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LCN Service - 2 Dual Node Module Service LC13-510 Release 500 CE Compliant 9/95...
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In no event is Honeywell liable to anyone for any indirect, special or consequential damages. The information and specifications in this document are subject to...
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About This Publication This publication provides instructions for use by system service personnel to service the Dual Node Module. It helps you to determine how to perform service required on a Dual Node Module, identifies spare parts, and provides disassembly/assembly instructions for replacing the required part.
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Standard Symbols The following defines standard symbols used in this publication. Scope Notes inform the reader about information that is required, but not ATTENTION immediately evident. Cautions tell the user that damage may occur to equipment if CAUTION proper care is not exercised. Warnings tell the reader that potential personal harm or serious WARNING economic loss may happen if instructions are not followed.
INTRODUCTION Section 1 1.1 OVERVIEW This publication provides detailed instructions for maintenance, test, troubleshooting and repair of the Dual Node Module (part of the TDC 3000 X system) shown in Figure 1-1. The troubleshooting, disassembly, and assembly procedures are effective down to the optimum replaceable-unit (ORU) level.
MODULE DESCRIPTION Section 2 2.1 GENERAL DESCRIPTION The Dual Node Module is a chassis containing one or two nodes. Each node performs an independent function and occupies a specific address on the Local Control Network (LCN). Figure 2-1 shows the module functions within a typical TDC 3000 X System. The types of nodes available in the Dual Node Module include Application Modules, Network Interface Modules, History Modules, Universal Stations, Hiway Gateways, and other types of gateways.
SlCLCNA and CLCNB boards. Do not plug any other type of board into these slots unless specifically authorized by Honeywell documentation, or damage may result. This is particularly true for CSR boards—DO NOT plug a CSR board in I/O Slot 1.
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Table 2-1 — Basic Module Configurations Dual Node Module with One Node Installed Upper Node Slot Front Rear CLCNA Power Supply Left Right DNPWR Module Lower Node Slot Front Rear K2LCN OR K4LCN CLCNB Dual Node Module with Two Nodes Installed Upper Node Slot Front...
2.3 SPECIFIC NODE CONFIGURATIONS Tables 2-2 and 2-3 show the board configurations for the different types of Dual Node Module nodes. Table 2-2 shows configurations available in upper, two-slot nodes, and Table 2-3 shows the configurations available in lower, three-slot nodes. Table 2-2 —...
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Table 2-2 — Two-Slot Node Configurations, Continued Network Interface Module Network Interface Module (68020) (68020) (Note 4) CE Compliant (Note 4) Slot Front Rear Slot Front Rear EPNI NIM MODEM EPNI K2LCN KLCNA K2LCN CLCN-A PLC Gateway (PLCG) PLC Gateway (PLCG) (68020) ( (68020) Note 2)
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Table 2-2 — Two-Slot Node Configurations Application Module (68040) CE Compliant Slot Front Rear (Note 1) K4LCN CLCN-A Computer Gateway (68040) CE Compliant Slot Front Rear CLI I/O K4LCN CLCN-A History Module (68040) CE Compliant Slot Front Rear SPC-2 K4LCN CLCN-A Hiway Gateway (68040)
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Table 2-2 — Two-Slot Node Configurations, Continued Network Interface Module (68040) CE Compliant (Note 4) Slot Front Rear EPNI K4LCN CLCN-A PLC Gateway (PLCG) (68040) CE Compliant (Note 2) Slot Front Rear PLCI PLCI K4LCN CLCN-A Universal Station (68040) CE Compliant (Note 3) Slot Front...
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Table 2-3 — Three-Slot Node Configurations Application Module Application Module (68020) CE Compliant (68020) Slot Front Rear Slot Front Rear (Note 1) (Note 1) (Note 1) (Note 1) K2LCN KLCNB K2LCN CLCN-B Computer Gateway Computer Gateway (68020) CE Compliant (68020) Slot Front Rear...
