Intel l2ICE User Manual page 173

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Figure A-3 Termination Switches on the Rear Panel of the PICE™ System
To avoid overloading the line circuit, ensure that each PICE instrumentation chassis
is on a separate line circuit and that the host development system is on a separate
line circuit.
The PICE chassis draws a maximum of 12 amps at 90-132 V and 6 amps
at 180-264 V. A Series III development system with two double-density disk
drives and an expansion chassis draws a maximum of approximately 10.5 amps at
90-132 V.
4. Verify that the circuit breaker CB1 (see Figure A-2) on the instrumentation chassis rear
panel is OFF. Connect the line cord to an appropriate power outlet.
5. For single-chassis PICE systems, ensure that all five termination switches are ON (up) (see
Figure A-3).
For multiple-chassis PICE systems, ensure that the last (the highest-numbered) instrumen­
tation chassis has all five termination switches ON (up). All other chassis in a multiple-
chassis PICE system must have all termination switches OFF (down) (see Figure A-3).
6. Remove the front panel from the instrumentation chassis and set it aside.
Remove the foam packing behind the front panel (and save it for future storage and
shipment). Powering up the PICE instrumentation chassis without removing the
foam will damage the equipment.
PICE™ System Non-Host Hardware Installation
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i3" 'L
SYSBRK OUT
a - c
TERMINATION
SWITCHES
LAST OR ONLY UNIT ON POSITION
ALL OTHER UNITS OFF POSTION
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Instrumentation Chassis
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ICE-LINK OUT
S2 S3 S4 S5 |
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1150
A-3