CC5003GWP中文资料

手持式数据终端使用手册第一章快速指导1.1产品概述:此设备将“ALL IN ONE”的设计理念贯穿其中，它将图像获取、无线通讯、条码扫描、RFID读写器等功能集成一身。

并且具有多协议兼容、工业级设计(IP64)等优点，可广泛的应用于各种场所，典型的应用场合有：✧物流和仓储管理：物品流动与仓储管理以及邮件、包裹、运输行李等的流动管理。

✧供应链应用领域：物品供应过程的应用等。

✧产品防伪检测：利用标签内存储器写保护功能，对产品真伪进行鉴别。

✧其它领域：在俱乐部管理、图书馆、学生学籍、消费管理、考勤管理、就餐管理、泳池管理等。

特性：●企业必须的耐用性：可承受各种环境下的日常使用。

●多种可选读取方式：可选支持一维、二维条码扫描，可选RFID低频、高频等多种频段、多种协议读取。

●支持多种通讯模块传输方式：GPRS/Zigbee/WIFI/433M/蓝牙模块。

●触屏和可选的键盘功能：允许采用多种方式输入数据，充分发挥应用程序功能，满足用户偏好。

●时尚的设计：易于手持，可最大限度的减轻用户使用时的疲劳感。

●坚固耐用的外壳：本产品符合IP64标准。

●支持标准卡和扩展卡：支持TF卡具有可扩展功能。

1.2外部结构正面图1-21编号名称1 听筒2 左侧按键3 键盘面板4 话筒5 开关机键6 右侧按键7 触摸屏8 音量调节按钮9 指示灯背面图1-22编号名称1 条码扫描头（一维、二维）2 触摸笔3 RFID感应区4 腕带孔5 电池壳螺丝6 电池7 摄像头8 扩展螺丝孔底部图1-23编号名称1 USB接口（10P）2 IO扩展口（14P）1.3键盘说明此设备的按键包括26个键盘按键和4个侧按键，其中4个侧按键及键盘下方的F1/F2/F3/F4/F5共9个功能键均可以自定义功能。

图1-3键盘功能表按键说明左右功能键，根据应用程序设定不同的功能在待机界面，点击可分别进入工具和设置功能。

向上、向下、向左、向右移动选定位置。

RETURN键，数字键，按对应数字可在输入框中输入。

振镜激光焊接设备GWC-STD Ⅱ－硬件篇－使用说明书感谢您选购天田米亚基的振镜激光焊接设备本使用说明书记载了振镜激光焊接设备的使用方法和使用注意事项。

请在使用之前，仔细阅读本使用说明书，正确使用产品。

此外，在阅读之后，请妥善保存，以便随时取阅。

天田米亚基焊接设备（上海）有限公司C-M0042-001目录关于本使用说明书 (3)1.本使用说明书的构成 (3)2.注意事项 (3)3.关于本说明书的标记方法 (3)第一部分振镜激光焊接设备整体说明 (4)第1章特别注意事项 (4)1.安全注意事项 (4)2.操作注意事项 (7)第2章特点 (8)第3章系统构成 (9)1.整体构成 (9)2.基本规格 (10)3.各部位名称及功能 (11)第4章设置 (15)1.开箱 (15)2.设置 (16)第5章设备的点检及更换 (19)1.控制单元 (19)2.振镜单元 (19)第二部分控制及控制箱部分 (23)第1章设备的启动和终止 (23)1.设备的启动流程 (23)2.设备的终止流程 (24)第2章接口 (25)1.外部输入输出（EXT I/O (1)） (25)2.外部输入输出（EXT I/O (2)） (28)3.外部输入输出（EXT I/O (3)） (29)4.振镜扫描头控制输入输出（HEAD I/F(1)～(3)） (30)5.用户外部I/O输入输出（USER I/O） (31)第3章外形图 (38)第三部分振镜头部分 (38)第1章规格（YAG激光设备用） (38)1.透镜单元组合 (39)2.加工参数 (41)3.各透镜参数的设定范围 (41)第2章外观图 (42)第四部分激光焊接设备的设定 (43)1.MCL251 (43)2.ML系列,MCL300系列 (44)关于本使用说明书1.本使用说明书的构成本说明书对扫描式激光焊接系统GWC-STDⅡ的设置、操作方法、维护、规格的记述。

本说明书由以下篇章构成。

目录（一）产品概述 (3)一、简介 (3)1.特点和优点 (3)2.操作模式与连接示例 (4)（二）面板试图和说明 (6)二、硬件安装 (8)1.硬件设置 (8)2.使用电源适配器为设备供电 (8)3.使用POE为设备供电 (9)三、Web界面访问 (13)1.使用uConfig 访问 (13)2.基于Web浏览器访问 (15)四、导航 (17)1.主菜单栏 (17)2.怎样保存更改 (18)五、基本网络选项卡 (18)1.网络模式：桥接和路由 (18)2.局域网设置 (19)六、基本无线选项卡 (20)1.基本无线设置 (21)2.AP参数设置 (22)3.站参数设置 (23)4.无线安全 (25)5.虚拟接入点（VAP） (28)七、优先无线选项卡 (29)1.长距离参数设置 (30)八、优先网络选项卡 (31)1.生成树设置 (32)2.NAT设置 (33)3.防火墙设置 (34)九、服务选项卡 (37)1.Ping看门狗 (38)2.自动重新启动 (38)3.SNMP设置 (38)4.NTP设置 (39)5.Web HTTP安全 (39)6.Telnet访问设置 (39)7.SSH访问设置 (40)8.系统日志设置 (40)十、系统选项卡 (40)1.F.W升级 (40)2.主机名 (41)3.管理和只读帐户 (41)4.配置管理 (42)5.设备维护 (42)十一、状态页 (43)1.AP状态信息的客户端连接状态 (44)2.站连接信息 (45)3.更多状态 (46)十二、虚拟局域网选项卡 (47)1.VLAN 交换机 (47)2.VLAN管理 (48)附录一 - 网络 (48)附录二 - 无线路由器模式 (51)附录三 - 高级设置 (53)附录IV服务 (56)Ping看门狗 (56)SNMP代理 (56)NTP客户端，Web，TELNET，SSH服务器 (56)系统日志 (57)附录V - VLAN设置实例 (58)A) 记无线VLAN标记以太网VLAN设置 (57)B）未标记的无线VLAN标记以太网VLAN设置 (59)C）标记的VLAN通行证 (59)（一）产品概述一、简介高性能的无线接入点AP是专为企业和公共接入应用设计的。

PMS5003颗粒物传感器中⽂说明书V2.3-20160516DSENSOR数字式通⽤颗粒物浓度传感器PMS5003数据⼿册主要特性◆激光散射原理实现精准测量◆零错误报警率◆实时响应并⽀持连续采集◆最⼩分辨粒径0.3µm◆全新专利结构，六⾯全⽅位屏蔽，抗⼲扰性能更强◆进出风⼝⽅向可选，适⽤范围⼴，⽤户⽆需再进⾏风道设计概述PMS5003是⼀款基于激光散射原理的数字式通⽤颗粒物浓度传感器，可连续采集并计算单位体积内空⽓中不同粒径的悬浮颗粒物个数，即颗粒物浓度分布，进⽽换算成为质量浓度，并以通⽤数字接⼝形式输出。

本传感器可嵌⼊各种与空⽓中悬浮颗粒物浓度相关的仪器仪表或环境改善设备，为其提供及时准确的浓度数据。

⼯作原理本传感器采⽤激光散射原理。

即令激光照射在空⽓中的悬浮颗粒物上产⽣散射，同时在某⼀特定⾓度收集散射光，得到散射光强随时间变化的曲线。

进⽽微处理器利⽤基于⽶⽒（MIE）理论的算法，得出颗粒物的等效粒径及单位体积内不同粒径的颗粒物数量。

传感器各功能部分框图如图1所⽰图1 传感器功能框图技术指标如表1所⽰表1 传感器技术指标注1：最⼤量程指本传感器确保PM2.5标准值最⾼输出数值不⼩于1000微克/⽴⽅⽶。

1000微克/⽴⽅⽶以上以实测为准。

注2：颗粒物浓度⼀致性数据为通讯协议中的数据2（见附录A）测量环境条件为20℃，湿度50%数字接⼝定义PIN1图2 接⼝⽰意图输出结果主要输出为单位体积内各浓度颗粒物质量以及个数，其中颗粒物个数的单位体积为0.1升，质量浓度单位为：微克/⽴⽅⽶。

输出分为主动输出和被动输出两种状态。

传感器上电后默认状态为主动输出，即传感器主动向主机发送串⾏数据，时间间隔为200~800ms，空⽓中颗粒物浓度越⾼，时间间隔越短。

主动输出⼜分为两种模式：平稳模式和快速模式。

在空⽓中颗粒物浓度变化较⼩时，传感器输出为平稳模式，即每三次输出同样的⼀组数值，实际数据更新周期约为2s。

ccg3规格书CCG3规格书一、产品介绍CCG3是一种开关电源集成电路芯片，其主要用途是将输入电压转换为稳定的输出电压。

该芯片适用于广泛的电源应用，具有高效率、稳定性和可靠性等优点。

二、主要特性1.输入电压范围：4.5V至28V2.输出电压范围：0.8V至24V3.输出电流：最大3A4.工作温度范围：-40°C至85°C5.高效率：达到90%以上6.过载保护：具有过载保护功能，当输出电流超过额定值时会自动关闭输出以保护负载和芯片本身。

7.短路保护：具有短路保护功能，当输出短路时会自动关闭输出以防止芯片受损。

8.输入欠压关闭：当输入电压低于最低工作电压时，芯片会自动关闭以防止故障。

三、引脚定义1. VIN：输入电压引脚，连接输入电源正极。

2. GND：地引脚，连接输入电源负极。

3. VOUT：输出电压引脚，连接负载。

4. EN：使能引脚，用于控制芯片的开关状态。

高电平使芯片开启，低电平使芯片关闭。

5. FB：反馈引脚，用于调整输出电压。

通过改变反馈电压可以调整输出电压。

四、使用注意事项1.输入电压必须在规定范围内，过高或过低的输入电压都会导致芯片无法正常工作。

2.在设计电路时应注意负载电流是否超过芯片的额定输出电流。

3.充分考虑散热问题，芯片在工作时会产生一定的热量，应保证散热良好以避免芯片过热。

4.若需要调整输出电压，请在关闭芯片电源的情况下修改反馈电压。

五、应用场景1.电子设备电源模块：可以将输入电源转换为适用于各类电子设备的稳定输出电压。

2.嵌入式系统：可以作为嵌入式系统的电源管理模块，提供稳定的电源供应。

3.工控设备：CCG3可用于工控设备中的电源转换和管理。

六、结论CCG3是一款功能强大、稳定可靠的开关电源集成电路芯片。

其具有广泛的应用领域，可以满足各种电源需求。

如果你需要一个高效率、稳定性好的电源供应解决方案，CCG3将是你的不二选择。

ICC UNIFORM CUSTOMS AND PRACTICE FOR DOCUMENTARYCREDITSUCP 600英文FOREWORD (4)INTRODUCTION (6)ARTICLE 1 APPLICATION OF UCP (12)ARTICLE 2 DEFINITIONS (13)ARTICLE 3 INTERPRETATIONS (15)ARTICLE 4 CREDITS V。

