Siemens PSR-1 Installation Instructions Manual

Installation Instructions

Model PSR-1
Remote Power Supply

PSR-1 Remote Power Supply

INTRODUCTION

The Model PSR-1 from Siemens Industry, Inc.,
(See Figure 1) is a microprocessor controlled
remote power supply and battery charger used
with the MXL System. It operates with an
MPS-6 or MPS-12 to provide 6 or 12 amps,
respectively, of power for various MXL mod­ules.

In addition, the PSR-1 acts as an interface
between remote option modules and the MXL
when used with a NET-4 plug-in communica­tion module (See Instructions P/N 315-090909)
or NET-7 plug-in communication module (See
Instructions P/N 315-091914).

Siemens Industry, Inc.
Building Technologies Division
Florham Park, NJ

P/N 315-090911-23

Figure 1

The PSR-1 can also be used to power an
MOI/MOD annunciator driver set. In addition, the
PSR-1 can be used as an auxiliary power supply
in a standalone mode without an MXL.

The PSR-1 has LED status indicators for:

POWER ON, 5V AUX ON, 24V ON, BAT TRBL,
TB3 TRBL (Class A power limited output for the
CZM-1 and PS-5), GND FAULT, XMIT, ANY
TRBL, and ANY ALARM. The PSR-1 has two

relays used for common alarm and common
trouble. These relays also can be programmed
for local alarm and local trouble using CSG-M.

For additional information on the MXL/MLV
System, refer to the MXl/MXLV Manual,

P/N 315-092036.

Siemens Building Technologies, Ltd.
Fire Safety & Security Products
2 Kenview Boulevard
Brampton, Ontario
L6T 5E4 Canada

ELECTRICAL CONNECTIONS

Remove all system power before installation,
first battery and then AC. (To power up, first

connect the AC and then the battery.)

Primary Power

Primary power for the PSR-1 is provided by the
MPS-6 or MPS-12. Both of these mount in the
lower right-hand corner of the MXL enclosure.
Follow the instructions below for the appropriate
power supply.

MPS-6 — Install the MPS-6 (See MPS-6 Instruc-
tions, P/N 315-090334). With the AC mains
disconnected, connect the MPS-6 power cable to
P12 of the PSR-1. Be sure that the jumper

assembly is installed in P10 of the PSR-1. If
this jumper is not installed, the PSR-1 will
detect a permanent AC fail or indicate auxilia­ry power voltage is low.

Change F2 to a 15A fuse, P/N 105-224090.
Change F3 to a 6A fuse, P/N 105-268095.

MPS-12 — Install the MPS-12 (See MPS-12
Instructions, P/N 315-092030). Remove and
discard the jumper assembly installed in P10 of
the PSR-1.
the MPS-12 power cable to P10 of PSR-1.

Disconnect the AC mains. Connect

For NFPA 72 Municipal Tie and 72 Remote
Station systems multiply the total system
current by 60 and record it at that Total AH

location.

or

For FM Appoved Deluge/PreAction
systems multiply the total system current by
90 and record it at that Total AH location.

5. Multiply the AH Total by 1.3 to obtain the final
battery amp hour capacity and record it
opposite Battery Size.

Three battery models are UL listed for use with
the MXL:

BP-61—24V, 15 AH
BTX-1—a set of 12V, 31 AH
BTX-2—a set of 12V, 55 AH, 65 AH, or 75 AH*

*

Although larger batteries may be used, as
noted, the 55 AH capacity must be used for
determining battery requirements.

Select the battery that meets or exceeds the final
calculated battery amp hour rating. Use an
external battery box with the BTX-2 model.

Do not connect the batteries at this time.

Battery Calculations

Battery backup is a requirement for the MXL. To
determine the size battery you must use, follow
the procedures listed below. The MXL can
charge a battery of up to 55 amp hours. A bat­tery size calculation form is provided on page 3.

1. Record all the modules required in the form
on the following page.

2. Calculate each row across and place the total
in the right column: Total Standby 24 VDC

Module Current

3. Total the right-hand column and record it at
the bottom of the form opposite Total

System Current.

4. For NFPA 72 Local and 72 Proprietary
systems multiply the total system current by

24 and record it at that Total AH location.

or

Power Supply Load Calculations

To ensure that the power supply is not over­loaded, complete the worksheet on page 4.

