中文BL-6000使用说明书

SL-M6000 火灾报警控制器（联动型）调试手册（VER 1.0版本）目录第一节系统简介 (2)第二节单机配置 (4)1、JB-TB-SL-M6000火灾报警控制器单机配置及主要技术指标 (4)2、JB-TG-SL-M6000(G)火灾报警控制器单机配置及主要技术指标 (4)第三节组网说明 (6)1、主要功能特点 (6)2、布线要求 (6)3、控制器组成与系统组网图 (7)第四节开机检测 (9)1、外观检测 (9)2、安装检测 (9)3、开机运行 (9)第五节 M6000控制器的设置 (10)1、主菜单桌面 (10)2、基本设置 (11)3工厂设置 (16)第五节调试软件的使用 (19)1、回路配置 (19)2、专线配置 (22)3、总线配置 (23)4、联动设置 (24)5、保存 (25)第六节工程调试的步骤 (26)附录一本手册适用的对象 (27)适用对象 (27)第一节系统简介概述1.SL-M6000火灾报警控制器（联动型）(1)壁挂式JB-TB-SL-M6000火灾报警控制器(联动型)；(2)柜式主型JB-TG-SL-M6000火灾报警控制器（联动型）和分型JB-TG-SL-M6000/G火灾报警控制器(联动型)。

2.与控制器配套的产品(1)SL-M6100 火灾显示盘；(2)SL-M6200 气体灭火控制器；(3)西安盛赛尔电子有限公司的900系列产品，包括JTY-GD-ZM992智能光电感烟火灾探测器、JTW-BD-ZM995智能感温火灾探测器、JSKM-M900D智能输入输出模块、JSM-M900M智能输入模块、JSKM-M900C智能输出模块、J-SAP-M-M900K 手动火灾报警按钮、P2475RLZ火灾声光报警器等。

3.控制器组成及特点该控制器由以下几部分组成：主控显示盘、总线联动控制盘、专线联动控制单元、气体灭火及显示单元、探测总线模块、联网模块、消防电源及电源管理模块。

2011版 XMZ/T/B－6000系列智能数字显示控制变送仪Intelligent Digital Transmitter/Controller使 用 手 册Operation Instruction全电脑数字自动调校全开放内部参数设定万能分度号输入选择单屏大LED数码显示模拟变送输出选择多种控制模式选择XMZ/T/B-6000目录一、功能特点和技术参数 (1)二、订货选型表 (1)三、输入信号与输出信号设置 (2)四、安装接线 (4)五、面板显示说明 (5)六、功能操作说明 (5)七、常见故障 (7)八、质保 (8)附录一、XMZ/T/B-6000系列仪表整体操作框图 (9)一、功能特点和技术参数本系列仪表适用于温度、压力、液位、流量等工业过程参数的测量、显示、控制和变送输出。

1.1功能特点z 采用单片机技术设计，结合自动冷端补偿，自动稳零及非线性处理技术，确保其在全量程测 量精确性。

z 采用宽电源供电及人机操作界面，密码权限设置,输入信号故障指示。

z 万能输入信号，通过改变跳线和软件设置可适用各种不同输入信号。

z 采用标准的Modbus RTU通信协议。

z 可配置报警输出和变送功能。

z 具有仪表参数备份/恢复功能。

1.1.1输入信号z 电阻型输入信号热电阻：Pt100、Pt100.0、Pt10、Cu50、Cu100。

远传压力表：30-350Ω，信号误差可现场按键修正。

z 电偶型输入信号热电偶：K、E、B、S、R、T、J、N、Wre3-Wre25。

其它线性输入信号0-60mV以内即设即用。

z 标准信号输入0-10mA，4-20mA，0-5V，1-5V、开方信号。

其它0-100%，0-5V以内的任意线性输入信号即设即用。

z 其它特殊订制的非标输入信号1.1.2 输出特性0-10mA，4-20mA，0-5V，1-5V，0-100%隔离变送输出。

1.2.技术参数z 使用条件：环境温度：0～50℃； 相对湿度：≤90%；电源电压：AC 85V～265V（47～63Hz）或DC 24V。

®®SWITCHINGPOWER SUPPLYAUTOMATICTEST SYSTEM6000User’s Manual (中文版)保證書致茂電子股份有限公司秉持"品質第一是責任，客戶滿意是榮譽"之信念，對所製造及銷售之產品自交貨日起一年內，保證正常使用下產生故障或損壞，負責免費修復。

保證期間內，對於下列情形之一者，本公司不負免費修復責任，本公司於修復後依維修情況酌收費用：(1)非本公司或本公司正式授權代理商直接銷售之產品。

(2)因不可抗拒之災變，或可歸責於使用者未遵照操作手冊規定使用或使用人之過失，如操作不當或其他處置造成故障或損壞。

(3)非經本公司同意，擅自拆卸修理或自行改裝或加裝附屬品，造成故障或損壞。

保證期間內，故障或損壞之維修品，使用者應負責運送到本公司或本公司指定之地點，其送達之費用由使用者負擔。

修復完畢後運交使用者(限台灣地區)或其指定地點(限台灣地區)之費用由本公司負擔。

運送期間之保險由使用者自行向保險公司投保。

致茂電子股份有限公司服務專線:(02)2298-3855轉3249傳真電話:(02)2298-3596目錄1. 系統架構 (1)1.1 簡介 (1)1.2 硬體架構 (3)1.2.1 系統控制器─個人電腦及週邊設備 (4)1.2.2 輸入電源供應器 (6)1.2.3 輸出模組─Switcher Analyzer (9)1.2.4 特殊功能模組(Extended Measurement Unit) (10)1.2.5 OVP/UVP電源供應器 (10)1.3 軟體功能 (11)2. 系統安裝 (13)2.1 安裝PowerPro軟體 (13)2.2 硬體的配線與連接 (13)2.2.1 系統的外殼 (13)2.2.2 系統的硬體組成 (14)2.2.3 系統接線及方塊圖 (15)2.2.4 硬體安裝 (16)2.3 電源與接地 (17)2.4 熱氣的排散 (17)2.5 開機前的注意事項 (18)3. 一般性操作 (18)4. 測試功能 (19)4.1 重要訊息 (19)4.2 術語 (20)4.3 各項功能測試說明 (23)4.3.1 輸出入特性測試(INPUT/OUTPUT TEST) (27)4.3.2 動態特性測試(DYNAMIC TEST) (32)4.3.3 同步動態特性測試(SYNC DYNAMIC TEST) (36)4.3.4 負載效應測試(LOAD REGULATION TEST) (37)4.3.5 交叉負載效應測試(CROSS REGULATION TEST) (41)4.3.6 電源效應測試(LINE REGULATION TEST) (42)4.3.7 混合效應測試(COMBINE REGNLATION TEST) (46)4.3.8 開機測試(TURN ON & SEQUENCE TEST) (47)4.3.9 關機測試(HOLD UP & SEQUENCE TEST) (55)4.3.10 過載保護測試(OVER LOAD PROTECTION TEST─OLP) (60)4.3.11 過功率保護測試(OVER POWER PROTECTION TEST-OPP) (65)4.3.12 在線電壓調整測試(HOLD ON ADJUST TEST) (71)4.3.13 外加波形測試(EXTERNAL WA VE TEST) (74)4.3.14 靜態測試(STATIC TEST) (74)4.3.15 附加點時序測試(EXTRA TIMING TEST) (75)4.3.16 測試環境設立功能(SET UP FUNCTION) (80)4.3.17 附加量測點測試(EXTENDED MEASUREMENT TEST) (85)4.3.18 短路測試(SHORT CIRCUIT TEST) (89)4.3.19 過電壓低電壓保護測試(OVP/UVP TEST) (95)4.3.20 總效應測試(TOTAL REGULATION TEST) (102)4.3.21 斷電測試(CYCLE DROPOUT TEST) (107)4.3.22 輸入電壓極限測試(V in RAMP TEST) (111)4.3.23 輸入頻率極限測試( F in RAMP TEST ) (115)4.3.24 輸入電源擾動測試(AC NOISE CARRY THROUGH TEST) (116)4.3.25 同步動態測試2 (SYNC DYNAMIC 2) (120)5. 錯誤或提示訊息及故障排除 (121)5.1 編輯畫面時發生的錯誤或提示訊息 (121)5.2 檔案下載或程式執行時發生的錯誤訊息 (135)1.系統架構1.1簡介Chroma 6000電源供應器自動測試系統(以下簡稱ATS)為一泛用型的電源供應器自動測試系統，可測試AC/DC及DC/DC兩種型態的電源供應器。