CONTRACTS (17)ARTICLE 5 DOCUMENTS V。

GOODS, SERVICES OR PERFORMANCE (17)ARTICLE 6 AV AILABILITY，EXPIRY DATE AND PLACE FOR PRESENTATION (18)ARTICLE 7 ISSUING BANK UNDERTAKING (18)ARTICLE 8 CONFIRMING BANK UNDERTAKING (20)ARTICLE 9 ADVISING OF CREDITS AND AMENDMENTS (22)ARTICLE 10 AMENDMENTS (23)ARTICLE 11 TELETRANSMITTED AND PRE—ADVISED CREDITS AND AMENDMENTS (24)ARTICLE 12 NOMINATION (25)ARTICLE 13 BANK-TO—BANK REIMBURSEMENT ARRANGEMENTS (26)ARTICLE 14 STANDARD FOR EXAMINATION OF DOCUMENTS (27)ARTICLE 15 COMPLYING PRESENTATION (30)ARTICLE 16 DISCREPANT DOCUMENTS, W AIVER AND NOTICE (31)ARTICLE 17 ORIGINAL DOCUMENTS AND COPIES (33)ARTICLE 18 COMMERCIAL INVOICE (34)ARTICLE 19 TRANSPORT DOCUMENT COVERING AT LEAST TWO DIFFERENT MODES OF TRANSPORT (35)ARTICLE 20 BILL OF LADING (37)ARTICLE 21 NON-NEGOTIABLE SEA W AYBILL (40)ARTICLE 22 CHARTER PARTY BILL OF LADING (43)ARTICLE 23 AIR TRANSPORT DOCUMENT (44)ARTICLE 24 ROAD，RAIL OR INLAND W ATERWAY TRANSPORT DOCUMENTS (46)ARTICLE 25 COURIER RECEIPT, POST RECEIPT OR CERTIFICATE OF POSTING (48)ARTICL E 26 "ON DECK", ”SHI PPER'S LOAD AND COUN T”，“SAID BY SHIPPER TO CONTAIN”AND CHARGES ADDITIONAL TO FREIGHT (49)ARTICLE 27 CLEAN TRANSPORT DOCUMENT (50)ARTICLE 28 INSURANCE DOCUMENT AND COVERAGE (50)ARTICLE 29 EXTENSION OF EXPIRY DATE OR LAST DAY FOR PRESENTATION (52)ARTICLE 30 TOLERANCE IN CREDIT AMOUNT，QUANTITY AND UNIT PRICES (53)ARTICLE 31 PARTIAL DRA WINGS OR SHIPMENTS (54)ARTICLE 32 INSTALMENT DRA WINGS OR SHIPMENTS (55)ARTICLE 33 HOURS OF PRESENTATION (55)ARTICLE 34 DISCLAIMER ON EFFECTIVENESS OF DOCUMENTS (55)ARTICLE 35 DISCLAIMER ON TRANSMISSION AND TRANSLATION (56)ARTICLE 36 FORCE MAJEURE (57)ARTICLE 37 DISCLAIMER FOR ACTS OF AN INSTRUCTED PARTY (57)ARTICLE 38 TRANSFERABLE CREDITS (58)ARTICLE 39 ASSIGNMENT OF PROCEEDS (62)UCP600中文版UCP600第一条UCP的适用范围 (62)第二条定义 (63)第三条解释 (64)第四条信用证与合同 (65)第五条单据与货物、服务或履约行为 (65)第六条兑用方式、截止日和交单地点 (65)第七条开证行责任 (66)第八条保兑行责任 (66)第九条信用证及其修改的通知 (67)第十条修改 (68)第十一条电讯传输的和预先通知的信用证和修改 (69)第十二条指定 (69)第十三条银行之间的偿付安排 (69)第十四条单据审核标准 (70)第十五条相符交单 (71)第十六条不符单据、放弃及通知 (72)第十七条正本单据及副本 (73)第十八条商业发票 (73)第十九条涵盖至少两种不同运输方式的运输单据 (74)第二十条提单 (75)第二十一条不可转让的海运单 (76)第二十二条租船合同提单 (78)第二十三条空运单据 (79)第二十四条公路、铁路或内陆水运单据 (80)第二十五条快递收据、邮政收据或投邮证明 (81)第二十六条“货装舱面”、“托运人装载和计数”、“内容据托运人报称”及运费之外的费用. (81)第二十七条清洁运输单据 (81)第二十八条保险单据及保险范围 (82)第二十九条截止日或最迟交单日的顺延 (83)第三十条信用证金额、数量与单价的伸缩度 (83)第三十一条部分支款或部分发运 (83)第三十二条分期支款或分期发运 (84)第三十三条交单时间 (84)第三十四条关于单据有效性的免责 (84)第三十五条关于信息传递和翻译的免责 (84)第三十六条不可抗力 (85)第三十七条关于被指示方行为的免责 (85)第三十八条可转让信用证 (86)第三十九条款项让渡 (88)FOREWORDThis revision of the Uniform Customs and Practice for Documentary Credits （commonly called “UCP”) is the sixth revision of the rules since they were first promulgated in 1933.It is the fruit of more than three years of work by the International Chamber of Commerce’s (ICC）Commission on Banking Technique and Practice。

