Overload Protection; Wiring Consideration; Protective Devices; Power Disconnect - Baldor DBSC 100 Series Installation And Operating Manual

Section
Baldor Controls feature UL approved motor overload protection suitable for
Baldor Controls feature UL approved motor overload protection suitable for
motors that consume at least 50% of the output rating of the control. Other
motors that consume at least 50% of the output rating of the control. Other
governing agencies such as NEC (National Electric Code) may require separate
governing agencies such as NEC (National Electric Code) may require separate
over current protection. The installer of this equipment is responsible for
over current protection. The installer of this equipment is responsible for
complying with NEC guidelines and CE directives (Conformite Europeene) and
complying with NEC guidelines and CE directives (Conformite Europeene) and
applicable local codes that govern wiring protection, grounding, disconnects and
applicable local codes that govern wiring protection, grounding, disconnects and
other current protection.
other current protection.
All logic and control connections are made at the connectors shown in Figure
All logic and control connections are made at the connectors shown in Figure
3-1. All external wires for the control should be run in a conduit that is separate
3-1. All external wires for the control should be run in a conduit that is separate
from power wiring. The use of shielded wire is recommended for all control
from power wiring. The use of shielded wire is recommended for all control
wiring.
wiring.

Protective Devices

Protective Devices
Be sure a suitable input power protection device is installed.
Be sure a suitable input power protection device is installed.
Slow Blow Fuse:
Slow Blow Fuse:

Power Disconnect

Power Disconnect
A power disconnect should be installed between the input power source and the
A power disconnect should be installed between the input power source and the
DBSC for a fail safe method to disconnect power. The control will remain in a
DBSC for a fail safe method to disconnect power. The control will remain in a
powered-up condition until all input power is removed from the control and the
powered-up condition until all input power is removed from the control and the
internal bus voltage has depleted.
internal bus voltage has depleted.
Figure 3-1 shows the connector locations.
Figure 3-1 shows the connector locations.
1. C o n n e c t the incoming AC power wires from the protection devices as
1. Connect the incoming AC power wires from the protection devices as
follows:
follows:
Line 1 to connector X1 pin 2 (label "L").
Line 1 to connector X1 pin 2 (label "L").
Line 2 to connector X1 pin 3 (label "N").
Line 2 to connector X1 pin 3 (label "N").
2. C o n n e c t earth ground to X1 pin 1 (labeled "PE") of the control. Be sure to
2. Connect earth ground to X1 pin 1 (labeled "PE") of the control. Be sure to
comply with local codes.
comply with local codes.
3-2 M
3–2
Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com

Overload Protection

Overload Protection

Wiring Consideration

Wiring Consideration
Each DBSC must be fused separately. Recommended fuse
Each DBSC must be fused separately. Recommended fuse
rating is determined as follows:
rating is determined as follows:
I = 1.25 X I
' f use = 1.25 X 'nominal
fuse nominal

AC Power Connections

AC Power Connections
N 1 2 2 9
MN1229