The Aruba 6000 is a modular, full-featured wireless LAN mobility controller that aggregates up to 512 controlled Access Points (APs) and delivers mobility, centralized control, convergence services and security for wireless deployments. The Aruba 6000 is designed to support large deployments in a scaleable manner, and can be easily deployed as an overlay without any disruption to the existing wired network. The device is managed using the ArubaOS or Aruba Mobility Management System.The Aruba 6000 can be deployed as an identity-based security gateway to authenticate wired and wireless users, enforce role-based access control policies and quarantine unsafe endpoints from accessing the corporate network. Guest users can be easily and safely supported with the built-in captive portal server and advanced network services. Features that allow the Aruba 6000 to create a secure networking environment without requiring additional VPN/firewall devices include integrated site-to-site VPN, split-tunneling, ICSA-compliant stateful firewall and NAT. Site-to-site VPN can be integrated with all leading VPN concentrators to provide seamless integration into existing corporate VPNs. In addition, advanced convergence features such as Call Admission Control (CAC), voice-aware RF management and strict over-the-air QoS allow the Aruba 6000 to deliver mobile VoIP capabilities.Controller Performance and CapacityControlled APs Up to 512 Users Up to 8192 MAC addresses Up to 128,000 VLAN IP interfaces 128 Fast Ethernet ports (10/100) Up to 72 Gigabit Ethernet ports (GBIC) Up to 6 Active firewall sessions Up to 512,000 Concurrent IPSEC tunnels Up to 8,192 Firewall throughput Up to 8 Gbps Encrypted throughput (3DES & AES-CCM) Up to 7.2Gbps Wireless LAN Security and Control Features• 802.11i security (WFA certified WPA2 and WPA)• 802.1X user and machine authentication• EAP-PEAP, EAP-TLS, EAP-TTLS support• Centralized AES-CCM, TKIP and WEP encryption• 802.11i PMK caching for fast roaming applications• EAP offload for AAA server scalability and survivability• Stateful 802.1X authentication for standalone APs• MAC address, SSID and location based authentication• Per-SSID bandwidth contracts• SSID-based RADIUS server selection• Secure AP control and management over IPSEC or GRE• CAPWAP compatible and upgradeable• Distributed WLAN mode for remote AP deployments• Simultaneous centralized and distributed WLAN supportIdentity-based Security Features• Wired and wireless user authentication• Captive portal, 802.1X and MAC address authentication• Username, IP address, MAC address and encryption keybinding for strong network identity creation• Per-packet identity verification to prevent impersonation• Endpoint posture assessment, quarantine and remediation• Microsoft NAP, Cisco NAC, Symantec SSE support• RADIUS and LDAP based AAA server support• Internal user database for AAA server failover protection• Role-based authorization for eliminating excess privilege• Robust policy enforcement with stateful packet inspection• Role-based MAC/Ethertype ACLs• Per-user session accounting for usage auditing• Web-based guest enrollment with Aruba GuestConnect™• Configurable acceptable use policies for guest access • XML-based API for external captive portal integration • xSec option for wired LAN authentication and encryption (802.1X authentication, 256-bit AES-CBC encryption)Convergence Features• Voice and data on a single SSID for converged devices • Flow-based QoS using Voice Flow Classification™• SIP, Spectralink SVP, Cisco SCCP and Vocera ALGs • Strict priority queuing for over-the-air QoS• 802.11e support – WMM, U-APSD and T-SPEC• QoS policing for preventing network abuse via 802.11e • SIP authentication tracking• Diffserv marking and 802.1p support for network QoS • On-hook and off-hook VoIP client detection• Voice-aware 802.1x authentication• VoIP call admission control (CAC) using VFC• Call reservation thresholds for mobile VoIP calls• Voice-aware RF management for ensuring voice quality • Fast roaming support for ensuring mobile voice quality • SIP early media and ringing tone generation (RFC 3960)• Per-user and per-role rate limits (bandwidth contracts)Adaptive Radio Management™ (ARM) Features • Automatic channel and power settings for controlled APs • Simultaneous air monitoring and end user services• Self-healing coverage based on dynamic RF conditions • Dense deployment options for capacity optimization• AP load balancing based on number of users• AP load balancing based on bandwidth utilization• Coverage hole and RF interference detection• 802.11h support for radar detection and avoidance• Automated location detection for Active RFID tags• Built-in XML based Location API for RFID applicationsThe Aruba 6000 Mobility ControllerWireless Intrusion Protection Features• Integration with WLAN infrastructure• Simultaneous or dedicated air monitoring capabilities • Rogue AP detection and built-in location visualization • Automatic rogue, interfering and valid AP classification • Over-the-air and over-the-wire rogue AP containment • Adhoc WLAN network detection and containment • Windows client bridging and wireless bridge detection • Denial of service attack protection for APs and stations • Misconfigured standalone AP detection and containment • 3rd party AP performance monitoring and troubleshooting • Flexible attack signature creation for new WLAN attacks • EAP handshake and sequence number analysis • Valid AP impersonation detection• Frame floods, Fake AP and Airjack attack detection• ASLEAP , death broadcast, null probe response detection • Netstumbler-based network probe detectionStateful Firewall Features• Stateful packet inspection tied to user identity or ports • Location and time-of-day aware policy definition • 802.11 station awareness for WLAN firewalling• Over-the-air policy enforcement and station blacklisting • Session mirroring and per-packet logs for forensic analysis • Detailed firewall traffic logs for usage auditing • ICSA corporate firewall 4.1 compliance• Application Layer Gateway (ALG) support for SIP , SCCP , RTSP , Vocera, FTP , TFTP , PPTP• Source and destination Network Address Translation (NAT)• Dedicated flow processing hardware for high performance • TCP , ICMP denial of service attack detection and protection • Policy-based forwarding into GRE tunnels for guest traffic • External service interface for 3rd party security integration for inline anti-virus, anti-spam and content filtering apps • Heath checking and load balancing for external servicesVPN Server Features• Site-to-site VPN support for branch office deployments• Site-to-site interoperability with 3rd party VPN servers • VPN server emulation for easy integration into WLAN • L2TP/IPSEC VPN termination for Windows VPN clients • Mobile edge client shim for roaming with RSA Tokens • XAUTH/IPSEC VPN termination for 3rd Party clients • PPTP VPN termination for legacy VPN integration• RADIUS and LDAP server support for VPN authentication • PAP , CHAP , MS-CHAP and MS-CHAPv2 authentication • Hardware encryption for DES, 3DES, AES, MPPE • Secure point-to-point xSec tunnels for L2 VPNs • RFC 3706 IKE Dead Peer DetectionNetworking Features and Advanced Services• L2 and L3 switching over-the-air and over-the-wire • VLAN pooling for easy, scalable network designs • VLAN mobility for seamless L2 roaming• Proxy mobile IP and proxy DHCP for L3 roaming • Built-in DHCP server and DHCP relay• VRRP based N+1 controller redundancy (L2)• AP provisioning based N+1 controller redundancy (L3)• Wired access concentrator mode for centralized security • Etherchannel support for link redundancy • 802.1d Spanning Tree ProtocolController-based Management Features• RF Planning and AP Deployment Toolkit• Centralized AP provisioning and image management • Live coverage visualization with RF heat maps • Detailed statistics visualization for monitoring • Remote packet capture for RF troubleshooting• Interoperable with Ethereal, Airopeek and AirMagnet analyzers • Multi-controller configuration management • Location visualization and device tracking • System-wide event collection and reportingController Administration Features• Web-based user interface access over HTTP and HTTPS • Quickstart screens for easy controller configuration • CLI access using SSH, Telnet and console port• Role-based access control for restricted admin access • Authenticated access via RADIUS, LDAP or Internal DB • SNMPv3 and SNMPv2 support for controller monitoring • Standard MIBs and private enterprise MIBs• Detailed message logs with syslog event notificationController Power Supply Options • Power Consumption Max. 466 Watts per PSU • HW-PSU-200 AC power supplies deliver 200W of power• AC Input Voltage 90-132VAC, 170-264VAC • AC Input Frequency 47-63 Hz • AC input current 5A @ 110VAC • HW-PSU-400 AC power supplies deliver 400W of power • AC Input Voltage 85-264 VAC, Auto-sensing • AC Input Frequency 47-63 Hz • AC input current: 5A @ 110VACOperating Specifications and Dimensions • Operating temperature range0° to 40° C• Storage temperature range10° to 70° C • Humidity, non-condensing 5 to 95% • Height 5.75˝ (146 mm) • Width 17.4˝ (444 mm) • Depth 12.5˝ (317.5 mm) • Weight30 lbs. (unboxed)Warranty• Hardware 1 year parts/labor• Software90 daysRegulatory and Safety Compliance• FCC part 15 Class A CE • Industry Canada Class A • VCCI Class A (Japan)• EN 55022 Class A (CISPR 22 Class A), EN 61000-3,• EN 61000-4-2, EN 61000-4-3, EN 61000-4-4, • EN 61000-4-5, EN 61000-4- 6, EN 61000-4-8, • EN 61000-4-11, EN 55024, AS/NZS 3548• UL 60950• CAN/CSA 22.2 #609501322 Crossman AvenueSunnyvale, California 94089Tel: 408.227.4500 • Fax: 408.227.4550 © 2007 Aruba Networks, Inc. All rights reserved. Specifications are subject to change without notice.Ordering InformationPart number Description6000-BASE-2PSU-200 Aruba 6000 Base System (Standard Power) 6000-BASE-2PSU-400 Aruba 6000 Base System (SPOE Power)SC-48-C1 Aruba Supervisor Card I (48 AP Support)SC-128-C1 Aruba Supervisor Card I (128 AP Support)SC-256-C2 Aruba Supervisor Card II (256 AP Support)LC-2G Aruba 2xGE Line CardLC-2G24F Aruba 2xGE/24FE Line CardLC-2G24FP Aruba 2xGE/24 FE Line Card SPOELC-GBIC-T Aruba GBIC Interface Adapter - TLC-GBIC-SX Aruba GBIC Interface Adapter - SXLC-GBIC-LX Aruba GBIC Interface Adapter – LXHW-CHAS Aruba 5000 & 6000 Series Base 4-SlotChassis Excludes Fan Tray)HW-PSU-200 Aruba 5000 & 6000 Series Power Supply200 WattHW-PSU-400 Aruba 5000 & 6000 Series Power Supply400 WattHW-FT Aruba 5000 & 6000 Series ReplacementFan TrayHW-SC-LC-BLANK Aruba 5000 & 6000 Series Supervisor /Line Card Slot Blank PanelHW-PSU-BLANK Aruba 5000 & 6000 Series Power SupplyUnit Slot Blank PanelAK-5000-NA Aruba 5000 & 6000 Accessory Kit(HW Installation Guide & 19” Rack Mount Kit) HW-MNT-19 Aruba 5000 & 6000 Series Replacement19” Equipment Rack Mounting KitSC-48-C1-UG-128 Aruba Supervisor Card I System Upgrade(48 AP to 128 AP Support)LIC-SC1-SEC-48* Security Software Bundle for Supervisor Card I (48 AP License)LIC-SC1-ADV-48** Advanced Security Software Bundle forSupervisor card I (48 AP License)LIC-SC1-PEF-48 Policy Enforcement Firewall Module for Aruba Supervisor Card I (48 AP)LIC-SC1-VPN-48 VPN Server Module for Aruba Supervisor Card I (48 AP)LIC-SC1-WIP-48 Wireless Intrusion Protection Module for Aruba Supervisor Card I (48 AP)LIC-SC1-VOC-48 Voice Services Module for ArubaSupervisor Card I (48 AP)LIC-SC1-ESI-48 External Services Interface Module for Aruba Supervisor Card I (48 AP)LIC-SC1-CIM-48 Client Integrity Module for ArubaSupervisor Card I (48 AP)LIC-SC1-XSC-48 xSec Module for Aruba SupervisorCard I (48 AP)LIC-SC1-SEC* Security Software Bundle for Supervisor Card I (128 AP License)LIC-SC1-ADV** Advanced Security Software Bundle forSupervisor Card I (128 AP License)LIC-SC1-PEF Policy Enforcement Firewall Module for Aruba Supervisor Card I (128 AP)LIC-SC1-VP VPN Server Module for Aruba SupervisorCard I (128 AP)LIC-SC1-WIP Wireless Intrusion Protection Module forAruba Supervisor Card I (128 AP)LIC-SC1-VOC Voice Services Module for Aruba Supervisor Card I (128 AP)LIC-SC1-ESI External Services Interface Module for Aruba Supervisor Card I (128 AP)LIC-SC1-CIM Client Integrity Module for Aruba Supervisor Card I (128 AP)LIC-SC2-SEC* Security Software Bundle for Supervisor Card II(256 AP License)LIC-SC2-ADV** Advanced Security Software Bundle for Supervisor Card II (256 AP License)LIC-SC2-PEF Policy Enforcement Firewall Module for ArubaSupervisor Card II (256 AP)LIC-SC2-VPN VPN Server Module for Aruba Supervisor Card II (256 AP)LIC-SC2-WIP Wireless Intrusion Protection Module for ArubaSupervisor Card II (256 AP)LIC-SC2-VOC Voice Services Module for Aruba SupervisorCard II (256 AP)LIC-SC2-ESI External Services Interface Module for ArubaSupervisor Card II (256 AP)LIC-SC2-CIM Client Integrity Module for Aruba Supervisor Card II (256 AP)LIC-SC1-SEC-UG-1* Security Software for Supervisor Card I(Upgrade 48 AP to 128 AP)LIC-SC1-ADV-UG-1** Advanced Security Software for Supervisor Card I (Upgrade 48 AP to 128 AP)LIC-SC1-PEF-UG-1 Policy Enforcement Firewall for Supervisor Card I (Upgrade 48 AP to 128 AP)LIC-SC1-VPN-UG-1 VPN Server Module for Supervisor Card I(Upgrade 48 AP to 128 AP)LIC-SC1-WIP-UG-1 Wireless Intrusion Protection for Sup. Card I(Upgrade 48 AP to 128 AP)LIC-SC1-VOC-UG-1 Advanced AAA Module for Supervisor Card I(Upgrade 48 AP to 128 AP)LIC-SC1-ESI-UG-1 External Services Interface for Supervisor Card I (Upgrade 48 AP to 128 AP)LIC-SC1-CIM-UG-1 Client Integrity Module for Supervisor Card I(Upgrade 48 AP to 128 AP)LIC-1-RAP Remote Access Point License (Single AP License) LIC-4-RAP Remote Access Point License (4 AP License)LIC-6-RAP Remote Access Point License (6 AP License)LIC-8-RAP Remote Access Point License (8 AP License)LIC-16-RAP Remote Access Point License (16 AP License)LIC-24-RAP Remote Access Point License (24 AP License)LIC-48-RAP Remote Access Point License (48 AP License)LIC-64-RAP Remote Access Point License (64 AP License)LIC-128-RAP Remote Access Point License (128 AP License) LIC-256-RAP Remote Access Point License (256 AP License)*Includes Policy Enforcement Firewall (PEF) and Wireless IntrusionProtection (WIP)**Includes Policy Enforcement Firewall (PEF), Wireless Intrusion Protection (WIP) and VPN Server (VPN)Please contact your Aruba Networks Sales representative for more information on configuring and ordering this productSS_6000_US_070611。

