P/N 315-093878-9
Installation InstructionsModel RCM-1Riser Control Module
Fire Safety
Siemens Building Technologies, Inc.8 Fernwood RoadFlorham Park, New Jersey 07932
Siemens Building Technologies, Ltd.2 Kenview BoulevardBrampton, Ontario L6T 5E4 CN
2
Table of Contents
INTRODUCTION................................................................................................... 3
Electrical Ratings ............................................................................................ 3
Modes of Operation ........................................................................................ 3
Diagnostic LEDs ............................................................................................. 3
RCM-1 Diagnostic LEDs - Table 1 .................................................................. 4
DESCRIPTION OF THE RCM-1 TERMINALS ..................................................... 5
RCM-1 APPLICATIONS - Table 2 ....................................................................... 5
Application 1 - Typical Style 4 Installation ....................................................... 6
Application 2 - Style 4 with a Style 4 Output Only Extension ......................... 6
Application 3 - Typical Style 7 Installation ....................................................... 6
Application 4 - Style 7 with a PORT C Extension ........................................... 7
Application 5 - Style 4 Fiber Optic Installation ................................................ 7
Application 6 - Style 4 Fiber Optic with a PORT C Fiber Optic Extension ...... 8
Application 7 - Style 7 Fiber Optic with a PORT C Fiber Optic Extension ...... 8
Application 8 - Combination Wire and Fiber Installation................................. 9
Application 9 - Style 4 Repeater Installation ................................................... 9
INSTALLATION .................................................................................................... 9
Network Address Programming (S1) - Table 3 ............................................. 10
S2 Settings - Table 4 ..................................................................................... 11
Application 1 - Typical Style 4 Connections .................................................. 12
Application 2 - Typical Style 4 Connections with PORT C Extension ........... 13
Application 3 - Typical Style 7 Connections .................................................. 14
Application 4 - Style 7 Connections with PORT C Extension ....................... 15
Applications 5 and 6 - Typical Style 4 Fiber Optic Connections with OptionalPORT C Extension ........................................................................................ 16
Application 7 - Typical Style 7 Fiber Optic Connections with OptionalPORT C Extension ........................................................................................ 17
Application 8 - Combination Fiber and Wire Style 4 Connection.................. 18
Application 9 - Style 4 Repeater Connection ................................................ 19
WIRING CONFIGURATIONS FOR THE OCC AND ACM ................................. 20
3
Only one RCM-1 may be connected to the MXL.The module communicates with the MXL usingthe RS-485 MNET. If the RCM-1 detects thatsupervision is lost with the MXL, it will automati-cally switch to Local Mode.
If any copper wire pair leaves the building (Cam-pus Configuration) the LLM-1 module must beused for transient protection (UL 1459). Refer toLLM-1 Installation Instructions, P/N 315-093530.
Modes of Operation
The RCM-1 can operate in the following modes:
Local Mode The audio from the local MXL(ACM) will be switched to localspeaker zones (OCCs). Theglobal audio riser will beswitched to Port C, the Style 4output riser.
Global Mode 1 The audio output from the localMXL is disconnected. Theaudio from the global riser isconnected to the local speakerzones and to Port C, the Style4 output riser.
Global Mode 2 The audio from the localsystem is connected to boththe local speaker outputs andthe global risers.
Diagnostic LEDs
The RCM-1 has two yellow diagnostic LEDs andsix green diagnostic LEDs along its top edge.Their functions are described in Table 1 (Refer toFigure 2 for their location).
PORT STYLE FUNCTION
A 6 Audio signal input
B 4/7 Audio signal input/output
C 4 Audio signal output
D 6 Audio signal output
The RCM-1 supervises Port B for open andshort circuits, reports by exception to the MXL,and isolates the fault.
