Siemens Saturn Iie Epabx Installation Test Procedures Manual

							SATURN IIE EPABXA30808-X5130-B120-l-8928Installation Test ProceduresIssue 1, May 1986
5.01General. The SATURN IIE EPABX is a Stored-Program-Controlled (SPC) system. The system is shipped with two iden-
tical floppy disks that contain the basic operating and the
installation-dependent data. The operating program uses the
installation-dependent data, commonly referred to as the sys-
tem data base, to complete and process calls as required by
the customer. This information includes such items as the
number of station lines and trunks in the system, as well as
their operating characteristics.
The exact equipment configuration of the SATURN 
IIE Sys-
tem must be defined in the data base in order for the system
to operate properly. Depending on how the system is ordered,
the data base is supplied in a standard format or, on request,
can be supplied completely defined and prepared by Siemens.When the standard data base format is supplied, via the
SATURN EPABX Data Base Preparation practice, the equip-
ment configuration of the particular installation-site must be
evaluated to determine if additional information must be ad-
ded to the floppy disks. The floppy disks are updated via a
service terminal. The procedures for defining the data base
and inputting the data to memory are described in the
SATURN EPABX Data Base Preparation practice and
SATURN EPABX Customer Memory Update (CMU) Proce-
dures practice.
5.02boadjng Operating D&a. After satisfactoriiy complet-
ing the Power-Up/Output Voltage Tests in Section 4.00, thesystem’s operating program, contained on the floppy 
Uisks,is loaded into the FDD modules for the initial processor in-
itialization. Both floppy disks are loaded, with either disk
placed in either drive (FDDO or 
FDDI). Before proceeding withthe loading procedures indicated in Table 5.00, the following
precautions must be observed when handling the floppy disks.
Figure 5.00 illustrates the floppy disk and storage envelope.
a.Prior to using a floppy disk, leave disk in the same en-
vironment as the FDD module for at least 5 minutes.
b. Do not place heavy objects on floppy disk.
c. Do not write on floppy disk.
d. Do not touch floppy disk suriace while 
hand!ing.Damage to FDD head may occur due to skin oil pick-
ing up dirt.
e.Always return floppy dislc to storage envelope when it
is not in use.
5.03Inputting CMU Data to F!oppy Disk. After satisfac-
torily loading the operating disks as indicated in Table 5.00,
refer to the SATURN EPABX Data Base Preparation practice
which defines the particular system’s data base, 
and SATURN
EPABX Customer Memory Update (CMU) Prccsdures prac-
tice to input the installation-dependent da?a to memory
Centering 
1HoleRead/W
WindowIndex
Hole
Protective
Envelope
I
IStorage
Envelope
Figure 5.00 Floppy Disk and Storage Envelope 
						

							SATURN IIE EPABXA3080&X5130-B120-l-8928
Installation Test ProceduresIssue 1, May 1986WARNING
Hazardous voltages exist within the equipment cabinet. Be 
e&e&y careful when
performing testir;g/~roobleshooting procedur-LJ with the equ&ment panel(s) removed.
Table 5.00 Loading Procedures for Operaling Disk
;TEP
PROCEDUREVERIFICATION!F VERIFICATIONIS NOT OBTA!NED
1On the PSU, shown in Figure 5.01,place the FAtLURE TRANSFERswitch in the AUTO position,
2Insert a floppy disk into slot opening
of each FDD until it stops (Figure 5.02).
NOTE:
Either system disk may be placed in
either FDD.
3Close FDD latch to secure floppy disk
in place.
4Perform the following operations on
the CIOP PCB (Figure 5.03).
a) Connect service terminal toSet 
CIOP DlP switches (Figure 5.03)TTY connector on CIOP PCBfor service terminal in use per Table
(Figure 5.03).5.01.
b) Depress the reset switch locat-The following ihree messages should
If a failure occurs during initia!ization,ed under the CIOP llY con-appear on the service terminal:the LEDs flash a binary value to indi-nectar. Use pencil or othercate loading error as described in Ta-nonmetallic object to depress1) THE SIB SIDE IS READY FOR
ble 5.02.
the switch.
USE
Should any of the failures described
2) READY TO START BOOT
in Table 5.02 occur during processor
LOADERinitialization, remove the floppy disks
3)“*BOOT LOADER COMPLETE”’from FDDs and insert the spare flop-
py disks into the FDDs. If no failuresAfter the last message, the redcccur, the floppy disks previously re-
STO-ST3 
LEDs perform a cycling se-moved are defective. If the samequence and the green ACTV LED re-failure occurs, refer to ACTIONmains lit.cOlumn in Table 5,02
When the loading process is com-
plete, the red LEDs stop cycling and
one LED remains lit for a few se-
conds, then cycling starts again. The
green LED (ACTV) remains lit.
If no failures occur during processor
initialization, the four red 
LEDs display
a code indicating that processor in-
itialization has been completed and
the processor is on-line. Concurrent-
ly, the service terminal displays soft-
ware version, date base version, patch
level of disk software, site information
and the prompt ENTER PASSWORD.
If it is desired to perform CMU proce-
dures or clear the alarm stack, enterthe appropriate password. If the
proper password is entered, a date-
and-time prompt is displayed. If an in-
correct password is entered, INVALID
PASSWORD ENTERED is displayed.
5-2 
						