1. Enter the quantity of each module in the
enclosure.

2. Caclulate both the 24V and 5V loads for each
row.

3. Total the Active 24V and Active 5V columns.

4. Ensure that both totals are within the power
supply output ratings in the table below.

POWER SUPPLY OUTPUT RATINGS

Active 24 VDC

Module

PSR-1/MPS-6 6 amps 800 mA

PSR-1/MPS-12 12 amps 800 mA

2

Module Curre nt

Active 5 VDC

Module Curre nt

NOTES:

1. Use this column for
battery size
calculations.

2. Power is supplied by
a separate UPS.

3. EOL currents
included.

4. The following
modules draw no 24
VDC current and do
not need to be
included in the
battery calculations:

LLM-1

OMM-1

OMM-2

MOM-4

MOM-2

MMM-1

PLC-4

TBM-2

TSW-2

eludoMytitnauQCDV42ybdnatS

1-RSPAm0900

9215/8215Am0300

1-MCAAm5500

I2-DLA

1-CSAAm2200
2-CSAAm58)3etoNeeS(0
1-CTBAm5400
M/UCCAm05100

003-IMCAm0300

4-MRC

4-MSC

6B1-/1-MZC

4-MZC

PC0032DAm0500

E1-/1-TCDAm05100

1-CMDAm500

D014LEAm00200

6B1-/1-PCIAm01Am5.20

TCADMAm02200

61-DIMAm200

4-/2-BKMAm600

C5-/5-BKMAm00300

C

6-/6-BKMAm00300

61-DOMAm200

7-IOMAm0200

4-TENAm500
7-TENAm0300

M7-TENAm0300
W1-MINAm0600
W1-MIN

M1-MINhtiw

1-CCOAm5100

1-LAP)2etoNe
1-MIPAm5100
2-MIP)2etoNeeS(00

A5-SPdaolV5fo¼+Am0100

7N5-SPdaolV5fo¼+Am5400

2-/F1-/1-CCR

1-ESR,R2-/

/C3-/3-CCR

CF3-/F3-

1-MCRAm00200

1-PERAm0400

1-MMTAm02)3etoNeeS(0

04-PSTAm0700

1-MFVAm010 DELevitcarepAm8

1-ASV

1-MLV/1-MSVAm70 DELevitcarepAm11

1-DLX

03-CAZAm06100

B8-1CZAm2)3etoNeeS(0

BA4-2CZAm2)3etoNeeS(0

B8-2CZAm2)3etoNeeS(0

BA4-3CZAm2)3etoNeeS(0

B8-TCZAm

eS(00

1-MIP

tnerruCeludoM

)1etoNeeS(

Am021

Am5

Am11

Am6

Am83

Am03100

fiAm51+Am55

desusi

Am00300

pAm11+Am7

re

DELevitca

Am022

51)3etoNeeS(0

eR,)B27(eiTlapicinuMAPFN *

SyrettaB

*
**

eniLfodnE

eciveD

0

yaler

Am21

Am5

0

00

00

0

0

Am5.1

Am3

spmA24deecxeottonlatoT

spmA21tnerrucmralAmumixaM

tiucriCrePtnerruCdaoL

tnerruCeciveD42ybdn

/ecivedrepAm1.1

sIRTrofAm6.1

evitcarepAm81

ecivedrepAm1.1

tnerruCmetsySlatoT
=42xHAlatoT-)D27(yrateirporP,)A27(lacoLAPFN *
=06xHAlatoT-)C27(noitatSetom
=09xHAlatoT-noitcAerP/eguleDdevorppAMF*
=3.1x)**noitcerroCevreseRmralAhtiw(ezi

atSlatoT

tnerruC

3

eludoMCDV

NOTES:

1. Use this column to
calculate total current
from 24 VDC supply to
make sure it is not
overloaded.

2. Use this column to
calculate total current
from 5 VDC supply to
make sure it is not
overloaded.

3. PSR-1 supplies 5V at
800mA, 24V at 6A
(MPS-6), 24V at 12A
(MPS-12).

4. The following modules
draw no current from
either the 5 VDC or 24
VDC power supplies
and do not need to be
included in these
calculations:

