1-CiTRANS 680设备介绍

PTN设备介绍及网管配置烽火通信科技股份有限公司 技术支援部 2009年12月◎ 光通信专家内容摘要1 PTN产品介绍2 PTN网管配置介绍2 光通信专家烽火PTN产品涵盖三部分：CiTRANS 600系列设备平台 OTNM 2100、2000网管平台 OTNPlanner智能网络规划平台e-FimTMOTNM2000/2100OTNPlannerCiTRANS 6*0V1.0 待研CiTRANS 660V2.0CiTRANS 640V1.0 中试CiTRANS 620V2.03 光通信专家PTN产品系列CiTRANS 680 CiTRANS 660 CiTRANS 640 CiTRANS 620交叉容量 240G~640G 业务槽位/总槽位数量 26/32 应用场景 本地、城域骨干核心 机械尺寸 923mm(H)×496mm(W)×2 48mm(D)交叉容量 160G、320G 业务槽位/总槽位数量 24/32 应用场景 城域核心、汇聚节点 机械尺寸 923mm(H)×496mm(W)×2 48mm(D)交叉容量 20G~90G 业务槽位/总槽位数量 8/12 应用场景 边缘汇聚、重要接入节点 机械尺寸 173mm(H) ×440mm(W) ×245mm(D)交叉容量 5G~20G 业务槽位/总槽位数量 1/1 应用场景 城域边缘接入节点 机械尺寸 44mm(H)×440mm(W)×3 80mm(D)4 光通信专家CiTRANS 660 设备介绍子框分为上下两层，单面插板，各有16个机 盘槽位上框为电源端子板和低速接口盘槽位区 下框为网元管理盘、信令控制盘、交叉时钟 盘和高速接口盘槽位区 上下两框中间设有3个独立的大功率智能风扇 ，可根据设置的温度界限采用不同的转速 子框底部为分纤单元和防尘过滤网 前向兼容MSTP技术，兼容OTN单盘、兼容 PON技术 单盘类型 单盘密度 接入容量 E1 16、32路/盘 224 STM-1/4 1、2路/盘 28 STM-16 1路/盘 6 FE 12路/盘 168 GE 10路/盘 100 10GE 2、4路/盘 14/285 光通信专家CiTRANS640设备---重要业务接入节点、边缘汇聚节点设备交叉容量：20~90G设备结构业务槽位8个 300mm深、4U高度 典型配置功耗低于100W 全业务接入能力 FE、GE、10GE；E1、STM-1 E1、FE带TPS功能 XCU、NMU、ASCU、POWER ：1+1技术选择MPLS-TP，同时兼容PBT 前向兼容MSTP单盘类型 E1 STM-1/4 FE GE 10GE单盘密度 16、32路/盘 1、2路/盘 8路/盘 2、4路/盘 1、2路/盘接入容量 128 16 64 20 2/46 光通信专家CiTRANS 620系统介绍CiTRANS 620边缘层分组传送平台是面向分组传送的新一代移动接入传送 设备。

喷码机操作及维修手册目录⏹技术参数 (5)✧电气规格 (5)✧重量 (5)✧尺寸 (5)✧环境规格 (6)✧墨水的用量 (6)✧喷码机耗材容量 (6)⏹喷码原理 (7)✧喷码机的应用特点 (7)✧喷印字符的形成 (7)✧工作原理简述 (8)喷墨打印原理 (8)墨路工作原理 (10)✧影响喷印质量及稳定性的因素 (11)✧主要组成部件及功能 (11)⏹喷码机描述 (12)✧外观及主要部件 (12)✧墨路系统组件 (13)✧喷头 (13)✧外部连接 (14)✧操作面板描述 (15)✧液晶屏 (16)⏹喷码机操作 (17)✧操作界面架构图 (18)✧新机器开机流程 (19)✧正常开机 (22)✧正常关机 (22)✧停机流程表 (23)✧快速关机 (25)✧整机清洗流程 (25)✧查看喷码机状态参数 (26)✧编辑信息 (27)清除屏幕 (27)选择字体 (27)字符间距 (28)字符方向 (28)字符加粗 (28)插入项目 (28)●插入时钟 (29)●插入序列号 (30)●插入班次： (31)●插入信息： (32)●插入二维码： (33)●插入条形码： (35)●插入串口随机号 (36)●插入磁盘字符串 (38)打印信息 (40)保存信息 (40)另存信息 (40)显示模式 (40)✧选择信息 (41)✧喷印设置 (42)喷印延时 (42)喷印速度 (42)喷印高度 (43)信息方向 (43)粗体喷印 (45)电眼控制 (45)●有效状态 (45)●滤波间隔 (45)●响应方式 (46)速度模式 (46)●内同步 (46)●外同步 (47)重复喷印 (48)充电算法 (49)计米喷印 (49)✧序列号 (50)✧功能限制 (51)✧系统设置 (52)时钟设置 (53)密码设置 (54)计数器 (55)外部接口 (56)事件记录 (56)系统恢复 (56)软件升级 (56)配置信息 (57)通讯设置 (57)特殊设置 (58)✧墨路维护 (59)喷头维护 (59)喷头结构图 (60)黏度标定 (61)手动控制 (61)墨路系统原理图 (63)墨路引灌 (64)墨路排空 (64)飞行时间校准 (64)自动清洗 (64)帮助 (64)✧系统维护 (65)墨线开关 (65)高压开关 (65)喷印测试 (66)喷嘴调制 (67)相位测试 (67)高压监测 (68)黏度监测 (68)压力设置 (68)转速设置 (68)运行时间 (68)✧更多功能 (69)⏹技术参数✧电气规格✧重量喷码机净重量为30Kg。