							SATURN IIE EPABXA30808-X5130-0120-1-8928Installation Test Procedureslssuc 1, May 1936
Table 5.00 Loading Procedures for Operating Disk 
(Continued)
STEPPROCEDUREVERlFlCATlONIF VERIFlCAT!ONIS NOT OBTAINED’
5If the operating disks that were load-
ed did not contain a Siemens-.
prepared data base, refer to SATURN
EPABX Data Base Preparation prac-
tice to define the particular system
data base, and the SATURN EPABX
Customer Memory Update Proce-
dures practice to input the 
installation-dependent data to the system
memory.
Table 5.01 
CIOP DIP Switch Settings
CAUTION:
Before removing GOP PCB to set switches, place BASIC PS circuit brea!:er on lhe PSUto the off (c?own) position. After replacement of ClOP PCB, place circuit breaker backto the on (up) position.
SWITCH
NUMBERSWITCH ON (CLOSED)SWITCH OFF 
(OPZX)
1Maintenance/ TestNormal
2Not Used
Not Used
3&4Baud Rate (see note)Baud Rate (see no?e)
5One Stop BitTwo Stop Bits
6Odd ParityEven Parity
7Parity DisabledParity Enabled
8Seven BitsEight Bits
NOTE: The following are the baud rate combinations for switches 3 and 4.
SW3SW4BAUD RATE
OFFOFF
300ONOFF1200OFFON2400ONON9600
5-3 
						

							I’
A30808-X5130-(3120-l-8928Issue 1, May 1986
Table 5.02LED Display Values for Loading Errors
HEX
CCDEERRCR DETECTED
012
3
4
5
6
:DEF8
9
A
I3Start of self test not halted
Main processor error
EPROM checksum 
errorMEM slot 0 low 64k test error
8k by 8 static RAM test error
IRAM memory test errorORAM memory test error
SIB side error
Global memory 
errorWatchdog iimer error
SIB serial 
loopback test error
SIB counter timing test error
Start boot process (self test done)
Disk 
coniroller error
Drive not ready error
CRC retry 
errcrs exceed 8
ST0LED
OFF
:zOFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
ON
ON
Notes:
I
ST1LED
OFF
OFF
OFF
OFF
ON
ON
%ON
ON
ON
%FOFF
OFF
OFF
ST2LED
OFF
OFF
ON
ON
OFF
OFF
%OFF
OFF
ON
%FOFF
ON
ON
ST3LED
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ONACTION
_._________-________
Note 1
Note 1Notes 1 and 3
Noie 1
Note 1
Note 1
Note 1
NOieS 1 and 3Note 1
Note 1
Note 1
______-___--___-____--
Note ‘1Note 2
Note 2
1.Upon failure, retry loading procedure. If failure persists, replace CIOP PC3.
2.Upon failure, retry loading procedure using another set of floppy disks. If failure persists, chcc!i/replace disk drives
and then CIOP PCB, if necessary.
3.If reload and CIOP PCB replacement (Noie 1) is not effective, replace memory PCBs starting from sloi 0 until failure
is no longer present.
Figure 5.01
Po*wr Sys?em Unit (Front View) 
						

							I--SATURN 
IIE EPABX
Installation Test ProceduresA30808-X5130-6120-1-8928Issue 1, May 1986
LATCHOPEN\
LATCH
CLoSED \
/
/
?
25
0WRITE
PROTECT
NOTCH
FLOPPY
/ DiSi’cFigure 5.02Floppy Dish Loading 
Proceduics 
						