OMM-1
OMM-2
MOM-2
MOM-4
MMM-1
PAL-1
PIM-2
PLC-4
TBM-2
TSW-2

eludoMytitnauQ

1-RSP

9215/8215Am0400

1-MCAAm58A

I2-DLA

1-CSAAm05Am01

2-CSAAm08Am01

1-CTBAm04Am01

M/UCCAm05100

003-IMC00Am69

4-MRC

4-MSC

6B1-/1-MZCAm0500

4-MZC

PC0032D00Am

E1-/1-TCDAm09100

1-CMD00Am02

6B1-/1-PCI

TCADMAm06200

61-DIMxamAm84Am2

4-/2-BKM00Am57

C5-/-BKMA

C6-/6-BKMAm00300

61-DOMxamAm008Am2

7-IOMAm0Am07

4-TEN00Am02

7-TEN00Am021

M7-TEN00Am021

W1-MINAm0600

htiwW1-MIN

M1-MIN

CCOAm01Am01

1-

1-MIP00Am05

A5-SPdaolV5fo¼+Am0100

7N5-SPdaolV5fo¼+Am5400

2-/F1-/1-CCR

1-ESR,R2-/

3-/3-CCR

/C

CF3-/F3-

1-MCRAm081Am08

1-PERAm0400

1-MMTAm1400

04-PSTAm0700

1-MFV

1-ASV

1-MLV/1-MSV

1-DLX

03-CAZW03taA3Am010

B8-1CZAm571Am5

BA4-2CZA

B8-2CZAm633Am5

BA4-3CZAm062Am5

B8-TCZAm09Am51

deretlifnUCDV03

deifitceRevaWlluF

Am511

)3etoNeeS(

repAm1.1+Am021

rofAm6.1/ecived

sIRT

evitcarepAm81

yaler

xamA5.1+Am07

tiucricrep

Am567

mralanisenoz4

daolecived+A01

).xamA5.1(

m00300

Am03100

Am51+Am56

desusi1-MIPfi

Am00300

repAm8+Am01

DELevitca

repAm11+Am7

ELevitca

D

repAm11+Am7

DELevitca

repAm1.1+Am022

ecived

m062Am01

LATOTLATOT

evitcAlatoT

eludoMCDV42

tnerruC

)1etoNeeS(

Am511

CDV5evitcA

eludoM

nerruC

t

0

)3etoNeeS(

m671

00

Am01

Am01

Am01

002

00

00

00

00

00

00

evitcAlatoT

eludoMCDV5

tnerruC

)2etoNeeS(

0

4

SETTING THE OPTION
DIPSWITCHES ON SWITCH S2

(See Figure 2)

To Disable the Network (S2-1)

The Disable Network Switch, located at S2-1,
enables or disables the network connection.

DISABLE NETWORK SWITCH SETTINGS

S2-1 Network

Open (or OFF) Enabled

Closed (or ON)

*When not connected to the MXL network

Battery Setting (S2-2, -3, and -4)

There is only one allowable battery switch setting
as shown in the table below. Be sure to set the
PSR-1 battery size in the CSG-M to 31 AH,
regardless of the factory battery size.

Disabled*

Figure 2

Switches S1 and S2 on the PSR-1

Security Mode-UL 1076 Operation (S2-5)
To Disable the Tamper Switch

The PSR-1 does not support the use of security
points from initiating circuits in its enclosure. To
disable the tamper switch input of the PSR-1, set
the security mode to disabled.

SGNITTESHCTIWSYRETTAB

sehctiwSPID

nepO

)FFOro(

nepO

)FFOro(

desolC

)NOro(

The following table defines the battery voltage
thresholds for the listed battery trouble condi­tions. These voltages can be viewed in the TEST
POWER menu on the MKB-2 annunciator.

BATTERY VOLTAGE THRESHOLDS

Battery Voltage

Battery Status Conditions

Battery Not Installed <14.0

Charger Disabled <18.3

Battery Low Fault On Battery <21.0

Battery Low Fault On AC <24.0

Battery High Fault >30.0

gnigrahC

tnerruC2-2S3-2S4-2S

spma0.2

xam

(Volts)

The Disable Security Mode switch is located at S2-5.