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Table 2-3 — Three-Slot Node Configurations, Continued Network Gateway (NG) Network Gateway (NG) (68020) (68020) (Note 8) CE Compliant (Note 8) Slot Front Rear Slot Front Rear NGIO NGI or NGFOM NGIO NGI or NGFOM K2LCN KLCNA K2LCN CLCN-B Table 2-3 — Three-Slot Node Configurations, Continued Network Interface Module Network Interface Module (68020)
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Table 2-3 — Three-Slot Node Configurations, Continued Universal Station Universal Station (68020) (68020) CE Compliant (Note 4) (Note 4) Slot Front Rear Slot Front Rear EPDG EPDGP I/O EPDG EPDGC (Note 1) (Note 1) K2LCN KLCNB K2LCN CLCN-B Universal Station with Floppy Drives Universal Station with Floppy Drives (68020) (68020)
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Table 2-3 — Three-Slot Node Configurations Application Module CE Compliant (68040) Slot Front Rear (Note 1) (Note 1) K4LCN CLCN-B Computer Gateway CE Compliant (68040) Slot Front Rear (Note 1) K4LCN CLCN-B History Module CE Compliant (68040) Slot Front Rear (Note 1) K4LCN CLCN-B...
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Table 2-3 — Three-Slot Node Configurations, Continued Network Gateway (NG) (68040) CE Compliant (Note 8) Slot Front Rear NGI or NGFOM NGI or NGFOM K4LCN CLCN-B Network Interface Module (68040) CE Compliant (Note 7) Slot Front Rear EPNI (Note 1) K4LCN CLCN-B Plant Network Module (PLNM)
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Table 2-3 — Three-Slot Node Configurations, Continued Universal Station (68040) CE Compliant (Note 4) Slot Front Rear EPDG EPDGC (Note 1) K4LCN CLCN-B Universal Station with Floppy Drives (68040) CE Compliant (Note 5) Slot Front Rear EPDG EPDGC FDC I/O K4LCN CLCN-B Universal Station with Trend Pen...
2.4 FRONT PANEL The module front panel has the necessary windows and switch openings to accommodate two nodes in a single module. Figure 2-3 shows the front panel for the Dual Node Module. For each of the two power supplies, there are openings for the POWER switch and RESET switch and a window to view the light-emitting diode (LED) status indicators.
2.5 REAR PANEL ASSEMBLY The Rear Panel Assembly includes the Backpanel Printed Wire Assembly (PWA) and the Input/Output (I/O) Card Cage Assembly. The power supplies, the fan assembly and the main circuit boards (such as the K2LCN OR K4LCN) all plug into card edge connectors on the front side of the Backpanel PWA.
2.7 FIELD ADJUSTMENTS There are no field adjustments for the Dual Node Module. However, the K2LCN must be pinned for the particular node address it occupies on the LCN. Figure 2-4 shows the pinning options for the K2LCN. The EPDGC-(I/O) board, if present, has pinning options to set the default background shade for the CRT if a palette has not been set in a schematic (Set Palette is a new command in Release 320).
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LCN Address Jumper Out = 1 This Sample is 43: NOT ON BOARD Pinning Jumper In = 0 PARITY The overall number of jumpers out, including the parity jumper, must be an odd number. Note that addresses 0-127 BINARY could be set, but software WEIGHT will allow only node addresses 1-64.
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Trackball/Mouse Connector SCSI Mouse Adapter Cable #51304033-045 51304584-100 Power (Touch Screen/Keyboard) EPDGP I/O Engineer Keyboard Printer Connector Supervisor Engineer CRT Adapter Cable Keyboard Keyboard 51091 Cable from CRT Mouse or Trackball Figure 2-7 — EPDGP-I/O Cabling Default CRT Background EPDGC I/O BAR CODE 1 Black 0 Dark Grey...
A coaxial cable and the shield of the B coaxial cable at one point each to logic ground. Honeywell recommends that Cable A and Cable B not be grounded in the same module. This guards against loss of both LCN paths if the module is replaced. Figure 2-9 and Figure 2-10 shows these ground connections in separate modules.
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Logic Ground to Chassis Ground Jumper LCN Coax Cable "A" I/O Cage Chassis Gnd Upper Node Logic Gnd CLCNA Power Power Connector Power Logic Gnd I/O Cage I/O Cage Lower Node Cable "B" Gnd CLCNB LCN Coax Cable "B" 13484 Figure 2-10—...