							I-SATURN 
IIE EPABX
Installation Test ProceduresA30800-X5130-6120-l-8928Issue 1, May 1986
LED
LED
(Red)
ST3
LED
ACTWrLED
Connector
ServiceTerminal
‘witch
Figure 5.03 CIOP Printed Circuit Coard5-6 (6 pages) 
						

							SATURN IIE EPABXA30808-X5130-BlZO-l-8920Installation Test ProceduresIssue 1. May 1986
6.01General. After satisfactorily loading the cperating disk
and inputting CMU data to system memory via a service ter-
minal, the operational capability of the system must be veri-
fied after the necessary MDF cross-connections are
performed. The SATURN 
IIE System software contains a
group of system and apparatus (ancillary equipment) diag-
nostic test routines which are accessed via the maintenance
phone. Resulting visual and/or audible responses from these
on-line diagnostic tests make it possible to verify correct oper-
ation or detect and isolate system and apparatus malfunc-
tions. If in doubt about a SATURN PCB or apparatus
maliunctioning, craft personnel should refer to the SATURNIIE EPABX Mainionance and Troubleshooting praciice for fur-
ther details. If a SATURN PCB or apparatus is proven to be
defective, craft personnel should proceed according to the
instructions contained in the MRA kit.
6.02 
Connecticn of Maintenance Phcne and Modem.
Figures 6.00 and 6.01 provide the details for the maintenance
phone and modem initial MDF cross-connections. Figure 6.00
also identifies the leads used when interfacing other main-
tenance related equipment such as a power failure transfer
subsystem and dry contact closures for remote minor and
major alarm indications. Note that such equipment is
customer-provided and craft personnel should follow the
manufacturer’s instructions when installing them. To connect
ihe maintenance phone and modem, the initial MDF cross-connections aie as follows:
a.Maintenance Phone. At the MDF connecting block on
which PSU cable J13 is terminated, cross-connect the
T&R leads of pair number 1 
(W/BL- BL/W) to the T&R
leads of the subscriber line circuit assigned for main-
tenance purposes (refer to Figure 6.00 for details). Note
that this subscriber line circuit must be classmarked
with the Maintenance Diagnostic Test 
(TESTDIAG) and
Apparatus Test (TSTAPP) features.
b.Modem. From the system T&R connecting block that
allocates system MDF cable J44 from the basic shelf,
cross-connect the T&R of pair number 24 
(V/BR- BR/V)to the T&R leads of the subscriber line circuit to be used
for modem application (refer to Figure 6.01 for details).
The subscriber line circuit to be used for modem ap-
plication must be assigned to a class of service in
which the Data Line Security (DATASEC) classmark has
been enabled.
After the above initial MDF cross-connections have beenperformed, the DTMF telephone set to be used as the
maintenance phone can be connected to the modular
jack designated MTCE PHONE on the PSU if equipped
with a standard modular plug, or connected at the MDF
to the T&R leads of the associated subscriber line cir-
cuit. Note that if a permanent maintenance phone is
desrred in tho equipment, it may be installed nearthofront of the cabinet, and cross-connected per Figure 6.02.
6.03MDF Cross-Connecting Procedures. After the main- ’tenance phone and modem connections have been complet-
ed, perform the necessary MDF cross-connections according
to the equipment configuration plan. The following 
illusira-tions are provided to assist craft personnel in the MDF cross
connections of peripheral interfacing devices:
a.
b.
C.
d.
e.
f.
9.
h.
i.
ik.
I.
m
n.
0.Figures 6.02 and 6.03 
- Cross-Connections for rotary
or pushbutton Single Line Telephone Instruments in-
terfacing with SLMA-S and 
SLA16 PCBs, respectively.
Figure 6.04 
- Cross-Connections for Siemens Digital
Telephone Interfacing with SLMD PCB.
Figure 6.05 
- Cross-Connections for SATURN Atien-dant Console.
Figure 6.06 
- Cross-Connections for Central Office
(CO) and Direct Inward Dialing (DID) Trunks.
Figure 6.07 
- Cross-Connections for Two-Wire (Type I)E&M Tie Trunks.
Figure 6.03 
- Cross-Connections for Four-l”dirc (T]peI) E&M Tie Trunks.
Figure 6.09 
- Cross-Ccnnections for T;:jo-Wire (T]pe I!)E&M Tie Trunks.
Figure 6.10 
- Cross-Connections for Four Wire (Type
II) E&M Tie Trunks.
Figure 6.11 
- Cross-Connections for Recorded An-
nouncement Equipment (DID and Tie Trunk Vacant
Number Intercept, and ACD Announcement Service).
Figure 6.12 
- Cross-Connections for Coda Calling
Equipment with or without Answerbaclc Capability.
Figure 6.13 -Cross-Connections for DTMF Dial Dicta-
tion Equipment.
Figures 6.14 and 6.15 
- Cross-Connections for Music-on-Hold Feature via a Music Source, interfacing with
a TMBA4 and an 
SLMA/SLAlG PCB, respectively.
Figure 6.16 
- Cross-Connections for Zoned Paging
Equipment With Answerback Capability.
Figure 6.17 
- Cross-Connections for Zoned Paging
Equipment Without Answerback Capability.
Figure 6.18 
- Cross-Connections for Zoned Universal
Night Answer (ZUNA or UNA) Signaling Equipment,
6-l 
						