DISABLE SECURITY MODE SWITCH SETTINGS

S2-5 UL1076

Open (or OFF) Disabled

Input Power Specifications

MPS-6

Input Voltage: 120VAC, +10%, -15%
Input Current: 2A max

MPS-12

Input Voltage: 120 VAC, +10%, -15%
Input Current: 4A max

ELECTRICAL RATINGS

tnerruCeludoMCDV5evitcAAm0

*tnerruCeludoMCDV42evitcAAm511

tnerruCeludoMCDV42ybdnatSAm09

rrucynaedulcnitonseoD*

.1-RSPehtybderewopseludom

5

rosecivedybnwardtne

1ELBAT

GNIMMARGORPSSERDDAKROWTEN

RDDA12345678RDDA12345678RDDA12345678RDDA12345678

000

100
200
300
400
500
600
700
800
900
010

110
210
310
410
510
610
710
810
910
020

120
220
320
420
520
620
720
820
920
030

130
230
330
430
530
630
730
830
930
040

140
240
340
440
540
640
740
840
940
050

150
250

0

35
450
550
650
750
850
950
060

160
260
360

LAGELLI
LAGELLI
LAGELLI

XXOOOOOO
OOXOOOOO
XOXOOOOO
OXXOOOOO
XXXOOOOO
OOOXOOOO
X

OOXOOOO

OXOXOOOO
XXOXOOOO
OOXXOOOO

XOXXOOOO
OXXXOOOO
XXXXOOOO

OOOOXOOO

XOOOXOOO
OXOOXOOO
XXOOXOOO

OO

XOO

OOXOXOOO
XOXOXO
OXXOXOOO
XXXOXOOO
OOOXXOOO
XOOXXOOO
OXOXXOOO
XXOXXOOO
OOXXXOOO
XOXXXOOO
OXXXXOOO
XXXXXOOO

OOOOOXOO

XOOOOXOO

OOXOO

OXO
XXOOOXOO
OOXOOXOO
XOXOOXOO
OXXOOXOO
XXXOOXOO
OOOXOXOO
XOOXOXOO
OXOXOXOO
XXOXOXOO
OOXXOXOO
XOXXOXOO
OXXXOXOO
XXXXOXOO
OOOOXXOO
XOOOXXOO
OXOOXXOO
XXOOXXOO
OOXOXXOO
XOXOXXOO
OXXOXXOO
XXXOXXOO
OOOXXXOO
XOOXXXOO
OXOXXXOO
XXOXX
OOXXXXOO
XOXXXXOO

OXXXXXOO
XXXXXXOO

460
560
660
760
860
960
070
170
270
370
470
570
670
770
870
970
080
180
280
380
480
580
680
780
880
980
090
190
290
390
490
590
690
790
890
990
001
101
201
301
401
501
601
701
801
901
011
111
211
311
411
511
611
711
811

1

91
021
121
221
321
421
521
621
721

XO

)NOro(DESOLC=X)FFOro(NEPO=O

OOOOOOXO
XOOOOOXO
OXOOOOXO
XXOOOOXO
OOXOOOXO

XOXOOOXO
OXXOOOXO
XXXOOOXO
OOOXOOXO
XOOX

OOXO

OXOXOOXO
XXOXOOXO
OOXXOOXO
XOXXOOXO
OXXXOOXO
XXXXOOXO
OOOOXOXO
XOOOXOXO
OXOOXOXO
XXOOXOXO
OOXOXOXO
XOXOXOXO

XXOXOXO

O
XXXOXOXO
OOOXXOXO
XOOXXOXO
OXOXXOXO
XXOXXOXO
OOXXXOXO
XOXXXOXO

OXXXXOXO
XXXXXOXO

OOOOOXXO
XOOOOXXO
OXOOOX
XXOOOXXO
OOXOOXXO
XOXOOXXO

OXXOOXXO
XXXOOXXO

OOOXOXXO
XOOXOXXO

OXOXOXXO
XXOXOXXO
OOXXOXXO
XOXXOXXO
OXXXOXXO

XOXXO

XXX

OOOOXXXO
XOOOXXXO

OXOOXXXO
XXOOXXXO
OOXOXXXO
XOXOXXXO
OXXOXXXO
XXXOXXXO
OOOXXXXO
XOOXXXXO
OXOXXXXO
XXOXXXXO
OOXXXXXO
XOXXXXXO
OXXXXXXO
XXXXXXXO