CC1050Single Chip Very Low Power RF Transmitter Applications•Very low power UHF wireless data transmitters•315 / 433 / 868 and 915 MHz ISM/SRD band systems •RKE – Remote Keyless Entry •Home automation•Wireless alarm and security systems •AMR – Automatic Meter Reading •Low power telemetry•Game Controllers and advanced toysProduct DescriptionCC1050 is a true single-chip UHF trans-mitter designed for very low power and very low voltage wireless applications. The circuit is mainly intended for the ISM (Industrial, Scientific and Medical) and SRD (Short Range Device) frequency bands at 315, 433, 868 and 915 MHz, but can easily be programmed for operation at other frequencies in the 300-1000 MHz range.The main operating parameters of CC1050 can be programmed via an easy-to-interface serial bus, thus making CC1050 a very flexible and easy to use transmitter. In a typical system CC1050 will be used together with a microcontroller and a few external passive components. CC1050 is based on Chipcon’s SmartRF®technology in 0.35 µm CMOS.Features•True single chip UHF RF transmitter •Very low current consumption •Frequency range 300 – 1000 MHz •Programmable output power –20 to12 dBm•Small size (TSSOP-24 package)•Low supply voltage (2.1 V to 3.6 V) •Very few external components required •Single-ended antenna connection •FSK data rate up to 76.8 kBaud •Complies with EN 300 220 and FCC CFR47 part 15•Programmable frequency in 250 Hz steps makes crystal temperature driftcompensation possible without TCXO •Suitable for frequency hopping protocols•Development Kit available•Easy-to-use software for generating the CC1050 configuration dataTable of ContentsAbsolute Maximum Ratings (4)Operating Conditions (4)Electrical Specifications (4)Pin Assignment (7)Application Circuit (9)Configuration Overview (10)Configuration Software (11)3-wire Serial Configuration Interface (12)Microcontroller Interface (14)Signal interface (15)Frequency programming (17)VCO (17)VCO and PLL self-calibration (17)VCO current control (21)Power management (21)Output Matching (24)Output power programming (25)Crystal oscillator (26)Optional LC Filter (27)System Considerations and Guidelines (28)PCB Layout Recommendations (29)Antenna Considerations (29)Configuration registers (30)Package Description (TSSOP-24) (38)Soldering Information (38)Plastic Tube Specification (38)Carrier Tape and Reel Specification (38)Ordering Information (39)General Information (39)Address Information (40)Absolute Maximum RatingsParameter Min.Max. Units ConditionSupply voltage, VDD -0.3 5.0 VVoltage on any pin -0.3 VDD+0.3,max 5.0V Input RF level 10 dBmStorage temperature range -50 150 °CReflow soldering temperature 260 °C T = 10 sUnder no circumstances the absolute maximum ratings given above should be violated. Stress exceeding one or more of the limiting values may cause permanent damage to the device.Caution! ESD sensitive device.Precaution should be used when handlingthe device in order to prevent permanentdamage.Operating ConditionsParameter Min. Typ. Max. Unit Condition / NoteRF Frequency Range 300 1000 MHz Programmable in steps of 250 Hz Operating ambient temperature range -40 85 °CSupply voltage 2.1 3.0 3.6 V Note: The same supply voltageshould be used for digital (DVDD)and analogue (AVDD) power. Electrical SpecificationsTc = 25°C, VDD = 3.0 V if nothing else statedParameter Min. Typ. Max. Unit Condition / Note Transmit SectionTransmit data rate 0.6 76.8 kBaud NRZ or Manchester encoding.76.8 kBaud equals 76.8 kbit/susing NRZ coding. See page 15. Binary FSK frequency separation 0 65 kHz The frequency separation isprogrammable in 250 Hz steps.65 kHz is the maximumguaranteed separation at 1 MHzreference frequency. Largerseparations can be achieved athigher reference frequencies. Output power433 MHz 868 MHz -20-20128dBmdBmDelivered to 50 Ω load.The output power isprogrammable.RF output impedance 433/868 MHz 110 / 70 ΩTransmit mode. For matchingdetails see p.24.Parameter Min. Typ. Max. Unit Condition / NoteSpurious emission -36 dBm Complies with EN 300 220 Harmonics -20 dBc An external LC should be used toreduce harmonics emission tocomply with SRD requirements.See p.27.Frequency SynthesiserSectionCrystal Oscillator Frequency 3 16 MHz Crystal frequency can be 3-4, 6-8or 9-16 MHz. Recommendedfrequencies are 3.6864, 7.3728,11.0592 and 14.7456. See page26 for details.Crystal frequency accuracy requirement ± 50± 25ppm433MHz868 MHzThe crystal frequency accuracyand drift (ageing andtemperature dependency) willdetermine the frequency accuracyof the transmitted signal.Crystal operation Parallel C3 and C4 are loadingcapacitors, see page 26Crystal load capacitance 121212 221616303016pFpFpF3-8 MHz, 22 pF recommended6-8 MHz, 16 pF recommended9-16 MHz, 16 pF recommendedCrystal oscillator start-up time 41.52 msmsms3.6864 MHz, 16 pF load7.3728 MHz, 16 pF load16 MHz, 16 pF loadOutput signal phase noise -80 dBc/Hz At 100 kHz offset from carrier PLL lock time 200 µs Up to 1 MHz frequency stepPLL turn-on time, crystal oscillatoron in power down mode250 µs Crystal oscillator runningDigital Inputs/OutputsLogic "0" input voltage 00.3*VDD VLogic "1" input voltage 0.7*VDD VDD VLogic "0" output voltage 0 0.4 V Output current -2.5 mA,3.0 V supply voltageLogic "1" output voltage 2.5 VDD V Output current 2.5 mA,3.0 V supply voltageLogic "0" input current NA -1 µA Input signal equals GNDLogic "1" input current NA 1 µA Input signal equals VDDDI setup time 20 ns TX mode, minimum time DI mustbe ready before the positive edgeof DCLKDI hold time 10 ns TX mode, minimum time DI mustbe held after the positive edge ofDCLKParameter Min. Typ. Max. Unit Condition / Note Serial interface (PCLK, PDATA andPALE) timing specificationSee Table 2 page 13 Current ConsumptionPower Down mode 0.2 1 µA Oscillator core offCurrent Consumption,transmit mode 433/868 MHz:P=0.01mW (-20dBm) P=0.3mW (-5dBm)P=1mW (0dBm)P=3mW (5dBm)P=6mW (8dBm)P=16mW (12dBm)5.5/8.07.3/10.09.1/14.213.3/17.715.9/24.923.3/NAmAmAmAmAmAmAThe output power is delivered to a50Ω loadCurrent Consumption, crystal osc. Current Consumption, crystal osc. and biasCurrent Consumption, crystal osc., bias and synthesiser 30801054004.05.5µAµAµAµAmAmA3-8 MHz, 16 pF load9-14 MHz, 12 pF load14-16 MHz, 16 pF load< 500 MHz> 500 MHzPin AssignmentPin no. Pin name Pin type Description1 AVDD Power (A) Power supply (3 V) for analog modules (PA)2 AGND Ground (A) Ground connection (0 V) for analog modules (PA)3 AGND Ground (A) Ground connection (0 V) for analog modules (PA)4 AGND Ground (A) Ground connection (0 V) for analog modules (VCO and prescaler)5 L1 Analog inputConnection no 1 for external VCO tank inductor 6 L2 Analog input Connection no 2 for external VCO tank inductor7 AVDDPower (A) Power supply (3 V) for analog modules (VCO and prescaler) 8CHP_OUTAnalog outputCharge pump current output when external loop filter is used The pin can also be used as PLL Lock indicator. Output is high when PLL is in lock.9 R_BIASAnalog output Connection for external precision bias resistor (82 k Ω, ± 1%) 10 AGND Ground (A) Ground connection (0 V) for analog modules (backplane) 11 AVDD Power (A) Power supply (3 V) for analog modules (general) 12 AGND Ground (A) Ground connection (0 V) for analog modules (general) 13 XOSC_Q2 Analog output Crystal, pin 2 14 XOSC_Q1 Analog input Crystal, pin 1, or external clock input 15 AGND Ground (A) Ground connection (0 V) for analog modules (guard) 16 DGND Ground (D) Ground connection (0 V) for digital modules (substrate) 17 DVDD Power (D) Power supply (3 V) for digital modules 18 DGND Ground (D) Ground connection (0 V) for digital modules 19 DI Digital input Data input in transmit mode 20 DCLK Digital output Clock for data in transmit mode 21 PCLKDigital input Programming clock for 3-wire bus 22 PDATA Digital input/output Programming data for 3-wire bus. Programming data input for write operation, programming data output for read operation 23 PALE Digital input Programming address latch enable for 3-wire bus 24 RF_OUT RF output RF signal output to antennaA=Analog, D=Digital(Top View)AGND AGNDAGNDL1L2AVDDAGNDPALEPDATA PCLKDCLKDIDGNDDVDDDGNDAGND XOSC_Q1AGNDXOSC_Q2RF_OUT AVDDCHP_OUTR_BIASAVDDCircuit DescriptionFigure 1. Simplified block diagramA simplified block diagram of CC1050 is shown in Figure 1. Only signal pins are shown.The voltage controlled oscillator (VCO) output signal is fed directly to the power amplifier (PA). The RF output is frequency shift keyed (FSK) by the digital bit stream fed to the pin DI. The single ended PA makes the antenna interface and matching very easy. The frequency synthesiser generates the local oscillator signal which is fed to the PA in transmit mode. The frequency synthesiser consists of a crystal oscillator (OSC), phase detector (PD), charge pump (CHARGE PUMP), VCO, and frequency dividers (/R and /N). An external crystal must be connected to XOSC, and only an external inductor is required for the VCO.The 3-wire digital serial interface (CONTROL) is used for configuration.DCLKDICHP_OUTRF_OUTXOSC_Q1R_BIASApplication CircuitVery few external components arerequired for the operation of CC1050. A typical application circuit is shown Figure 2. Component values are shown in Table 1.Output matchingC1, C2 and L2 are used to match the transmitter to 50 Ω. See Output Matching p.24 for details.VCO inductorThe VCO is completely integrated except for the inductor L1. For further details see p. 17.Component values for the matching network and VCO inductor are easily calculated using the SmartRF® Studio software. Crystal oscillatorC3 and C4 are the loading capacitors for the crystal. See page 26 for details. Additional filteringAdditional filtering (e.g. a low pass LC-filter) may be used in order to reduce the harmonic emission. See also Optional LC Filter p.27 for further information.Power supply decoupling and filtering Power supply decoupling and filtering must be used (not shown in the application circuit). The placement and size of the decoupling capacitors and the power supply filtering are very important to achieve the optimum performance. Chipcon provides a reference design (CC1050EB) that should be followed very closely.Figure 2. Typical CC1050application circuitItem 315 MHz 433 MHz 868 MHz 915 MHzC1 5.6 pF, 5%, C0G, 0603 12 pF, 5%, C0G, 0603 4.7 pF, 5%, C0G, 0603 4.7 pF, 5%, C0G, 0603 C2 8.2 pF, 5%, C0G, 0603 6.8 pF, 5%, C0G, 0603 5.6 pF, 5%, C0G, 0603 5.6 pF, 5%, C0G, 0603 C3* 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 C4* 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 L1 56 nH, 5%, 0603 33 nH, 5%, 0603 5.6 nH, 5%, 0603 5.6 nH, 5%, 0603L2 20 nH, 10%, 0805 6.2 nH, 10%, 0805 2.5 nH, 10%, 0805 2.5 nH, 10%, 0805R1 82 kΩ, 1%, 0603 82 kΩ, 1%, 0603 82 kΩ, 1%, 0603 82 kΩ, 1%, 0603XTAL 14.7456 MHz crystal,16 pF load 14.7456 MHz crystal,16 pF load14.7456 MHz crystal,16 pF load14.7456 MHz crystal,16 pF loadNotes:Items shaded are different for different frequencies.Component values for 868 and 915 MHz are equal.*) C3 and C4 will depend on the crystal load capacitance, see page 26.Table 1. Bill of materials for the application circuit Configuration OverviewCC1050 can be configured to achieve the best performance for different applications. Through the programmable configuration registers the following key parameters can be programmed:•Transmit mode / power-down / power-up mode•RF output power• Frequency synthesiser key parameters: RF output frequency, FSKfrequency separation (deviation), crystal oscillator reference frequency •Crystal oscillator power-up / power down• Data rate and data format (NRZ, Manchester coded or UART interface) •Synthesiser lock indicator mode •Modulation spectrum shapingConfiguration SoftwareChipcon provides users of CC1050 with a software program, SmartRF® Studio (Windows interface) that generates all necessary CC1050 configuration data based on the user's selections of various parameters. These hexadecimal numbers will then be the necessary input to the microcontroller for the configuration of CC1050. In addition the program will provide the user with the component values needed for the output matching circuit and the VCO inductor.Figure 3 shows the user interface of the CC1050 configuration software.Figure 3. SmartRF® Studio user interface3-wire Serial Configuration InterfaceCC1050 is configured via a simple 3-wire interface (PDATA, PCLK and PALE). There are 19 8-bit configuration registers, each addressed by a 7-bit address. A Read/Write bit initiates a read or write operation. A full configuration of CC1050 requires sending 19 data frames of 16 bits each (7 address bits, R/W bit and 8 data bits). The time needed for a full configuration depend on the PCLK frequency. With a PCLK frequency of 10 MHz the full configuration is done in less than 30 µs. Setting the device in power down mode requires sending one frame only and will in this case take less than 2 µs. All registers are also readable.In each write-cycle 16 bits are sent on the PDATA-line. The seven most significant bits of each data frame (A6:0) are the address-bits. A6 is the MSB (Most Significant Bit) of the address and is sent as the first bit. The next bit is the R/W bit (high for write, low for read). During address and R/W bit transfer the PALE (Program Address Latch Enable) must be kept low. The 8 data-bits are then transferred (D7:0). See Figure 4.The timing for the programming is also shown in Figure 4 with reference to Table 2. The clocking of the data on PDATA is done on the negative edge of PCLK. When the last bit, D0, of the 8 data-bits has been loaded, the data word is loaded in the internal configuration register.The configuration data is stored in internal RAM and is valid after power-down mode, but not when the power-supply is turned off. The registers can be programmed in any order.The configuration registers can also be read by the microcontroller via the same configuration interface. The seven address bits are sent first, then the R/W bit set low to initiate the data read-back. CC1050 then returns the data from the addressed register. PDATA is in this case used as an output and must be tri-stated (or set high n the case of an open collector pin) by the microcontroller during the data read-back (D7:0). The read operation is illustrated in Figure 5.Figure 4. Configuration registers write operationPCLKPDATA PALET TFigure 5. Configuration registers read operationParameter SymbolMin Max UnitsConditionsPCLK, clock frequencyF CLOCK- 10 MHz PCLK low pulse durationT CL,min50nsThe minimum time PCLK must be low.PCLK high pulse durationT CH,min 50 ns The minimum time PCLK must be high.PALE setup timeT SA10 - ns The minimum time PALE must be low before negative edge of PCLK.PALE hold timeT HA 10 - ns The minimum time PALE must be held low after the positive edge of PCLK.PDATA setup time T SD 10 - ns The minimum time data on PDATA must be ready before the negative edge of PCLK.PDATA hold timeT HD 10 - ns The minimum time data must be held at PDATA, after the negative edge of PCLK.Rise time T rise 100 ns The maximum rise time for PCLK and PALEFall timeT fall100nsThe maximum fall time for PCLK and PALENote: The set-up- and hold-times refer to 50% of VDD.Table 2. Serial interface, timing specificationPCLKPALEPDATAMicrocontroller InterfaceUsed in a typical system, CC1050 will interface to a microcontroller. This microcontroller must be able to:• Program CC1050 into different modes via the 3-wire serial configurationinterface (PDATA, PCLK and PALE). •Interface to the synchronous data signal interface (DI and DCLK). •Optionally the microcontroller can do data encoding / decoding. •Optionally the microcontroller can monitor the frequency lock status frompin CHP_OUT (LOCK).Connecting the microcontrollerThe microcontroller uses 3 output pins for the configuration interface (PDATA, PCLK and PALE). PDATA should be a bi-directional pin for data read-back. The DI pin is used for data to be transmitted. DCLK providing the data timing should be connected to a microcontroller input. Optionally another pin can be used to monitor the LOCK signal (available at the CHP_OUT pin). This signal is logic level high when the PLL is in lock. SeeFigure 6. The microcontroller pins connected to PDATA and PCLK can be used for other purposes when the configuration interface is not used. PDATA and PCLK are high impedance inputs as long as PALE high. PALE has an internal pull-up resistor and should be left open (tri-stated by the microcontroller) or set to a high level during power down mode in order to prevent a trickle current flowing in the pull-up.Figure 6. Microcontroller interfaceSignal interfaceThe signal interface consists of DI and DCLK and is used for the data to be transmitted. DI is the data input line and DCLK provides a synchronous clock during data transmission.The CC1050 can be used with NRZ (Non-Return-to-Zero) data or Manchester (also known as bi-phase-level) encoded data.CC1050 can be configured for three different data formats:Synchronous NRZ mode. CC1050 provides the data clock at DCLK, and DI is used as data input. Data is clocked into CC1050 at the rising edge of DCLK. The data is modulated at RF without encoding. CC1050 can be configured for the data rates 0.6, 1.2, 2.4, 4.8, 9.6, 19.2, 38.4 or 76.8 kbit/s. See Figure 7.Synchronous Manchester encoded mode. CC1050 provides the data clock at DCLK, and DI is used as data input. Data is clocked into CC1050 at the rising edge of DCLK and should be in NRZ format. The data is modulated at RF with Manchester code. The encoding is done by CC1050. In this mode CC1050 can be configured for the data rates 0.3, 0.6, 1.2, 2.4, 4.8, 9.6, 19.2 or 38.4 kbit/s. The 38.4 kbit/s rate corresponds to the maximum 76.8 kBaud due to the Manchester encoding. See Figure 8.Transparent Asynchronous UART mode. In transmit mode DI is used as data input. The data is modulated at RF without synchronisation or encoding. Data rates in the range from 0.6 to 76.8 kBaud can be used. See Figure 9.Manchester encodingIn the Synchronous Manchester encoded mode CC1050 uses Manchester coding when modulating the data. The Manchester code is based on transitions; a “0” is encoded as a low-to-high transition, a “1” is encoded as a high-to-low transition. See Figure 10.The Manchester code ensures that the signal has a constant DC component, which is necessary in some FSK demodulators. Using this mode also ensures compatibility with CC400/CC900 designs.FSK modulating signal (NRZ),DCLK DI “RF”Clock provided by CC1050internal in CC1050Data provided by microcontrollerFigure 7. Synchronous NRZ modeFSK modulating signal (Manchester encoded),DCLK DI “RF”Clock provided by CC1050internal in CC1050Data provided by microcontroller (NRZ)Figure 8. Synchronous Manchester encoded modeFSK modulating signal,DCLK DI “RF”DCLK is not usedinternal in CC1050Data provided by UART (TXD)Figure 9. Transparent Asynchronous UART modeFigure 10. Manchester encodingFrequency programmingThe operation frequency is set byprogramming the frequency word in the configuration registers. There are two frequency words registers, termed A and B, which can be programmed to two different frequencies in order to switch fast between two different channels. Frequency word A or B is selected by theF_REG bit in the MAIN register.The frequency word is 24 bits (3 bytes) located in FREQ_2A:FREQ_1A:FREQ_0A and FREQ_2B:FREQ_1B:FREQ_0B for the A and B word respectively.The FSK frequency separation is programmed in the FSEP1:FSEP0 registers (11 bits).The frequency word FREQ is calculated by:163848192+⋅=FREQffrefVCOwhere the reference frequency is the crystal oscillator clock divided by REFDIV (4 bits in the PLL register), a number between 2 and 15:REFDIVff xoscref=The equation above gives the VCO frequency, that is, f VCO is the f0 frequency for transmit mode (lower FSK frequency).The upper FSK frequency is given by:f1 = f0 + f sepwhere f sep is set by the separation word:16384FSEPffrefsep⋅=VCOOnly one external inductor (L1) is required for the VCO. The inductor will determine the operating frequency range of the circuit. It is important to place the inductoras close to the pins as possible in order to reduce stray inductance. It is recommended to use a high Q, low tolerance inductor for best performance. Typical tuning range for the integrated varactor is 20-25%.Component values for various frequencies are given in Table 1. Component values for other frequencies can be found using the SmartRF® Studio software.VCO and PLL self-calibrationTo compensate for supply voltage, temperature and process variations the VCO and PLL must be calibrated. The calibration is done automatically and sets maximum VCO tuning range and optimum charge pump current for PLL stability. After setting up the device at the operating frequency, the self-calibration can be initiated by setting the CAL_START bit. The calibration result is stored internally in the chip, and is valid as long as power is not turned off. If large supply voltage variations (more than 0.5 V) or temperature variations (more than 40 degrees) occur after calibration, a new calibration should be performed. The self-calibration is controlled through the CAL register (see configuration registers description p. 30). The CAL_COMPLETE bit indicates complete calibration. The user can poll this bit, or simply wait for 26 ms (calibration wait time when CAL_WAIT = 1). The wait time is proportional to the internal PLL reference frequency. The lowest permitted reference frequency (1 MHz) gives 26 ms wait time, which is therefore the worst case.Referencefrequency [MHz]Calibration time[ms]2.4 112.0 131.5 181.0 26The CAL_COMPLETE bit can also be monitored at the CHP_OUT (LOCK) pin (configured by LOCK_SELECT[3:0]) and used as an interrupt input to the microcontroller.The CAL_START bit must be set to 0 by the microcontroller after the calibration is done.There are separate calibration values for the two frequency registers. If the two frequencies, A and B, differ more than 1 MHz, or different VCO currents are used (VCO_CURRENT[3:0] in the CURRENT register) the calibration should be done separately. The CAL_DUAL bit in the CAL register controls dual or separate calibration.The single calibration algorithm using separate calibration for two frequencies is illustrated in Figure 11.In Figure 12 the dual calibration algorithmis shown.Frequency register A and B are used forThe result of the calibration is stored‘Current’ is the VCO current to be usedCalibration time depend on the referenceThe result of the calibration is storedtwo different channelsforfrequency FREQ_A and can be read fromthe status registers TEST0 and TEST2when F_REG = 0for both frequenciesPA is turned off to prevent spurious emissionFrequency register B is calibrated secondfrequency, see text.forfrequency FREQ_B and can be read fromthe status registers TEST0 and TEST2when F_REG = 1Figure 11. Single calibration algorithm for two different frequenciesFrequency registers A and B are both usedfor both frequenciesfor Figure 12. Dual calibration algorithmVCO current controlThe VCO current is programmable and should be set according to operating frequency and output power. Recommended settings for the VCO_CURRENT bits in the CURRENT register are shown in the tables on page 32. The bias current for the PA buffers are also programmable. Recommended settings for the PA_DRIVE bits in the CURRENT register are shown in the tables on page 32.Power managementCC1050 offers great flexibility for power management in order to meet strict power consumption requirements in battery operated applications. Power Down mode is controlled through the MAIN register. There are separate bits to control the TX part, the frequency synthesiser and the crystal oscillator. This individual control can be used to optimise for lowest possible current consumption in a certain application. A typical power-on and initialising sequence for minimum power consumption is shown in Figure 13 and Figure 14.PALE should be tri-stated or set to a high level during power down mode in order to prevent a trickle current from flowing in the internal pull-up resistor.PA_POW should be set to 00h during power down mode to ensure lowest possible leakage current.Calibration is performed according Reset and turn on the *Time to wait depends on the crystal frequency to calibration algorithmcrystal oscillator coreand the load capacitanceFigure 13. Initializing sequence*Time to wait depends on the crystal frequencyand the load capacitanceWaiting for the PLL to lockWaiting for the PA to ramp upFigure 14. Sequence for activating TX modeOutput MatchingA few passive external components ensures match in TX mode. The matching network is shown in Figure 15. Component values for various frequenciesare given in Table 1. Component values for other frequencies can be found using the configuration software.Figure 15. Output matching networkCC1050AVDD=3VOutput power programmingThe RF output power is programmable and controlled by the PA_POW register. Table 3 shows the closest programmable value for output powers in steps of 1 dB. The typical current consumption is also shown. In power down mode the PA_POW should be set to 00h for minimum leakage current.RF frequency 433 MHz RF frequency 868 MHz Output power[dBm]PA_POW[hex] Current consumption,typ. [mA]PA_POW[hex]Current consumption,typ. [mA]-20 01 5.5 02 8.0-19 01 5.5 02 8.0-18 01 5.5 02 8.0-17 02 5.7 03 8.3-16 02 5.7 03 8.3-15 02 5.7 04 8.5-14 02 5.7 04 8.5-13 03 6.0 05 8.7-12 03 6.0 05 8.7-11 04 6.2 06 8.9-10 04 6.2 06 8.9-9 05 6.5 07 9.1 -8 05 6.5 08 9.4 -7 06 6.8 09 9.6 -6 07 7.0 0A 9.8 -5 08 7.3 0B 10.0 -4 09 7.5 0D 10.4 -3 0A 7.8 0E 10.6 -2 0C 8.3 0F 10.9 -1 0D 8.5 40 13.40 0F 9.1 50 14.21 40 10.5 60 15.02 50 11.5 70 15.73 50 11.5 80 16.34 60 12.4 90 17.05 70 13.3 A0 17.76 80 14.7 C0 19.17 90 15.1 E0 20.08 A0 15.9 FF 24.99 C0 17.610 E0 19.211 F0 20.012 FF 23.3Table 3. Output power settings and typical current consumption。