2.9 PRECISION CLOCK PINNING (POWER SUPPLY REPLACEMENT) The power supply has a pinning option for internal or external clock (see Figure 2-11). It is pinned for internal clock unless the Precision Clock Source option is installed. If you are replacing the power supply, check the pinning on the old supply and ensure that the replacement is pinned the same.
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The CE Compliant power supplies come from two vendors. The external clock source pinning is shown in Figures 2-12 and 2-13. Location of Clock Jumper Switch Shown in External Position 53651 Figure 2-12 — CE Compliant Power Supply Showing Location of Clock Jumper Location of Clock Jumper Switch Shown in...
2.10 2.10 NIM MODEM BOARD PINNING Location SW1 has the revision pinning for the NIM Modem board. This pinning reflects the revision of the board and is never to be changed unless the board is updated. Location SW2 has the pinning for the UCN node address. This address is a binary weighted number and is used only in the Test mode.
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2.10 The CE Compliant NIM Modem board pinning is shown in Figure 2-15. NIM Modem 53361 Figure 2-15 — CE Complianrt NIM Modem Board Pinning Dual Node Module Service 2-25 9/95...
2.11 2.11 POWER SUPPLY LOADING IN LCNE/LCNE2 HOST NODE The LCN may be extended with one or more Fiber Optic Links. An otherwise empty node of a Dual Node Module may be used to host the LCNE/LCNE2 fiber optic transmit/receive boards.
TEST/TROUBLESHOOTING Section 3 3.1 TESTS Each node of the Dual Node Module is tested through firmware (in hardware) and software checks. Firmware tests built into the node provide two similar means of functionally checking the unit, whether or not it is connected to the LCN. The first firmware test starts when power is applied.
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POWER ON/RESET INITIATES HDW/FMW TESTS LIGHT RED LED; PASS LOAD ALPHNUM TEST DISPLAY WITH ERROR CODE LIGHT GRN LED; RECORD STATUS OPERATOR CHK IN MCT LEDS/ALPHNUM DISPLAY LOAD ALPHNUM DISPLAY WITH NODE NUMBER NODE GOES TO FAILED STATE; XMIT NOTICE XMIT "ALIVE"...
If you can't correct the fault by performing these procedures, refer to Appendix A for alphanumeric display troubleshooting. If you still cannot isolate the fault, contact the Honeywell Technical Assistance Center (TAC) in the U.S., or the equivalent service in your area. The telephone number for TAC is 1-800-822-7673 (1-602-863-5558 for Arizona callers).
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Data DTAK BGAK Data EDAC EDAC RST/PWR Self-Test Compare Time Time Parity Multi-Bit Single-Bit Transaction Fail Error Error Error Error Error Error Error Self-Test Node Pass Address/Error (Green) (Yellow) Display 40022 Red LEDs Figure 3-2 — K2LCN , K4LCN Diagnostic Indicators The following acronyms or abbreviations are used in Figure 3-2: Module Local Control Network...
3.3.1 3.3.1 Power Supply/Fan No LEDs are on. • Check that the power cord is plugged in and that the power switch is on. If they are, unplug the power cord and replace the power supply. The red LED in the Power Status panel is on but the LED is off.
3.3.2 3.3.2 Controller Boards (FDC, CNI, DHI, CLI, SIO, SPC) light does not go out. SELF TST/ERR • Ensure that I/O board is properly installed. • Replace controller board. • Replace I/O board. light goes out, but (green) light does not light on SELF TST/ERR PASS MOD TEST one controller.
3.3.3 3.3.3 PLCI Board NOTE For additional information on troubleshooting the PLCI board, refer to the PLC Gateway Planning, Installation, and Service manual in the Implementation/PLC Gateway binder. light does not go out. SELF TST/ERR • Ensure that PLCI I/O board is properly installed. •...
3.3.4 3.3.4 Processor Board (K2LCN/K4LCN) are lighted on K2LCN/K4LCN. DATA PAR ERR BUS ERR • Check the alphanumeric display. The first two characters indicate the slot number of the failed board. The third character is the failed test number. Refer to Appendix A for specific alphanumeric codes.