821
921
031
131
231
331
431
531
631
731

X
831
931
041
141
241
341
441
541
641
741
841
941
051
151
251
351
451
551
651
751
851
951
061
161
261
361
461
561
661
761
861
961
071
171
271
371
471
571
671
771
871
971
081
181
281
381

1

48
581
681
781
881
981
091
191

OX

OOOOOOOX
XOOOOOOX
OXOOOOOX
XXOOOOOX
OOXOOOOX

XOXOOOOX
OXXOOOOX
XXXOOOOX
OOOXOOOX
XOOXOOO
OXOXOOOX
XXOXOOOX
OOXXOOOX
XOXXOOOX
OXXXOOOX
XXXXOOOX
OOOOXOOX
XOOOXOOX
OXOOXOOX
XXOOXOOX
OOXOXOOX
XOXOXOOX

XOOX

OXXO
XXXOXOOX
OOOXXOOX
XOOXXOOX
OXOXXOOX
XXOXXOOX
OOXXXOOX
XOXXXOOX

OXXXXOOX
XXXXXOOX

OOOOOXOX
XOOOOXOX
OXOOOXOX

XOOOXOX

X
OOXOOXOX
XOXOOXOX
OXXOOXOX
XXXOOXOX
OOOXOXOX
XOOXOXOX
OXOXOXOX
XXOXOXOX
OOXXOXOX
XOXXOXOX

OXXXOXOX
XXXXOX

OOOOXXOX
XOOOXXOX
OXOOXXOX
XXOOXXOX
OOXOXXOX
XOXOXXOX

OXXOXXOX
XXXOXXOX

OOOXXXOX
XOOXXXOX

OXOXXXOX
XXOXXXOX

XXXOX

OOX

XOXXXXOX
OXXXXXOX
XXXXXXOX

2

291
391
491
591
691
791
891
991
002
102
202
302
402
502
602
702
802
902
012
112
212
312
412

X
512
612
712
812
912
022
122
222
322
422
522
622
722
822
922
032
132
232
332
432
532
632
732
832
932
042
142
242
342
442
542
642
742
842
94
052
152
252
352
452
552

ELLI

OOOOOOXX
XOOOOOXX
OXOOOOXX
XXOOOOXX
OOXOOOXX

XOXOOOXX
OXXOOOXX
XXXOOOXX
OOOXOOXX
XOOXOOXX
OX

OXOOXX

XXOXOOXX
OOXXOOXX
XOXXOOXX
OXXXOOXX
XXXXOOXX
OOOOXOXX
XOOOXOXX
OXOOXOXX
XXOOXOXX
OOXOXOXX
XOXOXOXX
OXXOXOX
XXXOXOXX
OOOXXOXX
XOOXXOXX
OXOXXOXX
XXOXXOXX
OOXXXOXX
XOXXXOXX

OXXXXOXX
XXXXXOXX

OOOOOXXX
XOOOOXXX
OXOOOXXX

OXXX

XXOO
OOXOOXXX
XOXOOXXX

OXXOOXXX
XXXOOXXX

OOOXOXXX
XOOXOXXX

OXOXOXXX
XXOXOXXX
OOXXOXXX
XOXXOXXX
OXXXOXXX
XXXXOXXX

OOOXXXX

O
XOOOXXXX

OXOOXXXX
XXOOXXXX
OOXOXXXX
XOXOXXXX
OXXOXXXX

XXXOXXXX
LAGELLI
LAGELLI
LAGELLI
LAGELLI
LAGELLI
LAG
LAGELLI
LAGELLI

6

SETTING THE NETWORK
ADDRESS (S1)

(See Figure 2)

The PSR-1 occupies one network address in the
MXL System. You may have up to 31 PSR-1
power supplies in your system. Regardless of
how many PSR-1 power supplies are used, you

MAY NOT exceed 3000 initiating points.

Each PSR-1 must be placed at a unique
address in the system. Use the CSG-M print­out to determine the address of the PSR-1. Set
the network address on S1 using Table 1.

Note that the PSR-1 network address switch is a
9-position switch. Switch position 9 is not used at
this time. Set it to the OFF or Open position.

When used as a standalone power supply, the
network address does not need to be set.