GE Data Sheet Compact Power Line ShelvesI2C shelf for the CP3500AC65TEZ rectifierModel: J2014003L003Features•Mounts into standard 19” EIA-310-D racks•Isolated output feed may be grounded at either polarity•+5V standby power isolated from the main output•Adjustable mounting ears for flush or set back positions.•Supports hot-swapping of modules•Accommodates mechanical latching into the slot•Communicates via PMBus™•Passes Zone 4 earthquake requirements•CUR*† recognized•CE Mark (pending)§•Shock & Vibration: Meets IPC 9562 Class II standardsDescriptionThe J2014003L003 shelf accommodates up to 4 CP3500AC65TE rectifiers in a standard 19” EIA-310-D mounting configuration. The shelf is stackable and parallelable for higher power capacity needs. Parallelability is limited to four shelves when utilizing a single I2C bus, configuring the rectifiers with up to 16 different address possibilities. The shelf address is selected by a rotary switch accessible at the rear of the shelf.* UL is a registered trademark of Underwriters Laboratories, Inc.†CSA is a registered trademark of Canadian Standards Association.‡VDE is a trademark of Verband Deutscher Elektrotechniker e.V.§ This product is intended for integration into end-user equipment. All CE marking procedures of end-user equipment should be followed.(The CE mark is placed on selected products.)** ISO is a registered trademark of the International Organization of StandardsAbsolute Maximum RatingsStresses in excess of the absolute maximum ratings can cause permanent damage to the device. These are absolute stress ratings only, functional operation of the device is not implied at these or any other conditions in excess of those given in the operations sections of the data sheet. Exposure to absolute maximumElectrical Specifications1 See the derating guidelines published in the rectifier data sheetEMC2Estimated based on comparable calculations of similar shelves3 Designed to start and work at an ambient as low as -40°C, but may not meet operational limits until above -5°C4 Power Derating with Temperature is 2%/︒C above 55︒C. Power Derating with Altitude is 2%/305m(1000 ft) above 1524m(5000 ft). Max operational altitude is 3962m(13000 ft). See the safety section for further limitations.Communication Signals: J1 ConnectorPin out Control Interface cable (part # CC848854034) Pin Signal Pin Signal1 n.c.2 n.c.3 n.c.4 n.c.5 MOD_PRES_16 MOD_PRES_27 MOD_PRES_3 8 MOD_PRES_49 PG_1 10 PG_211 PG_3 12 PG_413 SCL_0 14 n.c.15 SDA_0 16 n.c.17 FAULT 18 ALERT_019 n.c. 20 Logic_GND21 Enable 22 Logic_GND23 Vprog 24 5VA25 Iso, n.c. 26 Iso, n.c.27 VO- 28 Interlock29 VO- 30 Slot_IDCommunication Signals: J2 ConnectorPin out Shelf-to-shelf cable connection (part # CC848848952) Pin Signal Pin Signal1 SCL_0 23 SDA_0 45 Alert_06 5VA7 Logic_GRD 89 Iso, n.c. 10 Iso, n.c.11 Ishare 12 n.c.13 Slot_ID 14 InterlockNotes: (For all other signals refer to the rectifier data sheet)1.Ishare, Interlock and Slot_ID are referenced to power output Vout(-). All other signals are referenced to Logic_GRD.2.For paralleled shelves the Vout(-) busses must be tied together. Modules could get damaged if this connection is not made. The Enable signal from theJ1 connector of the First Shelf ( with the Controller ) is not connected to the other shelfs. In the following Shelfs the Enable Jumper should not be removed. One ( or both ) of the Interlock signals could be used as HW Enable.3.Unit_ID: The four rectifiers are internally configured into slots 1 -4. Viewing from the front the leftmost slot is #1.4.Rack_ID: Selected using the rotary switch on the back of the shelf. The two combinations provide the following addressing;Unit_ID1234Rack_ID 10000 0001 0010 0011 20100 0101 0110 0111 31000 1001 1010 101141100 1101 1110 11115.Address detection: The Slot_ID pin needs to be shorted to Vo- in order to deliver output power. This connection provides a second interlock feature.6.Pull-up resistors: The shelf does not include the pull-ups resistors between each signal pin; clock, data, Alert# and +5V.Operation without I2C communicationsJ2014003 L003If no controller is used Jumpers on, Pin 21/20, Pin 27/28 andPin 29/30 allow the Output of the CP3500AC65 to beEnabled.J1Shelf Insertion KeyingJ2014003 L003The notch has to be located to accept the key in position 4 location in theoriginal design concept).CP3500AC65 rectifiers with a Hardware Version up to ( and including ) 1:3will not fit in this Shelf.Default Output Voltage of 65VThe below circuit is in the shelf, and sets Vprog to 3.0V, corresponding to an output voltage of 65V.Package OutlineRear of shelfDC AC-IN J2 J1 AC-IN DCShelf with lug terminationsL - Line, G - frame ground, N –NeutralL G NPolarized input connector pin-out Part No: Molex 42818-03125V termination - Shelf ID switch for I 2C addressing(1 – 4)Output termination – M6 nuts with conical washers are providedBoth output buses need to be terminated to carry the output current from the shelfTouch-safe plastic covers the output buses.Notes:1. Brackets are located near the input connectors to secure the input cable harness and thus relief strain from the input connector. Thesebrackets are removable.14 32GEI2C shelf for the CP3500AC65TEZ rectifierModel: J2014003L003Central Office White CC848822263 All Raven Black CC848781534 AllCP 19 inch mounting bracket kit (includes two brackets and mounting hardware) CC1091457601U high extens ion bracket kit for 23” cabinets (includes two brackets and mounting hardware) CC848844803 AllIndividual J1 controller wire set– 6 ft. One end mates into J1, other end not terminated. CC848854034 All Inter-shelf cable set for interconnecting J2 signals between shelves CC848848952 All Output cable set: 2 AWG DC Lug termination– 10 ft ( 1 RED and 1 BLACK cable) 848748987 All m6 screw with conical washer 901377010 All5For 22 – 26ga wiresGE Data SheetI2C shelf for the CP3500AC65TEZ rectifierModel: J2014003L003AccessoriesItem Description Part number1u_CP3500_shelf_interface board. This debug tool can be usedto evaluate the performance of a set of rectifiers inserted intothis shelf. The board provides terminations to two independentIsolated Adaptors that can be connected to either of the two i2clines. Additionally, connection points are provided for interfacingto the four signals of each i2c line for monitoring the signals.The input interface is a standard IEC 320 C20 type socket.Outputs are connected via standard 0.25 fast-ons.150045498Interface cable between the 30 pin J1 signal connector of theshelf and the 40 pin mating connector of the interface boardabove.CC848848960Isolated Interface Adapter Kit – interface between a USB portand the I2C connector on the rectifier interface board. Includes acable set to the PC and to the 1u_CP3500_interface boardabove.150036482Software: The site below downloads the GE Digital P ower Insight™software tools, including the pro_GUI. When the download iscomplete, icons for the various utilities will appear on thedesktop. Click on pro_GUI.exe to start the programafter the download is complete./products/embedded-powerFree downloadGraphical User Interface Manual; The GUI download created adirectory In thatdirectory start the DPI_manual.pdf file.The GE Digital Power Insi ght™ software tool exercises the various commands and functions available via the PMBus™ interface of the power supply.Another useful feature of the GUI is the automated polling feature that records all time stamped state changes automatically. The power system can be monitored for an extended period of time and if any operational state changed it will be recorded for further analysisGEI2C shelf for the CP3500 rectifierModel: J2014003L003SafetyProduct LabelingFollow all warnings and instructions marked on the product. Some of the safety symbols used with the CP3500 rectifier and this shelf may include the following. They may also be accompanied by instructions:Mounting and Installation• This p roduct shall be installed in compliance with mounting requirements for the ultimate application.• This product must be installe d, serviced, and operated only by skilled and qualified personnel who have the necessary knowledge and practical experience with electrical equipment and who understand the hazards that can arise when working on this type of equipment. This product is intended for use in a Restricted Access Location.• This equipme nt is to be used in controlled environments (an area where the humidity is maintained at levels that cannot cause condensation on the equipment, the contaminating dust is controlled, and the steady-state ambient temperature is within the range specified).• This equipment has been evaluated for use in a continuous ambient temperature of:a. 50°C at full load with sharing the load across the two DC output feeds with 2%/°C de-rating from 50°C to 75°C at low rangeand 2.3%/°C de-rating from 50°C to 75°C at high range.b. 44°C at full load with a single DC output feed setup with 1.6%/°C de-rating from 44°C to 75°C for low range and 1.8%/°C de-rating from 50°C to 75°C for high range.• The CE mark i f provided on the product is applied to show conformance to t he requirements outlined in the European Union’s Low Voltage Directive {2006/95/EC} and EMC Directive {2004/108/EC}.• The internal AC-DC rectifier connectors have been evaluated for hot swapping. The four main AC input feed Mate-N-Lok connectors at the rear of the shelf have not been evaluated for hot swapping.• A separate protective Earthing terminal is provided at the rear of the shelf– the building installation shall provide a means for connection to protective earth; and– the equipment is to be connected to that means; and– a SERVICE PERSON shall check whether or not the socket-outlet from which the equipment is to be powered provides a connection to the building protective earth. If not, the SERVICE PERSON shall arrange for the installation of a PROTECTIVE EARTHING CONDUCTOR from the separate protective Earthing terminal to the protective earth wire in the building.Output Connections• All field wiring should comply wi th the U.S. National Electrical Code (NEC) and/or applicable local codes/standards.• Routing of the DC output cables should g uarantee that cables are not in contact with sources of heat and surfaces that may damage the cable insulation.• The DC output is not provided with a fuse or circuit breaker suitable for branch circuit protection. Therefore, the power shelf should be mounted in the same rack or cabinet as the equipment being powered. Use interconnecting power cables suitable for the application and sized to carry the rated output current. The interconnecting cables should be capable of carrying the overload current and short circuit current without damage or risk of fire.• The output for the system is SEL V and has available power greater than 240VA.• Insulation on output field-wired conductors should be rated no less than 90°C. Wiring internal to enclosed equipment cabinets should be rated at 105°C (minimum). The provided DC output cords (red and black wires) are rated for 105°C.• Before openi ng the insulating cover to gain access to load and ground connections, ensure all power supplies are disconnected from the AC MAINS.October 21, 2019 ©2015 General Electric Company. All rights reserved. Page 10GE Data SheetI2C shelf for the CP3500AC65TEZ rectifierModel: J2014003L003AC Input Connections• This shelf is configured with primary internal wiring and Molex connectors, rated for internal factory wiring only. The Molex connector is not UL Recognized for direct connection to the AC mains. The internal wiring is not UL recognized to be directly accessible by a user.Consideration should be taken on the end product’s Listing to comply with NEC requirement for AC mains installations.•The subject equipment was evaluated for use with a maximum 30A branch circuit per feed. Consideration shall be taken in the end-product evaluation in the sizing of conductors per Annex NAE s.c. 3.3.4. If used on a branch circuit greater than this, additional testing may be necessary.• An accessible AC disconnect/protection device to r emove AC power from the equipment in the event of an emergency must beprovided.• The equipment is powered by multiple AC inputs (one per rectifier). Disconnect all AC sources of power before servicing.• These units are to be used with TN-S power systems only.Safety Symbols and GuidelinesRead and understand all instructions before attempting any installation of this product. When installing, operating, or maintaining the J85480S1 Power System, basic safety precautions should always be followed to reduce the risk of fire, electric shock, and injury to persons.Such precautions include the following:This symbol identifies the need to refer to the equipment instructions for important information.This symbol identifies the presence of hazardous AC or DC voltages or hazardous energy levels. In the context of thisproduct•The DC output cables contain electrical energy levels capable of causing heating and arcing if shorted tometal objects. Make connections with the power disconnected.•Hazardous AC voltage and DC electrical energy is contained within the enclosure of the power shelf. No user or field serviceable parts inside.This symbol is used to identify safety earth ground connection points within the equipment.German Safety GuidelinesInstallationsanleitung• Alle Ausgänge des Gerätes erfüllen die Anforderungen für SELV nach IEC/EN60950-1.• Die Ausgänge d es Gerätes liegen über den Limits für Energiegefahr nach IEC/EN60950-1 (>240 VA). Das Gerät ist zumEinbau in ein Montage-Rack bestimmt. Siehe Einbaubestimmungen in der Montageanleitung, um eine Gefährdung desBenutzers während der Installation zu vermeiden.ACHTUNG:Hoher Ableitstrom Vor Anschluss an den Versorgungsstromkreis unbedingt Erdungsverbindung herstellen• D as Produkt ist zum Gebrauch in einer Umgebungstemperatur von max. 55°C bestimmt.• Die Gerätestecker des Produktes sind dazu bestimmt, eine sichere Erdung des Gerätes herzustellen.• Das Produkt ist zum Gebrauch in einer Umgebung mit Verschmutzungsgrad 2 nach IEC/EN60950 bestimmt.• Die Netz teile des Gerätes können während des Betriebes einzeln ausgetauscht werden (Hot Swapping).• Das Gerät wurde zusammen mit den Anschlussleitungen (ohne Anschlussstecker) geprüft. Die Installation eines Steckers desjeweiligen Landes, sollte nur durch geschultes Service Personal durchgeführt werden.Als alternative könnte eine Vorinstallation des Steckers bereits bei der Herstellung erfolgt sein.October 21, 2019 ©2015 General Electric Company. All rights reserved. Page 11GE Data Sheet Compact Power Line ShelvesI2C shelf for the CP3500AC65TEZ rectifierModel: J2014003L003Contact UsFor more information, call us atUSA/Canada:+1 888 546 3243, or +1 972 244 9288Asia-Pacific:+86 021 ********Europe, Middle-East and Africa:+49 89 878067-280/products/critical-power GE Critical Power reserves the right to make changes to the product(s) or information contained herein without notice, and noliability is assumed as a result of their use or application. No rights under any patent accompany the sale of any such product(s) or information.September 19, 2019 ©2014 General Electric Company. All International rights reserved. Version 1.0。

