LON Interfaces_Technical Information and Configuration
January 9, 2017 | Author: Henrique Nogueira | Category: N/A
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Description
Technical Information and Configuration
This document contains technical information details on the LON Interfaces to elevator peripherals for use together with several LON based elevator control systems.
Summary
Note This document describes the complete set of available LON Interfaces. Specific elevator controls may support only a subset of these devices (consult the respective control documentation for a list of supported devices).
Modification
01
02
03
Prepared
12.12.2006
eberhaer
KA No.
160147
160378
160529
Reviewed
12.12.2006
keiserda
KA Date
20.08.04 13.01.06 15.12.06
Norms Chkd 12.12.2006 Released
LON Interfaces
15.12.2006
INVENTIO AG CH-6052 Hergiswil
beuretro Format
Technical Information and Configuration Classification
plattle
A4
Lead Office
K 604401
E
This Manual is the property of INVENTIO AG and shall only be used by SCHINDLER personnel or authorized SCHINDLER agents for purposes which are in the interest of SCHINDLER. This design and information is our intellectual property. Without written consent, it must neither be copied in any manner, nor used for manufacturing, nor communicated to third parties. Application for such consent should be addressed to: INVENTIO AG, Postfach, CH-6052 Hergiswil NW
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Table of Contents 1
2
3
4
5
6
* Product Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.1 * Landing Interface Module LIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.2 COP Interface Module CIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.3 Building Interface Box BIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 1.4 Door Interface Box DIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 1.5 Voice Interface Box VIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 1.6 VSB PCB for Critical I/Os . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 1.7 Safety Bridging PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Product Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 2.1 Scope of Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 2.2 Peripherals and Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 2.3 Standards and Regulations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Dispo Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 3.1 Mechanical Dispo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 3.2 Electrical Dispo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 System Architecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 4.1 Landing Interface Module LIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 4.2 COP Interface Module CIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 4.3 Building Interface Box BIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 4.4 Door Interface Box DIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 4.5 Voice Interface Box VIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 4.6 Critical I/Os with and without VSB PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 4.7 Safety Bridging PCB LONUESK 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 5.1 PCBs for LIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 5.1.1 LONDGI PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 5.1.2 LONDGIO and LONPGIO PCBs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 5.1.3 LONIO2 PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 5.1.4 LONIO32 PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 5.1.5 LONIOC3 and LONIOC5 PCBs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 5.1.6 LONPII PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48 5.2 PCBs for CIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 5.2.1 LONCPI PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 5.2.2 NWIOC3 PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54 5.2.3 NWIO36/NWIO236 and NWIOD6 PCBs . . . . . . . . . . . . . . . . . . . . . . . . 56 5.3 PCBs for BIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 5.3.1 LONCUB PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 5.3.2 NWRIO41 and NWRIO4 PCBs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59 5.4 LONDIM PCB for DIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61 5.5 PCBs for VIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 5.5.1 LONVE PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 5.5.2 VCA PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 5.6 VSB PCB for Critical I/Os . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 5.7 LONUESK 1 PCB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Rotary Code Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72 6.1 BMK Single Codes for Zone EUAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72 6.2 BMK Single Codes for Zone NA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 6.3 BMK Set Codes for NWRIO41 PCBs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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6.4 Changing Switches on LON PCBs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92 A.1 Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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1
* Product Overview
1.1
* Landing Interface Module LIM
Summary
The landing interface module LIM is required for connection of landing fixtures with parallel wired I/Os (buttons, switches, lamps, indicators, buzzers) to a control system with LON bus wiring in the hoistway. A LIM box contains one PCB, depending on connected parallel landing elements, which is wired to the LON bus for connection with the control.
Overview
Every LIM is pre-configured with a LON PCB, which may be • Specific for operating elements (including acknowledge) • Specific for indicator elements (including gong) • Combined for operating and indicator elements.
1
2
Landing Interface Module
1 2 Name LIM
LIM Box (for hoistway installation) LON PCB
Description Landing Interface Module (with commission specific configuration)
Selection Rules If ordered for parallel wired LIPs and LOPs
Qty
ID. No.
1
1) LIM is ordered commission specific and configured by ordering LIM Base boxes with one individual LON PCB per box (see below) Assembly
Pos Name 1 Base
Description Selection Rules LIM box for installation in Always the hoistway (dimensions (HWD): 300 × 80 × 60 mm)
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Qty ID. No. 1 593623
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Pos Name 2 LONDGI LONDGIO
LONIO2 LONIO32 LONIOC3 LONIOC5 LONPGIO
LONPII
Description LON Direction indicator and Gong Interface PCB LON Direction indicator, Gong and Input/Output PCB LON Input/Output PCB for 4-wire call buttons (2 buttons) LON Input/Output PCB for 3-wire call buttons (2 buttons) LON Input/Output PCB Configurable for 3 Elements LON Input/Output PCB Configurable for 5 Elements LON Position indicator, Gong and Input/Output PCB LON Position Indicator Interface PCB
Selection Rules For LIP with further travel indicator and gong For both LIP (with further travel indicator, gong) and LOP (with 3-wire call buttons up/down) For LOP with 4-wire call buttons (up/down)
Qty
ID. No. 593627 55501440
593624
For LOPs with 3-wire call buttons (up/down)
593848
For LOP with maximum 1 3 configurable I/Os
593625
For LOP with maximum 5 configurable I/Os
593713
For both LIP (with position indicator, further travel indicator, gong) and LOP (with 3-wire call buttons up/down) For LIP with position indicator, further travel indicator and gong
55501439
593626
Components
1.2 Summary
The COP interface module CIM is required for connection of COPs with parallel wired I/Os to a control system with LON bus wiring to the car.
• • Overview
COP Interface Module CIM
Note Depending on the elevator control, the CIM assembly may be located in the COP or in a CIM box on the car. Depending on the specific number of interface PCBs, the small or the large variant of the CIM box may be required.
CIM is designed in a modular way and is pre-assembled on commission from a base PCB and additional interface PCBs (three types available), which are interconnected by a NeuroWire bus system.
CIM Box Small CIM Box Large
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Name CIM
Description COP Interface Module (with commission specific configuration)
• •
Selection Rules If ordered for parallel wired COPs One per COP and access side
Qty 1-4
ID. No. 1
1) CIM is ordered commission specific and configured by ordering the individual components (see below) Assembly
Name LONCPI
NWIO36
NWIO236
NWIOD6
NWIOC3
-
-
-
Description LON Car Peripherals Interface PCB with basic COP functions NeuroWire Input/Output PCB with 3-wire I/Os (6 I/O lines) NeuroWire Input/Output PCB with 3-wire I/Os (6 I/O lines) NeuroWire Input/Output PCB with 4-wire I/Os (6 I/O lines) NeuroWire Input/Output PCB with configurable I/Os (3 I/O lines) CIM Box small including LONCPI and LONTC cable short (dimensions (HWD): 204 × 432 × 78 mm) CIM Box large including LONCPI and LONTC cable short (dimensions (HWD): 204 × 692 × 78 mm) Cable for LONTC connection to LON bus car
Selection Rules Always
Qty CO1
ID. No. 591573
For 3-wire car call buttons
CO1
593849
For 3-wire car call buttons
CO1
591869
For 4-wire car call buttons
CO1
593635
If configurable buttons are required (3- or 4-wire)
CO1
593636
• •
If ordered For 1-3 NW PCBs
1
593634
• •
If ordered For 4-8 NW PCBs
1
593633
1
593632 593631
Short, if ordered Long, if ordered
1) Commission specific Components
Note See 'Electrical Dispo' for details on configuration.
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1.3 Summary
Building Interface Box BIB
If any one of the interfaces specified below is required (direct interfaces to building or to services, which require building interfaces), the Building Interface Box BIB is required for connection of the respective external I/Os to a control system with a LON bus wiring in the hoistway. BIB is designed in a modular way and is delivered on commission with preconfigured interface modules. A BIB is installed at an appropriate location in the hoistway (surface mounted), and is connected to the LON bus in parallel to the landing elements on the same floor (same type of T-connector). Note For MX-GC up to release 3 only: Separate BIBs must be used for lift and group related options.
Overview
The following general configuration rules apply to the BIB: • Every box contains one LONCUB PCB for connection to the LON bus. • Maximum 4 NWRIO41 PCBs (every one implementing a function) can be connected. • The box is assembled according to the ordered functions (see table below).
1 2 3
4
Building Interface Box
1 2 3 4
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Box Options Label LON Interface PCB NWRIO41 PCB
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Name BIB
Description Building Interface Box complete (with commission specific configuration)
Selection Rules If ordered
Qty ID. No. 1 593468
Assembly
Pos 1 -
Name
2 3 4
LONCUB NWRIO41
-
-
-
Description Box (sheet metal housing) Label for options LON-Interface PCB Interface function(s) on NWRIO41 PCB(s) Cable for connection of LONCUB PCB to LON bus (Length 2.4 m)
Selection Rules Always
Qty ID. No. 1 593471
Always Always One per implemented function Always for MX-GC up to release 3 Always for TX-GC2 and for MX-GC release 4 and higher
1 1 1-4
593134 591378 see below 188091
1
55501317
Base Components
Note BMK Values See 'Rotary Code Settings' for a list of relevant BMKs. Configured Sets for MX-GC
The following pre-configured NWRIO41 PCBs for specific I/O types are available for Miconic MX-GC: Name BR_ALT BR_BS BR_G
Description Code: FE Type: GROUP (Lift) Code: EB Type: LIFT Code: F4 Type: GROUP (Lift)
Code: E1 Type: LIFTe: DDF Code: 06 Type: GROUP DF1_JAB_NS Code: E8 Type: LIFT BR_LI
EB_G EB_LI
Code: F9 Type: LIFT Code: ED Type: GROUP
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Techn. Data Qty. ID. No. For fire emergency with two 1 593803 recall floors On commission 1 1 For fire emergency recall BR1 (GE) • For fire emergency recall BR1 (NL) • For fire emergency recall BR1 (NO) • For fire warning contact KBF • Only for simplex or first elevator in group For fire emergency recall 1 BR1 For VIP service DF2 1 •
• •
593139
593138 593117
Or VIP service DF1 1 For external out-ofservice switch JAB • For external emergency operation switch JNO For earthquake operation 1
593801
For earthquake operation
593802
1
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593255
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Name FLC/FOF
Description Code: F7 Type: GROUP (Lift)
GAST
Code: EA Type: LIFT Code: E2 Type: LIFT Code: F5 Type: GROUP (Lift) Code: E5 Type: LIFT Code: 66 Type: GROUP Code: 34 Type: LIFT Code: E6 Type: LIFT
GUE JBF_SET JBFF_SET JKLB JKLBL JNFF_SET
JSDE_G
Code: FC Type: GROUP (Lift)
Techn. Data
Qty. ID. No. 1 593144 Floor 1 - 4 1 593216 Floor 5 - 8 • For floor lighting control • For floors on fire 1 593217 Floor 9 - 12 1 593122 Floor 13-16 On commission 1 593252 For building monitoring system For external fireman emergency switch JBF On commission
1
593142
1
593250
1
593253
For single car call lock 1 enable and group For single car call lock 1 enable and lift 1 • For fireman's service BR2 (FR) • For fireman's service BR2 (NL) • For external fireman's switch JNFF For single car call lock and group
593805
1
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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593806 593254
593815 Floor 1 - 4 593816 Floor 5 - 8 593817 Floor 9 - 12 593818 Floor 13-16 593819 Floor 17-20 593820 Floor 21-24 593821 Floor 25-28 593822 Floor 29-30
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Name JVSPCL_LI
Description Code: F0 Type: LIFT
Techn. Data For single car call lock and lift
Qty.
1
ID. No. 593807 Floor 1-4 593808 Floor 5-8 593809 Floor 9-12 593810 Floor 13-16 593811 Floor 17-20 593812 Floor 21-24 593813 Floor 25-28 593814 Floor 29-30 593251
1
593137
1
593136
1
55502627
1
55502627
1
55502627
1
JZPZS
Code: 6C Type: GROUP (Lift)
NS_G
Code: F6 Type: GROUP
NS_FF
Code: E9 Type: LIFT
SO_AS_1 SO_SZ_1 SO_TC_2
Code: CC Type: LIFT Code: CA Type: GROUP Code: CA Type: LIFT
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
For blocking of one entrance side (external JZPZS switch) For first elevator in group with any type of emergency power operation • For any type of emergency power operation • For fireman's service BR2 (NL) In hoistway for Sabbath Operation In hoistway of first elevator for Sabbath Operation In car for Sabbath Operation
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1.4 Overview
Door Interface Box DIB
The door interface box DIB is required for connection of parallel wired Schindler and third party doors to a control system with LON bus wiring to the car. DIM is pre-configured with the base PCB LONDIM and with required door type specific options. There is one box required per door drive.
Door Interface Box
Name DIB
Description Selection Rules If ordered Door Interface Box including LONDIM PCB (Dimensions (HWD): 272 × 490 × 97 mm)
Qty ID. No. 1/21 593638
1) Depending on number of independently controlled access sides Assembly
Name Cable QKS9-1/ QKS9VF Cable VD20 parallel Cable VD30 parallel Cable DIB
Description Techn. Data Cable for QKS9-1/QKS9VF If door type QKS9-1 or QKS9VF
Qty
Cable for Varidor 20 parallel If door type Cable for Varidor 20 parallel 1 Cable for Varidor 30 parallel If door type Cable for Varidor 30 parallel Cable for all other doors If door type not QKS9-1, QKS9VF or Varidor 20 or 30 parallel
ID. No. 55500346 55500479 55500362 55500349
Base Components (One of the Cables Required)
Name Kiekert
Description Set for Kiekert/Slycma
LUST QKS6 Peignen
Set for LUST QKS6 Set for Peignen
QKS11 Set for QKS11 QKS9/10 Set for QKS9/10 Wittur TVLD Set for Wittur TVLD
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Techn. Data • For door type Kiekert • For door type Slycma For door type LUST QKS6 For door type Peignen folding door For door type QKS11 For door type QKS9/10 For door type Wittur TVLD
Qty ID. No. 1 593667 1
593666
1
593648
1 1 1
593640 593641 593666
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Name Photocell
Progard S
Skirting
Cable Door 400 V
JHCT MGH 24V MGH 48/80V MGV 36-180 VDC MGV 205 VDC MGV 230 VAC MV 96/400 VAC
Description Set for photocells
Techn. Data For elevators without car doors • For door reversing device photocell Set for Progard S • For elevators without car doors • For door reversing device Progard S Set for skirting • For elevators without car doors • For door reversing device skirting Additional power cable • If voltage door drive = 400 V • Or if voltage door lock motor = 96 V or 230 V Stop switch for DIB If ordered Set holding brakes 24 V If voltage holding brake = 24 V Set holding brakes 48 or If voltage holding brake = 48 80 V or 80 V Set door lock magnets 36 to If voltage door lock magnet 180 VDC = 36 to 180 VDC Set door lock magnets If voltage door lock magnet 205 VDC = 205 VDC Set door lock magnets If voltage door lock magnet 230 VAC = 230 VAC Set door lock motors 96 to If voltage door lock motor = 400 VAC 96 or 400 VDC •
Qty ID. No. 1 593728
1
593649
1
593669
1
55500426
1 1
593646 593645
1
593644
1
593642
1
593668
1
593665
1
593643
Optional Components
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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1.5 Overview
Voice Interface Box VIB
The voice interface box VIB is a LON based solution for voice in car that comes preconfigured with PCBs and loudspeaker. On commission, the individual components may also be integrated into the COP.