3.3.5 3.3.5 EPDG Board light does not go out on EPDG. SELF TST/ERR • Replace I/O card. • Replace EPDG. • Replace K2LCN/K4LCN. light goes out on EPDG, but (green) light SELF TST/ERR PASS MOD TEST does not light on EPDG. •...
3.3.6 3.3.6 EPNI Board NOTE The EPNI board is a later version of the PNI board. The EPNI board is a controller board which interfaces the bus and processor in a similar way as the controller boards listed in subsection 3.3.2. First, check the SELF TST/ERR light (red - should be out) and light (green - should be on) on the EPNI...
3.3.7 3.3.7 Fiber Optic Extender Boards (LCNE/LCNE2, FOCT, FOCR, LCNFL, CS/R) NOTE The LCNE2 board is a later revision of the LCNE board. They are functionally equivalent and your system may include either or both types. 3.3.7.1 Normal Indicators Under normal system operating conditions, the following indicators and switch settings are present on the LCNE Extender Set.
3.3.8 3.3.8 RS-485 to LCN Converter Boards CLCNA (OR KLCNA), CLCNB (OR KLCNB) For information on troubleshooting LCN problems, see Section 4 in LCN Guidelines, Implementation, Troubleshooting, and Service in the LCN Installation binder. If replacement of a CLCNA or CLCNB board is indicated, the following points are important to know.
3.3.9 3.3.9 NGI Board light does not go out. SELF TST/ERR • Ensure that NGIO board is properly installed. • Replace NGI board. • Replace NGIO board. light goes out, but (green) light does not light on SELF TST/ERR PASS MOD TEST one controller.
DISASSEMBLY/ASSEMBLY Section 4 4.1 DISASSEMBLY W A R N I N G To protect equipment from voltage transients and ensure reliable operation, always turn power off before removing or replacing boards in a node. While working on one node in a Dual Node Module, you may leave the power on for the other node, leaving it operational.
Figure 4-1 — Module Exploded View 4122 NOTE Before inserting a replacement board: 1. Make certain that the replacement board is at a revision level equal to, or later than, the board being replaced. 2. Make certain that any pins or switch settings (e.g., the node address on the K2LCN OR K4LCN board) match those on the board being replaced.
SPARE PARTS Section 5 5.1 INTRODUCTION Table 5-1 lists spare parts for the module. Those parts at the ORU level are marked with an asterisk (*). The listing is arranged in item-number order with the items keyed to the circled numbers in Figure 4-1. Also listed are those boards required for the various Dual Node Module configurations, referenced in Tables 2-2 and 2-3.
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Table 5-1 — Parts List (Continued) Item Description Part Number Dual Node Fan Assembly * 51401496-100 Dual Node Power Supply * 51401497-100 LCN Power Supply Replacement Kit (includes new power cord)—New CE Compliant Power Supply for all modules Dual Node, Classic Furniture 120 Vac * 51402184-100 Dual Node, Classic Furniture 1240 Vac * 51402184-200...
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Table 5-1 — Parts List (Continued) Item Description Part Number FOC/RCVR, Fiber Optic Link Receiver Board EC * 51304161-400 FOC/XMTR, Fiber Optic Link Transmitter Board EC * 51304161-300 FOCR, Fiber Optic Clock Receiver * 51304161-200 FOCT, Fiber Optic Clock Transmitter * 51304161-100 LCNE, Local Control Network Extender * 51109881-100...
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STARTUP Section 6 6.1 VISUAL CHECKS • Check the Module power and signal cables to ensure that they are present and tight. • Check the ground strap on rear of chassis for good connection. • Ensure that all boards and power supply(s) are fully inserted into the connectors and that board retainers are secured.
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ALPHANUMERIC DISPLAYS Appendix A The alphanumeric display aids troubleshooting by displaying codes provided by firmware and software test programs. In interpreting the codes, pay special attention to the left-most element. As shown in Figure A-1, this element can have four distinct states, and reading the display correctly is critical to interpreting the code.
