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Instruction Bulletin 

    

Instructions for Installation,

 

Page 4

 

Effective: July 2016 

Operation and Maintenance of the 

 

 

SL800 Classic 7.2 Kilovolt, 720 Amp. Vacuum Contactor 

For more information visit: 

www.eaton.com

 

IB48082 

 

 

 

The moving contacts are driven by a molded plastic 
crossbar rotating with a square steel shaft supported 
by two shielded, pre-lubricated ball bearings that are 
clamped in true alignment for long life and free 
motion.  Only the end edges of the square shaft are 
rounded to fit the bearings, so that portions of the 
four shaft flats go through the bearings for positive 
indexing of the mechanical safety interlocks. 
 
The contacts in an un-mounted vacuum bottle are 
normally-closed, because the outside air pressure 
pushes against the flexible bellows.  For contactor 
duty, the contacts must be open when the operating 
magnet is not energized.  Therefore, the contacts of 
the vacuum bottles must be held apart mechanically 
against the air pressure when used in a contactor.  
In the SL contactor, all of the bottles are held open 
by two kickout springs on the front of the contactor.  
The kickout springs press against the moving 
armature and crossbar and thereby force the bottles 
into the open contact position.  Note that in the open 
position, the crossbar is pulling the moving contacts 
to hold them open. 
 
Up to an altitude of 3300 feet, the contactor is 
designed to tolerate normal variations in barometric 
pressure. Special factory modifications are required if 
the contactor is to be applied at high altitude. 
Contact the factory if the contactor will be applied at 
elevations above 3300 feet. 
 
The contactor is closed by energizing the contactor 
control board with the appropriate control voltage at 
terminals 1 and 2.  The control board rectifies the 
input voltage and applies a pulse width modulated 
DC output voltage to the coil.  The output voltage is 
approximately full voltage for the first 200 
milliseconds after energization, during which time the 
contactor closes and seals.  The output voltage is 
then automatically reduced to approximately 15 VDC 
to maintain the contactor in the closed position. 
 
The coil core is magnetized which rotates the 
armature shaft, armature, and crossbar.  As the 
armature moves toward the coil core, the main 
contacts close.  The crossbar continues to move an 
additional distance (known as overtravel), which 
allows for contact preload and wear.  The overtravel 
distance is the gap between the lower bottle nut and 
the pivot plate as shown in Figure 2. 
 
 
 

 

 

 

 

Fig. 2  Closed Contactor 

 
When control power is removed from the control 
board, the magnetically held contactor remains 
closed for a preset time and then opens.  The range 
of time between the removal of control power and 
contact opening is from 50 to 330 milliseconds 
depending on the setting selected on the control 
board.  The time can be adjusted for such factors as 
fuse coordination and voltage loss ride-through.  
Unless otherwise specified, the factory default 
dropout setting is 130 milliseconds, or approximately 
8 line cycles (60Hz).  To maintain proper 
coordination with the starter power fuses, do not use 
the 50ms setting. 
 
A selectable dip switch is located on the control 
board for setting the control voltage level and the 
contactor dropout time.  See Figure 3.  The control 
board must be removed from the cavity in the 
contactor housing to gain access to the dip switch.  
Table IIIa lists the available voltage settings and 
Table IIIb lists the available dropout settings.  These 
tables are also printed on the back of the control 
board.  The control voltage setting should match the 
starter control circuit voltage. 

 

Bottle 

Nuts 

 

Pivot 

Plate 

 

Over travel

 

Summary of Contents for SL800 Classic

Page 1: ...attempting any installation operation or maintenance of the SL vacuum contactor Retain this document for future use This equipment shall be installed and serviced only by qualified electrical personnel A qualified person is one who is familiar with the construction and operation of this equipment and who is aware of the hazards involved Instructions for Installation Operation and Maintenance of th...

Page 2: ... 6000 5000 4500 50 350 000 6200 7200 8000 10000 8000 6000 50 570 000 TABLE II RATINGS Maximum Interrupting Current 3 Operations 12 500A Control Voltages AC 110 120 220 240 Volts Rated Current 720 Amperes 50 60 Hz Maximum Rated Voltage 7 200 Volts DC 125 Volts Making Breaking Capacity Control Circuit Burden Rated Volt AC4 Make 8 000 Amperes UL 7 650 Amperes IEC Closing 2600 VA AC4 Break 6 400 Amper...

Page 3: ...arter 4 Disconnect the control plug and stow it so that the cable will not be damaged Disconnect the two 3 point separable terminal blocks on the right front of the isolating switch 5 Trip the latch on the left side by holding it upward using your foot if desired when unit is at floor level 6 While holding the latch up pull the contactor out ward It will roll forward and should re latch at a deten...

Page 4: ...1 and 2 The control board rectifies the input voltage and applies a pulse width modulated DC output voltage to the coil The output voltage is approximately full voltage for the first 200 milliseconds after energization during which time the contactor closes and seals The output voltage is then automatically reduced to approximately 15 VDC to maintain the contactor in the closed position The coil c...

Page 5: ...circuit The L63 interlock used in the economizing circuit on the SJA800A contactor is therefore not needed in this design It has been removed from the SL800 Classic contactor WIRING Refer to Figure 4 for standard control wiring for magnetically held contactors To close the contactor apply power to terminals 1 and 2 on the control board Power must be maintained to terminals 1 and 2 to keep the cont...

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