Figure 3

Mounting the PSR-1 on the MBR-MP

MOUNTING

Mount the PSR-1 Remote Power Supply on the
MBR-MP mounting plate in the MME-3 enclosure
as shown in Figure 3.

1. Place the PSR-1 over the four standoffs in
the upper left portion of the mounting plate.

2.

Secure it in place using the hardware provided.

MAKING THE NETWORK
CONNECTION (TB4)

For the PSR-1 to communicate with the MXL, a
NET-4 or NET-7 network interface card must be
installed into P7 of the PSR-1. For a NET-4, con-

SET "MMB-3 MNET STYLE 7" TO "NO" IN THE CSGM.

nect the MXL network (MMB) to terminals 1 and 2
of TB4 as indicated in Figure 4. Termi

shield at the MMB only. For a NET-7,

nate the

refer to Figure

2 of the NET-7 Installation Instructions (P/N 315-

091914) and connect the network to terminals 1, 2,
3, and 4. For a NET-7 network connected to an
MMB-3, refer to Figure 5. When the PSR-1 is used
as a standalone power supply, neither NET-4 nor
NET-7 is needed. If an MKB-2 is installed, the NET­7 must be installed in a MOM.

WIRING

Wiring Alarm and Trouble Relays (TB1)

Two relays are provided for local control of alarm
and trouble indication.
the MXL through CSG-M output logic. The alarm

These relays are controlled

by

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ AND MXLV
SYSTEMS, P/N 315-092772 REVISION 6 OR HIGHER, FOR
ADDITIONAL WIRING INFORMATION.

Figure 4

Network Connection using NET-4

7

RES EOL ASSEMBLY
120 OHMS, 1/4 W, 5%
P/N 140-049099

RES EOL ASSEMBLY
120 OHMS, 1/4W, 5%

P/N 140-049099

TB4

PSR-1

RES EOL ASSEMBLY
120 OHMS, 1/4W, 5%

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ AND MXLV
SYSTEMS, P/N 315-092772 REVISION 6 OR HIGHER, FOR
ADDITIONAL WIRING INFORMATION.

4

3

N

2

E

1

T

-

7

P/N 140-049099

SET "MMB-3 MNET STYLE 7" TO "YES" IN THE CSGM.

NO
EOLR

1

3

2

4

TB1

MOI-7

Connecting a Style 7 Network to MMB-3

relay transfers if the local alarm default signal is
activated by an initiating control board (CZM-4 or
ALD-2I). This occurs when the initiating board
cannot communicate with the MXL. Likewise, if any
local module, including the PSR-1, loses communi­cation with the MXL, the trouble relay transfers.
When the system is operating normally, these relays
are controlled by output logic only. See Figure 6 for
ratings and wiring instruction.

Auxiliary Power for CZM-1 and PS-5A (TB3)

A Class A power limited output is provided on TB3,
terminals 3-6 for use with the CZM-1 and PS-5A.

1. This power is available on TB3, terminals 3
through 6.

2. All wiring must be in accordance with Article
760 of NEC or local building codes.

3. The power for CZM-1 and PS-5A is power
limited to NFPA 70 per NEC 760.

PSR-1

Figure 5

CHASSIS

NET-7

NET-7M

TB4

4

3

2

1

OR

NO
EOLR

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ
AND MXLV SYSTEMS, P/N 315-092772 REVISION 6 OR
HIGHER, FOR FURTHER INFORMATION.

6

5

4

3

2

1

TB1

SHIELD

4

3

2

1

RES EOL ASSEMBLY
120 OHMS, 1/4W, 5%

P/N 140-049099

COMMON
TROUBLE

RATINGS
2A, 30 VDC
RESISTIVE

COMMON
ALARM

MMB-3

TB1

Figure 6

Common Alarm and Common Trouble Relays

4. Electrical Ratings:

18-31 VDC, unfiltered full wave
2A max

5. You may connect a maximum of 40 CZM-1s
to the TB3 power source. Follow the guide­lines below when wiring.

a. This power may be wired Class A, as

shown in Figure 7. Class A wiring can
support a maximum of 20 CZM-1s, with

total line resistance of 4 ohms max.

T-tapping is not allowed.

b. Refer to Figure 8. Class B wiring can be

to obtain the maximum of 40 CZM-1s.