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Please note, when multiple recommendations are given for a window code-value, they are organized in order from most to least likely. Recommendations marked with * indicate an unimplemented code-value. Any such occurrence should be brought to the attention of Honeywell TAC. Window values marked as are “don’t care” values.
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n=(1 thru 7), replace the K2LCN OR K4LCN; replace the module backplane or (-) or (C) chassis assembly n=(other) replace the K2LCN OR K4LCN* n=(1 thru 7), replace the K2LCN OR K4LCN; replace the module backplane or (-) or (C) chassis assembly n=(other) replace the K2LCN OR K4LCN*...
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n=(1 thru 7), replace the K2LCN OR K4LCN; replace the module backplane or (-) or (C) chassis assembly n=(other) replace the K2LCN OR K4LCN* n=(A) or (C) replace the K2LCN OR K4LCN n=(other) replace the K2LCN OR K4LCN* replace the K2LCN OR K4LCN* replace the K2LCN OR K4LCN* n=(A) if value persists beyond 30 seconds, replace the K2LCN OR K4LCN...
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n=(0) an unexpected interrupt has occurred - replace the K2LCN OR K4LCN n=(1) replace the K2LCN OR K4LCN; replace the boards in slots 2 and 3 in turn n=(2) no working DRAM - replace the K2LCN OR K4LCN n=(3) suspected program error, - replace the K2LCN OR K4LCN n=(5) unverified cause of Level 7 interrupt, - replace the K2LCN OR K4LCN;...
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replace the K2LCN OR K4LCN* replace the K2LCN OR K4LCN* replace the K2LCN OR K4LCN* n=(0), (1) check for a duplicate node number; check the BNC connectors; check/replace the LCN cable; replace the CLCN (KLCNA) or CLCNA (KLCNB); replace the K2LCN OR K4LCN n=(2 thru 5) replace the K2LCN OR K4LCN;...
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2) record the error messages and call Honeywell TAC n=(6) use SMCC to find defective board n=(7,8) check memory capacity; replace the K2LCN OR K4LCN; check and reload the software check and reload the software; replace the K2LCN OR K4LCN...
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n=(0 thru 8), replace the K2LCN OR K4LCN (E) or (F) n=(9) or (A) replace the K2LCN OR K4LCN* n=(-) or (C) replace the CLCNA (KLCNA) or CLCNB (KLCNB); if the error repeats, look for bus problems n=(other) check and/or replace the backplane or chassis assembly Dual Node Module Service 9/95...
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REPLACEMENT OF K2LCN WITH K4LCN Appendix B This appendix gives the procedure for replacing an K2LCN processor with a K4LCN. It also gives the restrictions and conditions that apply to the replacement procedure. B.1 INTRODUCTION This procedure enables a trained technician to replace an K2LCN processor board with a high density 68040-based K4LCN processor board in a Five-Slot or Ten-Slot Module LCN node.
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B.2 RESTRICTIONS TO TOTAL REPLACEMENT If you are contemplating the replacement of all K4LCN processors in Five/Ten-Slot Modules, be aware that the Clock Source/Repeater board is the single point ground connection for the LCN cable shield. Therefore, even if the 12.5 kHz (Subchannel) clock function is not being used, a CS/R or other grounding means is still required on each coax segment.
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B.6 REDUNDANT MODULE REPLACEMENTS 1. This section applies only to a redundant Network Interface Module (NIM), Hiway Gateway (HG), or Programmable Logic Controller Gateway (PLCG). 2. Determine in which unit, the primary or secondary, you want to perform the replacement first. The recommended procedure would have you replace the processor in the primary unit first.
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B.8 REASSEMBLY 1. Check that the LCN I/O card you have is revision T (or later). Set the correct node address into the LCN I/O card and install it in Slot 1 in the rear of the module (or the LCNFL, if one was removed in step 6 above.
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Index Topic Section Heading Power On Test 3.2.1 Power Supply/Fan Troubleshooting 3.3.1 Power Supply Loading in LCNE2 Host Node 2.11, Table 2-4 Power Supply Replacement Precision Clock Pinning Quality Logic Test 3.2.3 Rear Panel Assembly Rear View, Two Dual Node Modules 2.2, Figure 2-2 Related Publications Reset Test...
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