INTRODUCTIONThe SIEMENSSIEMENSSIEMENSSIEMENSSIEMENS Model RCM-1 Riser Controlmodule provides control and supervision ofglobal paging risers in MXL voice networks.The RCM-1 is a double-width card and has 4ports (See Figure 1) with the following inputsand outputs:
Figure 1RCM-1 Ports
A ��D and B ��C
B ��C and D
A ��B, C and D
ELECTRICAL RATINGS5V at 80mA24V at 130 mA
4
TABLE 1RCM-1 DIAGNOSTIC LEDS
LED COLOR FUNCTION
Any Trouble Yellow Lights when the RCM-1 cannot communicate with the MXL.
XMIT Enable Yellow Lights whenever the RCM-1 transmits a message to the MXL.
XMIT A Green Lights when the RCM-1 transmits voice using the copperwire RECV connections.
XMIT B Green Lights when the RCM-1 transmits voice using the copperwire XMIT connections.
XMIT F Green Lights when the RCM-1 transmits voice using any of the fiberoptic ports.
LM1 Green Lights when the RCM-1 is in local mode.Flashes when there is no valid carrier on the riser.
GM1 Green Lights when the RCM-1 is in global mode 1.Flashes when there is no valid carrier on the riser.
GM2 Green Lights when the RCM-1 is in global mode 2.Flashes when there is no valid carrier on the riser.
Figure 2RCM-1 Module Board
5
Figure 3Description of the RCM-1 Terminals
The RCM-1 can be connected in many different ways. Table 2 describes the various applications. Theblock diagrams below show the possible configurations.
Note:Polarity must be observedwith all riser connections.Odd pins are hi side whileeven pins are lo side. Seethe separate wiringconnections for the ACM/TBM and the OCC shownin Figure 12.
TABLE 2RCM-1 APPLICATIONS
Application No.(See Corresponding Diagram) Configuration
1 Typical Style 4 installation
2 Style 4 installation with a Style 4 output only extension
3 Typical Style 7 installation
4 Style 7 installation with a Style 4 extension
5 Style 4 installation with fiber optic transmission
6 Style 4 fiber optic with a Style 4 fiber optic output only extension
7 Style 7 fiber connections with a Style 4 output only fiber extension
8 Combination wire and fiber installation
9 Style 4 Repeater Installation
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
PORT C: Copper Interface, Transmit, Style 4 (CT4)
PORT B: Copper Interface, Receive, Style 4 (BR4)
PORT B: Copper Interface, Transmit, Style 4 (BT4)
PORT B: Copper Interface, Receive, Style 7 (BR7)
PORT B: Copper Interface, Transmit, Style 7 (BT7)
NOT USED
NOT USED
NOT USED
NOT USED
PORT B: Fiber Interface, Style 4 (BF4)
PORT B: Fiber Interface, Style 7 (BF7)
PORT C: Fiber Interface, Style 4 (CF4)
CABLE TOMMB OR PSRP/N 555-190967
PORT D: Copper Connection To The OCC
PORT D: Copper Connection To The OCC
PORT A: Copper Connection To The ACM
RC
M-1
OMM-1
or
OMM-2
6
Application 1Typical Style 4 Installation
Application 3Typical Style 7 Installation
Application 2Style 4 with a Style 4 Output Only Extension
RCM-1 Nos. 4, 5, and 6 have local ACMs, but cannotoutput to the global bus � they can only receive.
7
Application 4Style 7 with a PORT C Extension
Application 5Style 4 Fiber Optic Installation
8
Application 6Style 4 Fiber Optic with a PORT C Fiber Optic Extension
Application 7Style 7 Fiber Optic with a PORT C Fiber Optic Extension
9
INSTALLATION
Remove all system power beforeinstallation, first battery and then AC.
(To power up, connect theAC first, then the battery.)
The RCM-1 has two configuration dipswitches,S1 and S2. Set the dipswitches before install-ing the RCM-1 into the OMM-1/2. (See NOTEfollowing Table 4 for the operation ofdipswitches.)