INSTALLATION AND SERVICE MANUALFORCOUNTER ELECTRIC DISPENSERLANCER SERIES 500FAX ENGINEERING:•210-310-7096"Lancer" is the registered trademark of Lancer •Copyright — 2000 by Lancer, all rights reserved.6655 LANCER BLVD. • SAN ANTONIO, TEXAS 78219 USA • (210) 310-7000FAX SALES• NORTH AMERICA – 210-310-7245 • INTERNATIONAL SALES – 210-310-7242 • CUSTOMER SERVICE – 210-310-7242 •• LATIN AMERICA – 210-310-7245 • EUROPE – 32-2-755-2399 • PACIFIC – 61-8-8268-1978 •1B.Mark both ends of product and water lines and route to dispenser. Flush lines to be sure eachis clean. Failure to do so may result in clogging of valve(s), resulting in improper operation.Connect lines to dispenser and secure using Oetiker clamps.C.Route drain tube to dispenser.D.Connect drain tube to drip tray and install on dispenser.E.Turn on water supply.F.Open all dispenser valves until air is bled from system.G.Actuate valve until a smooth flow of water is obtained.H.Check for leaks.I.Connect free ends of product lines to proper tanks or bag-in-box.J.Check for syrup leaks.K.Adust the water flow.L.Install splash plate on dispenser.M.Install cup rest on dispenser.N.Replace bonnet on dispenser.2.SCHEDULED MAINTENANCE2.1DAILYA.Remove the nozzle and diffuser from each valve and rinse well in warm water. Do NOT usesoap or detergent. This will cause foaming and off taste in finished product.B.Remove the cup rest and wash in warm soapy water.C.Pour warm soapy water into the drip tray and wipe with a clean cloth.D.With a clean cloth and warm water, wipe off all of the unit's exterior surfaces. DO NOT USEABRASIVE SOAPS OR STRONG DETERGENTS.E.Replace the cup rest, valve diffusers, and valve nozzles.2.2WEEKLYA.Taste each product for off tastes and/or brix changes.B.Remove the bonnet and check the level of water in the water bath. Replenish as required, andreplace the bonnet.2.3MONTHLYA.Unplug the dispenser from power source.B.Remove the bonnet and clean the dirt from the condenser using a soft brush.C.Replace the bonnet and plug in the unit.2.4EVERY SIX MONTHSA.Clean and sanitize the unit using the appropriate procedures outlined in Section 3 of thismanual.2.5YEARLYA Clean water bath interior, including evaporator coils and refrigeration components.B.Clean the entire exterior of the unit.C.Sanitize syrup lines.3.DISPENSER CLEANING AND SANITIZING3.1AMBIENT PROCESSA.The ambient process is the most common method for cleaning and sanitizing dispenserequipment. The detergent should be caustic-based and the sanitizer should be low pH (7.0)chloride solution.B.Disconnect syrup containers and remove product from tubing by purging with carbon dioxide.C.Rinse the lines and fittings with clean, room temperature water to remove all traces of residualproduct.D.Fill lines with a caustic-based (low-sudsing, non-perfumed, and easily rinsed) detergent solution.The solution should be prepared in accordance with the manufacturer’s recommendations, butshould be at least two (2) percent sodium hydroxide. Make sure the lines are completely filledand allow to stand for at least ten (10) minutes.E.Flush the detergent solution from the lines with clean water. Continue rinsing until testing with3457CONTROL HOUSING CONNECTIONS85.3CABINET ASSEMBLY9105.4COMPRESSOR DECK ASSEMBLY115.4COMPRESSOR DECK ASSEMBLY(CONTINUED)NOTES13Directory of USA - Canada Offices,International Offices, and Authorized DistributorsCorporate Office6655 Lancer Blvd. • San Antonio, Texas 78219 • 210-310-7000 • 1-800-729-1500 • FAX 210-310-7250。