• Industry benchmark in availability• Ultimate control performance keeps synchronous machine within safe limits• Guaranteed grid code compliance through advanced PSS options, validated models and simulation services• Hardware in the Loop simulator, to expedite tuning and site-testing• Simple system operation, monitoring, and maintenance• Pro-active life cycle management throughout the complete life-span of the equipment• 24/7/365 technical support always within your reach, utilizing remote access platforms—UNITROL® 6000 Excitation systems Setting the standard in technology and availabilityand availability2U N ITRO L® E XCITATI O N S YS TE M S Se t ti n g th e S ta n da r d—Setting the standardaBB UnitrOL® excitation systems are a key component in many power generating units used by plant owners and operators to achieve reliability of operations, stability, and fast transient response of their assets, as per grid requirements.The UNITROL® 6000 excitation systems series is specifically designed to serve a wide range of applications:• Generators: steam, gas, nuclear and hydro power plants, nuclear emergency diesel• Motors: steel mills, pulp and paper, chemical, natural gas production plants, refineries UNITROL® 6000 for indirect and static excitation systems comes in the following versions:• UNITROL® 6000 Medium• UNITROL® 6000 X-powerexcitation current [a]3U N ITRO L® E XCITATI O N S YS TE M S U n itr O L® 6000 M ed i U M—UNITROL® 6000 Mediumthe customizable solutionUnitrOL® 6000 Medium is designed for small to medium static excitation systems. it is as well a benchmark in flexibility, reliability and connectivity for brushless and critical steam generating units.With single/double channel configuration (additional backup channel on request) and a wide selectionof thyristor bridge modules, UNITROL® 6000 Medium can be configured to meet all field data and availability requirements.Selected applications• Hydro power plant• Pumped storage power plant• Combined cycle power plant• Critical Steam power plant with brushless excitation, Ifn 200 A, 400 Hz supply Engineered solutions:• Online supply transfer• Electric braking Main Features UNITROL® 6000 Medium Customizable YesDC current rage<1,800 ABackup channel Yes / OptionalConverter redundancy Single, twin, twin + backup Max. converters3H configuration NoConverter types D1, D2, D3, D4, D5PSS2B/2CAPSS NoPEC controller generation2IEC 61850OptionalField breakerAC or DCU n itr O L® 6000 X-P Ow er 4—UNITROL® 6000 X-powerthe solution for large powerapplicationsUnitrOL® 6000 X-power is designed for large power generation unitsand brings a new benchmark in flexibility, reliability and connectivity.With single/double channel control configuration (additional backup controller on request) anda wide selection of thyristor bridge modules, UNITROL® 6000 X-power can be configured to meet all field data and availability requirements. Selected applications• Nuclear power plant, field current Ifn >10,000 A • Underground hydro power plant, Ifn 4,500 A, with redundant air-to-water heat exchanger system • Gas turbine power plant, MEGATROL package with Ifn 6,000 A and static frequency converter 15 MW for turbine starting• Coal-fired power plant, Ifn 3,500 A, power part in IP54 container, detached AVR cabinet with >150 m distance apart• Hydro power plant, Ifn 4,000 A, two DC field circuit breakers, one for DC backup excitation Main Features UNITROL® 6000 X-power Customizable YesDC current rage1,800 A < X < 12,000 A Backup channel Yes / Optional Converter redundancy Single, twin, n-xMax. converters8H configuration YesConverter types D5, UNL13300, UNL14300 PSS2B/2C/4BAPSS YesPEC controller generation3IEC 61850YesField breakerAC (4,000) or DC5U N ITRO L® E XCITATI O N S YS TE M S CO ntr O L fU n C ti O nS—Control functionsall regulation, protection, and monitoring functions required for the secure operation of the generator are included as standard software features. to meet specific demands of any application, the software can easily be configured and adapted for the requirements.Closed-loop control• Voltage regulator with PID filter (AUTO mode)• Field current regulator with PI filter (MAN mode)• Reactive and/or active current droop compensation • Limiter circuits to ensure that the generator operates within safe limits:-Maximum and minimum field current-Maximum stator current, dependent on machine cooling media temperature-P/Q under-excitation-Volt/Hertz• Manual restrict to keep the generator within safe limits, even though controlled in manual mode • Power factor/reactive load control• Power system stabilizerProtection and monitoring functions• Monitoring and protection functions can be freely configured on three action levels:-Alarm signal only-Changeover to redundant circuits-Instantaneous excitation trip to protect theassetsMajor available functions• Overcurrent protection (instantaneous/inverse time)• Volt/Hertz protection• Loss of field protection• Rotor temperature• Thyristor conduction monitoring• Actual value monitoringData and event recordingThe internal event recorder function can handle and store up to 2,000 events, each providedwith a real-time stamp. The data recorder contains a preconfigured part that records a huge set of measurements and internal signals. It is automa-tically triggered in case of a fault, to enable effi-cient troubleshooting and continuous improve m ent with the aim to maximize the availability. Additional free configurable high-speed recorders are available to be utilized during compliance testing or analysis of network events.System time synchronizationThe system clock of all the controllers can be synchronized with a time source by Simple Network Time Protocol (SNTP) with an accuracy of up to 1 ms to allow efficient troubleshooting and align excitation event-logs with other loggers of the plant and minimize the time to get the unit backon the grid.Power system stabilizer (PSS)The PSS function improves the stability of the generator and the transmission system by using the excitation to damp power oscillations.PSS types optionally available for UNITROL® 6000:• PSS 2A/2B/2C in accordance with IEEE standard 421.5-2016• PSS 4B/4C in accordance with IEEE standard 421.5-2016• Adaptive PSS (APSS) developed by ABB Switzerland, which optimizes the PSS settings based on the current network conditions, to maximize availability and avoid trips dueto insufficient damping in weak networksCO ntr O L fU n C ti O nS 6ynchronous machine transient simulator – real time (SMTS-RT 6000)SMTS-RT 6000 is a “Hardware in the loop” simulator, which simulates a generator/motor, its turbine/ load and the grid. The simulator is connected to the excitation system for closed-loop tests to analyze its stationary and transient behavior. The SMTS-RT 6000 reduces the testing time of your machine, saves costs, and serves as ideal training tool for maintenance and operation personnel.Commissioning time can be further reduced bytuning control parameter sets in advance, using the simulator and a UNITROL® 6000 control device.Grid codesUNITROL® 6000 control functionality is prepared to support any grid code. The extensive testing functions and powerful data recorders of theexcitation control terminal (ECT) serve to test, tune, and prove the performance of control, stabilizer and limiter functions. System frequency response can be analyzed quickly and accurately using the built-in white noise generator. This method executes compliance testing in minimal time.Data records are stored in the ECT’s dedicated memory and can be easily copied and integrated into electronic documents.In combination with SMTS-RT 6000, it is possible to simulate the most critical plant or gridconditions, which are typically impossible to testsafely within the real system.—Complexity of power grids, smart grids, microgrids, distrib-uted and variableenergy resources.DistributedgenerationDomestic consumers with some independentgenerationDomestic equipment and vehicles7U N ITRO L® E XCITATI O N S YS TE M S h a r dwa r e CO M P O n entS—Hardware componentsthe system is based on the aC 800PeC high-performance processor family. it is an extension of aBB’s 800xa control platform, developed to meet the fast control requirements of power electronics.ControlThe AC 800PEC control system excels in very high processing speed, providing:• Fast analog and digital process I/Os with a typical cycle time of 400 µs• Fast closed-loop control and regular process logic implemented in a single controller• Low-speed I/Os with a typical cycle time of 10 ms • Very fast programmable logic for converter pulse control and optical communication with cycle time down to 25 nsPower converterThe power converter of each channel is selected to meet the system requirements with respect to maximum field current and voltage. Stringent availability requirements are fulfilled with up to three redundant channels and provisions for online maintenance (optional). ABB has developed a range of thyristor power converters dedicated to direct (static) and indirect excitation systems, for example D1 to D5, UNL13300 and UNL14300.Main features (D1 to D5)• Single- or three-phase AC supply voltage up to 1,080 V• Rated supply frequency from 50 to 480 Hz (16⅔ Hz on request)• Low noise level of cooling fans ≤70 dB(A)• Compact, fully integrated converter and control with an integrated service panelMain features (UNL14300)• AC supply voltage up to 1,500 V• High insulation test voltages up to 7.5 kV• Low noise level of cooling fans ≤70 dB(A)• Active current balance control• Optional:-Redundant fans, replaceable during operation -“Draw-out” design for safe online repair andfunction tests—01 D1–D5 powerconverter—02 UNL14300power converter—02—01CO M M U n i C ati O n fe at U r e S8—Communication featuresthe communication features of UnitrOL® 6000 systems ensure simpleandu ser-friendly human machine interaction, whether it comes to systemcommissioning or integration into the plant control system.Excitation control terminal (ECT)The ECT is a user-friendly human machine interface that enables operation, monitoring,and maintenance of the system. It is a powerful in-dustrial grade touchscreen PC that runs inde-pendently of the system’s controller. Eventsand system data can be recorded over a long period of time. The LCD touchscreen provides the opera-tor with a range of selectable screens showing in-formation on the actual status of the system in graphical and numerical form. The control terminal operates under Windows 10 and can also be in-stalled on any PC for commissioning purposes.Integration into the plant control system Ethernet and fieldbus protocols Modbus-RTU, Mod-bus-TCP, and Profibus DP-V0 as well as IEC 61850 are the main choices for communication with the plant control system. Emergency control signals can be hardwired directly to the control board. Remote servicesRemote services and troubleshooting help reduce costs associated with repair and service time. UNITROL® 6000 is enabled for remote access with the aid of ABB RAP platform or customer internal tools. Thus, the local maintenance team can get the necessary support from ABB service specialists.—01 Excitation Control Terminal operatorscreen selections9U N ITRO L® E XCITATI O N S YS TE M S Ser v i C e a n d SU PP O rt—Service and supportfor life cycle management or technical support, the worldwide network of UnitrOL® specialists is at your service.Installation and commissioningThe professionalism, extensive experience,and multilingual skills of ABB’s engineersensure satisfactory installation and commissioning. TrainingABB University offers standard and customized training courses for UNITROL® 6000 excitation systems. Virtual and on-site training options are available. For detailed training programs, visitw /abbuniversity.Life cycle managementABB’s excitation systems life cycle management model helps the customers extend and maximize the life cycle of their assets at minimum costs. Depending on the product’s life cycle phase,the service specialists recommend necessary actions and approach the clients proactively to inform them of all maintenance, service, and upgrade requirements. We have a comprehensive Excitation Care program to cover all customer maintenance needs.Examples of life cycle services:• Technical support for optimized reliability• Remote services• Maintenance and repairs• Extension, upgrades, and retrofitsComplete life cycle services are guaranteed for the active and classic phases. As soon as the system enters the limited phase, it is recommended to start planning an upgrade, or retrofit the equipment with ABB's latest technology.Complete life cycle services Limited life cycle ser vicesSer v i Ce a n d SU PP O rt 10Technical support• Large global team of certified engineers• Highly experienced experts in ABB excitation systems and combined solutions provide fast and precise technical emergency assistance 24/7, 365 days a year• Remote support available:-24-hour hotline: +41 844 845 845-Email:**************************.com Excitation CareProvides a simple and structured way to support your assets throughout their life cycle. It offers customizable service levels with optional packages to cover different maintenance needs.Benefits• Simplifies service delivery• Reduces maintenance cost• Supports your operations with digital services • Provides access to ABB ability Remote Insights and the Remote Access Platform (RAP) for faster troubleshooting• Increases the reliability of the system by providing proactive maintenance programs• Supports transfer of knowledge through our trainings, offered as virtual or face to face.and Predictive maintenance Grid CodeTrainingTechnicalSupport and Upgrades—ABB LtdExcitation Systemsand Synchronizing Equipment Ch-5300 turgi, Switzerland Phone: +41 (0)58 589 24 86e-Mail:**********.com /unitrol9a K K 107492a 4684© Copyright 2021 aBB. all rights reserved. Specifications subject to change without notice.。