利优比680印刷机说明书一、产品概述以利优比680印刷机是一种高效、高精度的印刷设备，广泛应用于印刷行业。

该印刷机采用先进的技术和设计，能够实现快速、准确、稳定的印刷操作，为用户提供优质的印刷效果。

二、产品特点1. 高效印刷：以利优比680印刷机采用了先进的印刷技术，能够实现高速印刷，大大提高了生产效率。

2. 高精度印刷：该印刷机具备精密定位和自动校准功能，能够实现毫米级的准确定位，保证印刷品的精度和质量。

3. 稳定性强：以利优比680印刷机采用了稳定性高的传动系统和控制系统，能够平稳运行，减少故障率，提高设备的可靠性。

4. 操作简便：该印刷机配备了直观的操作界面和简单的操作流程，用户可以轻松掌握操作技巧，提高工作效率。

5. 多功能：以利优比680印刷机支持多种印刷模式和材料，可以满足不同用户的需求。

三、技术参数1. 印刷速度：最高可达10000张/小时。

2. 印刷精度：±0.02mm。

3. 印刷尺寸：最大印刷尺寸为680mm×480mm。

4. 适用材料：适用于纸张、纸板、塑料等材料的印刷。

四、安全操作指南1. 在操作印刷机前，请确保已经阅读并理解本说明书中的安全操作指南。

2. 使用印刷机时，请戴好防护手套和眼镜，避免意外伤害。

3. 在清洁和维护印刷机时，请先切断电源，避免触电事故。

4. 请勿将手指或其他物体伸入运转中的印刷机内部，以免造成伤害。

5. 使用适当的印刷材料，避免使用过厚或过薄的材料，以免影响印刷效果或损坏设备。

五、操作流程1. 打开电源，启动印刷机。

2. 根据需要设置印刷模式和印刷参数。

3. 将待印刷的材料放置在印刷机工作台上，并进行定位。

4. 调整印刷机的定位和校准参数，确保印刷位置准确。

5. 开始印刷，观察印刷效果，如有需要可进行微调。

6. 印刷完成后，关闭印刷机，并清理印刷机内部和工作台。

六、常见故障及排除方法1. 印刷品模糊或颜色不准确：请检查印刷机的墨水供给系统，确保墨水充足且质量良好。

快譯通CRM-680數位錄音筆說明書目錄注意事項 (2)主要功能 (3)外觀圖及各部分名稱 (4)更換電池與安裝記憶卡 (5)畫面說明 (7)操作說明 (10)一、開/關機 (10)二、錄音功能 (10)三、播放功能 (12)四、刪除功能 (14)五、預約錄音 (15)六、聲控錄音 (16)七、監聽錄音 (16)八、儲存設定 (16)九、背光時間設定 (16)十、對比調整 (16)十一、語言選擇 (16)十二、關機設定 (17)十三、記憶體狀態 (17)十四、軟體版本 (17)十五、密碼設定及密碼修改 (17)十六、版本升級 (17)十七、電腦連接 (18)十八、充電 (20)疑難排解 (21)產品規格 (23)注意事項●為了保持良好性能，請避免在下列場所放置或使用本機。