The RCM-1 takes up one of the 255 possiblenetwork addresses. Use switch S1 to set theMXL network address. Set this switch accordingto the address where the RCM-1 is installed inthe MXL�s network map. Refer to the AccuLINK(CSG-M) configuration printout for the address ofthe module. See Table 3 for settings.
In addition to S1 which is used to set the networkaddress, the RCM-1 has a second bank ofdipswitches, S2, which must be correctly config-ured for the RCM-1 to operate properly. Refer toTable 4 for a description of the functions for eachof the switches in S2.
Application 8Combination Wire and Fiber Installation
Application 9Style 4 Repeater Installation
10
TABLE 3NETWORK ADDRESS PROGRAMMING (S1)
RDDA 12345678 RDDA 12345678 RDDA 12345678 RDDA 12345678
000100200300400500600700800900010110210310410510610710810910020120220320420520620720820920030130230330430530630730830930040140240340440540640740840940050150250350450550650750850950060160260360
LAGELLILAGELLILAGELLI
XXOOOOOOOOXOOOOOXOXOOOOOOXXOOOOOXXXOOOOOOOOXOOOOXOOXOOOOOXOXOOOOXXOXOOOOOOXXOOOOXOXXOOOOOXXXOOOOXXXXOOOOOOOOXOOOXOOOXOOOOXOOXOOOXXOOXOOOOOXOXOOOXOXOXOOOOXXOXOOOXXXOXOOOOOOXXOOOXOOXXOOOOXOXXOOOXXOXXOOOOOXXXOOOXOXXXOOOOXXXXOOOXXXXXOOOOOOOOXOOXOOOOXOOOXOOOXOOXXOOOXOOOOXOOXOOXOXOOXOOOXXOOXOOXXXOOXOOOOOXOXOOXOOXOXOOOXOXOXOOXXOXOXOOOOXXOXOOXOXXOXOOOXXXOXOOXXXXOXOOOOOOXXOOXOOOXXOOOXOOXXOOXXOOXXOOOOXOXXOOXOXOXXOOOXXOXXOOXXXOXXOOOOOXXXOOXOOXXXOOOXOXXXOOXXOXXXOOOOXXXXOOXOXXXXOOOXXXXXOOXXXXXXOO
460560660760860960070170270370470570670770870970080180280380480580680780880980090190290390490590690790890990001101201301401501601701801901011111211311411511611711811911021121221321421521621721
OOOOOOXOXOOOOOXOOXOOOOXOXXOOOOXOOOXOOOXOXOXOOOXOOXXOOOXOXXXOOOXOOOOXOOXOXOOXOOXOOXOXOOXOXXOXOOXOOOXXOOXOXOXXOOXOOXXXOOXOXXXXOOXOOOOOXOXOXOOOXOXOOXOOXOXOXXOOXOXOOOXOXOXOXOXOXOXOOXXOXOXOXXXOXOXOOOOXXOXOXOOXXOXOOXOXXOXOXXOXXOXOOOXXXOXOXOXXXOXOOXXXXOXOXXXXXOXOOOOOOXXOXOOOOXXOOXOOOXXOXXOOOXXOOOXOOXXOXOXOOXXOOXXOOXXOXXXOOXXOOOOXOXXOXOOXOXXOOXOXOXXOXXOXOXXOOOXXOXXOXOXXOXXOOXXXOXXOXXXXOXXOOOOOXXXOXOOOXXXOOXOOXXXOXXOOXXXOOOXOXXXOXOXOXXXOOXXOXXXOXXXOXXXOOOOXXXXOXOOXXXXOOXOXXXXOXXOXXXXOOOXXXXXOXOXXXXXOOXXXXXXOXXXXXXXO
821921031131231331431531631731831931041141241341441541641741841941051151251351451551651751851951061161261361461561661761861961071171271371471571671771871971081181281381481581681781881981091191