Voice Interface Box
1 2 3 4 Name VIB
Housing Loudspeaker LON-Interface PCB Voice Speech Engine PCB
Description Voice Interface Box complete
Selection Rules If ordered
Qty ID. No. 1 55501957
Assembly
Pos 1 -
Name
2 3 4
LONVE VCA
-
MMC
Description Box (sheet metal housing) Loudspeaker with cable LON-Interface PCB Voice Speech Engine PCB Programmed multimedia card containing commission specific and language information
Selection Rules If not installed in COP
Qty ID. No. 1 55509958
Always Always Always
1 1 1
55501962 591784 591782
Always
11
55502425
1) Specify one or two of the following available languages with the order: English, German, Italian, French, Portuguese, Spanish, Mandarin Chinese, Kantonese Chinese (in case of two languages, specify one of them as main language). Components
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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1.6 Overview
VSB PCB for Critical I/Os
For critical I/Os with one contact in multiplex systems, the VSB PCB is required for redundant and galvanic separated connection to two elevators. The VSB PCB is mounted in a plastic box in the hoistway.
1
2
Voltage Switch Box
1 2 Pos 1 -
2
Name
VSB
Voltage Switch Box (for hoistway installation) Voltage Switch PCB
Description Selection Rules Box for installation in the If ordered hoistway (dimensions (HWD): 300 × 80 × 60 mm) Voltage Switch PCB If ordered
Qty ID. No. 1 593623
1
591770
Components
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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1.7 Overview
Safety Bridging PCB
The circuitry of this PCB is based on the requirements for safety circuits. The PCB will be placed, for example, in the shaft head and connects the shaft safety circuit and LON bus wiring.
LONUESK 1
Name LONUESK 1
Description Safety Bridging PCB
Selection Rules If ordered
Qty ID. No. 1 594109
Assembly
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Product Name
2
Product Description
2.1
Scope of Application
The product name consists of the following parts: Part LON Interface
Range of Application
The LON Interfaces connect parallel wired elements to the LON bus system. The following individual elements are available: Element CIM LIM BIB DIB VIB VSB LONUESK
Restrictions
Description For connection to elevator controls via a LON bus system Interfaces to elements with device specific parallel I/Os
Functionality COP Interface Module as interface to parallel wired car operating panels Landing Interface Module as interface to parallel wired landing fixtures Building Interface Box as interface to parallel wired building options Door Interface Box as interface to parallel wired Schindler and third party doors Voice Interface Box as interface to voice synthesizer for voice in car PCB for connection of critical I/Os with 1 contact in multiplex systems PCB for safety bridging
Some specific features may not be applicable, depending on the elevator control to which the interface modules are connected. In such cases, corresponding hints can be found at the respective locations in this document.
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2.2 Summary
The peripherals indicated in this section can be used with the LON Interfaces.
• • • Elevator Controls
Peripherals and Interfaces
Note The following tables show a global overview of available peripherals and interfaces. Whether an element can be used together with a specific elevator control, is described in the respective control documentation. For restrictions on the individual components/subsystems, see their respective documentation. External components are not delivered by the supplier of the LON Interfaces.
The devices are supported by the following elevator controls:
Door Systems Supported by DIB
Type Miconic MX-GC Miconic TX-GC2
Additional Information Low and mid rise elevator control High rise elevator control
Type QK8 QK8F QK11 QK11 with Holding Brake Varidor 20 HT QKS8 QKS8 with Holding Brake QKS9/10 QKS9-1/10-1 QKS9VF/10VF QKS11 QKS11 with Holding Brake Varidor 10E Varidor 10F Varidor 20/30/50 (parallel) Fermator Folding Door Fermator VVVF-3 HT Kiekert TMS-2 Peignen Folding Door Slycma PLYCAB2 Wittur AC HT Wittur DC (RCRE24/RC48) HT Wittur Mosquito HT
Additional Information Schindler semi-automatic doors
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Schindler automatic doors
Third party semi-automatic doors
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Type Additional Information Fermator VVVF-3 Third party automatic doors LUST QKS6 LUST QKS6 (with VRVRT) Lust QKS8 LUST QKS8 with Holding Brake LUST QKS9 LUST QKS11 LUST QKS11 with Holding Brake Sematic Encoder System Sematic F28/F29 Siemens AT 25 Slycma AC Slycma VF TAT2/TAF2 (Schlieren) Wittur AC Wittur DC (RCRE24/RC48) Wittur Flash Wittur Mosquito Wittur RCF1 Wittur TVLD Fixtures
The following operating elements and indicators are supported: Type Car Fixtures Landing Fixtures
Additional Information Parallel wired COP elements for connection to CIM Parallel wired landing elements for connection to LIM
Building Interfaces
The possible/required peripherals depend on the individual options used in the BIB (see section 'Building Interface Box BIB' in chapter 'Product Overview' for possible options).
User Interfaces
For voice in the car, the Voice Interface Box VIB is available (see section ’Voice Interface Box VIB' in chapter 'Product Overview' for possible options).
2.3
Standards and Regulations
The following table gives a listing of valid standards and regulations for the product: Applied Standards
Number EN 81-1:1998
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Description Authority Safety Rules for the CEN: European Committee Construction and Installation for Standardization of Lifts - Part 1: Electric Lifts
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3
Dispo Information
3.1
Mechanical Dispo
Summary
This section shows placement and mechanical installation for the various LON Interface modules.
Landing Interface Module LIM and VSB PCB for Critical I/Os
Dimensions of LIM/VSB box (HWD): 300 x 80 x 60 mm. Fix the boxes for LIM and VSB PCBs inside the hoistway in the best position for wiring from landing indicator and landing operating panel as well as from LON hoistway cable.
1
2
3
4
Landing Interfaces
1 2 3 4
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Landing Door Landing Indicator Panel LIM and/or VSB box(es) Landing Operating Panel
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COP Interface Dimensions (HWD): Module Fastening • 380 x 204 x 78 mm (431.5 x 204 x 78 mm with mounting brackets for horizontal installation) for CIM box small • 640 x 204 x 78 mm (691.5 x 204 x 78 mm with mounting brackets for horizontal installation) for CIM box large. Fasten the CIM box (2 variants available: big and small) on the car roof above the COP or on the car wall as close as possible to the COP:
4
2
1
3
CIM Box Fastening
1 2 3 4
• • Building Interface Box Fastening
CIM small (mounted flat on car roof, may also be mounted upright using same support as CIM large) CIM large (with support for upright mounting, may also be mounted flat) COP (inside car) Openings for Cable Entry (wiring is done later)
Note Depending on the elevator control, the CIM assembly may be located in the COP or in a CIM box on the car. Depending on the specific number of interface PCBs, the small or the large variant of the CIM box may be required.
Dimensions (HWD): 580 x 204 x 78 mm (631.5 x 204 x 78 mm with mounting brackets). 1) Fit the BIB at an appropriate location in the hoistway. 2) Mount it onto the hoistway wall using 2 screws:
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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BIB Fastening
Door Interface Box Fastening
Dimensions (HWD): 252 x 450 x 97 mm (272 x 490 x 78 mm with mounting brackets). Fix the DIB box as close as possible to the door drive on the car roof:
2 1
3
View from Car Front
1 2 3 Voice Interface Box VIB
Door Drive Door Interface Box DIB Door
Dimensions (HWD): 150 x 123 x 61.5 mm (150 x 162 x 61.5 mm with mounting brackets). Fix the VIB on the car roof or mount the components (PCBs, speaker, without sheet metal housing) inside the COP.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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3.2
Electrical Dispo
Summary
This section describes the configuration rules of LON interfaces, where specific instructions for combination of different PCB types are required (CIM and BIB). All other rules are shown in chapter 'Components' by describing the settings of the individual PCBs in the modules.
LIM
Depending on the elevator control, one or more LIM elements and boxes per floor may be used. As a general rule, the number of LIM elements and boxes should be minimized (for example by using multipurpose PCBs like LONDGIO/LONPGIO). For floor configuration with the two rotary switches HIGH/LOW, the following rules apply: • The setting is a decimal number and starts at the lowest floor with 01. Example for floor 25: HIGH = 2 (corresponds to 20), LOW = 5 • Settings of switch HIGH for values higher than 99 are: • HIGH = A for 10 (corresponds to 100) • HIGH = B for 11 (corresponds to 110) • HIGH = C for 12 (corresponds to 120).
• • CIM
Note Always try to use only one LIM PCB, which is able to connect all fixture elements on the respective landing. If lift and group bus are separate, lift and group functions must not be configured using the same LIM PCB.
For CIM, the following basic configuration rules apply: Feature Physical Configuration
Rule The physical sequence of the CIM PCBs, which also determines their sequence on the SPI bus, is as follows: • The LONCPI PCB (connection to the car LON bus) is always placed on top • The NWIO36/NWIO236, NWIOD6 PCBs 1 to m (for call buttons) are placed in the middle • The NWIOC3 PCBs 1 to n (for configurable I/Os) are always placed at the bottom.
LONCPI
NWIO36/NWIO236, NWIOD6 #m NWIO36/NWIO236, NWIOD6 #1 NWIOC3 #n
NWIOC3 #1
Note See below for valid amounts m of NWIO36/NWIO236, NWIOD6 PCBs and n of NWIOC3 PCBs.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Feature Valid Amounts of PCBs
Number of NWIOD6 and NWIOC3
Rule Per LONCPI, the following PCBs may be connected: • Maximum 5 NWIO36/NWIO236, NWIOD6 PCBs for a sequence of maximum 30 subsequent call buttons • The possible amount of NWIOC3 PCBs with configurable I/Os depends on the amount of installed NWIO36/NWIO236, NWIOD6 PCBs. 15 NWIOD6 / NWIO36 / NWIO236 / NWIOC3 of any combinations can be connected to the LONCPI only with software version: • For MX-GC with software greater then V2.51 • For TX-GC2 with software greater then V3.31
Possible Amount of NWIOC3 PCBs Installed NWIO36/NWIO236, In CIM Boxes2 1 Maximum NWIOD6 PCBs Small Large 7 6 5 4 3 2 1 0
1 2 4 6 8 10 12 13
Not possible Not possible Not possible Not possible 0 1 2 3
1 2 3 4 5 6 7 8
1) Maximum value (for example for installation in COP with enough space for PCBs) due to restrictions of NeuroWire bus and of software 2) Restrictions due to available space for PCBs within CIM box
Note If supported by the specific elevator control, more than one LONCPI PCB per COP can be used (for example for more than 30 floors using the floor offset switch, or for additional configurable I/Os). Feature Floor Configuration
Rule The floor calls for a specific LONCPI PCB are configured as follows:
The floor numbering starts with floor 1 at I/O1 of the NWIO36/NWIO236, NWIOD6 PCB in the lowest position (NWIOD6 #1 in drawing above). Only if supported by the connected elevator control (currently only Miconic TX-GC2), a floor numbering offset can be given using the DC Offset hexadecimal switch on the LONCPI PCB: Switch Position 0 1 2 ... A ... C
Floor Configuration
• •
The floor number of the connected call button is increased by one for every additional I/O (increasing I/O numbers from 1 to 6) on a specific NWIO36/NWIO236, NWIOD6 PCB For the step from I/O6 of an NWIO36/NWIO236, NWIOD6 PCB to I/O1 of the next higher NWIO36/NWIO236, NWIOD6 PCB the floor number is also increased by one.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Starting Floor 1 11 21 ... 101 ... 121
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Note This sequence must be strictly obeyed. When skipping a large number of floors, the corresponding NWIOD6 PCBs must be installed anyway. Feature Express Zones •
•
BIB
Rule For express zones, which are within the 30 floor range of an individual LONCPI PCB, see the floor configuration rules above For express zones, which go beyond the 30 floor range of an individual LONCPI PCB, a second LONCPI PCB with the corresponding floor offset must be used (only possible, if supported by the specific elevator control).
For BIB, the following basic configuration rules apply: Feature Physical Configuration
Rule
Box assembly: • Every box contains one LONCUB PCB for connection to the LON bus. • Maximum 4 NWRIO41 PCBs with configurable I/Os (each one implementing a function) can be connected using a NeuroWire bus system • The box is assembled according to the ordered functions. Sequence of BIB PCBs: • The LONCUB PCB (connection to the LON bus in the hoistway) is always placed on top • The maximum 4 NWRIO41 PCBs for the individual BIB functions are interconnected and connected to LONCUB on the SPI bus.
BIB LONCUB
NWRIO41 #1
NWRIO41 #2
NWRIO41 #3
NWRIO41 #4
Floor Configuration
A BIB with floor dependent BMKs is configured as follows. • The floor numbering starts on the uppermost NWRIO41 (#1 in drawing above) with the floor number, which is set on the LONCUB PCB. • The floor number is increased by one for every additional NWRIO41 PCB. • Attention: Do not mix floor dependent and other BMK types in the same BIB. For floor configuration with the two rotary switches HIGH/LOW, the following rules apply: • The setting is a decimal number and starts at the lowest floor with 01. Example for floor 25: HIGH = 2 (corresponds to 20), LOW = 5 • Settings of switch HIGH for values higher than 99 are: • HIGH = A for 10 (corresponds to 100) • HIGH = B for 11 (corresponds to 110) • HIGH = C for 12 (corresponds to 120).