1. 浴室或其它受潮的地方。

2. 陽光曝曬，或靠近加熱設備等高溫環境下。

3. 溫度過低的地方。

4. 多塵的地方。

●請勿自行拆修或變更本機，若產品有問題，請聯繫經銷商或本公司客服中心。

●避免摔落或強烈碰撞本機，請勿過分用力按壓液晶顯示幕，否則可能導致液晶螢幕損壞或顯示異常。

●請選擇合適音量，使用耳機時音量不宜過大。

若感到耳鳴，請降低音量或停止使用。

●本產品僅適用於一般語音錄音。

若因非法使用本產品導致各種糾紛，或因維修導致檔案遺失或損壞，本公司概不負責。

請務必遵照說明書規範進行操作，並應在法律允許的範圍內使用。

●請避免使用含強酸鹼的清潔劑清潔本機。

●為避免消磁，本機應遠離磁性物質，如磁碟片、信用卡等。

特別聲明：使用本產品前請仔細閱讀本說明書，如因人為操作或不可抗力因素導致資料遺失，本公司概不負責，請您務必小心操作，並隨時備份資料。

本公司保留產品修改權利。

產品規格及設計如有變更，恕不另行通知。

主要功能1、立體聲與單聲道高傳真錄音功能，具備多種錄音品質供選擇：高階模式PCM 48k/16：WAV格式無壓縮立體聲錄音模式，相當於CD音質。

查询NE680供应商300 500 1000 2000 3000Frequency, f (GHz)California Eastern LaboratoriesNE680 SERIESELECTRICAL CHARACTERISTICS (T A = 25°C)f T Gain Bandwidth Product at V CE = 6 V, I C = 10 mA GHz 101010NFNoise Figure at V CE = 6 V, I C = 5 mA,f = 1 GHzdB 1.6 1.7f = 2 GHz dB 1.7 2.41.831.9f = 4 GHzdB 2.6GNFAssociated Gain at V CE = 6 V, I C = 5 mA,f = 1 GHz dB 1413.5f = 2 GHz dB 12.510.29.6f = 4 GHzdB 8MAGMaximum Available Gain at V CE = 6 V, I C = 10 mAf = 1 GHz dB 18.51918.5f = 2 GHz dB 16.212.711.8f = 4 GHzdB 10.28.27.3|S 21E |2Insertion Power Gain at V CE = 6 V, I C = 10 mA,f = 1 GHz dB 1715.515f = 2 GHz dB 10.512.57.59.89.2f = 4 GHzdB7.5 4.6 4.4h FE Forward Current Gain 2 at V CE = 6 V, I C = 10 mA5010025050100250V CE = 3 V, I C = 5 mA80160I CBO Collector Cutoff Current at V CB = 10 V, I E = 0 mA µA 1.0 1.0 1.0I EBO Emitter Cutoff Current at V EB = 1V, I C = 0 mAµA 1.01.0 1.0C RE 3Feedback Capacitance at V CB = 1 V, I E = 0 mA, f = 1 MHz pF 0.30.70.30.7P T Total Power DissipationmW 400150100R TH (J-A)Thermal Resistance (Junction to Ambient)°C/W 8331000R TH (J- C)Thermal Resistance (Junction to Case)°C/W120200200PART NUMBERNE68000NE68018NE68019EIAJ 1 REGISTERED NUMBER2SC50132SC5008PACKAGE OUTLINE00 (CHIP)1819SYMBOLSPARAMETERS AND CONDITIONSUNITS MIN TYP MAX MINTYP MAX MINTYP MAX PART NUMBERNE68030NE68033NE68035NE68039/39REIAJ 1 REGISTERED NUMBER2SC42282SC35852SC35872SC4095PACKAGE OUTLINE30333539SYMBOLSPARAMETERS AND CONDITIONSUNITS MIN TYP MAX MIN TYP MAX MIN TYP MAX MIN TYP MAXf T Gain Bandwidth Product at V CE = 6 V, I C = 10 mA GHz 10101010NFNoise Figure at V CE = 6 V, I C = 5 mA,f = 1 GHz dB1.5 1.6f = 2 GHz dB 1.7 1.8 3.01.72.41.72.5f = 4 GHz dB2.9 2.1 2.62.6GNFAssociated Gain at V CE = 6 V, I C = 5 mA,f = 1 GHz dB 12.511.0f = 2 GHz dB 9.49.012.511f = 4 GHz dB5.3 4.286.5MAGMaximum Available Gain at V CE = 6 V, I C = 10 mAf = 1 GHz dB 171718.518f = 2 GHz dB 10.910.916.212.4f = 4 GHz dB6.8 6.710.28.7|S 21E |2Insertion Power Gain at V CE = 6 V, I C = 10 mA,f = 1 GHz dB 13.5131714.5f = 2 GHz dB 8.5 6.710.512.59.6f = 2 GHz dB3.63.77.54.9h FE Forward Current Gain 2 at V CE = 6 V, I C = 10 mA501002505010025050100250V CE = 3 V, I C = 5 mA50100250I CBO Collector Cutoff Current at V CB = 10 V, I E = 0 mA µA 1.0 1.0 1.0 1.0I EBO Emitter Cutoff Current at V EB = 1V, I C = 0 mA µA 1.01.01.01.0Cre 3Feedback Capacitance atV CB = 3V, I E = 0 mA, f = 1 MHz pF 0.30.7V CE = 10 V, I E = 0 mA, f = 1 MHz pF 0.30.80.20.70.250.8P T Total Power Dissipation mW 150200290200R TH (J-A)Thermal Resistance (Junction to Ambient)°C/W 833620550620R TH (J- C)Thermal Resistance (Junction to Case) °C/W200200200200ELECTRICAL CHARACTERISTICS (T A = 25°C)Notes:1.Electronic Industrial Association of Japan.2.Pulsed measurement, PW ≤350 µs, duty cycle ≤2%.3.The emitter terminal should be connected to the ground terminal of the 3 terminal capacitance bridge.NE680 SERIES0.1 0.2 0.3 0.5 0.7 1 2 3 5 7 10302520151050I n s e r t i o n G a i n , |S 21|2 (d B )M a x i m u m A v a i l a b l e G a i n , M A G (d B )I n s e r t i o n G a i n , |S 21|2 (d B )1 2 3 5 7 10 20 30 50 70 100141312111098765432Collector Current, I C (mA) 1 2 3 5 7 10 20 30 50 70 100121086420I n s e r t i o n G a i n , |S 21|2 (d B )I n s e r t i o n G a i n , |S 21|2 (d B )M a x i m u m A v a i l a b l e G a i n , M A G (d B )NE68035INSERTION GAIN vs.COLLECTOR CURRENTNE68033INSERTION GAIN vs.COLLECTOR CURRENTNE68035FORWARD INSERTION GAIN AND MAXIMUM AVAILABLE GAIN vs. FREQUENCYTYPICAL PERFORMANCE CURVES (T A = 25°C)ABSOLUTE MAXIMUM RATINGS 1 (T A = 25°C)SYMBOLS PARAMETERS UNITS RATINGSV CBO Collector to Base Voltage V 20V CEO Collector to Emitter Voltage V 10V EBO Emitter to Base Voltage V 1.5I C Collector Current mA 35T J Junction Temperature °C 1502T STGStorage Temperature°C-65 to +150Notes:1.Operation in excess of any one of these parameters may result in permanent damage.2.Maximum T J for the NE68035 is 200°C.DC POWER DERATING CURVESAmbient Temperature, T A (°C)T o t a l Po w e r D i s s i p a t i o n , P T (m W )0 50 100 150 200400300200100Collector Current, I C (mA)Frequency, f (GHz)Frequency, f (GHz)NE68039FORWARD INSERTION GAIN AND MAXIMUM AVAILABLE