AP60T03GH

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NEC Tokin Product Guide

NEC Tokin Product Guide

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●本PDF商品目录的内容发生变更或停止生产時,恕不另行通知,请在订购时确认最新信息。 ●在订购本PDF商品目录中的产品时,请申请交货规格书,以便进一步确认更详细的规格参数。 ●在使用本PDF商品目录中的产品时,请确认印刷版商品目录中的“安全相关注意事项”的内容以及其他与安全有关的注意事项。
0001EMCVOL01C1503E1
0001EMCVOL01C1503E1
公模
SC Coils 标准型
[RoHS [RoHS 对应品 对应品] ]
型号
最大定额电流 (A)
SC-02-101 SC-02-100 SC-02-200 SC-02-300 SC-02-500 SC-02-800 SC-05-100 SC-05-200 SC-05-500 SC-05-800 SC-10-100 SC-10-200 SC-15-100 SC-15-200 SC-20-100 SC-30-100
2 2 2 2 5 5 5 4 4 10 10 10 12 15 15 18
电感值 (mH) 最小 1 2 3 5 1 2 3 5 8 1 2 3 1.5 0.5 1 0.5

AP70T03GH中文资料

AP70T03GH中文资料

N-CHANNEL ENHANCEMENT MODE Electronics Corp.POWER MOSFET▼Simple Drive Requirement BV DSS 30V ▼ Low Gate Charge R DS(ON)9m Ω▼ Fast Switching I D60A▼ RoHS CompliantDescriptionAbsolute Maximum RatingsSymbol Units V DS V V GSV I D @T A =25℃A I D @T A =100℃A I DMA P D @T A =25℃W W/℃T STG ℃T J℃Symbol Value Units Rthj-c Thermal Resistance Junction-case Max. 2.8℃/W Rthj-aThermal Resistance Junction-ambientMax.110℃/WData and specifications subject to change without notice200823053-1/4AP70T03GH/JPb Free Plating ProductParameterRating Drain-Source Voltage 30Gate-Source Voltage±20Continuous Drain Current, V GS @ 10V 60Continuous Drain Current, V GS @ 10V 43Pulsed Drain Current 1195Total Power Dissipation 53-55 to 175Operating Junction Temperature Range-55 to 175Linear Derating Factor 0.36Thermal DataParameterStorage Temperature RangeThe Advanced Power MOSFETs from APEC provide the designer with the best combination of fast switching,ruggedized device design, low on-resistance and cost-effectiveness.The TO-252 package is universally preferred for all commercial-industrial surface mount applications and suited for low voltage applications such as DC/DC converters. The through-hole version (AP70T03GJ) are available for low-profile applications.G DSTO-252(H)GDSTO-251(J)Electrical Characteristics@T j=25o C(unless otherwise specified) Symbol Parameter Test Conditions Min.Typ.Max.UnitsBV DSS Drain-Source Breakdown Voltage V GS=0V, I D=250uA30--V ΔB V DSS/ΔT j Breakdown Voltage Temperature Coefficient Reference to 25℃, I D=1mA-0.03-V/℃R DS(ON)Static Drain-Source On-Resistance V GS=10V, I D=33A--9mΩV GS=4.5V, I D=20A--18mΩV GS(th)Gate Threshold Voltage V DS=V GS, I D=250uA1-3V g fs V DS=10V, I D=33A-35-S I DSS Drain-Source Leakage Current (Tj=25o C)V DS=30V, V GS=0V--1uA Drain-Source Leakage Current (T j=175o C)V DS=24V ,V GS=0V--250uAI GSS Gate-Source Leakage VGS= ±20V--±100nA Q g Total Gate Charge2I D=33A-1727nC Q gs Gate-Source Charge V DS=20V-5-nC Q gd Gate-Drain ("Miller") Charge V GS=4.5V-10-nC Q oss Output Charge V DD=15V,V GS=0V-13.522nC t d(on)Turn-on Delay Time2V DS=15V-8-ns t r Rise Time I D=33A-105-ns t d(off)Turn-off Delay Time R G=3.3Ω,V GS=10V-22-ns t f Fall Time R D=0.45Ω-9-ns C iss Input Capacitance V GS=0V-14852400pF C oss Output Capacitance V DS=25V-245-pF C rss Reverse Transfer Capacitance f=1.0MHz-170-pF Source-Drain DiodeSymbol Parameter Test Conditions Min.Typ.Max.Units V SD Forward On Voltage2I S=33A, V GS=0V-- 1.3V t rr Reverse Recovery Time I S=20A, V GS=0V,-27-ns Q rr Reverse Recovery Charge dI/dt=100A/µs-20-nCNotes:1.Pulse width limited by safe operating area.2.Pulse width <300us , duty cycle <2%.2/4 AP70T0G3H/JAP70T03GH/JFig 3. On-Resistance v.s. Gate VoltageFig 4. Normalized On-Resistancev.s. Junction TemperatureReverse DiodeJunction TemperatureFig 8. Typical Capacitance CharacteristicsFig10. Effective Transient Thermal ImpedanceFig 11. Switching Time Waveform Fig 12. Gate Charge WaveformAP70T03GH/J。