Table of ContentsTable of Contents (1)Chapter 1 Introduction of the Functions of BL2000 Serial Control System (5)1.1.List of Basic Functions (5)Automatically stop for fault (7)1.2. Special Functions (8)Cancel mistake operating (8)Rear opening control (9)Encoder evaluation (10)Evaluation of the interference on input port (10)The direct display of electric level interference of the input circuit (10)1.3. List of Safety Protection Functions (12)1.4. List of selectable functions (13)Chapter 2 Types of BL2000 Serial Control System Computer Boards (13)2.1. Designation of product models (13)1. Basic regulation (13)2. Designation of main board, car board and car expansion board (13)3. Designation of elevator call and display boards (13)2.2. Table of computer board types (14)Chapter 3 Combination and components of BL2000 serial control system (15)3.1. Schematic diagram of system composition (15)Diagram 3-1: Schematic diagram of BL-2000 serial control System composition (15)3.2. Performance of the main parts of the system (15)3.2.1 Description of features: (16)3.2.2. Scope of application: (16)3.2.3. Standards for reference (16)3.2.4. Power supply specification (16)3.2.5. Working temperature (16)3.2.6. Inspection standards (16)3.3. Introduction of system main parts with classification (17)3.3.1. Main board BL2000-STB (17)3.3.2. Car board BL2000-CZB (22)3.3.3. Car expansion board BL2000-CEB (26)3.3.4. Divided COP of Elevator Controller----Car Top Board BL2000-JDB-V1.2 (27)3.3.5 Divided COP of Elevator Controller----Car Command Board BL2000-ZLB-V1.2 (31)3.3.6 Call (landing call) and display board BL2000-Hxx (33)3.3.7. Group control and call (landing call) board BL2000-HQK (39)3.3.8. Group control board BL2000-QKB-V1 (41)3.3.9. Introduction of load inspection device SJT-150 (43)3.3.10. Introduction of voice synthesizer SJT-YBA (44)3.4. BL2000 Serial Control System Typical Schematic Diagram (45)Chapter 4 The Installation of BL2000 Serial Control System (66)4.1. Important Notes (66)4.2. Incoming Inspection (66)4.3. System Installation (66)4.3.1. Technical requirements of installation (66)4.3.2 Installation of BL2000 Series Parts (67)4.3.3. Installation of the system and other parts (67)4.3.4. Grounding of the control system (70)Chapter 5 Parameter setup of BL2000 serial control system (71)5.1. General (71)5.2. Menu structure and flowchart (72)5.2.1. Main menu (72)5.2.2. Communication menu (73)5.2.3. Password verifies (74)5.2.4. Monitor menu and parameter setting menu (74)5.2.5. Notice of menu setup (76)5.3. Setup and operation of monitor parameter menu (76)5.3.1. Monitor menu: all the interfaces are read only except floor select menu and close/open door menu (76)5.3.2. Setup and operation (77)5.4. General parameters menu setting and operation (83)5.4.1. General parameters list (83)5.4.2. Setting and operation (83)5.5. The setting and operation of run parameter menu (95)5.5.1. Table of run parameter (95)5.6. The setting and operation of special parameters menu (102)5.6.1. Special parameter table (102)5.6.2. Setting and operation (103)5.7. The menu setting and operation of other parameters (113)5.7.1. Hoistway self learning (113)5.7.2. Parameter saving (114)5.7.3. Password setting (115)Chapter 6 Debug and Operation of BL2000 Serial Control System (116)6.1. Significant notice (116)6.2. Inspection before power-up (116)6.3. Power-up and inspection (117)6.3.1. Confirmation before power-up (117)6.3.2. Inspection after power-up (117)6.4. Setting of system parameters (118)6.5. Trial Run at Lower Speed (118)6.5.1. Inspection Run of Machine Room (118)6.5.2. Inspection Running of Car Top and Car (119)6.6. Hoistway Self-learning (119)6.7. Trail Run at high speed (119)6.8. Elevator Comfort Adjustment (120)6.8.1. Adjustment of Startup and Brake Curves (120)6.8.2. Adjustment of Running Curve Tracing (121)6.8.3. Adjustment of Elevator Running Control Timing & Sequence (121)6.8.4. Adjustment of Multi-speed Mode (122)6.9. Adjustment of Leveling Precision (125)6.10. Confirmation of Terminal Installation Position (127)Chapter 7 BL2000 Serial Control System Failures Analysis (128)7.1 Running State during Inspection (128)7.2 The low traveling speed and the heavy current during inspection (128)7.3 The speed displayed by the main board is incorrect. (128)7.4 Check on the abnormity of communication (128)7.5 Abnormity of switching power supply (5V/24V) (129)7.6 Checks on no direction and brake output signal (129)7.7 Unlock of the door (130)7.8 Malfunction of elevator arisen from wrong setting of switching value output of load test device (130)7.9 The running direction of elevator is contrary to the instruction (ER04) (131)7.10 Failure on brake on (ER05) (131)7.11 Small number of pulse or no pulse input (ER07) (131)7.12 The output of KDY contactor is inconformity to the feedback result ER09) (132)7.13 The mistake of building floor counter (ER14) (132)7.14 The main board’s not receiving feedback of transducer (ER17) (132)7.15 The value of floor counter is wrong (ER18) (132)7.16 The low-speed adjusting distance is longer than the interval of a single floor (ER19) (132)7.17 Thermal Switch Protection, the brake resistor overheated, or the electric motor overheated (ER25) (133)7.18 The state of contact of gate interlock is inconformity with the state of the coil (ER26) (133)7.19 The inconformity between state of emergency stop contactor and the state of the coil (ER27) (133)7.20 Top or bottom terminal switches adhesion fault (ER28) (133)7.21. Excessive Communication Interference（ER29） (134)7.22. Star-Sealed contactor fault（ER33） (134)7.23. Braking Force Self-testing fault（ER39） (134)Appendix 1 Connection Diagram and Parameter Setting for Inverters Controlled by Asynchronous Motor (135)1．Connection graph and parameter setup menu of Y ASKAWA 616G5, 676GL5-JJ Transducer (135)2．Connection graph and parameter setup menu of Y ASKAWA G7A Transducer (137)3．Connection graph and parameter setup 3.0 version of KEB F4 Transducer (141)4．Wiring diagram and parameter setup menu of FUJI G11UD Transducer (143)5. Wiring diagram and parameter setup menu of FUJI FRENIC-LIFT transducer (146)6．Wiring diagram and parameter setup menu of SIEI Transducer (149)7. Parameter setup menu of WVF5 Asynchronous System Equipping YASKAWA L7B Transducer(Multi-segment) (152)Appendix 2 Connection Diagram and Parameter Settings List of the Inverter Selected for Synchronous Motor Control (156)1．Connection Diagram and Parameter Settings List of Yasukawa 676GL5-IP Inverter (156)2．KEB F4 Inverter Connection Diagram and Parameter Setting 3.0 Version (160)3．KEB F5 Inverter Diagram and Parameter Setting (162)4．Fuji G11UD-4C4 Inverter Connection Diagram and Parameter Setting Table (165)5．Fuji FRENIC-LIFT Inverter Connection Diagram and Parameter Setting Table (168)6．Fuji VG7S Inverter Connection Diagram and Parameter Setting Table (171)7．CT Inverter Connection Diagram and Parameter Setting Table (174)8. SIEI Inverter Connection Diagram and Parameter Setting Table (multi speed) (176)9. Parameter Setting Table for the Yaskawa Inverter for WVF5 Synchronous System (180)10. L7B synchronous motor self-learning method and magnetic pole detection method when self-learning 182 Appendix 3 Reference list of fault codes (184)1. List of system fault codes (184)2. List of hoistway learning fault codes (185)Appendix 4 Operating Instructions of SJT-YY Lift Emergency Automatic Leveling Control Device (187)1. Overview (187)2. Scope of Application (187)3. Model/Specification (187)4. Working Principle and Functions (187)5. Installation and Adjustment (188)6. Fault Analysis and Troubleshooting (190)7. Technical Parameters (191)8. Service and Maintenance (191)Appendix 5 Advance Door Opening/Re-Leveling Instruction (192)1. Safety Circuit Board (SJT-ZPC-V2) Schematic Diagram (192)2. Safety Circuit Board Definition (192)3. Wiring Diagram When BL2000-STB-V2 Main board is used in Advance Door Opening/Re-LevelingFunction (Elevator speed is less than 2 m/sec.) (193)4. Wiring Diagram When BL2000-STB-V9 is used in Advanced Door Opening/Re-leveling Function (194)5. Installation Instructions of Re-Leveling Landing Sensor and Landing Sensor (194)6. Mainboard Parameter Setting (195)7. Hall door and car door separate inspection function (196)Appendix 6 BL2000Floor/Car Door Short-circuited Detection and the Plan for Bypass Operation Alarm (197)1.Rules for type test of control cabinet: (197)2.Testing Plan for Single Door Elevator (197)3.Testing Plan for Double Door Elevator (198)4.Pattern test rules for the new type control cabinet: (200)5. SJT-PLB-V1 bypass circuit board (200)6.Floor/car-door bypass plan (203)Chapter 1 Introduction of the Functions of BL2000Serial Control System1.1.List of Basic Functions1.2. Special Functions1.4. List of selectable functionsChapter 2 Types of BL2000 Serial Control System Computer Boards2.1. Designation of product models1. Basic regulationBL2000—□□□—V□2. Designation of main board, car board and car expansion board（1）Main board BL2000-STB-Vn （2）Car board BL2000-CZB-Vn （3）Car expansion board BL2000-CEB-Vn （4）Group control board BL2000-QKB-Vn（5）For other types, please refer to table of computer board types of 2.2. 