GAIN vs. FREQUENCY0.1 0.2 0.3 0.5 0.7 1 2 3 5 7 1030252015105NE680 SERIESTYPICAL PERFORMANCE CURVES (TA = 25°C)543211 2 3 5 7 10 20Collector Current, IC (mA)50030020010070503020101 2 3 5 7 10 20 30 501 2 3 5 7 10 2054321Collector Current, I C (mA)Collector Current, I C (mA)D C F o r w a r d C u r r e n t G a i n , h F EN o i s e F i g u r e , N F (d B )N o i s e F i g u r e , N F (d B )G a i n B a n d w i d t h P r o d u c t , f T (G H z )NE68035NOISE FIGUREvs. COLLECTOR CURRENTNE68033NOISE FIGURE vs. COLLECTORCURRENTCollector to Base Voltage, V CB(V)53210.70.50.30.20.11 2 3 5 7 10 20 30 50C o l l e c t o r t o B a s e C a p a c i t a n c e , C O B (pF )COLLECTOR TO BASE CAPACITANCE vs. COLLECTOR TO BASE VOLTAGE10753211 2 3 5 7 10 20GAIN BANDWIDTH PRODUCT vs.COLLECTOR CURRENTFORWARD CURRENT GAIN vs. COLLECTOR CURRENTCollector Current, I C (mA)NE680 SERIESNE68018TYPICAL NOISE PARAMETERS (T A = 25°C)NE68030TYPICAL NOISE PARAMETERS (T A = 25°C)NE680 SERIESTYPICAL COMMON EMITTER SCATTERING PARAMETERS (T A = 25°C)100 .884-12.99.246166.6.018 77.7 .964 -8.5400 .729 -52.2 7.715 132.3 .056 58.5.864 -27.8800 .507-90.1 5.509101.2 .073 41.2 .704 -43.71000 .430-105.8 4.72289.8 .087 38.3.657-48.31500 .312 -138.0 3.39866.8 .11035.6 .591-58.82000 .259 -167.5 2.645 48.2.120 27.1 .561-69.02500 .231164.8 2.18931.5 .137 23.2.544 -78.53000 .223 139.5 1.87616.9 .165 18.5 .539-87.70.1927.10.3421.40.6318.80.7117.30.8814.91.0711.81.159.71.138.4100 .972 -9.4 3.605170.2 .017 81.6 .995 -3.5400 .907-34.2 3.315 146.5.06165.5 .966-20.2800 .778 -65.1 2.897118.1 .104 45.6 .874 -37.51000 .706 -78.9 2.678105.8 .11438.1 .841-44.31500 .561 -111.0 2.17378.7 .135 21.4 .755 -58.42000 .457-139.5 1.80056.6 .14711.8 .712-70.42500.389-166.6 1.54537.3 .145 4.8 .668 -80.53000.356 167.0 1.35820.7 .150 2.4 .651 -90.6NE68018V CE = 2.5 V, I C = 1 mAV CE = 2.5 V, I C = 3 mA0.1223.30.1917.40.3514.40.4213.70.6512.10.8210.91.088.51.20 6.9100 .838-17.7 13.662163.3 .01280.3.965-9.5400 .610 -61.4 10.216124.3.037 61.1 .819 -28.3800.381 -99.4 6.605 94.4.063 48.9 .661 -40.11000 .314-114.8 5.516 83.9.067 47.8 .630-43.71500 .223-149.1 3.855 63.0 .09243.1 .587-54.12000 .188 -178.0 2.963 45.9 .112 34.0 .569-63.62500.185153.8 2.417 30.3 .13033.0 .567-72.13000.173129.02.06316.4.15523.5.563-82.5V CE = 6 V, I C = 5 mA0.1330.60.4224.40.7320.20.8519.20.9716.21.0712.61.1010.81.109.3FREQUENCYS 11S 21S 12S 22KMAG 1(MHz)MAG ANG MAG ANG MAG ANG MAG ANG (dB)Coordinates in Ohms Frequency in GHz (V CE = 2.5 V, I C = 1 mA)0˚Note:1.Gain Calculations:MAG =|S 21||S 12|K - 1 ).2(K ±∆ = S 11 S 22 - S 21 S 12When K ≤ 1, MAG is undefined and MSG values are used.MSG =|S 21||S 12|, K = 1 + | ∆ | - |S 11| - |S 22|2222 |S 12 S 21|,MAG = Maximum Available GainMSG = Maximum Stable GainNE680 SERIES100 .905 -15.3 9.292 165.2 .018 81.0 .968-9.4400 .726 -52.57.492131.0 .057 60.9 .848 -28.7800 .505-87.4 5.221100.5 .083 46.2.684 -42.71000 .428 -100.0 4.43989.5 .093 42.5 .638 -46.91500 .302 -126.3 3.21167.8 .116 36.3 .582-54.42000 .223-149.5 2.52050.2.138 33.0.551 -61.42500 .172 -177.0 2.100 34.7 .163 28.4 .532-67.63000 .149 150.7 1.831 20.4 .191 22.6.507 -75.5V CE = 2.5 V, I C = 3 mA100 .849-18.0 13.629162.0 .018 85.2 .949 -9.6400 .613-60.89.820 123.1.050 60.7 .789 -29.4800.386-93.9 6.20693.8.067 49.2 .639-39.21000 .317-105.5 5.15783.9 .07947.3 .607-42.21500 .215-128.5 3.615 64.1 .102 43.3 .575 -49.12000 .149-149.7 2.786 47.9.127 39.9 .563-55.72500 .103 -178.6 2.29833.5 .156 34.0 .552 -62.33000.092143.31.98920.1.18528.9.537-70.2V CE = 6 V, I C = 5 mAV CE = 2.5 V, I C = 1 mAFREQUENCYS 11S 21S 12S 22K MAG 1(MHz)MAG ANG MAG ANG MAG ANG MAG ANG (dB)100 .971 -9.9 3.456169.4 .017 84.60.996 -6.2400 .905-34.9 3.207145.8 .06466.7 0.961 -20.2800 .774 -65.1 2.751117.3 .110 46.1 0.869 -36.61000.706 -78.0 2.512105.2 .126 38.1 0.829 -43.11500 .564-106.1 2.04380.0 .146 25.4 0.751 -54.72000 .453-130.7 1.721 59.1.15517.5 0.695-63.82500 .364 -156.6 1.497 40.9 .16213.5 0.658 -71.63000.303174.5 1.355 24.5.176 9.9 0.624 -79.9NE680190.0323.10.1717.00.3714.00.4613.00.6811.50.9010.51.087.91.19 6.20.1027.10.3421.20.6318.00.7516.80.9514.41.0810.91.138.91.157.50.1128.80.4522.90.7919.70.8718.11.0214.61.0911.61.109.801.108.40TYPICAL COMMON EMITTER SCATTERING PARAMETERS (T A = 25°C)Coordinates in Ohms Frequency in GHz (V CE = 2.5 V, I C = 1 mA)Note:1.Gain Calculations:MAG =|S 21||S 12|K - 1 ).2(K ±∆ = S 11 S 22 - S 21 S 12When K ≤ 1, MAG is undefined and MSG values are used.MSG =|S 21||S 12|, K = 1 + | ∆ | - |S 11| - |S 22|2222 |S 12 S 21|,MAG = Maximum Available GainMSG = Maximum Stable GainNE680 SERIES0.1123.00.2117.10.4214.20.5313.20.7711.50.9910.41.137.11.18 5.8V CE = 2.5 V, I C = 3 