Control Panel 9907-2024 Woodward
Control Panel 9907-2024 Woodward
Unpacking
Before handling the control, read the “Electrostatic Discharge Awareness”
precautions on page iii. Be careful when unpacking the electronic control. Check
the control for signs of damage such as bent or dented panels, scratches, and
loose or broken parts. If any damage is found, immediately notify the shipper.
Power Requirements
The 2301A control requires a voltage source of 18 to 40 Vdc, 90 to 150 Vdc, or
88 to 132 Vac for operating power (15 W). If a battery is used for operating
power, an alternator or other battery charging device is necessary to maintain a
stable supply voltage.
Location Considerations
This product is intended for installation in a “closed electrical operating
area” or in a closed industrial control cabinet. Consider these requirements
when selecting the mounting location:
Adequate ventilation for cooling
Space for servicing and repair
Protection from direct exposure to water or to a condensation-prone
environment
Protection from high-voltage or high-current devices, or devices which
produce electromagnetic interference
Avoidance of vibration
Selection of a location that will provide an operating temperature range of –40 to +70 °C (–40 to +158 °F)
The control must NOT be mounted on the engine.
Electrical Connections
External wiring connections and shielding requirements for a typical control
installation are shown in the plant wiring diagram (Figure 1-2). These wiring
connections and shielding requirements are explained in the balance of this
chapter.
Shielded Wiring
All shielded cable must be twisted conductor pairs. Do not attempt to tin (solder)
the braided shield. All signal lines should be shielded to prevent picking up stray
signals from adjacent equipment. Connect the shields to the control terminals as
shown in Figure 2-1 and in the plant wiring diagram (Figure 1-2). Wire exposed
beyond the shield should be as short as possible, not exceeding 50 mm (2
inches). The other end of the shields must be left open and insulated from any
other conductor. Do not run shielded signal wires with other wires carrying large
currents. See Woodward application note 50532. EMI Control for Electronic
Governing Systems, for more information.
Where shielded cable is required, cut the cable to the desired length and prepare
the cable as instructed below and shown in Figure 2-1.
Strip outer insulation from BOTH ENDS, exposing the braided or spiral
wrapped shield. DO NOT CUT THE SHIELD.
Using a sharp, pointed tool, carefully spread the strands of the shield.
Pull inner conductor(s) out of the shield. If shield is the braided type, twist to
prevent fraying.
Remove 6 mm (1/4 inch) of insulation from the inner conductor(s).
Connect wiring and shield as shown.
In installations with severe electromagnetic interference (EMI), shielded wire run
in conduit, double shielded wire, or other precautions may be required. Contact
Woodward for more information.
Setting Speed Range
The speed range to be selected is determined by the maximum desired prime
mover speed. Calculate the frequency of the speed sensor signal at the
maximum prime mover speed by multiplying the gear speed in revolutions per
minute times the number of teeth on the speed sensing gear and dividing by 60.
Select the lowest speed range which contains this maximum speed sensor
frequency.
5009XT with 2 120 V AC/DC PS
8262-1141
5009XT with 2 220 VAC PS
8262-1142
5009XT with 2 24 VDC PS
8262-1143
Accessories:
17” TouchPanel OCP – Includes RemoteView Software Program
8269-1073
RemoteView – Software License
8928-5311
Actuator Module Kit (2 2-Chan Act Modules, 2 Cables, 1 FTM)
8928-7574
Kit 5009XT Optional Analog/IO/FTM/Cable
8928-7575
Control Cabinet- 5009XT MICRONET + PROTECH-GII, (HV/HV, VOTED) +
220VAC TMR PS+ INTEG ACT KIT
9907-2024