3. Designation of elevator call and display boards（1）Code of features: The first H represents call and display boardThe second A: point array vertical display, B: point array horizontal display, C: 7segment vertical display, D: 7 segment horizontal display. The third H: high light, S: over light and R: over high light （2）Version code:The first code represents luminescent diode parameters of digital displaying block.A: 1357 B: 1057 C: 1257 D: 1067VERSION No.: product version upgrade, represented by: V + number ". FUNCTION No.: usages and main technical features of products, represented by the abbreviation of initial alphabet. SERIAL No.E: 2058F: BS252G: BS402The second code means version upgrade, represented by numbers. （3）For the object, please refer to Diagram 3-13.2.2. Table of computer board typesChapter 3 Combination and components of BL2000 serial control system3.1. Schematic diagram of system composition3.2. Performance of the main parts of the systemThe main parts of the system related in the manual means the boards composing of BL2000 serial control system, which consists of: main board, car board, car expansion board, call and display board, group control board, groupcontrol call and display board, voice synthesizer and load inspection device. The serial products of control cabinet with BL2000 serial control system and the other components in BL2000 serial control system are not contained.3.2.1 Description of features:3.2.1.1.Fujitsu industrial control single chip computer;3.2.1.2.Four-layer plate binding process with CAN bus serial communications;3.2.1.3.High intelligence, strong resistance to interference, and high reliability;3.2.1.4.Keyboard operation and liquid crystal display;3.2.1.5.Specialty of elevator operating curve and the leveling precision ≤ 3mm when landing directly;3.2.1.6.Support parallel connection, group control, monitoring and intelligent management;3.2.1.7 Provided with RS-485 communication interface (which can be connected with weight inspectingdevice made by Blue Light to improve elevator startup) ；3.2.1.8 Use portable computer to connect with RS232 interface, being able to choose velocity of elevator incar to comfort passenger.3.2.2. Scope of application:3.2.2.1.Elevator selective-collective operation, two elevators parallel connection and group control of 3-8elevators;3.2.2.2.Range of speed: 0.5-4m/s;3.2.2.3.Applicable story: below 64 floors.3.2.2.4.Passenger elevator, freight elevator, ward elevator and residential elevator；3.2.2.5.With weighting inspecting compensation and fire control linked interface;3.2.2.6.Support wired video monitoring, remote monitoring and wireless remote monitor；3.2.2.7.Applicable to gear towing machine and gearless permanent magnetic towing machine.3.2.3. Standards for reference3.2.3.1.Elevator Manufacture and Installation Regulation (GB7588-2003)3.2.3.2.SJT Serial BL2000Elevator Control System (Q1SL.J02.01-2003)3.2.4. Power supply specificationV oltage: DC24V ±1.2V；current: 2A；V oltage: DC5V ±0.1V；current: 1 A.▲Note: Increa se the power capacity when the building is more than 20 stories. For each story, the increasing value should be ≧100mA.3.2.5. Working temperatureWorking temperature of devices: －40ºC ~ ＋80ºC (except LCD)3.2.6. Inspection standards3.2.6.1.Inspecting according to GB/T17626.2-1998 Electromagnetic Compatibility- Testing and MeasuringTechniques-Static discharging interference test to make sure the requirements are met (contactdischarging: 8kV；test grade: 4).3.2.6.2.Inspecting according to GB/T17626.3-1998 Electromagnetic Compatibility- Testing and MeasuringTechniques-Radiated, radio-frequency, electromagnetic field immunity test to ensure therequirements are met (frequency domain: 80~1000MHz, filed density: 10V/m, signal: 1kHz sinewave, modulation percentage: 80% and test grade: 3).3.2.6.3.Inspecting according to GB/T17626.4-1998 Electromagnetic Compatibility- Testing and Measuring Techniques-Electrical fast transient/burst immunity test to ensure the requirements are met (power and grounding port-test voltage: 4kV , repetition rate: 2.5kHz) (I/O signal, data, control port-test voltage: 2kV, repetition rate: 5kHz and test grade: 4)3.2.6.4.Inspecting according to GB/T17626.8-1998 Electromagnetic Compatibility-Testing and Measuring Techniques-Power frequency magnetic field immunity test to ensure the requirements are met (field density: 10V/m and test grade: 3).3.3. Introduction of system main parts with classification3.3.1. Main board BL2000-STB1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 101 2 3 4 5 6 7 8 9 101 2 3 4 5 6 7 8 9 101 2 3 4 5 6 7 8 9 101 2 3 4 5 6 7 8 9 101 2 3 4 5 6 7 8 9 101 2 3 4 5 6 7 8 9 10J1J8J7J6J5J4J3J24 - Ф3.52312412156157166液晶显示器LED X00～X21LED X22～X23操 作 键 盘衬 板12312345J10J96 75 84 93 A 2 1J11120269252LED Y00～Y154 - 5×10Ф5172Diagram 3-2 Appearance and layout installation dimension of main board BL2000-STB1．Plug specifications（1）rated voltage of J1~J8 multi-wire dipsocket DK5EHDRC-10P: 300V , rated current: 15A, voltage resistance: 4KV, pitch: 5mm （2）J9 single-row pin 2.54/5P （3）J10single-row pin 2.54/3P（4）J11 double-row connector 2.54/10P2．Port circuit Please refer to: Diagram 3-3 Diagram 3-4KeyboarLCD Lining boardDiagram 3-4 Main board BL-2000-STB port circuit3．Definition and specification of portsTable 3-1 Definition and specification of main board BL2000-STB●X15/X28 input: when braking feedback inspection enable is set on “Yes”, X15 is defined to be left brakefeedback input; X28 is defined to be right brake feedback input.●When special function FU-30 is ON, X29 is Star-Sealed contactor feedback input, Y17 is Star-Sealedcontactor control output.●Hall and car door respective inspection functionInspect hall door circuit reply contact with high-voltage input X23+ (J5-3) and X23- (J5-4); inspect car door circuit reply contact with X14 (J2-5); meanwhile, modify the drawing of door circuit reply contact needed to be serial or parallel connected to inspect hall and car doors circuit respectively. (For detailed drawings, please contact the technical office of our company.)3.3.2. Car board BL2000-CZB模式跳线Mode Selection JumperDiagram 3-5 Appearance and layout installation dimension of car board BL2000-CZB 1．Instruction(1) Internal selecting and responseBesides basic input and output ports, Car board BL2000-CZB is provided with internal selecting button and response port of 8 floors. When it is connected to car expansion board, the control of 64 floors can be achieved.（1）Car internal displayCar internal display can be achieved by call and display board. For the layout of its ports, refer to Diagram 3-8. When call and display board is used for internal display, J1 is connected to car board J1, J2 and J3 are di sconnected with wires, as well as the story address is set on “0” (please refer to the setup of call and display board address).2.Connector specification (BL2000-CZB-V7)（1）J1 single-row socket 3.96/4P（2）J2~J6, JN1~JN8 single-row pin 2.54/4P (single jacket)（3）J7 single-row socket 2.54/5P（4）J8 double-row hole 2.54/10P（5）J9~J11 multi-wire swan neck socket DK5EHDRC-10PRated voltage: 300V, rated current: 15A, voltage resistance: 4KV, pitch: 5mm.（6）J12 double-row socket 2.54/14P3Port circuit4definition and specification of portContinue Table 3-23.3.3. Car expansion board BL2000-CEBDiagram 3-9 Appearance and layout installation dimension of car expansion board BL2000-CEB1. InstructionCar board BL2000-CZB itself can connect with car call and response command signal; when the number of floors exceeds 8, it concatenates the car expansion board BL2000-CEB by port J12. Each car expansion board can increase the car call command for 8 floors. The car expansion boards themselves are cascade connection. The maximum number of the concatenatedboards is 7.2. connector specification (BL2000-CEB-V1/V2)（1）J1~J2 double-row socket 2.54/14P(DC2-04) （2）JE1~JE8 single jacket andsingle-row pin 2.54/4P (2510-4P) 3. Port circuit4. Definition and specification of portLining boardTable 3-3 Definition and specification of ports on car expansion board BL2000-CEB3.3.4. Divided COP of Elevator Controller----Car Top Board BL2000-JDB-V1.2Shape and flat setting size of Car Top Board BL2000-JDB-V1.2 is shown below in Figure 3.11.F IGURE 3.11 C ALL TOP B OARD BL2000-JDB-V1.2 S HAPE & D IMENSION1. FunctionCar Top board is installed on car top. It mainly achieves car door information collection & load weigh collection & door control output. Car Top board and Car Command board are connected by DB9 cable. Car Top board can only connect to main Car Command board, and also can connect to both main Car Command board and sub Car Command board.Through DIP switch SW1 on Car Top board, you can select functions. First, power off, set DIP switch as requirement, then power on and Car Top board will enter program with corresponding function. While actual operation, select function according to actual configuration (with or without sub Car Command board).Chart 3.4 Function SettingNote: Main Command board & Sub Command board & Sub Command board of rear door are all BL2000-ZLB-V1.2.2.Function description:This program support IC Card Function and visitor function of COP board. According to configuration of sub command board, it can be divided to such following types:(1) Standard Program: Suit for single door or whole two-door (No sub command board or connect to rear door command board).