NEC Neax 2400 Ipx Installation Manual
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NDA-24306 CHAPTER 2 Page 13 Revision 1.0 INSTALLATION DESIGN 8. INSTALLATION TOOLS Table 2-2 shows the tools used in a typical system installation. Table 2-2 Typical Installation Tools FUNCTION TOOLS PURPOSE Marking Steel Tape Measure L-Square Iron Square Iron Level Center Punch Step Ladder ScriberFor Leveling and Marking Plumb Line Drilling Electric Drill Electric Vibration Drill Hammer Point Drill Drill Bit for Concrete Concrete Chisel Drill Bit for Metal Power Cable Drum Extension CableDrilling Module Group and Rack Installation Plump Bob Jigsaw Hacksaw Frame Hacksaw Blade Flat File Half Round File Set File Adjustable Angle WrenchFrame Cart Cutter Set Wrench Socket Wrench Set Step Ladder Phillips Screwdriver Screwdriver Plastic HammerModule Group and Rack Installation Power Cable Installation Clamping Tool (for End Terminal, Branch Terminal) Phillips Screwdriver Screwdriver CutterPower Cable Installation Miscellaneous Circuit Tester Pocket Measure Scissors Wire Clipper Cable Cutter Nipper Wire Stripper Round Nose Pliers Non-Metallic Stick Solder-Helper Solder Sucker IC ClipMini Test Probe Telephone Set Working Lamp Wrapping Tool Unwrapping Tool Soldering Iron Soldering Iron Stand Connector Clamping Tool Logic Checker and Counter Pen Light Precision Screwdriver (+)(-) IC Buzzer Tweezer Portable Field Service Kit
CHAPTER 2 NDA-24306 Pag e 1 4 Revision 1.0 INSTALLATION DESIGN 9. SYSTEM CONFIGURATION This Section explains the configuration of the NEAX2400 IPX IPX-U system. Figure 2-3 NEAX2400 IPX IPX-U ;:;;::;: ;:;::;::;:;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;:;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: ...... ...... LN0 ISWLN1 LN3 LN2 This figure shows an example of the fully expanded system. ;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: FRONT VIEW ISW: Inter-node Switch LN: Local Node ;:;;::;: ;:;::;::;:;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;: ;:;;::;: ;:;::;::;:
NDA-24306 CHAPTER 2 Page 15 Revision 1.0 INSTALLATION DESIGN 9.1 Configuration of the System and Module Accommodations As shown in the figures below, the NEAX2400 IPX IPX-U system (referred to in the remainder of this manual as “the system”) is configured by a single Inter-node Switch (ISW) and a maximum of four Local Nodes (LNs). The ISW and LNs are connected via the Fusion link, with Ether and physical PCM cables connected each other. Figure 2-4 System Configuration ...... ...... LN0 ISWLN1 LN3 LN2 .. .. . . .. .. . ... . .. . .. . .. ....... ............ ...... .. .. . . .. .. . ... . .. . .. . .. ....... ............ ...... ...... ............ ............ ............ ...... ...... ............ ............ ............ ...... LN0/1/2/3 BASEU BASEU BASEU BASEULPM TSWM0 TSWM1 DUMMY PIM1 PIM1 PIM1 PIM1 PIM0 PIM0 PIM0 PIM0 FA N U FA N U FA N U FA N UPIM2 PIM2 PIM2 PIM2 PIM3 PIM3 PIM3 PIM3 TOPU TOPU TOPU TOPULN2 LN3 ISWLN0 LN1 EtherPCM Cable ISW BASEULPM ISWMTOPU IMG0 IMG1 IMG2 IMG3 FRONT VIEW FRONT VIEW ISW: Inter-node Switch LN: Local Node TOPU: Top UnitLPM: Local Processor Module TSWM: Time Division Switch Module ISWM: Inter-node Switch ModulePIM: Port Interface Module FANU: Fan Unit BASEU: Base Unit This figure provides an overall image of system configuration. As illustrated, a two-module ISW and maximum four (4) Local Nodes compose a single network system via the FCCS link.