mA100.907-14.69.563166.7.01875.1.983-8.1400.706-47.37.296131.3.05664.8.832-23.2800.461-72.5 4.915103.2.08457.3.687-31.81000.382-80.6 4.15493.9.09856.6.646-34.31500.238-95.8 2.97976.9.13156.1.585-37.72000.155-101.6 2.32462.8.15954.7.579-42.22500.078-107.6 1.94051.3.19454.2.570-47.03000.026-102.41.67941.5.23051.9.561-51.80.1927.30.4321.10.7417.70.8316.31.0013.61.089.91.098.21.096.8TYPICAL COMMON EMITTER SCATTERING PARAMETERS (T A = 25°C)NE68030V CE = 2.5 V, I C = 1 mAFREQUENCYS 11S 21S 12S 22KMAG 1(MHz)MAG ANG MAG ANG MAG ANG MAG ANG (dB)100.958-8.2 3.592171.5 .01882.5.988 -4.2400 .907 -31.4 3.325 148.1 .06570.1 .949 -16.3800 .752-57.5 2.807 121.4 .107 55.3 .860 -28.71000 .672-68.0 2.541 110.8 .122 50.3 .814 -33.21500 .500-90.6 2.05889.1.147 43.4 .727 -40.72000 .371 -108.7 1.705 71.5 .157 41.1 .687 -46.72500 .257-129.3 1.479 57.1 .173 43.5 .658 -51.73000.172-154.11.33145.0.19446.5.638-56.6Coordinates in Ohms Frequency in GHz (V CE = 2.5 V, I C = 1 mA)0˚Note:1.Gain Calculations:MAG =|S 21||S 12|K - 1 ).2(K ±∆ = S 11 S 22 - S 21 S 12When K ≤ 1, MAG is undefined and MSG values are used.MSG =|S 21||S 12|, K = 1 + | ∆ | - |S 11| - |S 22|2222 |S 12 S 21|,MAG = Maximum Available GainMSG = Maximum Stable GainV CE = 6 V, I C = 10 mA100.769-21.720.130156.0.01580.5.936-10.5400.403-60.511.063113.0.03969.4.679-20.7600.281-70.37.969100.1.05270.5.623-21.3800.209-75.2 6.15391.4.06771.0.594-22.31000.158-77.4 4.99584.2.07970.8.582-23.31200.129-81.3 4.19078.8.09672.2.564-26.11400.087-81.5 3.65174.3.11270.8.551-26.61600.062-77.2 3.24769.3.12969.3.556-28.71800.041-71.7 2.91564.9.14268.2.555-30.62000.025-76.9 2.65560.6.15766.5.555-32.92500.02234.5 2.17151.5.19263.8.549-38.73000.04859.7 1.87443.0.22961.2.542-43.83500.08065.8 1.65835.3.27058.0.530-50.44000.12668.2 1.51428.0.31453.3.514-57.64500.16170.1 1.41120.7.35749.4.478-66.25000.23268.1 1.33013.9.40645.0.426-76.00.2531.30.7724.50.9121.90.9819.61.0416.81.0515.01.0613.61.0512.61.0511.81.0510.91.059.21.038.11.017.30.98 6.80.97 6.00.95 5.2V CE = 6 V, I C = 10 mA0.1335.50.2531.30.4828.40.7724.50.9121.90.9819.61.0416.81.0515.01.0613.61.0512.61.0511.81.0510.91.059.21.038.11.017.30.98 6.80.97 6.00.95 5.250.817-10.621.366168.2.00685.7.974-5.5100.769-21.720.130156.0.01580.5.936-10.5200.628-40.116.661136.5.02471.6.826-17.6400.403-60.511.063113.0.03969.4.679-20.7600.281-70.37.969100.1.05270.5.623-21.3800.209-75.2 6.15391.4.06771.0.594-22.31000.158-77.4 4.99584.2.07970.8.582-23.31200.129-81.3 4.19078.8.09672.2.564-26.11400.087-81.5 3.65174.3.11270.8.551-26.61600.062-77.2 3.24769.3.12969.3.556-28.71800.041-71.7 2.91564.9.14268.2.555-30.62000.025-76.9 2.65560.6.15766.5.555-32.92500.02234.5 2.17151.5.19263.8.549-38.73000.04859.7 1.87443.0.22961.2.542-43.83500.08065.8 1.65835.3.27058.0.530-50.44000.12668.2 1.51428.0.31453.3.514-57.64500.16170.1 1.41120.7.35749.4.478-66.25000.23268.1 1.33013.9.40645.0.426-76.0TYPICAL COMMON EMITTER SCATTERING PARAMETERS (T A = 25°C)FREQUENCYS 11S 21S 12S 22K MAG 1(MHz)MAG ANG MAG ANG MAG ANG MAG ANG (dB)100.967 -8.2 3.635170.6 .019 81.5 .990 -4.1400 .903-29.4 3.254147.9 .06971.0 .948-16.8800 .732-53.1 2.758121.3 .116 56.2 .846 -29.01000.658-62.8 2.508 110.3 .131 51.9 .801-33.51500 .478 -83.0 2.043 88.2 .154 46.9 .715 -41.42000 .349-100.5 1.70871.1 .173 46.2 .663 -47.52500 .242 -114.6 1.50756.5 .194 48.6 .633-53.43000.155-136.71.37144.6.22750.9.609-59.7V CE = 2.5 V, I C = 3 mA100.906-13.99.367165.4.01984.5.972-7.4400.704-43.97.037130.3.05865.0.821-23.5800.448-64.8 4.712103.1.09360.4.670-31.21000 .370-71.3 3.96093.7.10659.8.632-33.11500.241-80.5 2.86476.6.14459.3.582-37.12000.167-85.7 2.26363.0.18158.0.563-41.82500.104-81.4 1.91651.6.22156.3.552-47.03000.065-78.41.70041.6.26453.4.541-53.30.1422.80.2316.70.4813.80.5812.80.8211.21.009.91.107.01.115.80.126.90.4820.80.7817.00.8815.71.0013.01.05 9.61.06 7.91.037.0NE680 SERIESNE68033V CE = 2.5 V, I C = 1 mACoordinates in Ohms Frequency in GHz (V CE = 2.5 V, I C = 1 mA)0˚Note:1.Gain Calculations:MAG =|S 21||S 12|K - 1 ).2(K ±∆ = S 11 S 22 - S 21 S 12When K ≤ 1, MAG is undefined and MSG values are used.MSG =|S 21||S 12|, K = 1 + | ∆ | - |S 11| - |S 22|2222 |S 12 S 21|,MAG = Maximum Available GainMSG = Maximum Stable GainNE68035V CE = 6 V, I C = 5 mAFREQUENCYS 11S 21S 12S 22KMAG 1(MHz)MAG ANG MAG ANG MAG ANG MAG ANG (dB)100.869-13.412.862167.5.00983.8.989-5.80.0731.4500.682-69.09.959128.3.03455.9.834-22.20.3624.61000.518-111.7 6.550100.6.04745.2.706-30.00.6421.41500.440-137.9 4.70983.9.05643.5.658-35.40.8519.32000.414-156.8 3.65870.8.06443.2.642-41.50.9817.62500.400-171.6 3.00459.6.07343.2.637-48.0 1.0414.93000.392175.7 2.52749.3.08342.8.639-55.0 1.0813.13500.385164.5 2.18239.8.09341.9.646-62.2 