(2) Sub (front door) command board Program: Suit for no sub command board or connect to normal sub command board. This mode support interlaced two doors.(3) CAN Communication COP Program: No command board in car, but Car Operation board (BL2000-CZB) in car for information exchange with CAN Bus.Terminal SpecificationBL2000-JDB-V1.2 Board Terminal Specification:1．J1 Single Pin Bar 3.96/4P2．J2 Straight pin socket 5.08/10P3．J3 Straight pin socket 5.08/5P4．J4 Straight pin socket 5.08/10P5．J5 Straight pin socket 5.08/10P6．J6 Single Pin Bar 3.96/10A;7．J7 D-Type 9 pin socket;8．J8 D-Type 9 pin socket;3.Terminal Definition & SpecificationChart 3.5 Car Top Board BL2000-JDB-V1.2 Terminal Definition/Specification ListNote：[1] If using both safety plate and light curtain at same time, J2-4 and J2-8 will be safety plate input, J2-5and J2-9 will be light curtain input; If only using safety plate or light curtain, J2-4 and J2-8 will be their input.[2] Connect to J1 of command board through communication cable (DB9 female cable).3.3.5 Divided COP of Elevator Controller----Car Command Board BL2000-ZLB-V1.2Shape and flat setting size of Car Top Board BL2000-ZLB-V1.2 is shown below in Figure 3.12.F IGURE 3.12C ALL TOP B OARD BL2000-ZLB-V1.2S HAPE &D IMENSION1.Function descriptionCar Command Board is installed in COP box. It mainly achieves information collection of car call input & answer and open/close door input & answer and inspection box. Car Top board and car command board are connected through DB9 cable. Car top board can connect only main command board, or both main and sub command board.SW.1 and SW.2 DIP switch on main command board BL2000-ZLB-V1.2 can be used as IC Card enable control or turn ON/OFF IC card control function of some floor. The detail is in Chart 3.6.Chart 3.6 IC card control setting1. IC card control enable (All Floors use IC card control) ：While elevator run without fault in normal mode, IC card control of COP will be enabled, and elevator start to work in IC card mode.2. Some floor turn ON/OFF IC card control function：(1) When elevator is in inspection mode and stop at door zone, switch DIP and jumper to “Some floor turn ON/OFF IC card control function” status, the buzzer will sound for one time, it means elevator enter to “Some floor turn ON/OFF IC card control f unction” setting status. In this status, car call buttons indicate setting value and open-door button indicates visitor function setting.(2) If a car call button light on, it means IC card function of this floor is ON. If a car call button lights off, itmeans IC card function of this floor is OFF, this floor can be visited without IC card. You may press car call button to switch between ON and OFF.(3) If open door button light on, it means visitor function is ON; If open door button lights off, it means visitor function is OFF.(4) Default setting is IC card of all floors are ON and no visitor function.(5) Turn DIP switch back to “IC card control enable”, it will save setting automatically. After 3 times flicker, elevator turn to normal mode.Note：(1) In default setting, IC card of all floors are ON. If you want base floor out of IC card control, it must be set before using.(2) If there’s rear door command board, you need to set both main and sub command board.(3) While program function is selected to “Work with BL2000-CZB board”, “Some floor turnsON/OFF IC card control function” will be operated by BL2000-CZB board, please check BL2000-CZB manual for detail setting.Terminal SpecificationBL2000-ZLB-V1.2 Board Terminal Specification:1．J1 D-Type 9 pin socket;2．J2~J8 straight pin socket 5.08/4P;3．JN1~JN16 straight pin socket 5.08/4P;4．J9 Double Pin Bar DC3/14P.2.Terminal Definition & Specification3.3.6 Call (landing call) and display board BL2000-HxxSome of BL2000 series call (landing call) and display board is shown in picture 3.13.BL2000-HAH-N1.1BL2000-HAH-B9BL2000-HEH-M11.instruction Array call and display board BL2000-Hxx-xn can be classified to be a lot of kinds: vertical display type and horizontal display type according to alignment of running direction display block and floor display block; point array display and 7-segment display according to the lighting of display block; big point array, small-point array, square-point array, high light, over light and over high light types according to the size, appearance and lightness of the point.2.Specification of connector (BL2000-Hxx) （1）J1, single-row socket3.96/4P port circuit （2）J2, J3single-row pin 2.54/4P (single –jacket) （3）J4 double-row hole 2.54/10P（4）S1, CZ, JC skip wire 2P3.port circuitShown in diagram 3-14.4.definition and specification of port5.The setup of call and display board addressBecause of the serial communication management for each unit in the system, each communication unit can have only one address. Address setup can be enabled with the inspection of the display of point array digital code block and AN key: car display panel address is set to 0, call and display board can set address according to the absolute floor (1-64 floor); the bottom floor can be set to 1, the second bottom address set to 2 and so on.（1）Press button AN for seconds to display the set unit address. After 5 second, it can enter the address setup state.（2）In the address setup state, address will increase by 1 if AN button is pressed one time until the address is 64;then it recycles.（3）Release the button 2 seconds later when the address is set, the address indicator will be twinkling, and the setup will be saved.（4）Skip wire S1 being short connected by short circuit block means communication terminal resistor is connected.▲Attention: only the call and display board of the bottom floor (address number is 1) can be connected with terminal resistor.▲Attention: because of the different types, please refer to the supplied documents as the standard.6.Appearance and layout installation dimensionDiagram 3-15 BL2000-HAH-A4.0 Diagram 3-16 BL2000-HAH-M2.1Appearance and layout installation dimension Appearance and layout installation dimension65552215014039392222Ø455442213712031312222Ø4Diagram 3-17 BL2000-HAH-B9 Diagram 3-18 BL2000-HAH-N1.1 Appearance and layout installation dimension Appearance and layout installation dimension9098B L 2000-H A x -E 240(34)40(34)Diagram 3-19 BL2000-HAR-E4.1 Diagram 3-20 BL2000-HBH-C1&N2 Appearance and layout installation dimension Appearance and layout installation dimension150140100706040Ø4645650170162114Ø450674-Φ496.5136.51612020Diagram 3-21 BL2000-HEH-K9.1 Diagram 3-22 BL2000-HEH-L2.3Appearance and layout installation dimension Appearance and layout installation dimension122Ø4Diagram 3-23 BL2000-HEH-M1 Diagram 3-24 BL2000-HEH-M1 Appearance and layout installation dimension Appearance and layout installation dimension142Diagram 3-26 FJ-HPI-V9Appearance and layout installation dimensionDiagram 3-25 FJ-HTB-V9Appearance and layout installation dimension 7. List of types and specificationare for indication.63552314914133332323Ø43.3.7. Group control and call (landing call) board BL2000-HQKDiagram 3-27 Appearance and layout installation dimension of group control and call boardBL2000-HQK1.InstructionWhen BL2000 control system is of group control, group control call board BL2000-HQK particularly for group control can be used without display outside the hall.2.Specification of connector (BL2000-HQK-V1/V2)（1）J1 single-row socket 3.96/4P（2）SH, XH single-row socket 2.54/4P (single jacket)（3）J4 double-row hole 2.54/10P（4）J5 terminal DG301-7P（5）S1 skip wire 2P3.Port circuitPlease refer to Diagram 3-28 Wiring diagram of ports on BL2000-HQK 4.Definition and specification of ports。