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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DIB
There is one Door Interface Box DIB required per access side.
VIB
There is a floor range limitation of 40 floors (floors -9 to 30) for the Voice Interface Box VIB.
VSB for Critical I/Os
If there is only 1 contact for a critical I/O available in a multiplex system, the VSB PCB (Voltage Switch Board) must be used for redundant wiring to two elevators.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Summary
4
System Architecture
4.1
Landing Interface Module LIM
The landing interface module LIM is required for connection of landing fixtures with parallel wired I/Os (buttons, switches, lamps, indicators, buzzers) to a control system with LON bus wiring in the hoistway. A LIM box contains one PCB, depending on connected parallel landing elements, which is wired to the LON bus for connection with the control. Note Always try to use only one LIM PCB, which is able to connect all fixture elements on the respective landing. If lift and group bus are separate, lift and group functions must not be configured using the same LIM PCB.
• • Interface PCBs
The LIM box, located in the hoistway, contains one of the following components (selection depends on elements, which are to be connected): PCB LONDGI LONDGIO LONIO32 LONIO2 LONIOC3
Usage Mode1 Direction indicator and gong Not applicable Direction indicator and gong and For buttons: Mode A only standard call buttons for PI, KA, KS Standard call buttons for PI, KA, KS Mode A only Mode B only Mode A and Mode B possible. PCB with 3 configurable I/Os The mode can be set for the whole board only (not for individual I/Os). All settings for mode switch and mode jumper blocks must be the same. For buttons: Mode A only
LONIOC5
PCB with 5 configurable I/Os
LONPGIO
Position indicator and gong and standard call buttons for PI, KA, KS Position indicator and gong Not applicable
LONPII
1) 'Mode A' and 'Mode B' are used for 4-wire connections (Mode B, used in most fixtures) and for 3-wire connections (Mode A).
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Wiring Overview
The following figure, which can also be found as label in the LIM cover, shows the respective wiring schematics for the I/O connectors on the LIM PCBs:
*
*
Note For exact wiring instructions and switch settings, see the installation specific schematic diagrams.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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4.2
COP Interface Module CIM
Summary
This section describes details on the components of the COP Interface Module CIM and the possible connections and settings of the CIM PCBs.
Interface PCBs
All COP elements are parallel wired to the COP Interface Module (CIM). The CIM box, located on the car roof, contains the following components: Amount Selection Usage Rule LONCPI Commission Base PCB with base (always) functions and LON interface NWIO36 0 - 7 per LONCPI PCB with 6 I/Os for car calls including NWIO236 (depending on number of car calls acknowledge NWIOD6 on COP) NWIOC3 0 - 13 per LONCPI PCB with 3 configurable (depending on I/Os I/Os on COP and on number of connected NWIO36/NWIO236, NWIOD6 PCBs) PCB
Mode1
Not applicable Mode A only Mode A only Mode B only Mode A and Mode B possible. The mode can be set for the whole board only (not for individual I/Os). All settings for mode switch and mode jumper blocks must be the same.
1) 'Mode A' and 'Mode B' are used for 4-wire connections (Mode B, used in most fixtures) and for 3-wire connections (Mode A).
Note See 'Electrical Dispo' for details on configuration.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Wiring Overview
The following figure, which can also be found as label in the CIM cover, shows the respective wiring schematics for the NWIOC3 and NWIOD6 I/Os, and also for the connectors DAG and ICS on LONCPI:
*
*
Note For exact wiring instructions and switch settings, see the installation specific schematic diagrams.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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4.3 Summary
Building Interface Box BIB
The Building Interface Box BIB is used to connect building options to controls with LON data connection in the hoistway or in the machine room. Note For MX-GC up to release 3 only: Separate BIBs must be used for lift and group related options.
Interface PCBs
All building options are parallel wired to Building Interface Boxes (BIB), located in the hoistway or (depending on elevator control) in the machine room. A BIB contains the following components: PCB LONCUB NWRIO41
Amount Usage Selection Rule 1 PCB with base functions and LON interface (always) 1-4 One PCB with 4 I/Os per building option (depending on number of building options)
Note See 'Electrical Dispo' for details on configuration.
4.4
Door Interface Box DIB
Summary
The Door Interface Box DIB is used to connect parallel Schindler and third party doors to controls with LON data connection on the car.
Interface PCB
Parallel doors are wired to the Door Interface Box (DIB), located on the car. Main component of the DIB is the LONDIM interface PCB: Amount Usage Selection Rule LONDIM 1 per access side PCB with door control functions and LON interface (always) For a specific installation, the DIB is equipped with door specific options and wiring. PCB
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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4.5
Voice Interface Box VIB
Summary
The Voice Interface Box VIB is a voice in car solution for LON bus. It consists of a generic voice engine with standardized UART slave interface, a Multi Media Card containing the available languages and basic setup, and a LON interface PCB with standardized UART master interface.
Interface PCBs
The Voice Interface Box (VIB) is located in the car. It contains the following components: PCB LONVE VCA
4.6 Summary
Amount Selection Rule 1 (always) 1 (always)
Usage
PCB with LON and UART master interface PCB with voice synthesizer and UART slave interface
Critical I/Os with and without VSB PCB
If an I/O has to be considered as critical for secure operation, the I/O must be executed as specified below: Feature NC Contacts TAB Monitoring TAB Deactivation Redundant Group Wiring Galvanic Separation
Simplex Yes Yes Yes
N/A1 N/A1
Multiplex Description Yes Normally closed contacts must be used Yes TAB monitoring must be activated Yes Deactivation of TAB must be possible for maintenance (SMLCD) Yes Wiring must be redundant (I/O connected to two elevators in the group) Yes I/Os to the two elevators must be galvanic separated
1) N/A = Not applicable to simplex elevator, refers to group wiring
NC Contacts
Contacts for critical I/Os must be executed as NC (normally closed) contacts in order to monitor wire breaks. This will detect sleeping errors (for example by broken wires) in the elevator system.
TAB Monitoring
The control software monitors critical I/Os to achieve controlled termination in case of errors. If a bus node with critical I/O is lost, the elevator function TAB (Technical Out-ofService) brings the elevator out of operation in a controlled way. This event is reported to the ErrorLog and to Servitel. Note TAB monitoring only works for nodes, which have been frozen in the configuration as reference for monitoring.
Service Visit
For diagnostics and maintenance purposes, TAB monitoring can be disabled using the SMLCD command Service Visit. Caution Always switch off service visit mode using the SMLCD command Service Visit after diagnostics/maintenance work is finished.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Multiplex Wiring
Only for multiplex elevators (not applicable for simplex), critical I/Os must be connected as follows: Feature Redundant Group Wiring Galvanic Separation
Description Wiring of critical I/Os must be redundant (I/O connected to first and last elevator of the group) to ensure continuous operation I/Os to the two elevators must be galvanic separated to prevent ground loops Inputs with 2 Contacts If inputs with 2 contacts (for example 2-layer switches) are used for the critical I/Os, no additional measures are required Inputs with 1 Contact If there is only 1 contact available for the critical I/O (input with 2 contacts not possible), the VSB PCB (Voltage Switch Board) must be used. Input with 2 Contacts
The following figure shows the wiring of a 2-layer key switch for the critical I/O. The layers are separately connected to 2 PCBs (may be LONIOC3/5 in hoistway or NWRIO41 in BIB), which are attached to the 2 different LON bus systems:
This is the standard method, which does not require additional measures.
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Input with 1 Contact
The following figure shows the wiring of a 1-layer key switch for the critical I/O. This contact is connected to 2 PCBs (may be LONIOC3/5 in hoistway or NWRIO41 in BIB), which are attached to the 2 different LON bus systems via a VSB PCB, which also ensures continuous power supply:
This implementation ensures that: • The nodes are connected to a powered bus system with relay controlled, automatic switch-over to the other one, if the first one loses power. • The network connection is permanent to both landing bus systems. • There is a galvanic insulation between the bus systems and the I/O via the transmission modules of the LON nodes. Caution: Mode A for LONIOC3/5 The LONIOC3/5 PCBs must always be used in Mode A (3-wire connections) for critical I/Os connected via VSB PCBs.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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4.7
Safety Bridging PCB LONUESK 1
Summary
For disconnection and bypassing of certain safety contacts a dedicated LON PCB LONUESK 1 with a unique BMK set and critical I/Os, has been developed. The PCB connects the safety circuit and LON bus wiring.
I/Os
The PCB has two outputs (for example: RUESG and RUESG1), each driving a safety relay and two inputs (for example: IRUESG and IRUESG1) to read the relay contact feedback. The outputs and the inputs are controlled using the SPI chip select CS1~ (IO6 of the Neuron Chip 3120) according to the NWSIO functional model.
NWSIO Functional Model
NWSIO (NeuroWire Safety Input Output) is used to monitor or control safety relevant inputs and outputs. To set the function sets a hardwired code is required to ensure that the code value cannot change during operation (no switches allowed). Bit 15..12 11
Read NW-Identifier = 0100 1 = unused input HIGH level
10
1 = unused input HIGH level
0 = input LOW level (for example: IRUESG1) 1 = input HIGH level (for example: IRUESG1) 8 0 = input LOW level (for example: RUESG1) 1 = input HIGH level (for example: RUESG1) 7 (MSbit) fix function set code = 1111 1110 9
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Write
No effect 0 = unused output inactive 1 = unused output active 0 = unused output inactive 1 = unused output active 0 = RUESG1 relay inactive (for example: RUESG1) 1 = RUESG1 relay active (for example: RUESG1) 0 = relay inactive (for example: RUESG) 1 = relay active (for example: RUESG) No effect
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Functional Diagram
Controller LON Node
Safety Chain
Connector "LON"
Connectors (for example SKS1, SKS2)
LON Node FFT10A
Neuron Chip 3120
Service Switch
Safety Relays (for example RUESG, RUESG1) I/Os (for example RUESG, RUESG1 IRUESG, IRUESG2)
Service LED Application LED
Shift Register Identifier
PCB ID
Safety Chain (for example pit contacts)
Shift Registers
LONUESK 1.Q
Component Overview
• • • • • • •
Safety relays (for example: RUESG and RUESG1) Safety circuit connectors (for example: SKS1 and SKS2) type Wago 3 poles, male, straight, 5.0 mm pitch 1 LON connector named LON type Wago 4 poles, male, right angle, 3.5 mm pitch LON Node with FTT10A and Neuron chip (3120) with the factory SW LOC2002 Shift register to read the PCB Identifier 2 Outputs and 2 Inputs read and write using the SPI and controlled by the LONCUS + NWSIO model programmed on the Neuron chip 3120 Application LED and Service LED and push button
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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5
Components
Note The PCB descriptions in this chapter only contain a basic description of floor settings. See 'Electrical Dispo' for more details.
5.1
PCBs for LIM
5.1.1 LONDGI PCB Overview
LONDGI is a LON interface PCB to parallel LIPs with further travel indicators and gong.
Item 1 24V APPL DAG GA Floor Number LAB LON LWD/LWU SERVICE SZ1/SZ2 VOL PCB Description
Feature PCB Name Location LON Interface
Description Pin 1 of respective connector LED for indicating availability of +24VDC power supply LED for indicating status of LON application and communication Connector for further travel indicator and gong (loudspeaker) Connector for gong (loudspeaker) Switches for setting floor number (2 rotary switches for LOW and HIGH digit) LED for indicating activity of out-of-service lamp Connector for LON bus (in figure: at right edge of PCB) LEDs for indicating activity of further travel down/up lamp Push button service pin and LED for LON communication test Switch for setting access side Potentiometer for setting gong volume Description LONDGI = LON Direction Indicator and Gong Interface In LIM box in hoistway behind LIP The serial signals from the LON bus are converted into signals for parallel LIPs with direction indicator and gong interface.
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Connectors
Connector DAG
Pin Layout
• •
• •
GA
Switches
Switch Description Floor Number Floor number for PCB (2 rotary switches High/Low)
SZ1/SZ2 (Hoistway Entrance) Other Elements
Element VOL
GA: loudspeaker (for example for gong) • Analog output • Required speaker: 8 Ω, 0.5 W (for example ID. No. 291770)
Pos 0-C
Hoistway access side for PCB
SZ1/2
Description Potentiometer for setting of gong volume
-
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Function LW-U/D: further travel indicator up/down Loudspeaker (for example for gong) • Analog output • Required speaker: 8 Ω, 0.5 W (for example ID. No. 291770) LAB: out-of-service indicator
Remarks The setting is always a decimal number and starts at the lowest floor with 01. Example for floor 25: • High = 2 • Low = 5 None
Pos
Remarks
None
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5.1.2 LONDGIO and LONPGIO PCBs Overview
LONDGIO and LONPGIO are two variants based on the same PCB layout. They are LON interface PCBs to parallel LOPs with call buttons including acknowledge using 3-wire connections (mode A) and to: • parallel LIPs with further travel or direction indicators and gong (LONDGIO) • parallel LIPs with position indicators, further travel or direction indicators and gong (LONPGIO).
Item 1 24V
Description Pin 1 of respective connector LED for indicating availability of +24VDC power supply
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Item APPL Buzzer DAG DE-U/-D
Description LED for indicating status of LON application and communication Connector for digital buzzer Connector for further travel indicator and gong (loudspeaker) Connector for call button upwards/downwards and LED for indicating, if corresponding input contact (call button UP/DOWN) is closed (3-wire connection, mode A) DE-U/-D ack LEDs for indicating, if corresponding outputs are active (acknowledge lamp UP/DOWN) Floor Number Switches for setting floor number (2 rotary switches for LOW and HIGH digit) Gray/Binary Switch for setting, if Gray or Binary code is used (LONPGIO only) (settings G and B) Gray Inversion Switch for setting inverse of Gray code (LONPGIO only) (settings OFF and ON) ICS Connector for position indicator (LONPGIO only) Hoist. Entr. Switch for setting access side (settings SZ1 and SZ2) LAB LED for indicating activity of out-of-service lamp LON Connector for LON bus LS Connector for gong (loudspeaker) LW-U/-D LEDs for indicating activity of further travel up/down lamp LW/LR Switch for setting direction indicator mode (settings LW and LR) SERV LED for LON communication test Service Push button service pin Volume Potentiometer for setting gong volume (LONDGIO only) Note LONDGIO and LONPGIO are only applicable for buttons/lamps with 3-wire connections (mode A). PCB Description
Feature PCB Name
Description LONDGIO = LON Direction Indicator and Gong and Input/Output LONPGIO = LON Position Indicator and Gong and Input/Output In LIM box in hoistway The signals from parallel LOPs/LIPs with position/direction indicator and gong interface are converted into serial signals for the LON bus.
