AMX nxc manual Rear Panel Components, +12 VDC PWR, Position

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NXF CardFrame and NetModules

NXF Cardframe Specifications (Cont.)

Rear Panel Components:

 

Card slots

Twelve 20-pin black (male) connectors and mating 3.5 mm captive-screw terminals

 

supplied with Control Cards.

Control Card connectors (1-12)

 

20-pin black (male) connectors that connect the Control Cards and external

 

equipment to the CardFrame.

+12 VDC PWR

 

2-pin green (male) connector for connecting a 12 VDC power supply. The CardFrame

 

can be powered via the Master Card (default) or by an external power supply

 

connected to the CardFrame's PWR connector. If a power supply is connected to the

 

PWR connector, the CardFrame power automatically switches to the connected

 

power supply. In that case, the Control Cards and CardFrame are independently

 

powered. A simple rule to follow is that if the CardFrame contains eight or more

 

Control Cards, use two 12 VDC power supplies.

CardFrame Number DIP switch

 

Sets the starting address for the Control Cards in the CardFrame. The 8-position DIP

 

switch address range is 1-3072.

 

 

Front faceplate

Plastic gray faceplate with translucent viewing window.

 

 

Enclosure

Metal with black matte finish.

 

 

Mounting Master/Hub Cards in an NXF CardFrame

NetLinx Master and Hub Cards can be installed in the NXF CardFrame. The card mounts in a horizontal position, through the master card slot on the rear panel of the NXF enclosure. To install a Master or Hub Card in an NXF:

1.Discharge the static electricity from your body by touching a grounded metal object.

2.Unplug all the connectors from the NXF.

3.Remove the two screws holding the front plate on the Master Card, and remove the front plate.

4.Align the edges of the card with the guide slots inside the Master Card slot on the NXF.

5.Slide the card about halfway into the slot.

6.Inside the Master Card slot on the NXF, locate the 6-pin control cable connector.

7.Plug the connector from the NXF into the 6-pin terminal on the Master Card. This connector is keyed to ensure correct orientation.

8.Once the control cable is connected, gently slide the card all the way in until you feel the rear edge of the card lightly snap into place.

9.Re-apply power and other connections as necessary.

Setting the CardFrame's starting address

The 8-position CardFrame Number DIP switch, located on the rear of the CardFrame (FIG. 1 on page 1), sets the starting address (the device number in the D:P:S specification) for the Control Cards installed in the CardFrame. The address range is 12-3060. The formula for setting the starting address is:

(DIP switch address x 12) + Card slot Number (1-12) = Card address

For example:

For DIP switch setting, 00010101: (0 + 0 + 0 + 0 + 96 + 0 + 384 + 1536) + SLOT # (ex:1) = 2017.

A card in slot number 7 would be device address 2023.

1.Set the CardFrame Number DIP switch based on the information listed in the table below.

Position

1

2

3

4

5

6

7

8

 

 

 

 

 

 

 

 

 

Value

12

24

48

96

192

384

768

1536

 

 

 

 

 

 

 

 

 

2.Cycle power for approximately 5 seconds, so the system can read the new device number settings.

Factory default DIP switch value = 0 (zero) (All DIP switches are in the OFF position).

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NetLinx Cardframe, Control Cards, and NetModules - Operation Reference Guide

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Contents NetLinx Cardframe Control Cards NetModules Operation/Reference GuideAMX Limited Warranty and Disclaimer Table of Contents NXC-I/O10 Input/Output Control Card NXC-VOL4 Volume Control Card Page NXF Cardframe Specifications NXF Cardframe SpecificationsNXF CardFrame and NetModules OverviewPosition Rear Panel Components+12 VDC PWR NXS-NMS NetModules Specifications NXS-NMS NetModulesNumber PortMounting modules into an equipment rack Specifications NXC-COM2 SpecificationsNXC-COM2 Dual COM Port Control Card DeviceidNXC-COM2 Programming Information Pinouts and Wiring ConfigurationNXC-COM2 Channel Assignment Chard ChardmCtspsh GET BaudHson RxclrRxoff RxonNXC-COM2 SendString Escape Sequences TxclrXoff XONCommand Description 27,18,0 27,18,127,19,time 27,20,0NXC-I/O10 Specifications NXC-I/O10 Input/Output Control CardPinouts, Signals, and I/O Mode Functions Setting the Switch/Voltage Mode JumpersNXC-I/O10 Pinouts, Signals, and I/O Mode Functions NXC-I/O10 Channel AssignmentsOpen mode setting Setting the Voltage Clamp Jumper +12V or Open+12 V mode setting default Page NXC-IRS4 Specifications NXC-IRS4 4-Port IR/S Control CardProgramming Information Pinouts, Signals, and FunctionsNXC-IRS4 Channel Assignments Ctof CtonGET Mode IroffPOD POFPtof PtonSET Input Link SET IO LinkSET Mode Mode 1 Example x x x enterXCH XchmCommand Description Xchm Mode 3 Example 100100… xPage NXC-REL10 Specifications NXC-REL10 Relay Control CardPinouts and Functions NXC-REL10 Channel AssignmentsNXC-REL10 Connections/Wiring No Normally openIref NXC-VAI4 SpecificationsNXC-VAI4 Analog Voltage Control Card NXC-VAI4 Pinouts, Signals, and Functions Channel AssignmentsNXC-VAI4 Channel Assignments Channel State FunctionStops voltage ramping on Output 4 at current value Level Description NXC-VAI4 Output Level AssignmentsNXC-VAI4 Output Level Assignments NXC-VAI4 Input Level Assignments NXC-VAI4 SendCommandsNXC-VAI4 Input Level Assignments Levoff LevonCurve RateLevel Value Functions. Negative voltages are not valid for Inputs Page NXC-VOL4 Volume Control Card NXC-VOL4 SpecificationsAudio Channel Gain Ratio Jumper Settings NXC-VOL4 Connections/WiringNXC-VOL4 Pinouts, Signals, and Functions NXC-VOL4 Channel Assignments NXC-VOL4 LevelsNXC-VOL4 Channel Assignments per port NXC-VOL4 LevelsNXC-VOL4 SendCommands SendlevelPage It’s Your World Take Control
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