CC2530芯片资料CC2530是专门针对IEEE 802.15.4和Zigbee应用的单芯片解决方案，经济且低功耗。

CC2530有四种不同的版本：CC2530-F32 / 64 / 128 / 256。

分别带有32 / 64 / 128 / 256 KB的闪存空间；它整合了全集成的高效射频收发机及业界标准的增强型8051微控制器，8 KB的RAM和其他强大的支持功能和外设。

主要特点：●高达256kB的闪存和20kB的擦除周期，以支持无线更新和大型应用程序●8kB RAM用于更为复杂的应用和Zigbee应用●可编程输出功率达+4dBm●在掉电模式下，只有睡眠定时器运行时，仅有不到1uA的电流损耗●具有强大的地址识别和数据包处理引擎利益：●支持Zigbee / Zigbee PRO , Zigbee RF4CE, 6LoWPAN, WirelessHART 及其他所有基于802.15.4标准的解决方案；●卓越的接收机灵敏度和可编程输出功率；●在接收、发射和多种低功耗的模式下具有极低的电流消耗，能保证较长的电池使用时间；●一流的选择和阻断性能（50-dB ACR）应用：●智能能源/自动化仪表读取●远程控制●居家及楼宇自动化●消费类电子产品●工业控制及监测●低功耗无线传感器网络CC2530芯片参数特性：可最大化通信范围的101dBm链路预算（101dBm link budget）可最小化干扰源影响的业界一流的选择性（Best in class selectivity）可最大化电池供电器件使用寿命的灵活低功耗模式（Flexible low-power modes）功能强大的5通道DMA引擎（Powerful 5-channel DMA engine）用于远程控制应用的IR生成电路(IR generation circuitry)高达256K的闪存（Up to 256k Flash）CC2530开发套件通过深圳市无线龙科技有限公司的CC2530-PK的开发系统，让您充分了解、熟悉和使用CC2530。