Location LON Interface
Connectors
Connector Buzzer
Pin Layout P0 Switch (on/off)
1 2
Function Digital buzzer
•
DAG
•
DE-U/-D *
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
LW-U/D: further travel indicator up/down LAB: out-of-service indicator
DE-U/-D: call buttons up/down (3-wire connection, mode A, including acknowledge)
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Connector ICS (LONPGIO only)
Pin Layout
Function ICSSB/G: position indicator (Signals for bits 0-6)
LS: loudspeaker (for example for gong) • Analog output • Required speaker: 8 Ω, 0.5 W (for example ID. No. 291770)
LS
* Pins internally connected Switches
Switch Description Floor Number Floor number for PCB (2 rotary switches High/Low)
Gray/Binary (LONPGIO only) Gray Inversion (LONPGIO only) Hoist. Entr. LW/LR
Other Elements
Element Volume
Remarks The setting is always a decimal number and starts at the lowest floor with 01. Example for floor 25: • High = 2 • Low = 5 None
Gray Code or Binary code for position indicator
G/B
Inverse function for Gray code
ON/ OFF
None
Hoistway access side for PCB Travel indicator mode
SZ1/2 LW/LR
None • LW: Further-travel direction • LR: Travel direction
Description Setting of gong volume
-
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Pos 0-C
Pos
Remarks
None
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5.1.3 LONIO2 PCB Overview
LONIO2 is a LON interface PCB to parallel LOPs with call buttons including acknowledge using 4-wire connections (mode B).
Item 1 24V APPL DOWN Floor Number Hoist. Entr. In LON Out SERVICE UP
Description Pin 1 of respective connector LED for indicating availability of +24VDC power supply LED for indicating status of LON application and communication Connector for call button downwards (4-wire connection, mode B) Switches for setting floor number (2 rotary switches for LOW and HIGH digit) Switch for setting access side (settings SZ1 and SZ2) LEDs for indicating, if corresponding input contact (call button UP/DOWN) is closed Connector for LON bus (in figure: at right edge of PCB) LEDs for indicating, if corresponding output contact (acknowledge lamp UP/DOWN) is closed Push button service pin and LED for LON communication test Connector for call button upwards (4-wire connection, mode B)
Note LONIO2 is only applicable for buttons/lamps with 4-wire connections (mode B). Use the LONIO32 PCB for LOPs with elements using 3-wire connections (mode A). PCB Description
Feature PCB Name Location LON Interface
Description LONIO2 = LON Input and Output for 4-wire call buttons (2 buttons: up/down) In LIM box in hoistway behind LOP • The signals from parallel LOPs with 2 call buttons (up/down) are converted into serial signals for the LON bus. • Serial acknowledge signals received from the control via LON bus are converted into parallel signals for the acknowledge lamps in the LOP.
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Connectors
Switches
Connector UP/DOWN
Pin Layout
Switch Description Floor Number Floor number for PCB (2 rotary switches High/Low)
Hoist. Entr.
Hoistway access side for PCB
Function DE-U/-D: call buttons up/down (4-wire connection, mode B, including acknowledge)
Pos 0-C
SZ1/2
Remarks The setting is always a decimal number and starts at the lowest floor with 01. Example for floor 25: • High = 2 • Low = 5 None
5.1.4 LONIO32 PCB Overview
LONIO32 is a LON interface PCB to parallel LOPs with call buttons including acknowledge using 3-wire connections (mode A).
Item 1 24V APPL DOWN Floor Number Hoist. Entr. In LON Out SERVICE UP
Description Pin 1 of respective connector LED for indicating availability of +24VDC power supply LED for indicating status of LON application and communication Connector for call button downwards (3-wire connection, mode A) Switches for setting floor number (2 rotary switches for LOW and HIGH digit) Switch for setting access side (settings SZ1 and SZ2) LEDs for indicating, if corresponding input contact (call button UP/DOWN) is closed Connector for LON bus (in figure: at right edge of PCB) LEDs for indicating, if corresponding output contact (acknowledge lamp UP/DOWN) is closed Push button service pin and LED for LON communication test Connector for call button upwards (3-wire connection, mode A)
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Note LONIO32 is only applicable for buttons/lamps with 3-wire connections (mode A). Use the LONIO2 PCB for LOPs with elements using 4-wire connections (mode B). PCB Description
Feature PCB Name
Description LONIO2 = LON Input and Output for 3-wire call buttons (2 buttons: up/down) In LIM box in hoistway behind LOP • The signals from parallel LOPs with 2 call buttons (up/down) are converted into serial signals for the LON bus. • Serial acknowledge signals received from the control via LON bus are converted into parallel signals for the acknowledge lamps in the LOP.
Location LON Interface
Connectors
Connector UP/DOWN
Pin Layout *
Function DE-U/-D: call buttons up/down (3-wire connection, mode A, including acknowledge)
* Pins internally connected Switches
Switch Description Floor Number Floor number for PCB (2 rotary switches High/Low)
Hoist. Entr.
Hoistway access side for PCB
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Pos 0-C
SZ1/2
Remarks The setting is always a decimal number and starts at the lowest floor with 01. Example for floor 25: • High = 2 • Low = 5 None
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5.1.5 LONIOC3 and LONIOC5 PCBs Overview
LONIOC3 and LONIOC5 are LON interface PCBs with 3 (LONIOC3) or 5 (LONIOC5) configurable I/Os for LOP elements using 3-wire connections (mode A) or 4-wire connections (mode B).
LONIOC3 PCB
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
LONIOC5 PCB
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Item 1 24V A/B APPL BMK Floor Number Hoist. Entr. IN IO1-3 (for LONIOC3) IO1-5 (for LONIOC5) Inversion LON Mode OUT Service PCB Description
Feature PCB Name Location LON Interface Mode Setting
Description Pin 1 of respective connector LED for indicating availability of +24VDC power supply Jumper blocks for mode setting (one jumper block per I/O with settings A and B) LED for indicating status of LON application and communication Switches for configuring element function (2 rotary switches per I/O for LOW and HIGH byte) Switches for setting floor number (2 rotary switches for LOW and HIGH digit) Switch for setting access side (settings SZ1 and SZ2) LEDs for indicating, if corresponding input is active
Connectors for LOP elements Switches for inversion of input signals (one switch per I/O line with settings OFF and ON) Connector for LON bus (in figure: at left edge of PCB) Switch for mode setting (settings A and B) LEDs for indicating, if corresponding output is active Push button service pin and LED for LON communication test Description • LONIOC3 = LON Input and Output Configurable for 3 Elements • LONIOC5 = LON Input and Output Configurable for 5 Elements In LIM box in hoistway behind LOP The signals from parallel landing I/Os are converted into serial signals for the LON bus. The PCB can be used for elements using 3-wire connections (mode A) or 4-wire connections (mode B). All elements must be same mode.
Caution: Mode A for Critical I/Os The LONIOC3/5 PCBs must always be used in Mode A (3-wire connections) for critical I/Os connected via VSB PCBs.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Connectors
Connector IO1-3 (for LONIOC3)
Pin Layout
Function Configurable I/Os
*
IO1-5 (for LONIOC3)
Button Mode A
Button Mode B *
Switch Mode A
Switch Mode B
Lamp * Pins internally connected Switches
Switch BMK1
Description BMK function according to the label on the PCB or to the installation wiring diagram (2 rotary switches High/Low per I/O)
Floor Number Floor number for PCB (2 rotary switches High/Low)
Hoist. Entr. Inversion
Mode
Pos 0-F
0-C
Hoistway access side for PCB Inversion of the normal behavior (1 switch per I/O)
SZ1/2 ON/ OFF
Wiring mode (A: 3-wire elements, B: 4-wire elements)
A/B
Remarks The setting is always a hexadecimal number. Example: Fire Operation JBF: • High = 6 • Low = 3 The setting is always a decimal number and starts at the lowest floor with 01. Example for floor 25: • High = 2 • Low = 5 None Examples for inversion ON: • JBF (NC) -> NO • JDNF (NO) -> NC Settings for all mode switches and mode jumper blocks on PCB must be identical.
1) Use BMK settings according to installation specific schematic diagram. See also note below for BMK values
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Note BMK Values See 'Rotary Code Settings' for a list of relevant BMKs. Jumpers
Element A/B
Description Pos All of the three jumper blocks A/B either have to be plugged in same position “A“ or “B“ (different voltage supply for the three I/Os), corresponding to setting of switch “Mode“ (1 jumper block per I/O with settings A for 3-wire elements or B for 4-wire elements)
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Remarks Settings for all mode switches and mode jumper blocks on PCB must be identical.
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5.1.6 LONPII PCB Overview
LONPII is a LON interface PCB to parallel LIPs with position indicators, further travel indicators and gong.
Item 1 24V APPL Gray/Binary DAG
Description Pin 1 of respective connector LED for indicating availability of +24VDC power supply LED for indicating status of LON application and communication Switch for setting, if Gray or binary code is used (settings G and B) Connector for direction indicator and gong (loudspeaker)
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Item Fire Mode GA H/L Hoist. Entr. ICS ICS0-4 Inversion LAB LON LWD/LWU SERVICE VOLUME PCB Description
Feature PCB Name Location LON Interface
Description Switch for setting out-of-service display mode (settings OFF and ON) Connector for gong (loudspeaker) Switches for setting floor number (2 rotary switches for LOW and HIGH digit) Switch for setting access side (settings SZ1 and SZ2) Connector for position indicator LEDs for indicating activity of position indicator signals Switch for setting inverse of Gray or binary code (settings OFF and ON) LED for indicating activity of out-of-service lamp Connector for LON bus (in figure: at left edge of PCB) LEDs for indicating activity of further travel down/up lamp Push button service pin and LED for LON communication test Potentiometer for setting gong volume Description LONPII = LON Position Indicator Interface In LIM box in hoistway behind LIP The serial signals from the LON bus are converted into signals for parallel LIPs with position/direction indicator and gong interface.
Note LONPII can be used for installations with maximum 32 floors (only 5 address bits available). Connectors
Connector DAG
Pin Layout
• •
• GA
ICS
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Function LW-U/D: further travel indicator up/down Loudspeaker (for example for gong) • Analog output • Required speaker: 8 Ω, 0.5 W (for example ID. No. 291770) LAB: out-of-service indicator
GA: loudspeaker (for example for gong) • Analog output • Required speaker: 8 Ω, 0.5 W (for example ID. No. 291770) ICSSB/G: position indicator (Signals for bits 0-4)
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Switches
Switch Fire Mode
Description Pos Out-of-service display mode: ON/ OFF • OFF: If Lift is not in status “Normal“, LAB is visible • ON: With the following special modes the actual car position is still visible: JBF, JNFF, JRVC Floor Number Floor number for PCB 0-C (2 rotary switches High/Low)
Gray/Binary Gray Code or binary code for position indicator Hoist. Entr. Hoistway access side for PCB Inversion Inverse function for Gray or binary code Selector Selector (ON) or Position (OFF) signals Other Elements
Element VOLUME
Description Potentiometer for setting of gong volume
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
G/B SZ1/2 ON/ OFF ON/ OFF
Remarks
None
The setting is always a decimal number and starts at the lowest floor with 01. Example for floor 25: • High = 2 • Low = 5 None None None None
Pos
-
Remarks
None
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5.2
PCBs for CIM
5.2.1 LONCPI PCB Overview
LONCPI is a LON interface PCB to parallel COPs with integrated COP base functions.
Item -
1 24V 24V NSG Appl Blink Enable DA DAG DC Offset
Description SPI connectors for NW PCBs (not for NWDY, which uses Display connector) (2 connectors without designation at bottom of PCB) Pin 1 of respective connector LED for indicating availability of +24VDC power supply Connector for +24VDC emergency power supply output LED for indicating status of LON application and communication Switch for setting of blinking acknowledgement (settings ON and OFF) Connector for push button alarm Connector for further travel or direction indicator and gong (loudspeaker) Rotary switch for floor offset
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Item Display DT-O/S
Gray binary Gray inversion Hoist. Entr. ICS ICS0-6 KLC LL-X LNC LONTC
LW-D/U LR-D/U Service VOL
Description Connector for SPI connection to NWDY PCB Connectors for door open/close buttons Switches for setting DT-O/S mode (settings NO and NC) Switch for setting ICS mode (settings G and B) Switch for setting inverse of Gray and binary code (settings OFF and ON) Switch for setting access side (settings SZ1 and SZ2) Connector for position indicator LEDs for indicating activity of position indicator signals Connector for car light sensor Connector for overload indicator Connector for emergency light car 2 connectors for LON bus car: • To car interface box (for first COP) or from previous COP (if available) • To next COP (if available) LEDs for indicating activity of further travel down/up lamp LEDs for indicating activity of direction down/up lamp Push button service pin and LED for LON communication test Potentiometer for setting gong volume
Note See 'Electrical Dispo' for details on configuration. PCB Description
Feature PCB Name Location LON Interface COP Base Functions
Connectors
Connector 24V NSG DA
1 2 1 2 3 4
Description LONCPI = LON Car Operating Panel Interface In CIM box on car or integrated in COP The serial signals from the LON bus are converted into signals for parallel COPs. LONCPI contains connectors for standard COP elements, for example for • Several indicators (position, further travel, direction, overload, ...) • Standard buttons (door open/close, alarm) • Support for emergency light car Pin Layout P02 (emergency supply) Ground P02 (emergency supply) LNC output DA input signal Ground
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Function
NSG: emergency supply output
DA: push button alarm
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Connector DAG
Display DT-O
DT-S
Pin Layout
10-pin pre-wired 1 Not connected 2 Not connected 3 P0 (24 VDC) 4 DT-O input 1 Not connected 2 Not connected 3 P0 (24 VDC) 4 DT-S input
LL-X
LNC LONTC (2 ×)
(2 ×) Switches
1 Not connected 2 Not connected 3 P0 (24 VDC) 4 L_sens input 1 P0 (24 VDC) 2 LL-X (overload) 3 Not connected 4 Not connected 1 P02 (emergency supply) 2 LNC output 8-pin pre-wired
10-pin pre-wired
Switch Description Blink enable Activation of blinking car call acknowledge lamps (for COPs without position indicator)
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
DT-O: door open button
DT-S: door close button ICSFB/G: position indicator (Signals for bits 0-6)
ICS
KLC
Function LW-U/D: further travel indicator up/down • LR-U/D: travel direction indicator up/down • Loudspeaker (for example for gong) • Analog output • Required speaker: 8 Ω, 0.5 W (for example ID. No. 291770) SPI connection to NWDY PCB
•
KLC: light sensor input
LL-X: overload output LNC: emergency light output LONTC: LON connections to car interface box (for first COP) and to PCBs of other COPs (connected in series), if applicable SPI connections to NW PCBs
Pos ON/OFF
Remarks
None
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Switch DC Offset
DT-O DT-S Gray/binary Gray inversion Hoist. Entr. Other Elements
Element VOLUME
Description Pos Determines starting floor for 0-C sequence of floors served by this LONCPI PCB (currently only used in Miconic TX-GC2)
DT-O with normally open or normally closed contacts DT-S with normally open or normally closed contacts Gray Code or binary code for position indicator Inverse function for Gray or binary code Access side for PCB Description Potentiometer for setting of gong volume
NO/NC
Remarks 0: starts at floor 1 1: starts at floor 11 2: starts at floor 21 ... A: starts at floor 101 ... C: starts at floor 121 None
NO/NC
None
G/B
None
ON/OFF
None
SZ1/2
None
Pos
-
Remarks
None
5.2.2 NWIOC3 PCB Overview
NWIOC3 is a NeuroWire interface PCB with 3 configurable I/Os for COP elements using 3wire connections (mode A) or 4-wire connections (mode B).