OOOOOOOXXOOOOOOXOXOOOOOXXXOOOOOXOOXOOOOXXOXOOOOXOXXOOOOXXXXOOOOXOOOXOOOXXOOXOOOXOXOXOOOXXXOXOOOXOOXXOOOXXOXXOOOXOXXXOOOXXXXXOOOXOOOOXOOXXOOOXOOXOXOOXOOXXXOOXOOXOOXOXOOXXOXOXOOXOXXOXOOXXXXOXOOXOOOXXOOXXOOXXOOXOXOXXOOXXXOXXOOXOOXXXOOXXOXXXOOXOXXXXOOXXXXXXOOXOOOOOXOXXOOOOXOXOXOOOXOXXXOOOXOXOOXOOXOXXOXOOXOXOXXOOXOXXXXOOXOXOOOXOXOXXOOXOXOXOXOXOXOXXXOXOXOXOOXXOXOXXOXXOXOXOXXXOXOXXXXXOXOXOOOOXXOXXOOOXXOXOXOOXXOXXXOOXXOXOOXOXXOXXOXOXXOXOXXOXXOXXXXOXXOXOOOXXXOXXOOXXXOXOXOXXXOXXXOXXXOXOOXXXXOXXOXXXXOXOXXXXXOXXXXXXXOX
291391491591691791891991002102202302402502602702802902012112212312412512612712812912022122222322422522622722822922032132232332432532632732832932042142242342442542642742842942052152252352452552
OOOOOOXXXOOOOOXXOXOOOOXXXXOOOOXXOOXOOOXXXOXOOOXXOXXOOOXXXXXOOOXXOOOXOOXXXOOXOOXXOXOXOOXXXXOXOOXXOOXXOOXXXOXXOOXXOXXXOOXXXXXXOOXXOOOOXOXXXOOOXOXXOXOOXOXXXXOOXOXXOOXOXOXXXOXOXOXXOXXOXOXXXXXOXOXXOOOXXOXXXOOXXOXXOXOXXOXXXXOXXOXXOOXXXOXXXOXXXOXXOXXXXOXXXXXXXOXXOOOOOXXXXOOOOXXXOXOOOXXXXXOOOXXXOOXOOXXXXOXOOXXXOXXOOXXXXXXOOXXXOOOXOXXXXOOXOXXXOXOXOXXXXXOXOXXXOOXXOXXXXOXXOXXXOXXXOXXXXXXXOXXXOOOOXXXXXOOOXXXXOXOOXXXXXXOOXXXXOOXOXXXXXOXOXXXXOXXOXXXXXXXOXXXX
LAGELLILAGELLILAGELLILAGELLILAGELLILAGELLILAGELLILAGELLI
)NOro(DESOLC=X)FFOro(NEPO=O
11
TABLE 4S2 SETTINGS
(0 = OFF, 1 = ON)
Switch No. Function Description
1 - 3 Copper Riser ModesLocation SW1 SW2 SW3
A 1 1 1 No copper connectionB 0 1 1 Normal connections on both R and T (Style 4 and 7)C 1 0 1 EOL Tx, connections on T terminals only (Style 4 and 7)D 0 0 1 EOL Rx, connections on the R terminals only (Style 4 and 7)E 1 1 0 EOL Rx4, connections on Style 4 R terminals; connections on
the Style 7 R and T terminals (Style 7 only)F 0 1 0 EOL Rx7, connections on Style 7 R terminals; connections on
the Style 4 R and T terminals (Style 7 only)G 1 0 0 First and only RCM-1 in a PORT C Style 4 extensionH 0 0 0 First RCM-1 in a PORT C Style 4 extension with
other RCM-1s connected to PORT C
4 Copper Repeater Repeater enabled when off, disabled when onConfiguration
5 - 6 SW5 SW61 1 No fiber connection0 1 Normal fiber connection1 0 Spare0 0 Spare
7 Style On for Style 4Off for Style 7
NOTE: To open a dipswitch, press down on the side of the dipswitch marked OPEN.To close a dipswitch, press down on the side of the dipswitch opposite the side marked OPEN.
