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Service – American Magnetics 05100PS-430-601 Integrated Power Supply System User Manual

Page 162

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144

Rev. 5

Service

Troubleshooting Hints

STATION CONNECTORS

and the connectors on the magnet

support stand top plate. Refer to Table A-1 on page 149.

5.2.13 The system current ramps slowly from zero

With the Model 601 Energy Absorber in the system, an initial charging

delay will be observed when operating without an inductive load (e.g. a

persistent switch is not heated on a connected magnet).

1. To decrease the amount of time delay, increase the ramp rate to 1

A/sec or greater value. Remember to decrease the ramp rate, if

necessary, before heating the persistent switch of the connected

magnet and attempting to ramp the current.

2. The charging delay will not be observed when operating with an

inductive load.

5.2.14 The Model 601 FAULT LED energized with audible alarm

1. Verify that the supplied external DC power converter is connected

to the rear of the Model 601, and the AC power cord is also

connected to the appropriate power receptacle.

2. If the DC power converter is connected properly, observe if an

internal green LED is energized by looking through the Model 601

rear-panel grating. If the green LED is energized, then the DC

power converter is operating correctly.

If the internal green LED is not energized, then the DC power

converter has failed, or AC power to the DC power converter has

been lost. Contact an Authorized AMI Technical Support

Representative for a replacement.

3. If the DC power converter is connected and the internal green LED

is energized, then the FAULT LED indicates the failure of an

internal energy absorbing element. Do not continue to operate the

unit and contact an Authorized AMI Technical Support

Representative for further instructions.

5.2.15 There is excessive LHe boil-off during operation.

Excessive LHe consumption is usually attributable to one or both of the

following: thermal energy being conducted into the cryostat or electrical

energy being converted into thermal energy within the cryostat. Analyzing

the circumstances under which the high boil-off occurs will help determine

what is causing the problem.

1. For magnets equipped with switches for persistent operation, verify

that the persistent switch heater power supply is operating at the