1.1011.84000.382155.2 1.97330.9.10340.4.654-69.4 1.0811.04500.376146.2 1.73322.3.11438.9.664-76.7 1.0710.35000.372137.81.57514.0.12637.0.675-83.71.039.9100.766-23.220.629162.3.00875.9.972 -8.00.1633.9500.534-96.212.610115.8.02753.3.746-22.70.5226.81000.434-138.07.28491.5.03750.8.649-27.20.8423.01500.401-160.0 5.03577.3.04652.5.625-32.3 1.0219.62000.397-174.9 3.85265.7.05753.2.619-38.6 1.0716.62500.394173.1 3.13355.4.06852.7.622-45.5 1.0914.83000.396162.7 2.62645.8.07951.7.627-52.7 1.0913.43500.393153.2 2.26136.7.09150.0.637-60.1 1.0712.34000.394145.2 2.00028.2.10347.6.648-67.5 1.0411.74500.392137.3 1.78519.8.11545.3.660-75.0 1.0111.35000.391129.41.61911.7.12842.8.672-82.10.9711.0100.593-45.925.683152.5.00873.6.933-9.60.2035.3500.463-132.611.309103.7.01954.1.713-18.00.8027.71000.443-163.8 6.05683.9.02958.6.672-22.6 1.0921.41500.436-178.8 4.12471.6.03961.6.664-29.1 1.2117.52000.443170.3 3.14060.8.05162.0.665-36.5 1.2015.22500.448160.8 2.54750.9.06261.3.670-44.1 1.1813.63000.453152.3 2.13241.5.07460.0.677-52.0 1.1312.43500.454144.1 1.83232.5.08758.0.687-59.9 1.0911.44000.459136.7 1.61824.0.09955.4.697-67.8 1.0311.14500.460129.2 1.44115.7.11252.9.708-75.70.9811.15000.461121.6 1.304 7.7.12750.2.718-83.10.9210.1TYPICAL COMMON EMITTER SCATTERING PARAMETERS (T A = 25°C)V CE = 6 V, I C = 20 mAV CE = 6 V, I C = 10 mANE680 SERIESCoordinates in Ohms Frequency in GHz (V CE = 6 V, I C = 5 mA)00˚Note:1.Gain Calculations:MAG =|S 21||S 12|K - 1 ).2(K ±∆ = S 11 S 22 - S 21 S 12When K ≤ 1, MAG is undefined and MSG values are used.MSG =|S 21||S 12|, K = 1 + | ∆ | - |S 11| - |S 22|2222 |S 12 S 21|,MAG = Maximum Available GainMSG = Maximum Stable GainNE680 SERIESTYPICAL COMMON EMITTER SCATTERING PARAMETERS (T A = 25°C)500.935-5.89.685173.90.00783.30.990-3.70.1131.41000.903-15.39.393168.40.01579.80.984-6.00.1028.02000.826-26.38.809154.70.02872.70.951-11.70.2525.03000.770-38.78.225144.20.03968.70.899-16.20.3123.24000.690-49.67.593134.70.05164.60.850-19.60.4021.75000.618-58.1 6.894126.40.06062.30.806-21.90.4820.66000.545-67.5 6.290119.40.06759.40.759-24.00.5619.78000.436-83.4 5.266107.30.07956.50.689-26.30.7018.210000.353-98.2 4.48998.40.08956.30.638-27.60.8117.015000.232-138.6 3.27080.40.11456.30.555-31.20.9914.620000.217-177.0 2.57366.50.13857.70.502-36.5 1.0811.025000.262154.2 2.14854.60.16857.20.456-43.4 1.089.330000.314136.1 1.86044.20.20156.80.423-53.6 1.058.31000.756-2120.1551560.0011220.945-90.2736.12000.647-4017.1631400.001820.887-130.4734.04000.423-6512.0241180.009710.774-16 1.5526.86000.301-778.7621040.019680.691-16 1.5022.48000.211-92 6.962970.035680.643-16 1.2819.910000.143-108 5.674890.051710.614-17 1.1817.920000.127146 3.089660.113690.551-24 1.0912.530000.251120 2.207460.179640.477-37 1.0110.340000.371107 1.768300.240570.407-600.948.750000.46295 1.471130.298490.392-880.87 6.960000.543871.247-10.354410.389-1140.825.51000.918-108.8881680.001810.989-50.2939.52000.891-228.5461580.003760.981-80.2634.54000.757-417.6061410.024710.915-140.3225.06000.634-55 6.4301250.045650.822-180.5421.58000.511-68 5.6381150.057620.757-200.6920.010000.405-78 4.8391050.073610.700-220.8018.220000.225-136 2.601770.121590.583-29 1.0911.530000.242145 2.033500.171580.499-41 1.079.140000.359117 1.655310.226540.434-64 1.008.650000.452101 1.370140.282470.423-910.92 6.960000.536911.1720.340410.420-1160.845.4V CE = 6 V, I C = 3 mAV CE = 6 V, I C = 10 mACoordinates in Ohms Frequency in GHz (V CE = 2.5 V, I C = 3 mA)0˚NE68039V CE = 2.5 V, I C = 3 mAFREQUENCY S 11S 21S 12S 22K MAG 1(MHz)MAG ANG MAG ANG MAG ANG MAG ANG (dB)Note:1.Gain Calculations:MAG =|S 21||S 12|K - 1 ).2(K ±∆ = S 11 S 22 - S 21 S 12When K ≤ 1, MAG is undefined and MSG values are used.MSG =|S 21||S 12|, K = 1 + | ∆ | - |S 11| - |S 22|2222 |S 12 S 21|,MAG = Maximum Available GainMSG = Maximum Stable GainNE680 SERIESParametersQ1 ParametersQ1IS 3.84e-16MJC 0.64BF 124.9XCJC 0NF 1.05CJS 0VAF 11.9VJS 0.75IKF 0.027MJS 0ISE 1.0e-14FC 0.5NE 2.17TF 8.7e-12BR 1XTF 18NR 1.05VTF 19.1VAR Infinity ITF 0.082IKR Infinity PTF 0ISC 0TR 0.635e-9 NC 2EG 1.11RE 0.6XTB 0RB 17.9XTI 3RBM 1.02KF 0IRB 4.01e-4 AF1RC 10.46CJE 0.358e-12VJE 0.71MJE 0.5CJC 0.162e-12VJC0.79NE68018 NONLINEAR MODEL SCHEMATIC(1) Gummel-Poon ModelBJT NONLINEAR MODEL PARAMETERS (1)UNITSParameter Units time seconds capacitance farads inductance henries resistance ohms voltage voltscurrentampsParameters 68018C CB 0.08e-12C CE 0.08e-12L B 1.38e-9L C 2.55e-9L E 0.85e-9C CBPKG 0.14e-12C CEPKG 0.58e-12C BEPK 0.29e-12L BX 0.18e-9L CX 0.47e-9L EX0.09e-9ADDITIONAL PARAMETERSMODEL RANGEFrequency:0.05 to 5.0 GHz Bias:V CE = 1 V to 6 V, I C = 1 mA to 15 mA Date:5/31/96BaseNE680 SERIESNE68019 NONLINEAR MODEL SCHEMATICBaseParametersQ1 