To open a slide switch, push the slide to the side opposite the side marked ON.To close a slide switch, push the slide to the side marked ON.
Use switch S2 to set the correct module configu-ration for the application you have selected.Refer to Table 4 and Application Diagrams 1-8 todetermine the setting for your application.
After setting the switches, install the RCM-1 intothe OMM card cage according to the followinginstructions. Make sure that the module is in thecard guides and the card edge is firmly seated inthe connectors on the OMM.
CAUTIONAt all times handle all plug-in cards withextreme care. When inserting or removinga card, be sure the position of the card iskept at right angles to the OMM board.Otherwise, the plug-in card can damage ordisplace other components.
12
The RCM-1 mounts in the OMM-1 or OMM-2inside the MXL cabinet. Note that the RCM-1 is adouble-width card that requires the removal ofthe middle card guides on the OMM-1 and OMM-2before the card can be installed. On early ver-sions of the OMM-1 and OMM-2 this was notpossible. Make sure that the OMM-1 and OMM-2assemblies have date codes later than 3/1/95.
If the OMM-1 or OMM-2 is already installed inthe MXL, follow these steps:
1. Unfasten the screws that secure theOMM-1/2 and remove it from the MXLcabinet.
2. Remove the screws on the rear of theOMM-1/2 which secure the two middle cardguides and remove the guides.
3. Re-install the OMM-1/2 into the MXLbackbox.
4. Install the RCM-1 into the OMM-1/2.
CAUTIONINSERT THE RCM-1 MODULE IN THEOMM-1/2 WITH THE ELECTRONICCOMPONENTS FACING OUTWARDTOWARDS THE OMM SCREW TERMINALS.INSTALLATION IN ANY OTHER WAY WILLCAUSE DAMAGE TO THE RCM-1.
Typical Style 4 Connections - Application 1(See Figure 4)
This is the basic configuration of the RCM-1. Itallows multiple networked MXL voice systems tobe connected together to act as one largeintegrated voice evacuation system.
Figure 4Typical Style 4 Connections
Port B receive from transmit out on other RCMs.No connection if first RCM.
Port B transmit pair to receive inputs on other RCMs.No connection if last RCM.
To OCC-1, TB 2/TB4, 1
To OCC-1, TB 2/TB4, 2
To TBM-2, TB5, 1
To TBM-2, TB5, 4
+
+
_
_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
NOT USED
NOT USED
CABLE TOMMB OR PSRP/N 555-190967
RC
M-1
OMM-1
or
OMM-2
S2 SETTINGS
SW DescriptionLocation
BLocation
CLocation
D
1 Copper config off on off
2 Copper config on off off
3 Copper config on on on
4 Copper repeater on on on
5 Fiber config on on on
6 Fiber config on on on
7 Style 7 on on on
Notes:
1. Use 18AWG minimum wire.
2. Limit the maximum resistance of loop total from the first RCMto the last RCM to 100 ohms. Maximum line capacitance = 1µF.
3. The wiring is power limited to NFPA 70 per NEC 760.
4. Maximum voltage is 1.5V RMS.
5. Maximum current is 50mA.
6. Refer to Figure 12 for proper EOLR placement.
7. Refer to Wiring Specification for MXL, MXL-IQ and MXLVSystems, P/N 315-092772 revision 6 or higher, for additionalwiring information.
13
Figure 5Typical Style 4 Connections with PORT C Extension
Typical Style 4 Connections with PORT CExtension - Application 2 (See Figure 5)
The RCM-1 provides a Style 4 output whichcan be used to connect to other systemswhich require global paging capability. AStyle 4 output only (PORT C) extension isalso supported.
Port C output connects port B receive input on other RCMs.
Port B receive from transmit out on other RCMs.No connection if first RCM.