Item 1 A/B BMK IN Inversion IO1-3 Mode OUT Power SPI IN/OUT
Description Pin 1 of respective connector Jumper blocks for mode setting (one jumper block per I/O with settings A and B) Switches for configuring element function (2 rotary switches per I/O for LOW and HIGH byte) LEDs for indicating, if corresponding input is active Switches for inversion of input signals (one switch per I/O line with settings OFF and ON) Connectors for COP elements Switch for mode setting (settings A and B) LEDs for indicating, if corresponding output is active Connectors for PCB power (in and out) Connectors for NeuroWire bus
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Note See 'Electrical Dispo' for details on configuration. PCB Description
Feature PCB Name Location SPI Bus Base Functions
Description NWIOC3 = NeuroWire Input and Output Configurable for 3 Elements In CIM box on car or integrated in COP Designed for usage in a NeuroWire chain connected to a LONCPI PCB The PCB can be used for elements using 3-wire connections (mode A) or 4-wire connections (mode B). All elements must be same mode.
Connectors
Connector I/O1-3
Pin Layout
Function
*
Button Mode A
Button Mode B *
Configurable I/Os
Switch Mode A
Switch Mode B
* Pins internally connected Switches
Switch BMK1 I/O1-3
Inversion I/O1-3
Position 0-F
Description BMK function according to the label on the PCB or to the installation wiring diagram (2 rotary switches High/Low per I/O)
ON/OFF
Inversion of the normal behavior
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Remarks The setting is always a hexadecimal number. For example for reservation JRVC (hex. 3B): • 3= High • B= Low None
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Switch Mode
Position A/B
Description Wiring mode (A: 3 wires, B: 4 wires)
Remarks All settings for mode switch and mode jumper blocks must be the same.
1) Use BMK settings according to installation specific schematic diagram. See also note below for BMK values
Note BMK Values See 'Rotary Code Settings' for a list of relevant BMKs. Jumpers
Jumper I/O1-3
Position A/B
Description Remarks All of the three jumper blocks All settings for mode switch and mode jumper either have to be plugged in blocks must be the same. same position "A" or "B" (different voltage supply for the three I/Os), corresponding to setting of switch "Mode"
5.2.3 NWIO36/NWIO236 and NWIOD6 PCBs Overview
The NWIO36/NWIO236, NWIOD6 PCBs contain I/Os for call buttons including acknowledge (NWIO36/NWIO236 for buttons mode A and NWIOD6 for buttons mode B).
NWIO36 PCB
NWIO236
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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NWIOD6 PCB
Item 1 IN IO1-6 OUT Power SPI-IN/-OUT
Description Pin 1 of respective connector LEDs for indicating, if corresponding input is active Connectors for COP elements LEDs for indicating, if corresponding output is active Connectors for PCB power (in and out) Connectors for NeuroWire bus
Note See 'Electrical Dispo' for details on configuration. Connectors
Connector I/O1-6
Pin Layout
Function I/Os 1-6 for call buttons
*
Button Mode A (NWIO36/NWIO236 only)
Button Mode B (NWIOD6 only) * Pins internally connected
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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5.3
PCBs for BIB
5.3.1 LONCUB PCB Overview
The LONCUB PCB connects the BIB to the LON bus and has a NeuroWire interface for connection to the NWRIO41 PCBs.
Item 1 24V ACCESS SIDE APPL DISPLAY Floor Number LON OUT SERV SERVICE PCB Description
Feature PCB Name Location LON Interface SPI Bus
Description Pin 1 of respective connector LED for indicating availability of +24VDC power supply Switch for setting access side (settings SZ1 and SZ2) LED for indicating status of LON application and communication Not used Switches for setting floor number (2 rotary switches for LOW and HIGH digit) Connector for LON bus SPI connector for NeuroWire PCBs LED for LON communication test Push button service pin Description LONCUB = LON Controller Unit Big In BIB box in hoistway The signals from the NeuroWire bus are converted into signals for the LON bus. Designed for connection of a chain of NeuroWire PCBs (NWRIO41)
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Connectors
Connector LON OUT
Switches
Switch ACCESS SIDE FLOOR NUMBER
Function Connector for LON bus (standard wiring) Connector for chain of 1-4 NWRIO41 PCBs Description Hoistway access side for PCB
Pos SZ1/2
Floor number for PCB (2 rotary switches High/Low)
0-C
Remarks
None The setting is always a decimal number and starts at the lowest floor with 01. Example for floor 25: • High = 2 • Low = 5
5.3.2 NWRIO41 and NWRIO4 PCBs Note: NWRIO4 phased out, do not use with VSB The NWRIO41 is the fully compatible redesign of the NWRIO4. Except that the NWRIO4 must not be used in connection with a VSB PCB for parallel wiring of critical I/Os. Thus: • Always use NWRIO41 for wiring of critical I/Os to a VSB PCB. • Replacement of NWRIO4 with NWRIO41 is only required for wiring of critical I/Os to a VSB PCB.
The physical layout, connectors and switches are identical between the two PCBs (NWRIO41 descriptions below also apply to NWRIO4). Overview
The NWRIO41 PCB serves as interfaces between external signals and the LONCUB LON node in the BIB.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Item 1 BMK IN1-4 OUT1-4 PCB Description
Feature PCB Name Location I/O SPI Bus
Connectors
Connector IN1-4 OUT1-4 SPI
Switches
Switch HIGH/ LOW
Description SPI connectors for NeuroWire bus (in and out) (connectors on top and bottom left of PCB) Pin 1 of respective connector Switches for BMK code (2 rotary switches for LOW and HIGH) Connector for input 1-4 Connector for output 1-4 Description NWRIO41 = Neuro Wire Relay Inputs/Outputs 4 channels, revised version 1 In BIB box in hoistway The signals from parallel building I/Os are converted into serial signals for the NeuroWire bus. Designed for connection in a chain of NeuroWire PCBs Function Connector for maximum 4 external input signals to NWRIO41 Connector for maximum 4 external output signals from NWRIO41 Connector to LONCUB (for first NWRIO41) and to the other NWRIO41 PCBs in BIB Description BMK Setting for I/O (2 rotary switches)
Pos 0-F
Remarks -
Note BMK Values See 'Rotary Code Settings' for a list of relevant BMKs.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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5.4 Overview
LONDIM PCB for DIB
The LONDIM PCB is the main component of the DIB with interfaces to LON and to the doors.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Item 400 V (Male) POWT LONT SKT
Description Power supply input for 400 VAC doors (option for 400 VAC operated doors) Power supply input for 230 VAC doors LON connection to door Door safety circuit Connectors to Car Interface Box
Item 400 V (2 x female) 230 V (2x) DRET JHC1 JHCT JRET KSPT KT KTC KTHMT R4 R5 R6 R8 REP RPHT RT
Description Power supply output for 400 VAC doors Power supply output for 230 VAC doors Signals DVRT, DRET-O/S, RET Safety JHC1 Safety + signal JHCT, Power 230V Signal JHCT Signal KSPT Signals KET-O/S, KSKB Safety KTC Signal KTHMT Output RMGH Output RV Output RSPT-A Spare Signals REP Signals RPHT Signals RT-O, RT-S, RVRT Connectors to Doors
Connectors
Connector POWT
Type Male
JHCT
Female
230 V (2 pieces)
Female
400 V
Male
400 V (2 pieces)
Female
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Pin Number 1 2 3 1 2 3 4 5 6 7 8 1 2 3 1 2 3 4
Line Name L1 PE L2 or N JHC1 JHCT-out +24V +24V-JHCT L1 L1-out L2 or N L2 or N-out L1-out PE L2 or N-out L1-T L2-T L3-T PE
1 2 3 4
L1-T L2-T L3-T PE
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Power Supply Connectors (WAGO 7.5 mm pitch)
Connector SKT
Type Male
KTC
Female
JHC1
Female
Pin Number 1 2 3 4 5 1 2 3
Line Name KTC-in KTC-out PE JHTC-in JHTC-out KTC-in PE KTC-out
1 2
JHTC-in JHC1
Safety Circuit Connectors (WAGO 5.0 mm pitch)
Connector LONT
Type Male
JRET
Male
KT
Male
KTHMH
Male
RT
Male
R4
Male
R5
Male
R6
Male
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Pin Number 1 2 3 4 1 2
Line Name DataA DataB +24 V 0V +24V-JHCT +24V-T(N_JHCT)
1 2 3 4 5 6 1 2 1 2 3 4 5 6 7 8 1 2 3 4 1 2 3 4 1 2 3 4
+24V N_KET-O +24V N_KET-S +24V N_KSKB +24V N_KTHMT +24V +24V-T 0V COMMON-R1/2/3 COMMON-R1/2/3 R1 NO R2 NO R3 NO +24V-T 0V R4 C R4 NO +24V-T 0V R5 C R5 NO +24V-T 0V R6 C R6 NO
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Connector R8
Type Male
RPHT
Male
REP
Male
DRET
Male
Pin Number 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 5 6 7 8 9 10
Line Name +24V-T 0V R8 C R8 NO +24V 0V +24V RPTH +24V 0V +24V REP +24V 0V R7 C R7 NO DRET-O DVRT DRET-S SPARE-IN1 SPARE-IN2 SPARE-IN3
Logic Circuit Connectors (WAGO 3.5 mm pitch)
Switches
Switch Door Type
Description Pos Door type according to the 0-F installation specific schematic diagram (2 rotary switches High/Low, see table below for description of door types and corresponding settings) Access Side Hoistway access side for PCB SZ1/2
Remarks The setting is always a hexadecimal number. Example: Type 41 for QKS 8 • 4= High • 1= Low
None
The table below shows the generic settings for the door type switches. Setting High Low 0 1 0 0 0 0 0
2 3 4 5 6
Software Model
1 (automatic) 2 (automatic) 3 (automatic) 4 (automatic) 5 (automatic) 6 (automatic)
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Door Types
• QKS9-1/10-1 • QKS9VF/10VF Reserved LUST QKS6 Varidor 20/30/50 (parallel) LUST QKS6 (with VRVRT) QKS9/10
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Setting High Low 4 1
Software Model
10 (automatic / semi automatic)
4
2
11 (automatic / semi automatic)
4
3
12 (automatic / semi automatic)
4
4
13 (automatic / semi automatic)
4
5
14 (automatic / semi automatic)
8
1
20 (semi automatic)
8
2
21 (semi automatic)
8
3
22 (semi automatic)
B B
1 2
40 (special) 41 (special)
Door Types
•
Automatic: • QKS8 • QKS11 • Varidor10E • LUST QKS8 • LUST QKS11 • Wittur Mosquito • Semi automatic: • QK11 • Wittur Mosquito HT • Automatic: • Wittur AC • Slycma AC • Slycma VF • TAT2/TAF2 (Schlieren) • Semi automatic: • Wittur AC HT • Automatic: • Varidor10F • LUST QKS9 • QKS8 with Holding Brake • QKS11 with Holding Brake • LUST QKS8 with Holding Brake • LUST QKS11 with Holding Brake • Semi automatic: • QK11 with holding brake • Automatic: • Fermator VVVF-3 • Wittur RCF1 • Wittur Flash • Sematic Encoder System • Siemens AT 25 • Semi automatic: • Fermator VVVF-3 HT • Automatic: • Wittur TVLD • Sematic F28/F29 • Wittur DC (RCRE24/RC48) • Semi automatic: • Wittur DC (RCRE24/RC48) HT • QK8 • QK8F • QK11 • Kiekert TMS-2 • Slycma PLYCAB2 • Varidor 20 HT • Fermator folding door • Peignen folding door A30/45 with Progard S A30/45 with Car Door
Note To see which of these doors are currently supported for use with a specific elevator control, see section 'Peripherals and Interfaces' of the TABA/Dispo document for the respective elevator control.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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5.5
PCBs for VIB
5.5.1 LONVE PCB Overview
The LONVE PCB connects the VIB to the LON bus and has a connector for piggyback connection to the VCA PCB.
Item 1 24V APPL DEBUG LON RESET SERV SERVICE UART WDOG PCB Description
Feature PCB Name Location LON Interface UART
Description Pin 1 of respective connector LED for indicating availability of +24VDC power supply LED for indicating status of LON application and communication LED for debug monitoring Connector for LON bus Push button for manual reset LED for LON communication test Push button service pin UART master connector for piggyback connection to VCA PCB LED watchdog Description LONVE = LON Voice Engine interface In VIB box in car or in COP Voice commands from the control, sent via LON bus, are converted into UART character command strings UART master for serial connection to the VCA PCB
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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5.5.2 VCA PCB Overview
The VCA PCB is a voice speech engine PCB containing the voice synthesizer for usage in the VIB.