ccg3规格书CCG3规格书CCG3是一款用于通信设备的规格书，以下将对其进行详细介绍。

一、概述CCG3是一种通信设备，具有高性能和稳定性的特点。

它采用先进的技术，可以在不同的环境下提供可靠的通信服务。

CCG3适用于各种应用场景，如家庭、办公室、商场等。

二、主要特性1. 快速连接：CCG3具有快速连接的特性，可以迅速建立起稳定的通信连接，并提供高速传输速率。

2. 高度可靠：CCG3采用先进的通信技术，具有高度可靠性，可以保证通信的稳定性和安全性。

3. 多种通信方式：CCG3支持多种通信方式，包括有线和无线通信，用户可以根据需要选择适合的通信方式。

4. 多种接口：CCG3提供多种接口，可以连接不同的设备和外部设备，方便用户进行数据传输和共享。

5. 省电模式：CCG3具有省电模式，可以在不使用时自动进入低功耗状态，节省能源。

6. 安全保护：CCG3具有安全保护功能，支持数据加密和身份验证，保护用户的隐私和数据安全。

三、技术规格1. 通信协议：CCG3支持多种通信协议，如TCP/IP、UDP、HTTP等，可以满足不同应用场景的需求。

2. 传输速率：CCG3支持高速传输，最大传输速率可达到100Mbps。

3. 工作频率：CCG3工作频率范围广泛，适用于不同的频率带。

4. 电源要求：CCG3的电源要求为AC 100-240V，50/60Hz。

5. 外部接口：CCG3提供多种外部接口，如以太网接口、USB接口等，方便用户连接和扩展设备。

6. 尺寸和重量：CCG3的尺寸为100mm×100mm×20mm，重量为200g。

四、应用场景1. 家庭网络：CCG3可以作为家庭网络设备，提供稳定的无线网络连接，满足家庭成员对网络的需求。

2. 商业办公：CCG3适用于商业办公场景，可以提供高速、稳定的网络连接，支持多种终端设备同时接入。

3. 公共场所：CCG3可以应用于公共场所，如商场、酒店等，为用户提供便捷的网络访问服务。

目录 :一、系统程序设定：模式内容页数---------------------------------------------------------------------00. 分机进入/离开设定模式．．．．．．．．．．．．．．．．． 9修改超越长途控制密码(B栏)修改DISA特殊功能密码(B栏)修改进入设定程序密码(CCCCCC栏)11. 外线PULSE拨号型式．．．．．．．．．．．．．．．．．．1112. 外线拨号延迟时间．．．．．．．．．．．．．．．．．．．11外线通话长话警示音提示时间(B栏)外线拨号音迟来期限时间(C栏)拨号暂停时间(D栏)13. 自动重拨延迟时间．．．．．．．．．．．．．．．．．．．11自动重拨次数(AA栏)SMDR 生效时间(BB栏)自动重拨，自动挂断至再次自动寻线之延迟时间(CC栏)自动重拨，自动寻线失败至再次自动寻线之延迟时间(DD栏)14. 第一次保留回叫时间/无人应答自动回叫时间．．．．．．．．12第一次保留回叫时间(AAA栏)无人应答自动回叫时间(BBB栏)15. 间隔保留回叫时间/保留回叫次数/振铃转换次数．．．．．．12间隔保留回叫时间(AAA栏)保留回叫次数(B栏)振铃程序变换次数上限(CC栏)挂断外线重置秒数(DD栏)16. 现在日期．．．．．．．．．．．．．．．．．．．．．．．1217. 现在时间．．．．．．．．．．．．．．．．．．．．．．．1218. 日间/夜间转换时刻．．．．．．．．．．．．．．．．．．．1219. 系统简速拨号．．．．．．．．．．．．．．．．．．．．．1327. DISA单码之代表分鸡．．．．．．．．．．．．．．．．．．1628. 系统软件开关．．．．．．．．．．．．．．．．．．．．．16～1729. 查询本系统版本讯息．．．．．．．．．．．．．．．．．．1731. 自动寻线操作码．．．．．．．．．．．．．．．．．．．．17自动寻线操作码(A栏)PABX自动寻线操作码(B栏)直呼值机台操作码(C栏)功能代码前缀(D栏)DISA拨号找总机操作码(E栏)开放简码速拨号表编号(FFF栏)32. 值机台．．．．．．．．．．．．．．．．．．．．．．．．1833. 单机适配卡检知转接闪切时间范围．．．．．．．．．．．．18模式内容页数--------------------------------------------------------------------- ＃34. 全部数字式话机通讯失误测试．．．．．．．．．．．．．．18＃35. 自动总机录音．．．．．．．．．．．．．．．．．．．．．19～2039. ＤＩＳＡ软件开关．．．．．．．．．．．．．．．．．．．21＃40. 检视系统设定数据存储器内容．．．．．．．．．．．．．．21＃41. 检视槽埠数据存储器内容．．．．．．．．．．．．．．．．2242. ＤＩＳＡ宣告录音段号．．．．．．．．．．．．．．．．．2243. 拨号器软件开关．．．．．．．．．．．．．．．．．．．．2292. 以分机号码查询内线编号 (系统值机台功能)．．．．．．．．2798. 个人简速拨号．．．．．．．．．．．．．．．．．．．．．2899. 测试话机键盘及LED．．．．．．．．．．．．．．．．．．．29附表：系统参数地址附表．．．．．．．．．．．．．．．．．．．31～35附表：系统参数设定(MODE:40) ．．．．．．．．．．．．．．．．36注: ＃表示 DIP SWITCH 2,３要设定为 ON.二、外线程序设定：模式内容页数--------------------------------------------------------------------- 02. 外线型式－１．．．．．．．．．．．．．．．．．．．．．10拨号模式设定(B栏)外线的型式(C栏)外线被自动寻线(H栏)外线卡的型式(G、I栏)05. 外线分群 (各群的拨 0 抓外线) ．．．．．．．．．．．．．11定义该群外线的数目(DDD栏)24. 外线接受自动总机服务表．．．．．．．．．．．．．．．．1526. 外线型式－２．．．．．．．．．．．．．．．．．．．．．15外线进线寻找振铃分机的方式(B栏)进线响铃音的模式(F栏)65. 外线送话增益．．．．．．．．．．．．．．．．．．．．．2666. 外线受话增益．．．．．．．．．．．．．．．．．．．．．26三、分机响铃设定：模式内容页数---------------------------------------------------------------------44. 振铃分机组．．．．．．．．．．．．．．．．．．．．．．2345. 外线日间振铃程序循环．．．．．．．．．．．．．．．．．23外线振铃延迟处理(B栏)46. 外线日间振铃．．．．．．．．．．．．．．．．．．．．．23日间振铃分机组之组号(CC栏)夜间振铃分机组之组号(DD栏)48. 专用外线分机．．．．．．．．．．．．．．．．．．．．．23外线来话振铃的频率种类(C栏)非外线来话振铃的频率种类(说明5)53. 外线夜间振铃程序循环．．．．．．．．．．．．．．．．．24外线振铃延迟处理(B栏)附表：外线振铃程序循环附表．．．．．．．．．．．．．．．．．29～30四、分机功能设定：模式内容页数--------------------------------------------------------------------- ＃01. 分机号码长度．．．．．．．．．．．．．．．．．．．．．．9分机归属总机群号设定(B栏)分机号码设定(CCcccc栏)37. 内线型式－１．．．．．．．．．．．．．．．．．．．．．20拨出外线长话警示音(B栏)拨出外线长话要断话(C栏)分机呼叫模式(D栏)单机保留的操作方式(E栏)监听别台分机(F栏)被别台分机监听(G栏)被别台分机广播(H栏)单机拨号模式(I栏)38. 内线型式－２．．．．．．．．．．．．．．．．．．．．．21外线来话长话断话(B栏)广播别台话机(C栏)禁拨任何外线(D栏)模式内容页数---------------------------------------------------------------------38. 内线型式－２．．．．．．．．．．．．．．．．．．．．．21外线挂断保留显示屏30秒(E栏)挂听筒作转送功能(F栏)拿听筒设定(H栏)46. 外线日间振铃．．．．．．．．．．．．．．．．．．．．．23外线归属值机台群组(B栏)48. 专用外线分机．．．．．．．．．．．．．．．．．．．．．23使用专用外线的分机组之组号(BB栏)49. 内线型式－３．．．．．．．．．．．．．．．．．．．．．24专用外线的分机设定(B栏)限用外线的型式(C栏)接受自动总机转接的功能(D栏)通话中外线来话提醒音(E栏)通话中外线来话振铃(F栏)被插话功能(G栏)忙线HUNTING功能(H栏)拿听筒代接同群电话功能(I栏)开放系统简码速拨功能(B栏)语音信箱端口设定(C栏)可插话设定(D栏)留言提醒音乐功能(E栏)留言回铃提醒功能(F栏)数字话机可不可以免持对讲功能(G栏)首次话中提醒功能(H栏)分机上锁功能(I栏)55. 分机代接群．．．．．．．．．．．．．．．．．．．．．．2556. 分机弹性键群．．．．．．．．．．．．．．．．．．．．．2557. 分机使用外线群．．．．．．．．．．．．．．．．．．．．2558.内线型式－５．．．．．．．．．．．．．．．．．．．．．25可不可呼叫其它分机功能(B栏)拿听筒自不自动呼叫热线分机功能(C栏)数字话机能不能对单机拨DTMF功能(E栏)来电无应答CALLER ID留不留讯息(H栏)来电转接后无应答CALLER ID留不留讯息(I栏)63. 广播分群．．．．．．．．．．．．．．．．．．．．．．．2558.滑线分群．．．．．．．．．．．．．．．．．．．．．．．2667.单机送话增益．．．．．．．．．．．．．．．．．．．．．2768.单机受话增益．．．．．．．．．．．．．．．．．．．．．28注: ＃表示 DIP SWITCH 2,３要设定为 ON.五、弹性功能键设定：模式内容页数--------------------------------------------------------------------- 03. 弹性键．．．．．．．．．．．．．．．．．．．．．．．．10弹性键分群设定(A栏)弹性键号码设定(BB栏)弹性键定义(C、DDd栏)25. DSS 按键设定表．．．．．．．．．．．．．．．．．．．．15DSS数量设定(A栏)DSS按键号码设定(BBB栏)DSS按键定义(C、DDd栏)附录一DL134ATT增加弹性功能键设定．．．．．．．．．．．．．．37六、拨号等级限制设定：模式内容页数--------------------------------------------------------------------- 20. 分机控拨等级．．．．．．．．．．．．．．．．．．．．．13～14分机日间控拨等级设定(B栏)分机夜间控拨等级设定(C栏)分机日间系统简码拨号控拨等级设定(D栏)分机夜间系统简码拨号控拨等级设定(E栏)分机使用外线控拨表编组设定(F栏)分机所使用的开放区码表编组设定(G栏)21. 外线管制表．．．．．．．．．．．．．．．．．．．．．．1422. 3位数前缀控拨等级表．．．．．．．．．．．．．．．．．．1423. 开放区码表．．．．．．．．．．．．．．．．．．．．．．15七、通讯参数设定：模式内容页数--------------------------------------------------------------------- ＃01. 分机号码长度．．．．．．．．．．．．．．．．．．．．．9帐号号码长度(B栏)12. 外线拨号延迟时间．．．．．．．．．．．．．．．．．．．11通话费用加成倍数(DD栏)市内电话通话时间(E栏)市内电话计费基本费率(FF栏)26. 外线型式－２．．．．．．．．．．．．．．．．．．．．．15计费依据的模式(C栏)开始计费的方式(D栏)需不需要作金额限拨(D栏)28. 系统软件开关-．．．．．．．．．．．．．．．．．．．．．16SMDR分机字段大小及位置(10 - C栏)30. 通话记录选择．．．．．．．．．．．．．．．．．．．．．17通话纪录选择(A栏)通话控拨等级纪录(B栏)38. 内线型式－２．．．．．．．．．．．．．．．．．．．．．21金额限拨功能(G栏)详细通话纪录(I栏)52. 长途电话费率表设定．．．．．．．．．．．．．．．．．．2458.内线型式－５．．．．．．．．．．．．．．．．．．．．．25DECT手机通话中能不能再拨号功能(D栏)90. 通话记录资料选项打印 (系统值机台功能)．．．．．．．．．2691. 通话记录资料删除 (系统值机台功能)．．．．．．．．．．．2793. 值机台设定分机起床闹铃 (系统值机台功能)．．．．．．．．27Morning Call时间设定(BB、CC栏)预付电话费用设定(DDDD栏)CHECK IN、CHECK OUT功能(E栏)94. 个人帐号使用外线群组与长控等级设定(系统值机台功能) ．．28帐号设定(Aaa栏)使用外线群组(BB栏)分机广播群组号(CC栏)使用外线等级(D栏)指定哪一支分鸡使用(E栏)注: ＃表示 DIP SWITCH 2,３要设定为 ON.八、经济路由ARS功能设定：模式内容页数---------------------------------------------------------------------附录一DL135A2T增加经济路由ARS功能．．．．．．．．．．．．．37■□ＣＣＵ卡上有４个DIP SWITCH, 拨向机箱内侧□是ON, 拨向外侧■是OFF. 分为二阶段完成设定, 一为装机阶段, 二为运作阶段.装机阶段依需要有四种模式可选择:第一次装机,必须将全部设定资料还原为原始值.请将４个DIP SWITCH 拨ON, 再打开电源.重新装机, 保留分机号码及简速拨号, 其余资料还原为原始值.请将DIP SW 1 拨OFF,其余拨ON, 再打开电源.新增加卡片时, 欲保留原有之设定.请将DIP SW 1, 2 拨OFF, DIP SW 3, 4 拨ON, 再打开电源.只改变卡片所在槽道, 欲保留原有全部设定资料.请将DIP SW 1, 2, 3 拨OFF,DIP SW 4 拨ON, 再打开电源.完成装机阶段后全部运作指示灯快闪, 此时请立刻把四个指拨开关拨向OFF, 以确保已设定参数不变.运作阶段依需要有四种模式可选择:: 做一般设定时.请于正常运作时, 将DIP SW 2 拨ON, 其余拨OFF.: 做高等级设定时.请于正常运作时, 将DIP SW 2, 3 拨ON, 其余拨OFF.: 遗忘了 '进入设定模式密码',欲更改 '进入设定模式密码'.请于正常运作时, 将DIP SW 1, 2, 3 拨ON, 其余拨OFF.: 请更改 '进入设定模式密码', 避免非授权者, 凭原始密码,擅自更改设定. 或于正常运作时, 将４个DIP SWITCH 拨OFF,即使有 '进入设定模式密码', 也不能进入模式设定.换装程序版本步骤 :: 1.先做系统设定成储存请于正常运作时,将DIP SW 2 拨OFF, 其余拨ON, 按一下ＣＣＵ RESET 后, 等运作指示灯急快闪后, 关掉电源, 便可更换程序.读取已存入之系统设定更换完程序后, 先将DIP SW 3 拨OFF, 其余拨ON, 再打开电源等ＣＣＵ运作指示灯急快闪后, 拨回原先正常运作之四种模式后,再按一下RESET 后, 系统便回复正常运作.系统设定操作步骤 :一. 自待机状态进入设定模式或自外线通话中进入设定模式 (必须拿起听筒)1. 按 '功能设定' 键 (LCD 上显示 "MODE:")2. 按 0 0 键 (LCD 上显示 "MODE:00")若已经有其它分机正在做系统设定, 听到错误警示音,并显示分机号码3. 按 '进入设定模式密码' (6 位数字, 原始密码:111111, 可更改)4. 按 '保留' 键5. 听到 '哔哔' 2 响, 表示已经进入设定模式, 进入步骤6.若听到 '哔哔哔哔哔' 5 响,表示 '进入设定模式密码'不正确,回步骤2.6. 按模式代号 (2 位数字),进入欲设定之模式.二. 分机已进入设定模式7. 按 12 个数字键, 显示 0～9,*,#, 光标自动向右移一个数据字符,－字不是数据字符, 是间隔符号.按 [弹性键1], 光标移到最左边的数据字符.按 [弹性键2], 光标向左移一个数据字符.按 [弹性键3], 光标向右移一个数据字符.按 [弹性键4], 光标移到最右边的数据字符.若系统简速拨号设定超过 16 码时:按 [弹性键5], 显示前 16 码.按 [弹性键6], 显示后 16 码.按 [弹性键13～16] 显示 A～D.按 [弹性键 9～10] 显示 E～F.按 [弹性键11] 显示 " -" , 作为储存简速拨号电话号码的暂停码.按 [弹性键12] 根据索引栏寻找对应的资料.按 [重拨], 显示前一项资料.按 [转接], 显示后一项资料.8. 按 '保留' 储存资料, 回到步骤 7, 若资料正确 -> 哔哔 2响, 显示PASS, 若为具有索引栏之模式, 自动显示后一项资料; 若资料不正确-> 哔哔哔哔哔 5 响, 显示 "ERROR !" 显示资料不变.或按 '扩音' 或拿起听筒再挂断, 表示离开目前模式, 进入步骤 9.重复步骤 7～8 直到此模式设定完成.9. 按模式代号 (2 位数字),进入其它欲设定之模式, 回到步骤 7.或按 '扩音' 或拿起听筒再挂断, 表示分机离开设定模式, 进入步骤 10.重复步骤 7～9 直到全部需设定之模式设定完成三.分机离开设定模式10. 回到原来之待机状态, 或外线通话.LCD 画面显示流程 :功能密码扩音--->00.分机进入 /离开设定模式索引栏 : 无格式 : AAAAAABCCCCCCDDD(不显示)AAAAAA = 000000～999999 > 进入设定模式密码B = 空白 > -> 进入设定模式* > -> 修改 '进入设定模式密码'9 > -> 修改 '超越长途控拨密码'# > -> 修改CCCCCC = 000000～999999 > 新密码DDD -> 可使用DISA 说明:1. 全部密码的原始值皆六个数字1,即为 '111111'.2. 若要进入模式设定, 必须在AAAAAA 栏键入 '进入设定模式密码',按 [保留].3. 修改 '进入设定模式密码', 必须将 DIP SW 3 切入 ON, B 栏输入'*'.4. 修改 '超越长途控拨密码', 必须将 DIP SW 3 切入 ON, B 栏输入'9'.5. 修改 'DISA 特殊功能密码', 必须将 DIP SW 3 切入 ON, B 栏输入'#'.6. 若遗忘了 '进入设定模式密码',可将CCU 卡的DIP SW 1切入ON 位置, 再以 修改 '进入设定模式密码' 的方式, 填入111111*111111,恢复原始值.7. 系统主副值机台, 不需要键入 '进入设定模式密码',即可用模式90之后的 设定, 但无法进入其它模式, 若要进入模式设定, 请依照先前说明操作.＃01.分机号码长度 (可设定为 2, 3, 4, 5 或 6 码五种) 索引栏 : 无格式 : ABA = 2～6 > 分机号码长度B = 2～3 > 帐号号码长度 说明:1. 高等级设定, DIP SWITCH 3 必须 ON2. 若内线板超过 8 片(含)以上, 原始值自动设为 3 码, 否则为 2 码.3. 帐号长度为2码,则帐号只能使用00～99共100组帐号, 帐号长度为3码,则帐号能使用000～999共1000组帐号.4. 帐码设定在MODE:94项02.外线型式－１索引栏 : AAA格式 : AAA-BCDE-FGHIAAA = 011～168 > 外线编号, *** -> 全部外线, XX* -> ８条外线 B = 0 / # > 0 -> 复频, # -> 脉冲 C = 0 / # > 0 -> 局线, # -> PBX D ～E = 0 / # > 保留未用F = 0 / # > 0 ->G = 0 / # > 0 -> 一般外线卡 H = 0 / # > 0 -> 可被自动寻线, # -> 不可被自动寻线I = 0 / # > 0 -> 一般外线卡, # -> ＬＴＣ或ＬＢＣ 说明 : 设定G 栏为# (磁石外线卡), B 栏需设定为# (脉冲)设定I 栏为#, 若LTC, 则B 栏需设定为#, 若LBC,则B 栏需设定为003.弹性键系统具有16群弹性键可供分配使用,每部分机依群号不同,使用各自群别所规划 之弹性键, 各群弹性键可被规划为 C 栏所示之四种功能.索引栏 : AA BB格式 : AA-BB-C-DDdAA = 01 ～16(08) >群号BB = 01 ～24 >弹性键号码, ** -> 24个弹性键C = 0/1/2/3 >0 -> 无定义, 1 -> 外线键, 2 -> 记忆直拨键, 3 -> 内线键DDd= 011～638 >011～168外线编号 /000～999速拨代码 /011～638内线编号 说明:1. CCU2 版本, AA 栏的群号只有 8 群, CCU5 版本则有 16 群.2. 内线编号之第１，２位数代表内线界面卡的编号, 范围 01～223. 内线编号之第３位数代表界面卡上的埠号, 范围 1～84. 原始设定, C 栏=1, DDD 栏为外线编号, 若不想采用原始设定可将BB-C 栏 填入**-0, 清除弹性键的原始功能.5. 同一群内的弹性键, 除了 C 栏=0之外,DDd 栏内容不可相同,例如:不可将两个 以上的弹性键设定成同一条外线, 或同一条内线.6. 当BB=17~24,C=1时设定无法保留储存二次,已于128MTT 更正.04.分机归属总机群号及号码分机最多可归属 4 群总机, 索引栏 : AAA格式 : AAA-B-CCccccAAA = 011～638 > 内线编号, *** -> 全部内线, XX* -> ８条内线 B = 1 ～4 > 归属总机群号 CCcccc= 10 ～799999 > 分机号码 说明:1. 内线编号之第一, 二位数代表内线界面卡的编号, 范围 01～302. 内线编号之第三位数代表界面卡上的埠号, 范围 1～83. 初装机可将 A 栏键入"***", CCcccc 栏键入 "000000"以利重新规划分机号码.4. 分机号码长度,必须先在MODE01设定.5. 分机号码不可相同.05.外线分群 (各群的拨０抓外线)索引栏 : AA BB格式 : AA-BB-CCC-DDdAA = 01 ～64(16) > 群号 BB = 01 ～08 > 收容位置CCC = 011～168 > 外线编号, 000 -> 以下清除 DDd = 01 ～200 >说明: 1. CCU2 版本, AA 栏的群号只有 16 群. 2. 3. 每群话机最多可使用 8 线依收容位置(B 栏)的顺序填入外线编号(CCC 栏) 4. 任一外线收容位置的外线编号(CCC 栏)设定为000 时, 该位置(含)以后的 外线皆不可被使用(抓取).5. 设定后各群话机皆可拨 0 抓外线或以 80XX 指定抓取外线.11.外线PULSE 拨号型式索引栏 : 无 格式 : ABCDA = 0 / 1 / 2 > 0 -> FLASH 时间 80ms, 1 -> 300ms, 2 -> 600msB = 0 / # > 0 -> 脉冲 M/B ratio 33/66, # -> 40/60C = 0 / # > 0 -> 脉冲速率 10 pps, # -> 20ppsD = 0 / 1 / 2 > 0 -> 脉冲数为 10,n, 1 -> n+1, 2 -> 10-n说明:1. 一般外线本模式无须修改.12.外线拨号延迟时间索引栏 : 无格式 : AA-B-C-DD-E-FFAA = 01～59 > 外线通话长话警示音提示时间 (分)B = 0 ～9 > 外线拨号音迟来期限时间 (秒)C = 0 ～9 > 拨号暂停时间 (秒)DD = 10～20 > 通话费用加成倍数, 10为1.0 倍, 11为1.1倍,...20为2.0倍E = 1 ～9 > 市内电话通话时间 (分)FF = 01～99 > 市内电话计费基本费率 (0.1元)说明:1. 抓取外线后, 拨号音迟来超过 B栏的期限时间后, 断定外线故障.2. C 栏为拨号暂停时间(PAUSE),用于简速拨号中, 以避免拨号时漏号.13.自动重拨延迟时间索引栏 : 无格式 : AA-BB-CC-DDAA = 1～99 > 自动重拨次数BB = 0～59 > SMDR 生效时间 (秒)CC = 5～99 > 自动重拨, 自动挂断至再次自动寻线之延迟时间 (秒)DD = 5～99 > 自动重拨, 自动寻线失败至再次自动寻线之延迟时间 (秒) 说明:1. 设定免持听筒拨号时, 按重拨之重拨次数及各项参数.2. 听筒拿起的重拨仅有一次.14.第一次保留回叫时间/无人应答自动回叫时间索引栏 : 无格式 : AAA-BBBAAA = 5～255 > 第一次保留回叫时间 (秒) BBB = 5～255 >15.间隔保留回叫时间/保留回叫次数/索引栏 : 无格式 : AAA-B-CC-DD AAA = 5 ～255 > 间隔保留回叫时间 B = 1 ～9 > 保留回叫次数 (次 CC = 00～99 > 振铃程序变换次数上限 (次) DD = 00～99 > 挂断外线重置秒数 (秒)16.现在日期索引栏 : 无格式 : AA-BBCC-DAA = 00～99 > 年 ( 公元 19?? ) BB = 01～12 > 月CC = 01～31 > 日D = 0 ～7 > 星期 (0 或17.现在时刻索引栏 : 无 格式 : AABBAA = 00～23 > 时, 必须为 24 小时制BB = 00～59 > 分18.日间/夜间转换时刻索引栏 : AB格式 : AB-CCDD-EA = 0～7 > 星期B = 1～9 > 段数CC = 00～23 > 转换时刻 (时时)DD = 00～59 > 转换时刻 (分分)E = 0 / # > 0 -> 日间, # -> 夜间说明:1. 可在MODE 28, 9.2栏设定自动或非自动夜切,原始系统设定参数为非自动,若设定为自动夜切, 可在任何时刻由值机台按[818#]及[819#]暂时改变现在状态.2. A栏 0～6 -> 星期日～星期六 (SUN～SAT).3. 当 A栏设定为 7时, 则可将一周( 7天)的转换时刻设定为同一时刻.4. 不必要时, 勿修改第一段转换时间.5. 设定转换时刻, 须由小时刻排到大时刻.6. 其它多余无用的段数, 需输入****以告知系统为无用的时段.19.系统简速拨号按[扩音] 按[扩音]---------> ------->说明:1. 系统简速拨号代码由 100～999 共 900 组, 代码各组皆可设定 32 码(最多)。