上银导轨价格资料

上银导轨价格资料

QH静音系类型号
• QHH15CA QHH20CA QHH25CA QHH30CA QHH35CA QHH45CA QHH20HA QHH25HA QHH30HA QHH35HA QHW15CA QHW20CA QHW25CA QHW30CA QHW35CA QHW45CA QHW20HA QHW25HA QHW30HA QHW35HA • QHW15CB QHW20CB QHW25CB QHW30CB QHW35CB QHW45CB QHW20HB QHW25HB QHW30HB QHW35HB QHW15CC QHW20CC QHW25CC QHW30CC QHW35CC QHW45CC QHW20HC QHW25HC QHW30HC QHW35HC
上银导轨优势①
上银导轨优势②
• E、组装容易并具互换性 • 组装时只要铣削或研磨床台上导轨之装配面,并依建议之步骤将导轨、 滑块分别以特定扭力固定于机台上,即能重现加工时的高精密度。传统 的滑动导引,则须对运行轨道加以铲花,既费事又费时,且一旦机台精 度不良,又必须再铲花一次。直线导轨具有互换性,可分别更换滑块或 导轨甚至是直线导轨组,机台即可重新获得高精密度的导引。 • F、润滑构造简单 • 滑动导引若润滑不足,将会造成接触面金属直接摩擦损耗床台,而滑动 导引要润滑充足并不容易,需要在床台适当的位置钻孔供油。直线导轨 则已在滑块上装置油嘴,可直接以注油枪打入油脂,亦可换上专用油管 接头连接供油油管,以自动供油机润滑。 • 精密加工机直线导轨(全部原装进口,假一罚十) • 高精度 高负载能力 高刚性 高可靠度 全密封防尘 运动平顺 低噪音 互换 性 安装容易 价格合理
• A、定位精度高 • 使用直线导轨作为线性导引时,由于直线导轨的摩擦方式为滚动摩擦,不 仅摩擦系数降低至滑动导引的1/50,动摩擦力与静摩擦力的差距亦变得 很小。因此当床台运行时,不会有打滑的现象发生,可达到μ m级的定位精 度。 • B、磨耗少能长时间维持精度 • 传统的滑动导引,无可避免的会因油腻逆流作用造成平台运动精度不良, 且因运动时润滑不充分,导致运行轨道接触面的磨损,严重影响精度。而 滚动导引的磨耗非常小,故机台能长时间维持精度。 • C、适用高速运动且大幅降低机台所需驱动马力 • 由于直线导轨移动时摩擦力非常小,只需较小动力便能让床台运行,尤其 是在床台的工作方式为经常性往返运行时,更能明显降低机台电力损耗量。 且因其摩擦产生的热较小,可适用于高速运行。 • D、可同时承受上下左右方向的负荷 • 由于直线导轨特殊的束制结构设计,可同时承受上下左右方向的负荷,不 像滑动导引在平行接触面方向可承受的侧向负荷较轻,易造成机台运行精 度不良。

SH366006 标准版用户手册_V1.0

SH366006 标准版用户手册_V1.0
5.1 工作状态 .......................................................................................................................................................................................... 5 5.2 参数测量 .......................................................................................................................................................................................... 5 5.3 电量计量 .......................................................................................................................................................................................... 5 5.4 JEITA 温度范围 ............................................................................................................................................................................. 5 5.5 充电管理 .......................................................................................................................................................................................... 6