A B C D U
DWNLD 3V3
_
+ D
RESET
Top
(MMC)
(UART)
8Ω
Bottom
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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Item 8Ω
(MMC) (UART)
3V3 A B C D DWNLD RESET SET/U/D/+/-
PCB Description
Feature PCB Name Location Audio Decoder Multimedia Card UART Speaker Support
System Limitations Power Supply
Description
• •
JST connector Maximum 1 W @ 8 Ω, maximum 4 Vp (inscription on PCB bottom) • 3.5 mm jack connector for active speaker • Maximum 1.75 Vp @ 4.7 kΩ and maximum 100 pF impedance (inscription on PCB bottom) Multi Media Card with language information (no inscription on PCB) UART slave connector for piggyback connection to LONVE PCB or COP (no inscription on PCB) LED for power supply 3.3 V (logics supply) LED for volume set acknowledge LED for balance set acknowledge LED for treble set acknowledge LED for bass set acknowledge Connector for download of latest firmware (for maintenance purposes only) Push button for manual reset Joystick (four directions tactile switch) with the following functions: • Push: set function (indicated by LEDs A/B/C/D) • U: selection up • D: selection down • +: increment regulation parameter • -: decrement regulation parameter Description VCA = Voice Announcer In VIB box or in COP The PCB contains an MP3 audio decoder A multimedia card interface guarantees usage of standard MMCs UART slave for serial connection to the LONVE PCB The following types of speakers are supported: • 8 Ω speaker, max 1 Watt average power • Active speaker • Floor range -9 to 30 • 50 tracks per language 24 VDC, maximum 0.8 A
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
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5.6 Overview
VSB PCB for Critical I/Os
The VSB PCB is required for redundant and galvanic separated connection of critical I/Os with one contact to two elevators in multiplex systems.
Connector LONBOARD1 LONBOARD2 LONBUS1 LONBUS2
Description Connector to LON board on first elevator Connector to LON board on second elevator Connector to LON bus on first elevator Connector to LON bus on second elevator
Caution: Mode A for Critical I/Os The LONIOC3/5 PCBs must always be used in Mode A (3-wire connections) for critical I/Os connected via VSB PCBs. PCB Description
Feature PCB Name Location Switch Functionality
Description Voltage Switching Board In plastic box in hoistway Ensures that • The nodes are always connected to a powered bus system with relay controlled, automatic switch-over to the other one, if the first one loses power. • The network connection is permanent to both landing bus systems. • There is a galvanic insulation between the bus systems and the I/O via the transmission modules of the LON nodes
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
K 604401
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5.7 Overview
LONUESK 1 PCB
The LON interface PCB LONUESK 1 PCB supports additional functions and functionalities with an unique BMK set and critical I/Os.
LONUESK 1
Description
• • •
The LED "24V" indicates whether the board supply voltage 24 V (P0) is present or not. "The LED "APPL" (Application), when flashing, indicates that the system is operating properly (watchdog LED). The LED "Service" is lit either when the Service push-button is pressed or during loading of new software on the Neuron chip 3120.
Function Silkscreen HW Relevant Type Color 24 V Supply 24V Active when 24V is available Straight Green Application Appl. Flashing of this LED indicates that the Straight Green system is operating properly. Service Service Is lit either when the service push-button is Straight Green pressed or during loading of new software. Push Buttons
Function Service Pin
Silkscreen HW Relevant Service Push button service pin for LON communication test
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Type Straight
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Electrical Data
Input Voltage [V] P0 Safety circuit
Voltage [V] 24 24 ... 60
Tolerance ±20% Regulated
Maximum Current [mA] 150 300
Input Voltage
Voltage Generated on Board [V] Vcc Vref
Voltage [V]
Tolerance
Maximum Current [mA]
5 0.6
±5% ±6%
50 2.5
Voltage Generated on Board
Mechanical Data
PCB LONUESK 1
Dimensions [mm] Length Width Height 200 60 18
Mounted in
LIM (Landing Interface Module; ID. No. 55500406 / 07)
Connectors Pin No. 1 2 3 4
Signal Name
Voltage [V]
Tolerances
Current [mA]
Data B Data A +24V M0
24 0
±20% -
150 150
Safety Relevant No No No No
24VDC Power Supply / LON Connector
Pin No. 1 2 3
Voltage [V] 24 ... 60 24 ... 60 24 ... 60
Tolerances regulated regulated regulated
Current [mA] 100 100 100
Safety Relevant Yes Yes Yes
Safety Circuit Connector
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
K 604401
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Summary
6
Rotary Code Settings
6.1
BMK Single Codes for Zone EUAP
This section gives an overview of the relevant BMK single codes for EUAP, which are used for configuring landing or car options. There are two representations available: • A table with the BMKs sorted by hexadecimal code • A table with the BMKs sorted by function designation. Critical I/Os are indicated in both tables.
BMKs by Code
Code 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F 20 21 22 23 24 25 26
BMK Function Not used DC JDC DGSC DFDC DCH DDF DCW-U DCW-D JDFDC JDNF KL-V KL-X KL-M RESIL1 RESIL2 RESIL3 DE-U DE-D JDE-U JDE-D JDNFG JTTC JBFFG JBFFGH1 JBFFGH2 JBFH1 JBFH2 RESIG1 RESIG2 RESIG3 RESIG4 RESIG5 JBFL KL-H GAC Not used Not used Not used
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical
N N N N N N N N N N N Safety N N N N N N N N N N Y Y Y Y Y N N N N N Y N N -
Code 80 81 82 83 84 85 86 87 88 89 8A 8B 8C 8D 8E 8F 90 91 92 93 94 95 96 97 98 99 9A 9B 9C 9D 9E 9F A0 A1 A2 A3 A4 A5 A6
BMK Function RESIG13 ASIO7 BUZZER1 LAB JBFLH1 LA LAB-E LB LBFC LBFC1 LBFSG LC LCH LCW-U LCW-D LDF LDFC LEF LGEB LGS LJNO-REL LKLB LLIC LLI-U LLI-D LNF LNFC LNFF LNOC LRC-U LRC-D JBFLH2 LSPZSC LTP-O LVFC LW-U LW-D LWC-U LWC-D
K 604401
Critical N N N N Y N N N N N N N N N N N N N N N N N N N N N N N N N N Y N N N N N N N
03 72/93
Code 27 28 29 2A 2B 2C 2D 2E 2F 30 31 32 33 34 35 36 37 38 39 3A 3B 3C 3D 3E 3F 40 41 42 43 44 45 46 47 48 49 4A 4B 4C 4D 4E 4F 50 51 52 53 54 55 56 57
BMK Function DDFLI DLI DLI-U DLI-D JPF DSPCP DT-O DT-S DZHT-S KTHS JAB JBFF JBFF-A JKLBL JLC JLI JNFE JNFF JNFF-S JNO JRV JRVM10 JRVP JRVPM10 JSDCL DDFG JSPZSC JVEC JVSPCL KBFF KGEB KKL KLC KTDC KTDCM10 KTHMF KWSG KWSG-A RFEF RFNO KBFEH DAC KBFEL ASIO1 ASIO2 ASIO8 ASIO9 ASIO10 JHC1
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical N N N N N N N N N N N Y N N N N N Y Y N N N N N N N N N N Y Y N N N N Y N N N N Y N Y N N N N N Y
Code A7 A8 A9 AA AB AC AD AE AF B0 B1 B2 B3 B4 B5 B6 B7 B8 B9 BA BB BC BD BE BF C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 CA CB CC CD CE CF D0 D1 D2 D3 D4 D5 D6 D7
BMK Function LL-X LZH MGTC RBF RBFF RE-A REFE1 REFEH1 REFEH2 REFEH3 RIB RKTHMH JSPCG KBFM RNFF RRE-A RSM Not used Not used SUMC SUMM SUMS SUMSG GA LBFF ASIO11 ASIO12 ASIO13 ASIO14 VRA-A Not used Not used KKLC RESOL1 RESOL2 RESOL3 RESOL4 RESOL5 LBF LBFM LEB LSPC LSPC-E LSPS LSPS-E REFEG RFBE SUMP ASIO15
K 604401
Critical N N N N N N N N N N N N N Y N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N
03 73/93
Code 58 59 5A 5B 5C 5D 5E 5F 60 61 62 63 64 65 66 67 68 69 6A 6B 6C 6D 6E 6F 70 71 72 73 74 75 76 77 78 79 7A 7B 7C 7D 7E 7F BMKs by Function
BMK Function KKSA JNFFH1 JNFFH2 DH RESIL11 RESIL12 RESIL13 RESIL14 RESIL15 DEB-A DEVP JBF JBF-A JDEV JKLB JSBP ASIO3 JSPE JSDC ASIO4 JSPZS JUG JVSPC JZH KBF KBFH1 KBFH2 KBFH3 KEB KTHM RFEFG RFNOG RNO RSPE KCL JSST ASIO6 JSDE RESIG11 RESIG12
BMK Function ASIO1 ASIO10 ASIO11 ASIO12 ASIO13 ASIO14 ASIO15
Code
52 56 C0 C1 C2 C3 D7
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical Y Y Y N N N N N N N N Y N N N N N N N N N N N N Y Y Y Y Y N N N Y N N N N N N N
Code D8 D9 DA DB DC DD DE DF E0 E1 E2 E3 E4 E5 E6 E7 E8 E9 EA EB EC ED EE EF F0 F1 F2 F3 F4 F5 F6 F7 F8 F9 FA FB FC FD FE FF
BMK Function ASIO16 LBFH1 LBFH2 RPHTS RESOG11 RESOG12 RESOG13 RESOG14 RESOG15 LL-V Not used Not used Not used Not used Not used Not used JBFFH1 JBFFH2 LTAB KASG LAS LBA1 LBA2 LGS1 JNFFP Not used Not used Not used Not used Not used KGS-A LGS2 KUSSA KBA KKBA GA-D GA-U KGS1 KGS2 Not used
Critical N N N N N N N
BMK Function KL-V KL-X KLC KTDC KTDCM10 KTHM KTHMF
Code
0B 0C 47 48 49 75 4A
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Critical N N N Y N N N N N N Y Y N N N N N N N N N N N N N N Y Y Critical N Safety N N N N Y
03 74/93
BMK Function ASIO16 ASIO2 ASIO3 ASIO4 ASIO6 ASIO7 ASIO8 ASIO9 BUZZER1 DAC DC DCH DCW-D DCW-U DDF DDFG DDFLI DEB-A DE-D DE-U DEVP DFDC DGSC DH DLI DLI-D DLI-U DSPCP DT-O DT-S DZHT-S GA GA-D GA-U GAC JAB JBF JBF-A JBFF JBFF-A JBFFG JBFFGH1 JBFFGH2 JBFFH1 JBFFH2 JBFH1 JBFH2 JBFL JBFLH1
Code D8 53 68 6B 7C 81 54 55 82 50 01 05 08 07 06 40 27 61 12 11 62 04 03 5B 28 2A 29 2C 2D 2E 2F BE FB FC 23 31 63 64 32 33 17 18 19 E8 E9 1A 1B 21 84
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Y N Y N Y Y Y Y Y Y Y Y Y
BMK Function KTHS KUSSA KWSG KWSG-A LA LAB LAB-E LAS LB LBA1 LBA2 LBF LBFC LBFC1 LBFF LBFM LBFSG LCH LC LCW-D LCW-U LDF LDFC LEB LEF LBFH1 LBFH2 LGEB LGS LGS1 LGS2 LJNO_REL LKLB LL-V LLI-D LLI-U LLIC LNF LNFC LNFF LNOC LRC-D LRC-U LSPC LSPC-E LSPS LSPS-E LTAB LTP-O
Code 30 F8 4B 4C 85 83 86 EC LB ED EE CD 88 89 BF CE 8A 8C 8B 8E 8D 8F 90 CF 91 D9 DA 92 93 EF F7 94 95 E1 98 97 96 99 9A 9B 9C 9E 9D D0 D1 D2 D3 EA A1
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Critical N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N
03 75/93
BMK Function JBFLH2 JDC JDE-D JDE-U JDEV JDFDC JDNF JDNFG JHC1 JKLB JKLBL JLC JLI JNFE JNFF JNFFH1 JNFFH2 JNFFP JNFF-S JNO JPF JRV JRVM10 JRVP JRVPM10 JSBP JSDC JSDCL JSDE JSPCG JSPE JSPZS JSPZSC JSST JTTC JUG JVEC JVSPC JVSPCL JZH KASG KBA KBF KBFEH KBFEL KBFF KBFH1 KBFH2 KBFH3
Code 9F 02 14 13 65 09 0A 15 57 66 34 35 36 37 38 59 5A F0 39 3A 2B 3B 3C 3D 3E 67 JSDC 3F 7D B3 69 6C 41 7B 16 6D 42 6E 43 6F EB F9 70 4F 51 44 71 72 73
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical Y N N N N N N N Y N N N N N Y Y Y N Y N N N N N N N N N N N N N N N N N N N N N N N Y Y Y Y Y Y Y
BMK Function LVFC LW-D LW-U LWC-D LWC-U LL-X LZH MGTC RBF RBFF RE-A REFE1 REFEG REFEH1 REFEH2 REFEH3 RESIG1 RESIG11 RESIG12 RESIG13 RESIG2 RESIG3 RESIG4 RESIG5 RESIL1 RESIL11 RESIL12 RESIL13 RESIL14 RESIL15 RESIL2 RESIL3 RESOG11 RESOG12 RESOG13 RESOG14 RESOG15 RESOL1 RESOL2 RESOL3 RESOL4 RESOL5 RFBE RFEF RFEFG RFNO RFNOG RIB RKTHMH
Code A2 A4 A3 A6 A5 A7 A8 A9 AA AB AC AD D4 AE AF B0 1C 7E 7F 80 1D 1E 1F 20 0E 5C 5D 5E 5F 60 0F 10 DC DD DE DF E0 C8 C9 CA CB CC D5 4D 76 4E 77 B1 B2
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Critical N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N
03 76/93
BMK Function KBFM KCL KEB KGEB KGS1 KGS2 KGS-A KKBA KKLC KKL KKSA KL-H KL-M
6.2 Summary
Code B4 7A 74 45 FD FE F6 FA C7 46 58 22 0D
Critical Y N Y Y Y Y N N N N Y N N
BMK Function RNFF RNO RPHTS RRE-A RSM RSPE SUMC SUMM SUMS SUMSG SUMP VLSPZSC VRA-A
Code B5 78 DB B6 B7 79 BA BB BC BD D6 A0 C4
Critical N Y Y N N N N N N N N N N
BMK Single Codes for Zone NA
This section gives an overview of the relevant BMK single codes for NA, which are used for configuring landing or car options. There are two representations available: • A table with the BMKs sorted by hexadecimal code • A table with the BMKs sorted by function designation. Critical I/Os are indicated in both tables.