ParametersQ1IS 3.84e-16MJC 0.64BF 124.9XCJC 0NF 1.05CJS 0VAF 11.9VJS 0.75IKF 0.027MJS 0ISE 1.0e-14FC 0.5NE 2.17TF 8.7e-12BR 1XTF 18NR 1.05VTF 19.1VAR Infinity ITF 0.082IKR Infinity PTF 0ISC 0TR 0.635e-9 NC 2EG 1.11RE 0.6XTB 0RB 17.9XTI 3RBM 1.02KF 0IRB 4.01e-4 AF1RC 10.5CJE 0.358e-12VJE 0.71MJE 0.5CJC 0.162e-12VJC0.79(1) Gummel-Poon ModelBJT NONLINEAR MODEL PARAMETERS (1)UNITSParameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts currentampsParameters 68019C CB 0.08e-12C CE 0.08e-12L B 0.72e-9L E 0.76e-9C CBPKG 0.17e-12C CEPKG 0.21e-12L BX 0.19e-9L CX 0.19e-9L EX0.19e-9ADDITIONAL PARAMETERSMODEL RANGEFrequency:0.05 to 3.0 GHz Bias:V CE = 1 V to 6 V, I C = 1 mA to 15 mA Date:8/03NE680 SERIESParametersQ1 ParametersQ1IS 3.84e-16MJC 0.64BF 124.9XCJC 0NF 1.05CJS 0VAF 11.9VJS 0.75IKF 0.027MJS 0ISE 1.0e-14FC 0.5NE 2.17TF 8.7e-12BR 1XTF 18NR 1.05VTF 19.1VAR Infinity ITF 0.082IKR Infinity PTF 0ISC 0TR 0.635e-9 NC 2EG 1.11RE 0.6XTB 0RB 17.9XTI 3RBM 1.02KF 0IRB 4.01e-4 AF1RC 10.5CJE 0.358e-12VJE 0.71MJE 0.5CJC 0.162e-12VJC0.79NE68030 NONLINEAR MODEL SCHEMATIC(1) Gummel-Poon ModelBJT NONLINEAR MODEL PARAMETERS (1)UNITSParameter Units time seconds capacitance faradsinductance henries resistance ohms voltage volts currentampsParameters 68030C CB 0.08e-12C CE 0.08e-12L B 0.7e-9L E 1e-9C CBPKG 0.12e-12C CEPKG 0.16e-12C BEPKG 0.04e-12L BX 0.2e-9L CX 0.2e-9L EX0.2e-9ADDITIONAL PARAMETERSMODEL RANGEFrequency:0.05 to 3.0 GHz Bias:V CE = 2.5 V to 6 V, I C = 1 mA to 15 mA Date:10/25/96BaseNE680 SERIESParametersQ1 ParametersQ1IS 3.84e-16MJC 0.64BF 124.9XCJC 0NF 1.05CJS 0VAF 11.9VJS 0.75IKF 0.027MJS 0ISE 1.0e-14FC 0.5NE 2.17TF 8.7e-12BR 1XTF 18NR 1.05VTF 19.1VAR Infinity ITF 0.082IKR Infinity PTF 0ISC 0TR 0.635e-9 NC 2EG 1.11RE 0.6XTB 0RB 17.9XTI 3RBM 1.02KF 0IRB 4.01e-4 AF1RC 10.5CJE 0.358e-12VJE 0.71MJE 0.5CJC 0.162e-12VJC0.79NE68033 NONLINEAR MODEL SCHEMATIC(1) Gummel-Poon ModelBJT NONLINEAR MODEL PARAMETERS (1)UNITSParameter Units time seconds capacitance faradsinductance henries resistance ohms voltage volts currentampsParameters 68033C CB 0.08e-12C CE 0.08e-12L B 0.65e-9L E 0.95e-9C CBPKG 0.1e-12C CEPKG 0.1e-12C BEPKG 0.01e-12L BX 0.3e-9L CX 0.5e-9L EX0.3e-9ADDITIONAL PARAMETERSMODEL RANGEFrequency:0.05 to 3.0 GHz Bias:V CE = 2.5 V to 6 V, I C = 0.3 mA to 20 mA Date:7/97BaseNote:This nonlinear model utilized the latest data available. See our Design Parameter Library at for this data.NE680 SERIESParametersQ1 ParametersQ1IS 3.84e-16MJC 0.64BF 124.9XCJC 0NF 1.05CJS 0VAF 11.9VJS 0.75IKF 0.027MJS 0ISE 1.0e-14FC 0.5NE 2.17TF 8.7e-12BR 1XTF 18NR 1.05VTF 19.1VAR Infinity ITF 0.082IKR Infinity PTF 0ISC 0TR 0.635e-9 NC 2EG 1.11RE 0.6XTB 0RB 17.9XTI 3RBM 1.02KF 0IRB 4.01e-4 AF1RC 10.5CJE 0.358e-12VJE 0.71MJE 0.5CJC 0.162e-12VJC0.79NE68035 NONLINEAR MODEL SCHEMATIC(1) Gummel-Poon ModelBJT NONLINEAR MODEL PARAMETERS (1)UNITSParameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts currentampsMODEL RANGEFrequency:0.05 to 5.0 GHz Bias:V CE = 6 V, I C = 5 mA to 20 mA Date:10/31/96COLLECTORBASEOUTLINE DIMENSIONS (Units in mm)NE68000 (CHIP)(Chip Thickness: 160 µm)PACKAGE OUTLINE 18PACKAGE OUTLINE 18RECOMMENDED P.C.B. LAYOUTPACKAGE OUTLINE 19PACKAGE OUTLINE 19RECOMMENDED P.C.B. LAYOUTPACKAGE OUTLINE 30RECOMMENDED P.C.B. LAYOUTPIN CONNECTIONS 1. EmitterPACKAGE OUTLINE 35(MICRO-X)PIN CONNECTIONS 1.Collector 2. EmitterPACKAGE OUTLINE 30NE680 SERIES0.01+0.10 -0.05+0.1 -0.05+0.1 -0.05+0.10 -0.05OUTLINE DIMENSIONS (Units in mm)PACKAGE OUTLINE 33RECOMMENDED P.C.B. LAYOUTPACKAGE OUTLINE 33(SOT-23)PACKAGE OUTLINE 39PACKAGE OUTLINE 39RECOMMENDED P.C.B. LAYOUTPIN CONNECTIONS 1. Collector 2. Emitter 3. Base 4. EmitterPACKAGE OUTLINE 39RPACKAGE OUTLINE 39RECOMMENDED P.C.B. LAYOUTPIN CONNECTIONS1.Emitter2.Collector3.Emitter4.BaseNE680 SERIESPIN CONNECTIONS 1. Emitter 2. Base 3. Collector+0.10 -0.15+0.10 -0.05+0.2(LEADS 1, 3, 4)2.42.4ORDERING INFORMATIONNote:1. Lead material: Cu Lead plating: PbSnPART NUMBER QUANTITY PACKAGING NE68800 100 Waffle Pack NE68018-T1 3000 Tape & Reel NE68019-T1 3000 Tape & Reel NE68030-T1 3000 Tape & Reel NE68033-T1B 3000 Tape & Reel NE68035 1 ESD Bag NE68039-T1 3000 Tape & Reel NE68039R-T1 3000 Tape & ReelLife Support ApplicationsThese NEC products are not intended for use in life support devices, appliances, or systems where the malfunction of these products can reasonably be expected to result in personal injury. The customers of CEL using or selling these products for use in such applications do so at their own risk and agree to fully indemnify CEL for all damages resulting from such improper use or sale.NE680 SERIESA Business Partner of NEC Compound Semiconductor Devices, Ltd.。