Installation Procedure and Pre-Installation Checklistfor the EXTender 6000The Branch Office EXTender 6000 & the PBXGateway EXTender 6000 are simple to install once you have all the requisite cabling, hardware and network capacity in place. To make sure your installation goes smoothly, you should complete the following checklist prior to installing the units. This will be helpful whether you contract out the installation to your equipment provider or a third-party service organization or install the units yourself.This checklist can be used for:•Planning and engineering•Configuration of the Branch Office EXTenderOnce you have completed the checklist, you can give it to the technician who will install and configure your EXTender 6000 units to ensure all the requirements for a successful installation have been met.The basic installation process consists of the following steps:Pre-Installation Steps:1.Determine network type and acquire appropriate network termination devices2.Calculate bandwidth requirements based on number of users and voice compression3.Provision or increase network capacity (if not already present)4.Make sure that PBX/KTS and messaging systems have port capacity for branch users5.Wire remote and switch sites for phones and extended digital ports6.Acquire appropriate cabling from Branch Office EXTenders to network termination devicesInstallation Steps:7.Install and configure units with network termination devices8.Connect the units to phones and switch9.Power on units and let the calling begin!10.Customize user configurations through management interface as desiredBranch Office EXTender 6000 Pre-Installation Checklist Section A: Account ProfileProgram Manager Contact InformationCompany Name:Address:City:Prov./State:Postal/Zip Code: Contact Name:Title:Contact Telephone:Contact Fax:Contact E-mail:Contact Pager/Cell:Switch Site Installation InformationContact:Address:City:Prov./State:Postal/Zip Code: Contact Telephone:Contact Fax:Contact E-mail:Contact Pager/Cell:Remote Site Installation InformationContact:Address:City:Prov./State:Postal/Zip Code: Contact Telephone:Contact Fax:Contact E-mail:Contact Pager/Cell:Installation InformationTarget Installation Date: Lab/Existing Telephone: Technician:Type Of Installation:G Technician-installed G Self-installationSales Contact Information (from whom did you purchase your EXTender 6000?) Company:Location:Sales Rep:Telephone:Sales Engineer:Telephone:Central Office Information (providing your network connectivity)Company:Location:System Engineer Name:Telephone:Account Manager Name:Telephone:Step 1: Network Type and Termination DeviceType of Network:G T1 or Fractional T1 (Complete Section 3.A & 3.1)G ISDN (Complete Section 3.B & 3.1)G Frame Relay (Complete Section 3.A & 3.1)G56/64K Digital Data Service (leased line) (Complete Section 3.C & 3.1)G Ethernet IPG Other: _____________________________Type Of Network Termination Device:G Branch location:Make/Model Number: ____________________G Switch location:Make/Model Number: ____________________G Network is already installedG Network will be installed on: ______________ G Network provider: _______________________ G Network has been tested by: _______________ G Date:__________________________________Network Termination Device providesG Synchronous clear channel connection withG V.35 Interface “or”G RS-232 Interface “or”G V.530 InterfaceG10BaseT Ethernet IP connectionStep 2: Bandwidth RequirementsOne of the most important factors in the success of your EXTender 6000 is to determine the necessary network bandwidth needed for your application. This section will explain how to determine the size of the required bandwidth that will be used in your application of the EXTender 6000 units. Determining the appropriate bandwidth is a function of two factors:G Number of Users (Phones)G Voice Compression for Each UserNumber of UsersThe number of users is the number of simultaneous users (digital PBX phones) that will be extended at any given branch location. Physically, there could be up to eight simultaneous users for one EXTender pair. Statistically, not all users will be on the phones at the same, so you may be able to decrease bandwidth and still maintain high performance.Switch/Remote Bandwidth RequirementsVoice CompressionThe EXTender 6000 deploys voice compression in order to extend multiple users across fewer data channels. The EXTender 6000 supports the following voice compression algorithms: G.711, 32 Kbps ADPCM, 24 Kbps ADPCM and G.729A. Depending on the voice compression algorithm selected, you may need anywhere from 16 Kbps (G.729A), 40 Kbps (ADPCM32) or 72Kbps (G.711) per user.Compression Algorithms and the Corresponding Bandwidth SizeG711ADPCM32ADPCM24G.729ANo Compression32 (40 w/signaling) Kbps24 (32 w/signaling) Kbps8 (16 w/signaling) KbpsUsing the bandwidth management chart below, you can determine the total bandwidth necessary to support your application. If you have excess bandwidth on your network circuit, your network terminating devices could allow you to use that bandwidth to connect to a router or even another EXTender 6000. In order to accomplish this, you must have the multi-port capability on your network service terminating device. For more information on your network terminating devices, please see the Network Terminating Equipment section of the System Administrator’s Guide.Selecting the Proper Voice CompressionThe best voice quality is achieved by using the ADPCM32 compression. However, the maximum quality comes at the expense of the highest utilized bandwidth. The highest degree of voice compression isachieved by using the G.729A. If you are using this algorithm, you will significantly save on the bandwidth and still achieve voice quality that is regarded as near toll. If absolute conversation quality is your goal and bandwidth is not a constraint, you probably want to select ADPCM32. If you are conserving bandwidth, you might employ the G.729A.You can also vary the compression per user. If you have support reps handling sensitive customer calls or people who use the conferencing feature often, you might want to assign the highest quality, ADPCM 32 to those users. Others in the organization, perhaps engineers or accountants, may use the phone much less often and can be assigned G.729A (which is near-toll quality) to conserve bandwidth.If you are using different compression algorithms for each individual user (port), use the following formula to establish your aggregate data bandwidth needs.Number of ports at G.711Number ofports atG.729ANumber ofports atADPCM 24Number ofports atADPCM 32x 72x 16x 32x 40BandwidthRequiredNumber ofDS0’sA+B+C+D= X(Divide by 56or 64 todeterminenumber ofDS0 channelsneeded)* N OTE: If your DS0s on your CSU/DSUs are set up for 56Kbps, use 56 and if they are set up for64Kbps DS0s, use 64.Step 3: Provision or Increase Network CapacityBased on the bandwidth requirements you calculated in Step 2, make sure your network has adequate bandwidth provisioned. You may also want to consider a back-up plan when you calculate your bandwidth and network types. For example, if you are using T1 as your primary network connection on WAN1, you might want to provision an ISDN line for redundancy on WAN2.Line InformationTo assist you in setting up your network termination device (CSU/DSU, MUX, etc.), it will be helpful to record the following information from your service provider and network configuration.Please complete appropriate section in reference to network service being implemented with the Branch Office EXTender and Branch Office Configuration Hardware (section 3.1).3.A T1/FT1 Line Provisioning & Misc. Information3.B ISDN Line Provisioning & Misc. InformationNote: If X from Step 2 is greater than 128Kbps, ISDN service will not provide adequate bandwidth for 8 digital sets functional concurrently. One ISDN 2B+D Circuit can support up to eight (8) digital sets fully functional concurrently with G.729a compression selected for all ports. Or one ISDN 2B+D Circuit could support two (2) Branch Office EXTenders with a total of 16 digital sets but of which only 4 could be concurrently active per BOE on the respective B Channel for a total of 8 sets active concurrently. For this to occur, network service terminating equipment (TA) must have the capacity of two data ports.Port 1:G BOE DataG LAN/WAN Data Physical Interface:G Winchester Female G DB-25 Female Port 2:G BOE DataG LAN/WAN Data Physical Interface:G Winchester Female G DB-25 FemaleISDN Line Provisioning G Both Channels Circuit Switch Voice & Data (CSVD)Switch PBX/KSU Digital Port Cross Connect Date:______ / ______ / ______Remote Digital Station Port Runs & Cross Connect Date:______ / ______ / ______Switch