CHAPTER 2 NDA-24306 Pag e 1 6 Revision 1.0 INSTALLATION DESIGN Figure 2-5 Details on PCM Cable Connections between ISW and LNs ISW BASEULPM ISWMTO P U < ISWM Backplane > For TSWM1 For TSWM0 (17)(16)(15)(14) (07)(06)(05)(04) LN0 IMG0 IMG1 IMG2 IMG3 BASEU BASEUBASEU BASEU LPMTSWM0TSWM1 DUMMY PIM1 PIM1 PIM1 PIM1 PIM0 PIM0 PIM0 PIM0 FANU FANU FANU FANUPIM2 PIM2 PIM2 PIM2 PIM3 PIM3 PIM3 PIM3 TOPU TOPU TOPU TOPU < TSWM0 Backplane > (19)(18)(17)(16)(15)(14)(13)(12) TSW (No. 1 System)TSW (No. 0 System) < TSWM1 Backplane > (19)(18)(17)(16)(15)(14)(13)(12) TSW (No. 1 System)TSW (No. 0 System) TSW (No. 1 System) To M U X (IMG0/1) To LN3 TSW (No. 0 System) [ Details on PCM Cable Connections between ISW and LNs ] ...... ...... LN0 ISWLN1 LN3 LN2 ...... ............ ............ ............ ...... ...... ............ ............ ............ ...... .. . .. ......... . .. ....... ...... .. . .. . .. . .. ....... ........ . .. . .. . .. ....... ...... To MUX (IMG2/3) To MUX (IMG2/3) To M U X (IMG0/1) To LN2 To LN1 To LN3 To LN2 To LN1 PCM (ISW-LN TSW-CA-n) Cables IMG-UMG LN: Local Node ISW: Inter-node Switch Note 1: For actual cable runnings, see NAP-200-010 in Chapter 3. Note 2: The maximum distance of these PCM connections must be within 32 feet (10m).
NDA-24306 CHAPTER 2
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INSTALLATION DESIGN
Figure 2-6 Details on Ether Cable Connections (Establishment of Fusion Link) (1/2)
LI
ISWCPU1LI
LN3CPU1
LILN2CPU1
LILN1CPU1
LILN0CPU1
LI
ISWCPU0LILN3CPU0 LILN2CPU0
LI
LN1CPU0
LI
LN0CPU0
HUB1
HUB0
PIM0 of LN0, IMG0
10 BASE-T Cables (Straight)
10 BASE-T Cables (Straight) 10 BASE-T
Cables
(Cross)
CPU1
LPM PIM0CPU0
00
00
LANI HUB0 HUB1
Note
Note
IMG0 (LN0)
From ISW From LN1 From LN2 From LN3
From ISW From LN1 From LN2 From LN3
LPM
CPU1
CPU000
00
LANI
ISW / IMG0 (LN1/2/3)
To HUB0
in LN0 To HUB1
in LN0
Maximum 328 ft (100m)Note 2Note 1
Note 1
Note 1
: 10 BASE-T connector
ISW: Inter-node Switch LN: Local Node LI: LANI (PZ-PC19) HUB: PA-M96
[Details on Ether Cable Connections]
ISW and each LN can achieve a Fusion link by physically connecting themselves via the 10 BASE-T cables. This
figure shows an example where the CPR-accommodated LANI cards (internal LANI: PCI slot 00) are mutually connected
via HUB0/HUB1 (PA-M96) cards in PIM0 of LN0, IMG0 (HUB0 for CPU0 of all nodes, HUB1 for CPU1 of all nodes).
Note 1:For actual 10 BASE-T connections, see NAP-200-010 in CHAPTER 3.
Note 2:The mutual 10 BASE-T (Ether) connections must be within 328 feet (100m) in their distance. If the distance is
longer (e.g., FCCS link is provided also with other distant IPX and/or IMX node(s)), use FCH (PA-FCHA) card
as a protocol converter for the Fusion-link data. For more details, refer to the “Fusion Network System Manual.”
Note:HUB card can be mounted in any
universal slot of PIM.