Class B wire run can support a maximum of

Each

used

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ
AND MXLV SYSTEMS, P/N 315-092772 REVISION 6 OR

1

HIGHER, FOR FURTHER INFORMATION.

2

3

4

5

6

TB3

CLASS A WIRING

+

+
_

_

NO T-TAPPING ALLOWED

CZM-1

18-31 VDC
2A MAX
POWER LIMITED TO
NFPA 70 PER NEC 760
4 OHMS MAX (TOTAL)
18 AWG MIN

POSITIVE AND NEGATIVE
GROUND FAULT DETECTED
AT <30K OHMS FOR TB3, 1-6

Figure 7

CZM-1 Power, Class A Wiring

8

20 CZM-1s, 4 ohms max. Multiple Class B
power connections can be used if you do not
exceed the ratings above (40 CZM-1s max
and 4 ohms per run max). For example, you
could have four individual Class B power runs,
for a total of 40 devices (for example, 12, 8, 6,
and 14 CZM-1s), with each of the four runs not
exceeding 4 ohms resistance.

T-tapping is allowed, provided the total resis­tance of all wires does not exceed 4 ohms.

6. Refer to Figures 9 and 10 for wiring instruc­tions for the PS-5A.

MOI-7 Power (P9)

The PSR-1 may be used in standalone mode as
the power supply for the MOI-7. In this configura­tion the MOI-7 and the PSR-1 must be in the
same enclosure. A separate 5V output is provided
for the MOI-7. The PSR-1 local trouble contact
must also be connected as a means of reporting
PSR-1 troubles to the MXL. See Figure 11 for the
wiring diagram.

See Figure 12 if the MOI-7 is in a separate enclo­sure. In this configuration do not use the 5V
power on P9. A separate PS-5A must be in­cluded

in the remote enclosure with the MOI-7.

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ
AND MXLV SYSTEMS, P/N 315-092772 REVISION 6 OR
HIGHER, FOR FURTHER INFORMATION.

1

CZM-1

CLASS B WIRING

CZM-1

CZM-1

TB3

2

3

+

4

_

5

6

T-TAPPING ALLOWED

Figure 8

CZM-1 Power, Class B Wiring

PSR-1

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ
AND MXLV SYSTEMS, P/N 315-092772 REVISION 6 OR

1

HIGHER, FOR FURTHER INFORMATION.

POSITIVE AND NEGATIVE GROUND FAULT

2

DETECTED AT<30K OHMS FOR TB3, 1-6

+

3

+

4

_

5

_

6

DO NOT

TB3

18-31 VDC
2A MAX
POWER LIMITED TO
NFPA 70 PER NEC 760
4 OHMS MAX PER
PAIR (TOTAL)
18 AWG MIN

USE

4321

_

PS-5A

18-31 VDC
2A MAX
POWER LIMITED TO
NFPA 70 PER NEC 760
4 OHMS MAX PER PAIR (TOTAL)
18 AWG MIN

POSITIVE AND NEGATIVE
GROUND FAULT DETECTED
AT <30K OHMS FOR TB3, 1-6

DO NOT
USE

+

seciveDelbitapmoC

6B1-MZC7-553590-513N/P

6B-PC

I8-603590-513N/P

61-DOM7-038090-513N/P

7-IOM7-997290-513N/P

A5-SP8-763290-513N/P

7N5-SP21-927290-513N/P

KM3-727840-513N/P

C5-/5-B

C6-/6-BKM4-227840-513N/P

CF3-/C-/F3-/3-CCR5-566840-513N/P

thginKtneliS

9215/8215

53-RS8-196780-513N/P

D4-/D3-/D2-HDS

D8-/D7-/D6-/D5-/

§

1-SN

§

REWOPV42YRAILIXUA
SECIVEDELBITAPMOC

noitallatsnI

PS-5A Power, Class A Wiring

Figure 9

snoitcurtsnI

PSR-1

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ
AND MXLV SYSTEMS, P/N 315-092772 REVISION 6 OR

1

HIGHER, FOR FURTHER INFORMATION.