ISDN Network Service Circuit ID:Remote ISDN Network Service Circuit ID:3.C Leased Line Provisioning & Misc. InformationNote: If X from Step 2 is greater than 128Kbps, 56/64K Digital Data Service (DDS) Leased Line will not provide adequate bandwidth for digital set functionality. One DDS Circuit can support up to eight (8) digital sets at the remote location, of which four (4) can be fully functional concurrently with G.729a compression selected for all ports. Two DDS circuits can be provided to the BOE for bandwidth to support the 8 sets concurrently.Port 1:G BOE DataPhysical Interface:G Winchester FemaleG DB-25 FemaleSwitch PBX/KSU Digital Port Cross Connect Date:______ / ______ / ______Remote Digital Station Port Runs & Cross Connect Date:______ / ______ / ______DDS Network Service Circuit ID:3.1 Branch Hardware Configuration InformationSwitch EXTender Name (Optional):Up To 16 Characters BOE #1 _____________________________BOE #2 _____________________________BOE #3 _____________________________BOE #4 _____________________________BOE #5 _____________________________BOE #6 _____________________________BOE #7 _____________________________BOE #8 _____________________________Switch EXTender IP Address (Optional):BOE # 1 ______ . ______ . ______ . ______BOE # 2 ______ . ______ . ______ . ______BOE # 3 ______ . ______ . ______ . ______BOE # 4 ______ . ______ . ______ . ______BOE # 5 ______ . ______ . ______ . ______BOE # 6 ______ . ______ . ______ . ______BOE # 7 ______ . ______ . ______ . ______BOE # 8 ______ . ______ . ______ . ______Switch EXTender IP Address Default Router (Optional):______ . ______ . ______ . ______Switch EXTender IP Subnet Mask (Optional):______ . ______ . ______ . ______IP Address Switch Network Terminating Device (Optional):______ . ______ . ______ . ______Remote EXTender Name (Optional):Up to 16 Characters BOE #1 _____________________________BOE #2 _____________________________BOE #3 _____________________________BOE #4 _____________________________BOE #5 _____________________________BOE #6 _____________________________BOE #7 _____________________________BOE #8 _____________________________Remote EXTender IP Address (Optional):BOE # 1 ______ . ______ . ______ . ______BOE # 2 ______ . ______ . ______ . ______BOE # 3 ______ . ______ . ______ . ______BOE # 4 ______ . ______ . ______ . ______BOE # 5 ______ . ______ . ______ . ______BOE # 6 ______ . ______ . ______ . ______BOE # 7 ______ . ______ . ______ . ______BOE # 8 ______ . ______ . ______ . ______Remote EXTender IP Address Default Router (Optional):______ . ______ . ______ . ______Remote EXTender IP Subnet Mask (Optional):______ . ______ . ______ . ______IP Address Remote Network Terminating Device (Optional):______ . ______ . ______ . ______Step 4: Wire Remote Site for PhonesMake sure that your branch office has been wired for your digital sets, and that you have phones available. We also recommend that you have an analog phone somewhere in your branch for emergencies or back-up (this could be your fax machine).Remote – Block PunchdownG Remote RJ21 (Male) port to punch down block – 110 or 66 (marked)Remote Punchdown1)____ ____2)____ ____3)____ ____4)____ ____5)____ ____6)____ ____7)____ ____8)____ ____Extension (DN) Assigned1)__________2)__________3)__________4)__________5)__________6)__________7)__________8)__________Step 5: Check PBX/KTS Configuration, CapacityMake sure that you have digital ports available on your PBX for each user at the branch office, the ports are programmed in the PBX and punched down to the block, and that your voicemail, unified messaging, ACD and accounting systems have adequate capacity to support your branch users.Switch – PBX Programming – Block PunchdownG Switch digital port setup/functional and RJ21 (Male) port to punch down block – 110 or 66(marked)Switch Digital Shelf/Card/Slot/Port1)____ ____ ____ ____2)____ ____ ____ ____3)____ ____ ____ ____4)____ ____ ____ ____5)____ ____ ____ ____6)____ ____ ____ ____7)____ ____ ____ ____8)____ ____ ____ ____Extension (DN) Assigned1)__________2)__________3)__________4)__________5)__________6)__________7)__________8)__________Step 6: CablingReview this section carefully and make sure that you have the necessary cables before you begin installation. Note: The cables that are included with the EXTender units are the power & RS530 (DB25 male à DB25 female) for both units & the serial cable with remote unit. Other cables and accessories are readily available through a computer supply source or through MCK. Call Sales at 1-888-454-7979 to order your cables.EXTender Cabling & Other InformationSwitch (PBX / KSU Location)G Serial cable for / to management station (Female DB-9 port on BOE)G Ethernet Cable (Optional) – twisted pair (10BaseT) for connectivity to TCP/IP data network hub formanagement capabilities (TelNet)G Cable for connectivity EXTender 6000 (BOE) to Network Terminating Equipment (NTE)G M34 Winchester Male (NTE) à DB25 Female (BOE) “or”G DB25 Male (NTE) à DB25 Female (BOE) “or”G DB25 Male and M34 Adapter à DB25 Female to Winchester MaleG Switch digital line card port punch down to block for cross connect to RJ-21 port on Switch BranchOffice EXTender for digital station ports being extended.Note: MCK recommends that cross connects for digital ports being extended be done to a separate block.DB25 Male to Female cable is included with each Branch EXTender Unit.Remote Branch Site:G Serial cable for / to management stationG Ethernet Cable (Optional) – twisted pair (10BaseT) for connectivity to TCP/IP data network hub formanagement capabilities (TelNet)G Cable for connectivity EXTender 6000 (BOE) to Network Terminating Equipment (NTE)G M34 Winchester Male (NTE) à DB25 Female (BOE) “or”G DB25 Male (NTE) à DB25 Female (BOE) “or”G DB25 Male and M34 Adapter à DB25 Female to Winchester MaleG Station runs to punch down block for cross connect to RJ-21 port on Remote Branch Office EXTenderfor digital station ports being extended.DB25 Male to Female cable is included with each Branch EXTender Unit.Introduction Wiring Info The EXTender 6000 connects to network devices via one or two male DB-25connectors, labeled WAN1 and WAN2.The WAN ports recognize three synchronous protocols;GRS-232 (see figure A for pinouts)GV.35 (see figure B for pinouts)G RS-530 (see figure C for pinouts)Note: The data port of the network terminating device must support one of aboveprotocols operating in a synchronous manner.Figure A through C , lists each pin within the DB-25 connector with the signaldescription and signal/voltage source, using the Electronics Industry Association (EIA)standard.Note: The WAN ports on the back of the EXTender 6000 are DB-25 Male.RJ21 port on the back of the EXTender 6000 is 50-Pin Male.Cables Available From MCKDB-25 Male to DB-25 FemaleG MCK # A-CDB25MF-1M34 Adapters – DB-25 Female to Winchester MaleG MCK # A-ADB25M34Cables Available From Black BoxTelephone: 724-746-5500DB-25 Male to FemaleG Black Box # EVN530-005-MF M34 Adapters – DB-25 Female to Winchester MaleG Black Box # FA059Connector Pinout InformationFigure A . RS-232 Cable PinoutsFigure B. V.35 Cable PinoutsFigure C. RS-530 Cable PinoutsStep 7: Branch Office EXTender 6000 InstallationComplete, step-by-step instructions are available in the System Administrator’s Guide (included with switch unit(s)) and the Quick Installation Guide (included with remote unit(s)). Once all the components are in place, cabling is a simple process.Step 8: Power On!Once the units are cabled to the network device and to the phones and switch and the network is up and running, you are ready to power on. Since the units come pre-configured with default settings (G.729a compression / 384k bandwidth / V.35 protocol), you should be able to place and receive calls immediately.Step 9: Customize ConfigurationMost likely, you will want to customize the configuration to reflect your company’s needs. For example, you can change compression options per user, assign passwords, increase or decrease bandwidth, and customize many other functions. Again, complete instructions for using the management interface are included in the System Administrator’s Guide.。

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目录目录 (3)图片清单 (4)表格清单 (4)基本资料 (5)第1章—安全说明 (6)1.1. 概述 (6)1.2. 所需资格及责任 (6)第2章—装置说明 (6)2.1. 引言 (6)2.2. 操作 (6)2.3. 应用范围 (7)2.4. 硬件 (7)2.5. 设置 (7)第3章—功能说明 (9)3.1. 概述 (9)3.2. 状态LED (9)3.3. 显示屏 (9)3.4. 键盘 (10)3.5. 报警报告 (10)3.6. 故障报告 (10)3.7. 菜单结构 (11)第4章—维护及故障 (13)4.1. 维护 (13)4.2. 装置维修 (13)第5章—基本数据 (14)图片清单图1–CCP (9)表格清单表1—按键命令说明 (10)表2—显示屏 (11)表3—参数 (12)表4—故障记录器（示例） (12)表5—时钟设置 (13)基本资料制造商地址如有问题，请咨询当地ABB代理机构或工厂：重要！致电ABB时，请留下您的姓名、部门及电话号码，以便负责该事宜的ABB代理机构能够及时回电。

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