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INSTALLATION DESIGN
Figure 2-6 Details on Ether Cable Connections (Establishment of Fusion Link) (2/2)
LI LIISW
CPU1LILI LN3
CPU1LI LILN2
CPU1LI LILN1
CPU1LI LILN0
CPU1
LI LI
ISW CPU0LI LI
LN3 CPU0LI LI
LN2 CPU0LI LI
LN1 CPU0LI LI
LN0 CPU0HUB1
HUB0
LN0
PIM0 of LN2, IMG0
10 BASE-T Cables (Straight)
10 BASE-T Cables (Straight)10 BASE-T
Cables
(Cross)
HUB3
HUB210 BASE-T
Cables
(Cross)
10 BASE-T Cables (Straight)
10 BASE-T Cables (Straight)
CPU1
LPMPIM0CPU0
00
0003
03
HUB0 HUB1
IMG0 (LN0)
From ISW From LN1 From LN2 From LN3
From ISW
To HUB3
in LN2
To HUB2
in LN2 From LN1 From LN2 From LN3
CPU1
LPMPIM0CPU0
00
0003
03
HUB2 HUB3
IMG0 (LN2)
From ISW From LN0 From LN1 From LN3
From ISW
To HUB1
in LN0
To HUB0
in LN0 From LN0 From LN1 From LN3
LPM
CPU1
CPU000
00
ISW / IMG0 (LN1/3)
To HUB0
in LN0 To HUB1
in LN0
03
03
To HUB2
in LN2 To HUB3
in LN2
: 10 BASE-T connector
ISW: Inter-node Switch LN: Local Node LI: LANI (PZ-PC19) HUB: PA-M96
Second LANISecond LANI
Second LANI
Note 1Note 1
Note 1
Maximum 328 ft (100m)Note 2
[Details on Ether Cable Connections: When Dual LANIs are used for each CPU]
When dual LANIs are used for each CPU, the whole second LANIs (external LANI: PCI slot 03) must also be
connected in addition to the first LANIs explained on the previous page. This figure shows an example where
the second LANIs are connected to the additional HUB2/HUB3 (PA-M96) cards in PIM0 of LN2, IMG0
(HUB2 for CPU0 of all nodes, HUB3 for CPU1 of all nodes).
Note 1:For actual 10 BASE-T connections, see NAP-200-010 in Chapter 3.
Note 2:The mutual 10 BASE-T (Ether) connections must be within 328 feet (100m) in their distance. If the distance is
longer (e.g., FCCS link is provided also with other distant IPX and/or IMX node(s)), use FCH (PA-FCHA) card as
a protocol converter for the FCCS-link data. For more details, refer to the “Fusion Network System Manual.”
NDA-24306 CHAPTER 2 Page 19 Revision 1.0 INSTALLATION DESIGN Figure 2-7 Details on Ether Cable Connections (Using MAT via Ethernet) CPU1 LPM PIM0CPU0 01 0100 00 HUB LANI IMG0 (LN1) ISW Fusion Link Ether for MATLN0 LN1 LN2 LN3 LN1 IMG0 IMG1 IMG2 IMG3 MAT MAT 10 BASE-T Cable (Straight)10 BASE-T Cable (Straight) 10 BASE-T Cable (Cross) ISW LN LANI HUB : Inter-node Switch : Local Node : PZ-PC19 : PA-M96 : 10 BASE-T connector Note 1HUBNote 1 To LANI0 of ISW To LANI0 of LN0 To LANI0 of LN2 To LANI0 of LN3Note 2To LANI1 of ISW To LANI1 of LN0 To LANI1 of LN2 To LANI1 of LN3Note 2 This figure is an example where a MAT is connected to LN1 via the 10 BASE-T cables (Ethernet). As seen from this, the MAT, a single terminal connected to the Ether, can control the whole system status, thus capable of a single-point entry to each LN and ISW. [Details on Ether Cable Connections: When using MAT via Ethernet] The IPX-U system can use both the IOC (PH-IO24) card or the CPR-accommodated LANI (PZ-PC19) card as an interface for the connection to a MAT. This example shows a MAT connected via the LANI card in PCI slot 01 of each LN/ISW. Note 1:When connecting the MAT this way, be sure to use dedicated HUB (PA-M96) card(s) for this connection. Note 2:Because ISW has no universal slot for external HUB cards, connect the 10 BASE-T cables (from the ISW) to MAT-dedicated HUB card in any of the LNs (LN0 - LN3). In this example, the cables are connected to HUB in LN1. Note 1:For details on the MAT installation procedure, refer to NAP-200-016 in Chapter 3. Note 2:The LANI card for MAT connection is accommodated in PCI slot No. 01 of each CPR.