Port B transmit pair to receive inputs on other RCMs.No connection if last RCM.
To OCC-1, TB 2/TB4, 1
To OCC-1, TB 2/TB4, 2
To TBM-2, TB5, 1
To TBM-2, TB5, 4
+
+
_
_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
NOT USED
NOT USED
CABLE TOMMB OR PSRP/N 555-190967
RC
M-1
OMM-1
or
OMM-2
NOT USED
Notes:
1. Use 18AWG minimum wire.
2. Limit the maximum resistance of loop totalfrom the first RCM to the last RCM to 100ohms. Maximum line capacitance = 1µF.
3. The wiring is power limited to NFPA 70 perNEC 760.
4. Maximum voltage is 1.5V RMS.
5. Maximum current is 50mA.
6. Refer to Figure 12 for proper EOLR placement.
7. Refer to Wiring Specification for MXL, MXL-IQand MXLV Systems, P/N 315-092772 revision6 or higher, for additional wiring information.
S2 SETTINGS
SW DescriptionLocation
BLocation
CLocation
DLocation
GLocation
H
1 Copper config off on off on off
2 Copper config on off off on off
3 Copper config on on on on off
4 Copper repeater on on on on on
5 Fiber config on on on on on
6 Fiber config on on on on on
7 Style 7 on on on on on
14
Figure 6Typical Style 7 Connections
Port B Style 7 receive from transmit out on other RCMs.No connection if first RCM.
Port B Style 7 transmit pair to receive inputs on other RCMs.No connection if last RCM.
Port B Style 4 receive from transmit out on other RCMs.No connection if first RCM.
Port B Style 4 transmit pair to receive inputs on other RCMs.No connection if last RCM.
To OCC-1, TB 2/TB4, 1
To OCC-1, TB 2/TB4, 2
To TBM-2, TB5, 1
To TBM-2, TB5, 4
+
+
_
_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
NOT USED
CABLE TOMMB OR PSRP/N 555-190967
RC
M-1
OMM-1
or
OMM-2
NOT USED
NOT USED
S2 SETTINGS
SW DescriptionLocation
BLocation
CLocation
ELocation
F
1 Copper config off on on off
2 Copper config on off on on
3 Copper config on on off off
4 Copper repeater on on on on
5 Fiber config on on on on
6 Fiber config on on on on
7 Style 7 off off off on
Notes:
1. Use 18AWG minimum wire.
2. Limit the maximum resistance of loop totalfrom the first RCM to the last RCM to 100ohms. Maximum line capacitance = 1µF.
3. The wiring is power limited to NFPA 70 perNEC 760.
4. Maximum voltage is 1.5V RMS.
5. Maximum current is 50mA.
6. Refer to Figure 12 for proper EOLR placement.
7. Refer to Wiring Specification for MXL, MXL-IQand MXLV Systems, P/N 315-092772 revision6 or higher, for additional wiring information.
Typical Style 7 Connections - Application 3(See Figure 6)
The RCM-1 provides a Style 7 output whichcan be used to connect to other systemswhich require global paging capability.
15
Style 7 Connections with PORT CExtension - Application 4 (See Figure 7)
The RCM-1 provides a Style 7 output whichcan be used to connect to other systemswhich require global paging capability. AStyle 4 output only (PORT C) extension isalso supported.
Figure 7Style 7 with Style 4 Extension
Port B Style 7 receive from transmit out on other RCMs.No connection if first RCM.
Port B Style 7 transmit pair to receive inputs on other RCMs.No connection if last RCM.
Port B Style 4 receive from transmit out on other RCMs.No connection if first RCM.
Port C output connects to riser B Style 4 receive input on other RCMs.
Port B Style 4 transmit pair to receive inputs on other RCMs.No connection if last RCM.