POSITIVE AND NEGATIVE GROUND FAULT
DETECTED AT<30K OHMS FOR TB3, 1-6

2

3

+

4

_

5

6

DO NOT

TB3

13N/P

5-492390-5

18-31 VDC
2A MAX
POWER LIMITED TO
NFPA 70 PER NEC 760
4 OHMS MAX PER
PAIR (TOTAL)
18 AWG MIN

USE

4321

_

+

PS-5A

DO NOT
USE

3-184940-513N/P

3-904580-513N/P

noitidEht8468LUrepdetsiL

PS-5A Power, Class B Wiring

Figure 10

9

Figure 11

MOI-7 Connection

(in Same Enclosure)

REFER TO WIRING
SPECIFICATION FOR
MXL, MXL-IQ AND
MXLV SYSTEMS,
P/N 315-092772
REVISION 6 OR
HIGHER, FOR
ADDITIONAL WIRING
INFORMATION.

POSITIVE AND NEGATIVE GROUND FAULT DETECTED AT <30K OHMS FOR TB3, 1-6

TB3

PSR-1

65

4321

CZM-1B6 AND PS-5A POWER

18 AWG MIN
4 OHMS MAX

NETWORK
NETWORK

_

TB1

PS-5A

TB4

4

3

2

1

18 AWG MIN

23

14

TB1

+

P1

1234

MOI-7 MOD-16 MOD-16 MOD-16

J3

SYSTEM 3 ENCLOSURE

(OR EQUIVALENT) MOUNTING

MOM-4 Module Connection

P6 on the PSR-1 is the data and 5V connection
for the MOM-4. Connect P6 on the PSR-1 to P7
on the MOM-4 using the 8 circuit ribbon cable,
P/N 555-190506, provided with the MOM-4. A
second auxiliary non-power limited output is
provided on TB3 for the MOM-4 card cage. This
output is rated at 6 amps (MPS-6) or 12 amps
(MPS-12) 18-31 VDC. This capacity must be

Figure 12

MOI-7 Connection

(in Remote Enclosure using PS-5A)

TO MXL NETWORK

REFER TO WIRING SPECIFICATION
FOR MXL, MXL-IQ AND MXLV
SYSTEMS, P/N 315-092772 REVISION
6 OR HIGHER, FOR ADDITIONAL

MID-16

WIRING INFORMATION.

derated by the current drawn by the CZM-1 and
PS-5A power output. If the full 2 amp capacity of
the CZM-1 and PS-5A output is used, the MOM-4
power must be derated to 4 amps (MPS-6) or 10
amps (MPS-12). See Figure 13 for wiring instruc­tions.

When a PSR-1 is used with an MKB-2, use a MOM­4 for the NET-7. Connect as shown in Figure 14.

10

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ AND MXLV SYSTEMS,
P/N 315-092772 REVISION 6 OR HIGHER, FOR ADDITIONAL WIRING INFORMATION.

Figure 14

Connecting a NET-7

in a MOM-4

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ AND MXLV SYSTEMS,
P/N 315-092772 REVISION 6 OR HIGHER, FOR ADDITIONAL WIRING INFORMATION.

POSITIVE AND NEGATIVE GROUND FAULT DETECTED AT <30K OHMS FOR TB3, 1-6

Figure 13

MOM-4 Connection

OMM-1 Module Connection

When using the PSR with voice modules,
connect TB3-1 and TB3-2 on PSR to TB1 at the
top of the OMM-1 on the far left. See Figure 15.
Refer to the OMM-1 Instructions, P/N 315­090267 for further information.

When using the PSR with both OMM-1s and
MOM-4s, connect as shown in Figure 16.

11

REFER TO WIRING SPECIFICATION
FOR MXL, MXL-IQ AND MXLV
SYSTEMS, P/N 315-092772 REVISION
6 OR HIGHER, FOR ADDITIONAL
WIRING INFORMATION.

Figure 15

OMM-1 Connection

REFER TO WIRING SPECIFICATION FOR MXL, MXL-IQ AND MXLV SYSTEMS,

P/N 315-092772 REVISION 6 OR HIGHER, FOR ADDITIONAL WIRING INFORMA-

TION.

Figure 16

Connecting OMM-1s and MOM-4s with a PSR-1

POSITIVE AND NEGATIVE GROUND FAULT

DETECTED AT <30K OHMS FOR TB3, 1-6

P/N 315-090911-23