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INSTALLATION DESIGN
Figure 2-8 Time Slot, Group Number AssignmentTable 2-3 Condition for Configuration
UNIT NAME CONDITIONS REMARKS
FANU
(Fan Unit)ISW Mounted in TOPU
LN IMG0, 1, 2, 3
(Two PIMs or less)Mounted in TOPU
LN IMG0, 1, 2, 3
(Three PIMs or less)Mounted between the 2nd PIM and the 3rd PIM
2nd NFILU
(Noise
Filter)ISW Mounted in BASEU
LN IMG0, 1, 2, 3
(Two PIMs of less)Not required
LN IMG0, 1, 2, 3
(Three or more PIMs)Mounted in BASEU
TOPU
(Top Unit)ISW Equipped with PZ-DK227 (Key) and PZ-DK223 (DSP) Cards
LN IMG0, 1, 2, 3 Equipped with PZ-DK222 (Key) and PZ-DK223 (DSP) Cards
Note:Extended Group No. can be used by FCH (PA-FCHA) card. For more detailed information, see the
“Fusion Network System Manual.”
00 02 04 05 06 08 10 12 14 16 18 20 2207 09 11 13 15 17 19 21 23
00 02 04 05 06 08 10 12 14 16 18 20 2207 09 11 13 15 17 19 21 23
PWR PWR
16 16 16 16 16 16 16 16 16 16 16 16 32 3232 32 32 32
16 16 16 16
16 16
01 03 05 07 09 1115
1923
14 18 2201 03 05 07 09 1115 19 23
14 18 22
00 02 04 06 08 1013
1721
12 16 2000 02 04 06 08 1013 17 21
12 16 20
27 29 31
26 28 3027 29 31
26 28 30 (24)
(25) (16)
(16)192 TS
192 TS
Time Slots are allocated as follows for a PIM.
Group Numbers are allocated as follows for a PIM.
Slot No.
Group No.
Extended
Group No.
PIM PIM Slot No.
Number
of
Time Slots
NDA-24306 CHAPTER 2 Page 21 Revision 1.0 INSTALLATION DESIGN Figure 2-9 Face Layout of ISW Note:The 2nd IOC card (optional) may be mounted in this slot. 03 04IOC (PH-IO24)EMA (PH-PC40) 13 14 01 02MMC (PH-M22) 00 01 02 03 04 05 06 07 08 1011 16 17 18 1915PWRSW0 (PH-PW14) HSW00 (PU-SW01)TSW00 (PU-SW00) IOGT0 (PH-GT10) PWRSW1 (PH-PW14) HSW01 (PU-SW01) TSW01 (PU-SW00) TSW02 (PU-SW00) TSW03 (PU-SW00) PLO0PLO1 00 IOGT1 (PH-GT10) TSW10 (PU-SW00) TSW11 (PU-SW00) TSW12 (PU-SW00) TSW13 (PU-SW00) HSW10 (PU-SW01) HSW11 (PU-SW01) (PH-CK16-A/17-A) (PH-CK16-A/17-A) (RES) (RES) ISW 09 12 BASEULPM ISWM TOPU Note LANI (PZ-PC19)ISAGT (PZ-GT13) LANI (PZ-PC19) LANI (PZ-PC19) LANI (PZ-PC19) LANI (PZ-PC19)LANI (PZ-PC19) ISAGT (PZ-GT13) FDD/HDD PWR DSP
CHAPTER 2 NDA-24306 Pag e 2 2 Revision 1.0 INSTALLATION DESIGN Figure 2-10 Face Layout of IMG0 (Local Node) 00 0102 030405060708091011121314151617181920212223 000102 0304050607080910111213141516171819202122 23 00 0001 0102 0203 0304 0405060708091011121314151617181920212223 000102 030405060708091011121314151617181920212223 LPM PIM 0 PIM 1FA N UPIM 2 PIM 3 TO P U BASEU PH-PC40 (EMA) PH-M22 (MMC)PH-IO24 (IOC) PA-PW55-A (PWR0) PA-PW54-A (PWR1) PA-PW55-A (PWR0) PA-PW54-A (PWR1) PA-PW55-A (PWR0) PA-PW54-A (PWR1) PA-PW55-A (PWR0) PA-PW54-A (PWR1) PH-PC36 (MUX) PH-PC36 (MUX) PH-PC36 (MUX) PH-PC36 (MUX) PH-PC36 (MUX) PH-PC36 (MUX) PH-PC36 (MUX) PH-PC36 (MUX)Note IMG0 (Local Node) Note:The 2nd IOC card (optional) may be mounted in this slot.