To OCC-1, TB 2/TB4, 1
To OCC-1, TB 2/TB4, 2
To TBM-2, TB5, 1
To TBM-2, TB5, 4
+
+
_
_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
NOT USED
CABLE TOMMB OR PSRP/N 555-190967
RC
M-1
OMM-1
or
OMM-2
NOT USED
NOT USED
NOT USED
Notes:
1. Use 18AWG minimum wire.
2. Limit the maximum resistance of loop totalfrom the first RCM to the last RCM to 100ohms. Maximum line capacitance = 1µF.
3. The wiring is power limited to NFPA 70 perNEC 760.
4. Maximum voltage is 1.5V RMS.
5. Maximum current is 50mA.
6. Refer to Figure 12 for proper EOLR placement.
7. Refer to Wiring Specification for MXL, MXL-IQand MXLV Systems, P/N 315-092772 revision6 or higher, for additional wiring information.
S2 SETTINGS
SW DescriptionLocation
BLocation
CLocation
ELocation
F
1 Copper config off on on off
2 Copper config on off on off
3 Copper config on on on off
4 Copper repeater on on on on
5 Fiber config on on on on
6 Fiber config on on on on
7 Style 7 off off on on
16
Figure 8Style 4 Fiber Optic Connection with Optional PORT C Extension
To OCC-1, TB 2/TB4, 1
To OCC-1, TB 2/TB4, 2
To TBM-2, TB5, 1
To TBM-2, TB5, 4
+
+
_
_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
NOT USED
NOT USED
NOT USED
CABLE TOMMB OR PSRP/N 555-190967
RC
M-1
OMM-1
or
OMM-2
To fiber optic module from Fiber Optic Model D2300CP.
To optional fiber module if a Style 4output only extension is required.
(SEE APPLICATION 6)
Notes:
1. Use 18AWG minimum wire.
2. Limit the maximum resistance of loop totalfrom the first RCM to the last RCM to 100ohms. Maximum line capacitance = 1µF.
3. The wiring is power limited to NFPA 70 perNEC 760.
4. Maximum voltage is 1.5V RMS.
5. Maximum current is 50mA.
6. Refer to Figure 12 for proper EOLR placement.
7. Refer to Wiring Specification for MXL, MXL-IQand MXLV Systems, P/N 315-092772 revision6 or higher, for additional wiring information.
S2 SETTINGS
SW DescriptionAs
Shown
1 Copper config on
2 Copper config on
3 Copper config on
4 Copper repeater on
5 Fiber config off
6 Fiber config on
7 Style 7 on
Typical Style 4 Fiber Optic Connectionswith Optional PORT C Extension -Applications 5 and 6 (See Figure 8)
The RCM-1 provides a Style 4 Fiber Opticoutput which can be used to connect to othersystems which only require global voiceoutput. A Style 4 Fiber Optic output only(PORT C) extension is also supported.
17
Figure 9Style 7 Fiber Optic Connection with Optional PORT C Extension
To OCC-1, TB 2/TB4, 1
To OCC-1, TB 2/TB4, 2
To TBM-2, TB5, 1
To TBM-2, TB5, 4
+
+
_
_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
NOT USED
NOT USED
CABLE TOMMB OR PSRP/N 555-190967
RC
M-1
OMM-1
or
OMM-2
To fiber optic module from Fiber Optic Model D2300CP.
To fiber optic module from Fiber Optic Model D2300CP.
To optional fiber module if a Style 4output only extension is required.
Notes:
1. Use 18AWG minimum wire.
2. Limit the maximum resistance of loop totalfrom the first RCM to the last RCM to 100ohms. Maximum line capacitance = 1µF.
3. The wiring is power limited to NFPA 70 perNEC 760.
4. Maximum voltage is 1.5V RMS.
5. Maximum current is 50mA.
6. Refer to Figure 12 for proper EOLR placement.
7. Refer to Wiring Specification for MXL, MXL-IQand MXLV Systems, P/N 315-092772 revision6 or higher, for additional wiring information.