BMKs by Code
Code 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 10 11 12 13 14 15 16 17 18 19
BMK Function Not used DC JDC JLDOB Not used JBFF-A DDF DCW-U DCW-D KCL JDNF KL-V KL-X KL-M RESIL1 RESIL2 RESIL3 DE-U DE-D JDE-U JDE-D JDNFG JLDOBA JBFFG JBFFGH1 JBFFGH2
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical
N N N N N N N N N N N Safety N N N N N N N N N N Y Y Y
Code 80 81 82 83 84 85 86 87 88 89 8A 8B 8C 8D 8E 8F 90 91 92 93 94 95 96 97 98 99
BMK Function RESIG13 ASIO7 BUZZER1 LAB JBFLH1 LA LAB-E LB LBFC LBFC1 Not used LC VLBFSW LCW-U LCW-D LDF LDFC LEF LGEB LEMT LFFS LKLB LLIC LLI-U LLI-D LNF
K 604401
Critical N N N N Y N N N N N N N N N N N N N N N N N N N N
03 77/93
Code 1A 1B 1C 1D 1E 1F 20 21 22 23 24 25 26 27 28 29 2A 2B 2C 2D 2E 2F 30 31 32 33 34 35 36 37 38 39 3A 3B 3C 3D 3E 3F 40 41 42 43 44 45 46 47 48 49 4A
BMK Function JBFH1 JBFH2 RESIG1 RESIG2 RESIG3 RESIG4 RESIG5 DHB KSKHW DNFFCNCL DRECC-D DRECC-U KSKHWA DDFLI DLI DLI-U DLI-D JPF Not used DT-O DT-S JACCEN JACCENCK JAB Not used Not used JKLBL JLC JLI JBAC JNFF JBACPROG Not used JRV JRVM10 JRVP JRVPM10 JSDCL JBFL JSPZSC JVEC JVSPC JEMT KGEB KKL KLC KTDC KTDCM10 KTHBRM
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical Y Y N N N N N N Y N N N Y N N N N N N N N N N N N N N Y N N N N N N Y N N N N Y N N N N N
Code 9A 9B 9C 9D 9E 9F A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 AA AB AC AD AE AF B0 B1 B2 B3 B4 B5 B6 B7 B8 B9 BA BB BC BD BE BF C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 CA
BMK Function LNFC VLNF2 LNOC LRC-U LRC-D JBFLH2 LSPZSC LTP-O Not used LW-U LW-D LWC-U LWC-D LL-X Not used MGTC SHUNT Not used RE-A LRNO1 LRNO2 RNODNCE RNODNCE2 RIB RKTHMH Not used KBFM RNODNCEX RRE-A RSM RNODNCEX2 RNODNCR Not used Not used Not used Not used GA RNODNCR2 ASIO11 ASIO12 RNODNCRX RNODNCRX2 Not used Not used JEMTC KKLC RESOL1 RESOL2 RESOL3
K 604401
Critical N N N N N Y N N N N N N N N N N N N N N N N Y N N N N N N N N N N N N N N N N
03 78/93
Code 4B 4C 4D 4E 4F 50 51 52 53 54 55 56 57 58 59 5A 5B 5C 5D 5E 5F 60 61 62 63 64 65 66 67 68 69 6A 6B 6C 6D 6E 6F 70 71 72 73 74 75 76 77 78 79 7A 7B
BMK Function Not used JNFFHOLD JNFFOFF JRECC KBFEH DAC KBFEL ASIO1 ASIO2 ASIO8 ASIO9 ASIO10 JHC1 KKSA JNFFH1 JNFFH2 DH RESIL11 RESIL12 RESIL13 RESIL14 RESIL15 EQRESET JRECCCHECK JBF JBF-A JSKBYP JKLB Not used ASIO3 JSPE JSDC KSKBLDG KSKLBY JUG KSKMR KSKMRA RJBF RJBFOFF RNO2 RNOKNCE KEB KTHM RNOKNCE2 RNOKNCEX RNO RNOKNCEX2 RNOKNCR JSST
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical N N N Y N Y N N N N N Y Y Y Y N N N N N N N N Y N N N N N N Y Y N Y Y Y N Y N Y N N N Y N N N
Code CB CC CD CE CF D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 DA DB DC DD DE DF E0 E1 E2 E3 E4 E5 E6 E7 E8 E9 EA EB EC ED EE EF F0 F1 F2 F3 F4 F5 F6 F7 F8 F9 FA FB
BMK Function RESOL4 RESOL5 LBF LBYP LEB LSPC LSPC-E LSPS LSPS-E Not used RFBE Not used Not used Not used LBFH1 LBFH2 RPHTS RESOG11 RESOG12 RESOG13 RESOG14 RESOG15 LL-V REFE1 Not used Not used Not used Not used Not used JBFFH1 JBFFH2 LTAB KASG LAS LBA1 LBA2 LGS1 JVSPCL RNOKNCRX RNOKNCRX2 RNOPRW RNOPRW2 Not used KGS-A LGS2 KUSSA KBA KKBA Not used
K 604401
Critical N N N N N N N N N N N N Y N N N N N N N Y Y N N N N N N N N N Y Y N N N N N -
03 79/93
Code 7C 7D 7E 7F BMKs by Function
BMK Function ASIO6 RNOKNCR2 RESIG11 RESIG12
BMK Function ASIO1 ASIO10 ASIO11 ASIO12 ASIO2 ASIO3 ASIO6 ASIO7 ASIO8 ASIO9 BUZZER1 DAC DC DCW-D DCW-U DDF DDFLI DE-D DE-U DH DHB DLI DLI-D DLI-U DNFFCNCL DRECC-D DRECC-U DT-O DT-S EQRESET GA JAB JACCEN JACCENCK JBAC JBACPROG JBF JBF-A JBFF-A JBFFG JBFFGH1 JBFFGH2 JBFFH1
Code 52 56 C0 C1 53 68 7C 81 54 55 82 50 01 08 07 06 27 12 11 5B 21 28 2A 29 23 24 25 2D 2E 61 BE 31 2F 30 37 39 63 64 05 17 18 19 E8
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical N N N N
Code FC FD FE FF
BMK Function JSDE KGS1 KGS2 Not used
Critical N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Y N N Y Y Y Y
BMK Function KTHM KTHBRM KUSSA LA LAB LAB-E LAS LB LBA1 LBA2 LBF LBFC LBFC1 LBFH1 LBFH2 LBYP LC LCW-D LCW-U LDF LDFC LEB LEF LEMT LFFS LGEB LGS1 LGS2 LKLB LL-X LL-V LLIC LLI-D LLI-U LNF LNFC LNOC LRC-D LRC-U LRNO1 LRNO2 LSPS LSPC-E
Code 75 4A F8 85 83 86 EC 87 ED EE CD 88 89 D9 DA CE 8B 8E 8D 8F 90 CF 91 93 94 92 EF F7 95 A7 E1 96 98 97 99 9A 9C 9E 9D AD AE D2 D1
K 604401
Critical N Y Y Critical N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N
03 80/93
BMK Function JBFFH2 JBFH1 JBFH2 JBFL JBFLH1 JBFLH2 JDC JDE-D JDE-U JDNF JDNFG JEMT JEMTC JHC1 JKLB JKLBL JLC JLDOBA JLI JNFF JNFFH1 JNFFH2 JNFFHOLD JNFFOFF JPF JRECC JRECCCHECK JRV JRVM10 JRVP JRVPM10 JSDC JSDCL JSDE JSKBYP JSPE JSPZSC JSST JUG JVEC JVSPC JVSPCL KASG KBA KBFEH KBFEL KBFM KCL KEB
Code E9 1A 1B 40 84 9F 02 14 13 0A 15 44 C6 57 66 34 35 16 36 38 59 5A 4C 4D 2B 4E 62 3B 3C 3D 3E 6A 3F FC 65 69 41 7B 6D 42 43 F0 EB F9 4F 51 B4 09 74
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Critical Y Y Y Y Y Y N N N N N N N Y N N N N N Y Y Y N N N N N N N N N N N N N N N N N N N N N N Y Y Y N Y
BMK Function LSPS-E LSPZSC LTAB LTP-O LW-D LW-U LWC-D LWC-U MGTC RE-A REFE1 RESIG1 RESIG11 RESIG12 RESIG13 RESIG2 RESIG3 RESIG4 RESIG5 RESIL1 RESIL11 RESIL12 RESIL13 RESIL14 RESIL15 RESIL2 RESIL3 RESOG11 RESOG12 RESOG13 RESOG14 RESOG15 RESOL1 RESOL2 RESOL3 RESOL4 RESOL5 RFBE RIB RJBF RJBFOFF RKTHMH RNO RNO2 RNODNCE RNODNCE2 RNODNCEX RNODNCEX2 RNODNCR
Code D3 A0 EA A1 A4 A3 A6 A5 A9 AC E2 1C 7E 7F 80 1D 1E 1F 20 0E 5C 5D 5E 5F 60 0F 10 DC DD DE DF E0 C8 C9 CA CB CC D5 B1 70 71 B2 78 72 AF B0 B5 B8 B9
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Critical N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Y N N Y Y N N N N N
03 81/93
BMK Function KGEB KGS1 KGS2 KGS-A KKBA KKLC KKL KKSA KLC KL-M KL-V KL-X KSKBLDG KSKHW KSKHWA KSKLBY KSKMR KSKMRA KTDC KTDCM10
6.3 Summary
Code 45 FD FE F6 FA C7 46 58 47 0D 0B 0C 6B 22 26 6C 6E 6F 48 49
Critical Y Y Y N N N N Y N N N N Y Y Y Y Y Y N N
BMK Function RNODNCR2 RNODNCRX RNODNCRX RNOKNCE RNOKNCE2 RNOKNCEX RNOKNCEX2 RNOKNCR RNOKNCR2 RNOKNCRX RNOKNCRX2 RNOPRW RNOPRW2 RPHTS RRE-A RSM SHUNT VLBFSW VLNF2 VLSPC
Code BF C2 C3 73 76 77 79 7A 7D F1 F2 F3 F4 DB B6 B7 AA 8C 9B D0
Critical N N N N N N N N N N N Y Y Y N N N N N N
BMK Set Codes for NWRIO41 PCBs
This section gives an overview of the relevant BMK set codes, which are used for configuring building options on the NWRIO41 PCBs. There are three set code ranges, listed in three different tables: • A table with the NA set code BMKs sorted by hexadecimal code (code range 01-6F) • A table with the general set code BMKs sorted by hexadecimal code (code range 70-9F) • A table with the EUAP set code BMKs sorted by hexadecimal code (code range A0-FE) An additional table shows the BMK set codes sorted by set name.
