input Connect to genset battery Use14 AWG wire or larger 3 IDLE Control Contact When shorted to terminal 2 unit will go to IDLE state 4 5 Output to Actuator Use 14 AWG wire or larger INT Integral Setting DIF Differential ...

Page 4: ...N Slow response SW R 3 1 2 1K 3 1 2 CCW CW ATTENTION 1 The unit must be installed by qualified technical personnel Improper installation wiring or settings could lead to injury to personnel and or damage to equipment 2 This unit has no Over Speed Protection function It is recommended to install a separate over speed protection device 3 The battery connects directly to the controller with a fuse fo...

Page 5: ...ill begin to make a clicking sound but will not be damaged 6 2 Trial Run 6 2 1 Engine will not start Refer to Section 7 1 Troubleshooting below for possible causes If the engine still will not start normally then increase Run Speed setting or Frequency Range SW setting to a higher range Run Speed should be set to minimum at this time 6 2 2 If engine starts normally then slowly adjust Run Speed to ...

Page 6: ... until optimal settings are achieved 3 Engine speed instability can be divided into slow oscillations once every 2 to 5 seconds and rapid oscillations 2 to 8 times per second slow oscillation is usually because GAIN is too low and or INT is too high Rapid oscillations however can occur in two ways 4 2 4 times per second GAIN setting too high 4 8 times per second DIF setting too high 6 5 Remote Spe...

Page 7: ...e then replace the MPU During engine start confirm that the input voltage to Terminals 10 11 is greater than 1 Vac If less than 1 Vac check the gap between the tip of the MPU and the flywheel teeth The distance should be 0 037 mm to 0 127 mm 3 Actuator fault failed disconnected etc 3 If the two items above are both normal then check whether Terminals 4 5 have a voltage output during cranking If th...

Page 8: ...hether MPU is disconnected Must be directly connected to Terminals 10 11 Resistance of 10 1 000Ω is normal Check that MPU has been connected with shielded wire grounded at one end Repair wiring as required 4 Controller defective 4 With engine OFF apply power to the controller if actuator linkage moves or if there is a voltage output on Terminals 4 5 this indicates the controller is defective 7 4 E...

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