缔斯纳680喷码机安全操作及保养规程随着数字化时代的到来，喷码机的使用范围越来越广，为公司生产线带来了效率的提升。

缔斯纳(Di-SNA)公司是世界著名的生产喷码机的公司，其产品质量和技术水平领先于同行业。

为了保障操作者生命财产安全，提高设备使用寿命，特制定本操作规程。

1. 喷码机的安装1.喷码机应由专业工程师进行安装，并按照操作手册严格操作。

任何操作员不得直接操作机器。

2.喷码机在使用前应进行试运转，以确保各部件正常。

2. 喷码机的操作1.操作人员应穿戴符合规范的劳动保护用品，并保持清醒状态，不得在疲劳、醉酒和药物作用下工作。

2.操作人员应明确机器的各项参数，如电压、电流、速度、喷嘴高度、气压等，不得任意调整参数。

3.操作人员应熟悉机器的程序和软件操作，非专业操作人员不得进行调试和修改。

4.操作人员应严格遵守操作规程，不得进行人工擅改、调整等操作。

5.操作人员应随时注意监视机器运行情况，发现异常情况应立即停机检查。

3. 喷码机的保养与维护1.操作人员应按照规定对机器进行日常保养和维护，如清洗、润滑、调试、检查等。

2.操作人员应随时检查机器的四周环境是否安全，如必要时应随时更换机器使用的电源线路。

3.机器长时间无人操作时应切断电源，并封存机器。

4.定期对机器进行全面的检查和维护，如更换油品、清理灰尘、检查和更换相应的机械部件等。

5.对机器的检查和保养必须由专业人员来进行，任何人都不能随意开启机器或更换机器部件。

6.对机器的保养及维护要做好记录，记录保养维护的时间、人员、维护内容等。

4. 使用中的注意事项1.不得将手伸入机器内部操作或维修，如必须维修内部部件，应在断电情况下进行操作。

2.操作人员应将喷码机放置于防水、防火、防尘的工作环境中，防止机器受到外力冲击，导致机器出现故障。

3.不得将机器移动或倾斜，更不能使喷嘴瞄准人体或其他物品进行操作。

4.在机器周围必须保持足够的空间进行操作和维护，如必要时应对机器的周围进行标记或栅栏进行隔离，防止无关人员靠近机器。

CiTRANS 690 系列POTN设备设备型号：CiTRANS 690 系列部门：烽火通信科技股份有限公司网络产出线拟制：Xxx 2014年8 月27日审核：XXX 2014年8 月27日批准：XXX 2014年8 月27日烽火通信科技股份有限公司2014年8月CiTRANS 690 系列CiTRANS 690系列是烽火通信为了应对运营商承载网分组化、大带宽化、综合业务化发展趋势而推出的由PTN向POTN平滑演进的解决方案，通过采用统一信元交换平台实现分组功能和光功能进行任意比例的融合。

CiTRANS 690系列覆盖汇聚、核心、干线等应用场景，背板交换容量由2.56T至12.8T，是新一代高端PTN&POTN产品。

CiTRANS 690 系列总共包含3款设备，CiTRANS 690 U10、CiTRANS 690 U20和CiTRANS 690 U30，分别可支持2.56T/7.68T/12.8T的交换容量，能够实现100GE、40GE、10GE、GE、FE、STM-1等数据业务综合接入，定位于移动PTN承载网络的核心汇聚、PTN+OTN设备迭代、干线大容量业务调度等应用场景，满足LTE无线业务集中调度和综合业务统一承载的需求。

●信元统一交换系统化统一交换平台。

实现全业务全无阻集中交换支持P&O管道的相互转换。

分组传送和光传送的管道既能分别处理，又能相互转换并端到端部署，实现整网的统一配置、调度、管理、运维灵活的P&O配置。

能够实现任意比例的P或O功能配置，满足不同类型业务的需求●大容量、高速率背板支持100G接入能力，未来支持向200G/400G平滑升级支持PTN系列板卡，并支持P&O混合板支持作为纯PTN设备应用，可以和PTN和OTN设备对接组网●极强组网能力完善保护功能：PTN+OTN保护，DNI-PW，MSRP组网指标优异：LSP/PW数、OAM、VRF、路由表两倍于现网●支持多场景应用可作为大容量L2/L3 PTN，支持100GE/40GE可作为大容量OTN产品可作为POTN，低成本大带宽，满足长距离传输需求●可扩展性预留SDN资源组网应用CiTRANS 690 系列具备灵活的组网能力、完善的可靠性设计、高度的智能化以及优秀的业务保护能力等优点，非常适合应用于城域网核心汇聚层节点。