一般说明PW5300是电流模式升压DC-DC转换器。

其内置0.2Ω功率MOSFET的PWM电路使该稳压器具有效率高的功率效率。

内部补偿网络还可以程度地减少了6个外部元件的数量。

误差放大器的同相输入连接到0.6V精密基准电压，内部软启动功能可以减低浪涌电流。

PW5300采用SOT23-6L封装，为应用提供节省空间的PCB。

特征⚫可调输出达12V⚫内部固定PWM频率：1.0MHz⚫内部0.2Ω，2.5安，16V功率MOSFET ⚫关断电流：0.1μA⚫过温保护⚫过压保护⚫可调输入端过电流保护：0.5安培〜2.5安培（Vin）应用领域⚫充电器⚫液晶显示器⚫数码相机⚫手持设备⚫便携式产品典型应用电路R1,R2的放置于远离LX节点富含噪声和电感器干扰源。

同时放置于PW5300芯片的PIN脚5的FB 引脚旁，尽量避免背面过孔放置，同时上拉电阻一般是R1，R1与输出正极的走线，要从输出电容COUT单点走线到R1.FB采样的精确度和抗干扰效果更好，不能从开关元件电感器单点接R1。

设计注意点：输出电压计算公式：Vout=0.6V x（R1/R2+1）R3是输入端可调最大限流点。

计算公式：48/R3（K）=Iocp(A)PW5300的PIN脚4为EN使能脚，接高电平正常工作，接VIN即可，低电平则关断。

输出12V时，输出电容要用电解电容，如100uF电感选择CD53或者CD75等贴片电感均可PIN 脚说明OCPEN绝对额定值注1：θJA 是在JEDEC 51-3热测量标准的低有效导热率测试板上在TA = 25°C的自然对流中测量的推荐的工作范围布局注意事项1.电源线（包括GND线，LX线和VIN线）应保持短，直和宽。

2.LX，L和D开关节点，宽而短的走线可降低EMI。

3.将CIN尽可能靠近VIN引脚放置，以保持输入电压稳定并滤除脉冲输入电流。

4.电阻分压器R1和R2必须尽可能直接地直接连接到FB引脚。

5.FB是一个敏感节点。