S2 SETTINGS
SW DescriptionAs
Shown
1 Copper config on
2 Copper config on
3 Copper config on
4 Copper repeater on
5 Fiber config off
6 Fiber config on
7 Style 7 off
Typical Style 7 Fiber Optic Connectionswith Optional PORT C Extension -Application 7 (See Figure 9)
The RCM-1 provides a Style 7 Fiber Opticoutput which can be used to connect to othersystems which require global pagingcapability. A Style 4 Fiber Optic output only(PORT C) extension is also supported.
18
Combination Fiber and Wire Style 4Connection - Application 8 (See Figure 10)
The RCM-1 can support a combination offiber optics and wire which can be used toconnect to other systems which require globalpaging capability.
Figure 10Combination Fiber and Wire Connection
To fiber optic module from Fiber Optic Model D2300CP.
Port B receive from transmit out on other RCMs.No connection if first RCM.
Port B transmit pair to receive inputs on other RCMs.No connection if last RCM.
To OCC-1, TB 2/TB4, 1
To OCC-1, TB 2/TB4, 2
To TBM-2, TB5, 1
To TBM-2, TB5, 4
+
+
_
_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
NOT USED
CABLE TOMMB OR PSRP/N 555-190967
RC
M-1
OMM-1
or
OMM-2
NOT USED
NOT USED
Notes:
1. Use 18AWG minimum wire.
2. Limit the maximum resistance of loop totalfrom the first RCM to the last RCM to 100ohms. Maximum line capacitance = 1µF.
3. The wiring is power limited to NFPA 70 perNEC 760.
4. Maximum voltage is 1.5V RMS.
5. Maximum current is 50mA.
6. Refer to Figure 12 for proper EOLR placement.
7. Refer to Wiring Specification for MXL, MXL-IQand MXLV Systems, P/N 315-092772 revision6 or higher, for additional wiring information.
S2 SETTINGS
SW DescriptionLocation
BLocation
CLocation
D
1 Copper config off on off
2 Copper config on off off
3 Copper config on on on
4 Copper repeater on on on
5 Fiber config off on on
6 Fiber config on on on
7 Style 7 on on on
19
Style 4 Repeater Connection - Application 9(See Figure 11)
The RCM-1 can be used as a repeater whenthe required global riser exceeds 100 ohms.Do not install more than two repeaters in anyglobal riser.
Figure 11Riser Repeater
Port B receive from transmit out onlast RCM in the old global riser.
Port B transmit pair to receive inputson first RCM in the new global riser.
To OCC-1, TB 2/TB4, 1
To OCC-1, TB 2/TB4, 2
To TBM-2, TB5, 1
To TBM-2, TB5, 4
+
+
_
_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
NOT USED
CABLE TOMMB OR PSRP/N 555-190967
RC
M-1
OMM-1
or
OMM-2
NOT USED
NOT USED
Notes:
1. Use 18AWG minimum wire.
2. Limit the maximum resistance of loop totalfrom the first RCM to the last RCM to 100ohms. Maximum line capacitance = 1µF.
3. The wiring is power limited to NFPA 70 perNEC 760.
4. Maximum voltage is 1.5V RMS.
5. Maximum current is 50mA.
6. Refer to Figure 12 for proper EOLR placement.
7. Refer to Wiring Specification for MXL, MXL-IQand MXLV Systems, P/N 315-092772 revision6 or higher, for additional wiring information.
S2 SETTINGS
SW DescriptionLocation
BLocation
B*
1 Copper config off off
2 Copper config on on
3 Copper config on on
4 Copper repeater on off
5 Fiber config on on
6 Fiber config on on
7 Style 7 on on
*Refer to Application 9,page 9, for Location Band Location B*.
RCM Style 4 connections to the OCC
Figure 12Wiring Configurations for the OCC and ACM
P/N 315-093878-9
RCM Style 6 connections to the OCC
RCM Style 4 connections to the ACM
RCM Style 6 connections to the ACM