BMKs by Code (NA)
Code 00 01
Set Name
Not used NS-SF1
02
NS-SF2
03
NS-SF1_Interlock
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
BMK Function
RNO RNOPWR RNO2 RNOPWR2 RNOKNCE RNOKNCEX RNOKNCR RNOKNCRX RNODNCE RNODNCEX RNODNCR RNODNCRX
Pin
IN1 IN2 IN1 IN2 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4
K 604401
03 82/93
Code 04
BMKs by Code (General)
Set Name NS-SF2_Interlock
05
BR_Smoke_01
06
BR_JNFF_NA
07
INS_Car
08
HAS_Car
09
EB_NA
0A
EB_NA_LI
0B
BR_Smoke_02
0C-6F
Not used
Code 70
Set Name Selec_Gray1
71
Selec_Gray2
72
Selec_Bin1
73
Selec_Bin2
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
BMK Function RNOKNCE2 RNOKNCEX2 RNOKNCR2 RNOKNCRX2 RNODNCE2 RNODNCEX2 RNODNCR2 RNODNCRX2 KSKMR KSKLBY KSKBLDG KSKMRA JNFF JNFFHOLD JNFFOFF DNFFCNCL JRECC JRECCCHECK DRECC-D DRECC-U JACCEN JACCENCK KEB KGEB EQRESET KGEB EQRESET KSKHW KSKHWA
BMK
ICSSG-0 ICSSG-1 ICSSG-2 ICSSG-3 ICSSG-4 ICSSG-5 ICSSG-6 ICSSG-7 ICSSB-0 ICSSB-1 ICSSB-2 ICSSB-3 ICSSB-4 ICSSB-5 ICSSB-6 ICSSB-7
Pin IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 IN1 IN2 IN3 IN4 IN1 IN2 IN3 IN4 IN1 IN2 IN1 IN2 IN3 IN1 IN2 IN1 IN2
Pin OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4
K 604401
03 83/93
Code 74
Set Name Floor_Gray1
75
Floor_Gray2
76
Floor_Bin1
77
Floor_Bin2
78
ResIOL_Set1
79
ResIOL_Set2
7A
ResIOL_Set3
7B
ResIOL_Set4
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
BMK
ICSFG-0 ICSFG-1 ICSFG-2 ICSFG-3 ICSFG-4 ICSFG-5 ICSFG-6 ICSFG-7 ICSFB-0 ICSFB-1 ICSFB-2 ICSFB-3 ICSFB-4 ICSFB-5 ICSFB-6 ICSFB-7 RESIL1 RESIL2 RESIL3 RESIL4 RESOL1 RESOL2 RESOL3 RESOL4 RESIL5 RESIL6 RESIL7 RESIL8 RESOL5 RESOL6 RESOL7 RESOL8 RESIL9 RESIL10 RESIL11 RESIL12 RESOL9 RESOL10 RESOL11 RESOL12 RESIL13 RESIL14 RESIL15 RESIL16 RESOL13 RESOL14 RESOL15 RESOL16
Pin OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4
K 604401
03 84/93
Code 7C
Set Name ResIOL_Set5
7D
ResIOG_Set1
7E
ResIOG_Set2
7F
ResIOG_Set3
80
ResIOG_Set4
81
ResIOG_Set5
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
BMK
RESIL17 RESIL18 RESIL19 RESIL20 RESOL17 RESOL18 RESOL19 RESOL20 RESIG1 RESIG2 RESIG3 RESIG4 RESOG1 RESOG2 RESOG3 RESOG4 RESIG5 RESIG6 RESIG7 RESIG8 RESOG5 RESOG6 RESOG7 RESOG8 RESIG9 RESIG10 RESIG11 RESIG12 RESOG9 RESOG10 RESOG11 RESOG12 RESIG13 RESIG14 RESIG15 RESIG16 RESOG13 RESOG14 RESOG15 RESOG16 RESIG17 RESIG18 RESIG19 RESIG20 RESOG17 RESOG18 RESOG19 RESOG20
Pin IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 OUT4
K 604401
03 85/93
Code 82
83
84-85 86
Set Name Voice_Gray1
Voice_Gray2
Not used Door_STATUS
87
ASIO_Set1
88
ASIO_Set2
89
ASIO_Set3
8A
ASIO_Set4
8B
ASIO_Set5
8C
ASIO_Set6
8D
ASIO_Set7
8E
ASIO_Set8
8F-9F
BMK
Pin OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4
LET-O LET-S LET-O2 LET-S2 ASIO1 ASIO2 ASIO3 ASIO4 ASIO5 ASIO6 ASIO7 ASIO8 ASIO9 ASIO10 ASIO11 ASIO12 ASIO13 ASIO14 ASIO15 ASIO16 ASIO17 ASIO18 ASIO19 ASIO20 ASIO21 ASIO22 ASIO23 ASIO24 ASIO25 ASIO26 ASIO27 ASIO28 ASIO29 ASIO30 ASIO31
OUT1 OUT2 OUT3 OUT4 IN/OUT-1 IN/OUT-2 IN/OUT-3 IN/OUT-4 IN/OUT-5 IN/OUT-6 IN/OUT-7 IN/OUT-8 IN/OUT-9 IN/OUT-10 IN/OUT-11 IN/OUT-12 IN/OUT-13 IN/OUT-14 IN/OUT-15 IN/OUT-16 IN/OUT-17 IN/OUT-18 IN/OUT-19 IN/OUT-20 IN/OUT-21 IN/OUT-22 IN/OUT-23 IN/OUT-24 IN/OUT-25 IN/OUT-26 IN/OUT-27 IN/OUT-28 IN/OUT-29 IN/OUT-30 IN/OUT-31
Not used
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
VVCSG-0 VVCSG-1 VVCSG-2 VVCSG-3 VVCSG-4 VVCSG-5 VVCSG-6 VVCT
K 604401
03 86/93
BMKs by Code (EUAP)
Code A0-C6 C7 C8 C9
Set Name
Not used BR_BE_L BR_BE_H BR_EN
CA
SO_SZ_1
CB
SO_TC_2
CC
SO_AS_3
CD
ALT_JBF_L
CE
EB_G_LI_2
CF
GSU_G_1
D0
ZH_G_LI
D1
ZH_LI
D2
GSU_G_2
D3
KBF_RNO_GUE
D4
DF1_LI
D5
DF2_G
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
BMK
KBFEL KBFEH KBFF RBFF LBFM JSO JSOP LSO LSO RSOC RSOD KSO LSO RSOF JBFLH1 JBFLH2 KGEB KEB LEB LGEB KGS1 KGS2 LGS1 LGS2 DZHT-S JZH LZH SUMP DZHT-S LZH KGS1 KGS2 KGS-A LGS1 LGS2 RAB KBF RNO RBF RE-A RIB RSM DDF LDF DDFG LDF
Pin
IN1 IN2 IN1 IN2 OUT1 OUT2 IN1 IN2 OUT1 OUT2 IN1 IN2 OUT1 OUT2 IN1 OUT1 IN1 IN2 IN3 OUT1 OUT2 IN1 IN2 IN3 OUT1 OUT2 OUT3 OUT4 IN1-n OUT1-n IN1-n OUT1-n
K 604401
03 87/93
Code D6
Set Name EB_G_LI_1
D7 D8
JBFF_G NS_FF_OUT
D9
NS_FF_LI
DA DB DC
TMX_L TMX_G ZBZS_ZBC2_L
DD
ZBZS_DF_ZBC3_G
DE
JNFF_ALT2
DF E1
KK_M10 BR_LI
E2
GUE
E3
VS
E4
VS1
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
BMK
DEB-A KEB KGEB LEB LGEB JBFFG RBFF REFE1 RNFF LAB RFEF RFNO RBFF REFE1 RNFF KTHMF KTHM JSPZSC JKLBL LSPS-E JSPZS DDFG-k JKLB LSPS-E JNFFH1 JNFFH2 LNFF RNFF KKLC REFEH1 REFEH2 REFEH3 REFEG RAB RBF RE-A RIB RSM VVCSB-0 VVCSB-1 VVCSB-2 VVCSB-3 VVCSB-4 VVCSB-5 VVCSB-6 VVCT
Pin IN1 IN2 IN3 OUT1 OUT2 IN1 OUT1 OUT2 OUT3 OUT4 IN1 IN2 OUT1 OUT2 OUT3 IN1 IN1 IN1 IN2 OUT1 IN1 IN2 IN3 OUT1 IN1 IN2 OUT1 OUT2 IN1-n OUT1 OUT2 OUT3 OUT4 IN1 OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4
K 604401
03 88/93
Code E5
JBFF_SET
Set Name
E6
JNFF_SET
E7 E8
JBF_L DF1_JAB_NS
E9
NS_FF
EA
GAST
EB
BR_GB_ALT
EC
HT
ED
EB_LI
EE EF F0 F1
Not used KK_LI JVSPCL_LI ISK1
F2
ISK2
F3
ISK3
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
JBFF JBFF-A LBFF RBFF JNFF JNFF-A LNFF RNFF JBFL DDF JAB JNO JNFE LAB LAB-E LDF RFEF RFNO RNO RBFF REFE1 RNFF REFEG DFDC LFDC LGS SUMS LBFM LBFSG SUMM SUMSG KTDCM10 MGTC KGEB LGEB
BMK
Pin IN1 IN2 OUT1 OUT2 IN1 IN2 OUT1 OUT2 IN1 IN1 IN2 IN3 IN4 OUT1 OUT2 OUT3 IN1 IN2 IN3 OUT1 OUT2 OUT3 OUT4 IN1 OUT1 OUT2 OUT3 OUT1 OUT2 OUT3 OUT4 IN1 OUT1 IN1 OUT1
KKL JVSPCL LSKT1 LSKT2 LSKT3A LSKT3B LSKT1 LSKT2A LSKT2B LSKT3 LSKT4 LSKT5
IN1-n IN1-n OUT1 OUT2 OUT3 OUT4 OUT1 OUT2 OUT3 OUT4 OUT1 OUT2
K 604401
03 89/93
Code F4
BMKs by Set Name
Set Name
F5
JBF_SET
F6
NS_G
F7
FLC_FOF
F8
NF2
F9
EB_G
FA FB FC FD FE
JSDC_G JVSPC_G JSDE_G JSST_G BR_ALT
FF
Not used
Set Name ALT_JBF_L ASIO_Set1 ASIO_Set2 ASIO_Set3 ASIO_Set4 ASIO_Set5 ASIO_Set6 ASIO_Set7 ASIO_Set8 BR_ALT BRBE_L BRBE_L BR_EN BR_G BR_GB_ALT BR_JNFF_NA BR_LI BR_Smoke_01
Pin IN1 IN2 IN3 IN4 IN1 IN2 OUT1 IN1 IN2 IN3 OUT1 IN1-n OUT1-n IN1 OUT1 IN1 IN2 OUT1 IN-n IN-n IN-n IN-n IN1 IN2 IN3 IN4 OUT1 OUT2
KBF KBF-H1 KBF-H2 KBF-H3 JBF JBF-A LBF RFEFG RFNOG RNO REFEG RSPE RFBE JDNFG JDNFG DEB-A KEB LEB JSDC JVSPC JSDE JSST JBFH1 JBFH2 JBFFGH1 JBFFGH2 LBFH1 LBFH2
Code CD 87 88 89 8A 8B 8C 8D 8E FE C7 C8 C9 F4 EB 06 E1 05
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
BMK
BR_G
Region EUAP All All All All All All All All EUAP EUAP EUAP EUAP EUAP EUAP NA EUAP NA
Set Name JBFF_SET JNFF_SET JNFF_ALT2 JSDC_G JSDE_G JSST_G JVSPC_G JVSPCL_LI KBF_RNO_GUE KK_LI KK_M10 NF2 NS_FF NS_FF_LI NS_FF_OUT NS_G NS-SF1 NS-SF1_Interlock
Code E5 E6 DE FA FC FD FB F0 D3 EF DF F8 E9 D9 D8 F6 01 03
K 604401
Region EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP EUAP NA NA
03 90/93
Set Name BR_Smoke_02 DF1_JAB_NS DF1_LI DF2_G Door_STATUS EB_G EB_G_LI_1 EB_G_LI_2 EB_LI EB_NA EB_NA_LI FLC_FOF Floor_Bin1 Floor_Bin2 Floor_Gray1 Floor_Gray2 GAST GSU_G_1 GSU_G_2 GUE HAS_Car HT INS_Car ISK1 ISK2 ISK3 JBF_L JBF_SET JBFF_G
Code 0B E8 D4 D5 86 F9 D6 CE ED 09 0A F7 76 77 74 75 EA CF D2 E2 08 EC 07 F1 F2 F3 E7 F5 D7
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
Region NA EUAP EUAP EUAP All EUAP EUAP EUAP EUAP NA NA EUAP All All All All EUAP EUAP EUAP EUAP NA EUAP NA EUAP EUAP EUAP EUAP EUAP EUAP
Set Name NS-SF2 NS-SF2_Interlock ResIOG_Set1 ResIOG_Set2 ResIOG_Set3 ResIOG_Set4 ResIOG_Set5 ResIOL_Set1 ResIOL_Set2 ResIOL_Set3 ResIOL_Set4 ResIOL_Set5 Selec_Bin1 Selec_Bin2 Selec_Gray1 Selec_Gray2 SO_SZ_1 SO_TC_2 SO_AS_3 TMX_G TMX_L Voice_Gray1 Voice_Gray2 VS VS1 ZBZS_DF_ZBC3_G ZBZS_ZBC2_L ZH_G_LI ZH_LI
Code 02 04 7D 7E 7F 80 81 78 79 7A 7B 7C 72 73 70 71 CA CB CC DB DA 82 83 E3 E4 DD DC D0 D1
K 604401
Region NA NA All All All All All All All All All All All All All All EUAP EUAP EUAP EUAP EUAP All All EUAP EUAP EUAP EUAP EUAP EUAP
03 91/93
6.4
Changing Switches on LON PCBs
Summary
Changes of the rotary codes or switches on the LON PCBs become only effective after power-up.
Procedure
Changed rotary codes and switch settings on a LON Interface PCBs will first become effective after a power cycle of this PCB. Therefore proceed as follows to change the rotary switch settings: 1) Remove PCB from power by unplugging LON connector. 2) Change rotary codes and switches on PCB. 3) Reconnect PCB to power by plugging in LON connector. 4) To become effective in the system, you must wait up to 1 minute. 5) This time can be reduced by pressing the service pin on the PCB. 6) Node status is now updated on SMLCD and CADI.
Exception
For changes on the LONCPI or one of the connected NeuronWire PCB (NWIOD6, NWIO36/NWIO236, NWIOC3) a power up is not sufficient. Changes of rotary codes and switches only become effective after a double reset of the elevator control.
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
K 604401
03 92/93
A.1 Technical Data Mechanical Data
Device LIM Box, Box for VSB CIM Box Small
Dimensions (HWD) [mm]
300 x 80 x 60
380 x 204 x 78 431.5 x 204 x 78 (with mounting brackets for horizontal mounting) CIM Box Large 640 x 204 x 78 691.5 x 204 x 78 (with mounting brackets for horizontal mounting) Building Interface Box 580 x 204 x 78 BIB 631.5 x 204 x 78 (with mounting brackets) Door Interface Box 252 x 450 x 97 DIB 272 x 490 x 78 (with mounting brackets) Voice Interface Box 150 x 123 x 61.5 VIB 150 x 162 x 61.5 (with mounting brackets) Electrical Data
Feature PCB Output Power (per Output)
PCB Audio Output
Environmental Data
Feature Operation
Transport/ Storage
Enclosures
EMC Safety
Description Maximum 0.3 A (short-circuit protected: 1.7 A) LONIOC3/LONIOC5 Typically 0.5 A, maximum 0.8 A (short-circuit protected: 1.7 A) LONPGIO/LONDGIO Buzzer: 0.05 A nominally to 0.2 A peak DAG: 1 A nom. to 12 A peak DE-U/-D: 0.25 A nominally to 1.7 A peak Gong: maximum 0.5 W @ 8 Ω, maximum 12 Vp ICS: 0.05 A nominally to 0.5 A peak VCA1/11 Loudspeaker: maximum 1 W @ 8 Ω, maximum 4 Vp Active speaker: maximum 1.75 Vp @ 4.7 kΩ and maximum 100 pF impedance
LONIO2/LONIO32
Description Ambient Operating Temperature 0 to +50 °C for hoistway Relative humidity < 95% non-condensing Pollution Degree III (IEC 60644-1) Altitude Maximum 2000 m Standards IEC 68-2-1/2/3/38 Temperature -25 to +55 °C +70 °C not more than 24h Relative humidity < 95% non-condensing Vibration 100-500 Hz/1.04 g-rms/duration 1 hour Standards MIL Std 810 E, Method 514.3 Category 1 - Basic Transportation Common Carrier Environment COP Interface Module CIM IP21 Landing Interface Module LIM IP22 Building Interface Box BIB IP21 Door Interface Box DIB IP21 Emission EN 12015:1998 Immunity EN 12016:1998 EN 81-1:1998
LON Interfaces Technical Information and Configuration Copyright © 2005 INVENTIO AG
K 604401
03 93/93
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