							I.-SATURN 
IIE EPABXA30808-X5130-B120-l-B928lnstallatlon Test ProceduresIssue 1, May 1986
,-SysleinMDF Cable J13
Cross-connect .to SLMA circuit designated
for the maintenance telephone.
1PXFER (No&h Ooen1J, I
PXFER (Normally Closed)Cross-connect to failure transfer
relay(s) subsystem (customer-provided).
\$$! > :tG TIP (Major-NC)
>RING (Major Common)014D > FUBL TIP (Major-NO)Dry contact closures
for remoie miner andmajor alarm indica-tions (customer-
provided).
Syslem Maiafcnancc Connecting BlsckFigure 6.00 
Mainienance Phone and Mainienance-Related Cross-Conneciions
System MDF Cable 144 from Basic Shelf
rSystem T&R Connecting Block
Cross-connect to SLMA circuiti
designated for Modem application. !
Note:The cross-connections shown are used for the
RAUP PCB.
Figure 
G.01 Modem Cross-Connections 
						

							SATURN IIE EPABXA30808-X5130-B120-1-6928Installation Test ProceduresIssue 1, May 1986
II
SlNGLE LINE ’ HOUSE /TELEPHONE! CABLING IIEQUIPMENT ROOMI
Inlerfacing Connecting Block
System 
T&R Connecting Block
Sys:em MDF Cable J32, J34. J36. C38. JSO, J42or J44 from the EZISIC shelf or J26, J28, J30,
J32. J34. J36. J38, or J40 from tile LTU shelf----------
f-+(-Jo--- -________[
---III
INote: Dashed lilies represent installation-dependent cross-connections.
Figure 6.02
Sing!e Line Telephone Cross-Connections Using SLMA PC5
SINGLE LINE
IHOUSE
TELEPHONE
i CABLING
IEWIPMENT ROOM
\I
Interfacing Connecting Block
r System T&R yecling Block
System MDF Cable 
J321J33, J34/J35, J3EN37,J381J39, J401J41, J42/J43. or J441J45 from the
\\\Basic shelf; or J26N27, J28N29, J3O/J31,J32/J33, J34/J35, J36/J37, J38/J39 or J4O/J41 from Lhe LTU shelf.
Notes: Dashed lines represent installation-dependent cross-connectionsFigure 6.03Single Line Telephone Cross-Connections Using 
SLA16 PCB
6-3 
						

							SATURN IIE EPABX
Installation Test ProceduresA30808-X5130-B120-l-8928Issue 1, May 1986
II
I
SIEMENS DIGITAL : HOUSE ’EQUlPMENT FiOOMTELEPHONEICABLING! .
I
II
II1Interfacing Connecting BlockI\ .
DYAD or Jr-DYADFigure 6.04Siemens Digital 
Te!cphone Cross-Connections Using SLMD PC9System T&R Connecting Block1
System MDF Cable J32, J34, J36. J38, J40. J42 :or J44 from the Basic shelf or J26, J28, J30, j
J32, J34, J36, J38, or J40 from the LTU shelf
Note: Dashed lines represent installation-dependent cross-connections
SAbRNATTENDANT
CONSOLEHOUSE iEQUIPMENT ROOM
ICABLING
Interfacing Connecting Block
System T&R Connecting Block
System MDF Cable J32, J34. J36. J38. J40. J42 i
or J44 from the Basic shelf or J25 J28, J30,;
J32, J34, J36, J38. or J40 from the LTU shelf j
Note: Dashed lines represent installation-dependent cross-connections.
IFigure 6.05 SATURN Attendant Console Cross-Connections
6-4