变频器统计

变频器统计

锅炉房树脂控制剂电控箱ATV312H055N40.55KW-0输入:3PH 380-500V 50/60Hz 2.8A 输出:3P 380-500V 0.5-500Hz 1.9A锅炉房电控柜燃烧风机ACS510-01-088A-4输入:3PH 348-63Hz 88A输出:3PH 0...U1V 25A 0-500Hz 45KW锅炉房电控柜补水泵ACS510-01-031A-4输入:3PH 348-63Hz 31A输出:3PH 0...U1V 25A 0-500Hz 15KW综合间污泥进料泵电控箱FR-F840-00380-2-60输入:3PH 350/60Hz(40℃-48.2A 50℃-44.9A)输出:3P 380-500V (40℃-38A 50℃-35A)曝气池电控柜ACS510-01-025A-4输入:3PH 348-63Hz 25A输出:3PH 0...U1V 25A 0-500Hz 11KW变频器统计表综合间气浮机电控箱ATV310H075N4A输入:3PH 350/60Hz 3.6A 输出:3P 0-380-460V 2.3A 综合间压滤机电控柜22F-D4P2N103输入:3PH 348-63Hz 6.0A输出:3PH 0-460V 4.2A 0-400Hz 1.5KW/2.0HP污水处理所属系统安装位置外观型号参数综合间PAC电控箱VFD004EL43A输入:3PH 350/60Hz 1.9A输出:3PH 0-480V 1.5A 1.2KVA 0.4KW/0.5HP复卷主电机6SL3224-0BE33-0UA0输入:3PH 350/60Hz 88A输出:3PH 0 (480V)75A 0-550Hz30-37KW退纸架6SL3224-0BE31-8UA0输入:3PH 350/60Hz 53A输出:3PH 0 (480V)45A 0-550Hz18.5/22KW修边电机GD300-1R5G-4输入:3PH15%)-440(+10%)V 47-63Hz 5.0A输出:3PH 0-480V 3.7A 0-400Hz 1.5KW空压站26空压机MD290T160G/200P 输入:3PH 348-63Hz 359.0A 输出:3PH 0-480V 377A 0-500Hz 200KW退纸架导辊6SL3224-0BE25-5UA0输入:3PH 350-60Hz 21.9A输出:3PH 0 (480V)18A5.5/7.5KW柔软剂电控箱ATV320U04N4C0.37KW-1输入:3PH380-480/500V50/60Hz 2.1A输出:3P 380-480V 0-599Hz 1.5A涂料系统电控箱ATV320U11N4C1.1KW-1½HP输入:3PH380-480/500V50/60Hz 5.0A输出:3P 380-480V 0-599Hz 3.0A树脂控制剂电控箱ATV312H055N4 输入:3PH 380-500V 50/60Hz 2.8A输出:3P 380-500V0.5-500Hz 1.9A湿强剂电控箱ATV312H075N40.75KW-输入:3PH 380-500V 50/60Hz 3.6A输出:3P 380-500V0.5-500Hz 2.3A化学品复卷换热站新仓库换热站循环泵EDS1000-4T0037G/0055P3PH 380V 5输出5.6/8.6KVA8.5/13A新仓库换热站补水泵EDS1000-3PH 380V 5输出1.5/2.4KVA2.3/3.7A车间换热站循环水泵EDS1000-4T022G/0300P3PH 380V 5输出29.6/39.5KVA45/60A车间换热站补水泵EDS1000-4T022G/0037P3PH 380V 5输出3.3/5.6KVA5/8.5A复卷卷帘门HLP-C1021.5KW 21*200-240V 50/60Hz18.7A3*0-Vln 0-400Hz6.8-6.2A复卷破碎风机TK3000-4T30G/37L30/37输入3PH62A/76A380V50/60Hz输出60/75A 0-380V0-600Hz打包机滚筒6SL3210-5BE17-5UV0输入:3PH 4(-15%+10%)50/60Hz 2.6A 输出:3PH 0-480V2.2A 0-550Hz0.75KW打包机送膜6SL3210-5BE13-7UV0输入:3PH 4(-15%+10%)50/60Hz 1.7A 输出:3PH 0-480V1.3A 0-550Hz0.37KW打包机转盘6SL3210-5BE2-2UV0输入:3PH 4(-15%+10%)50/60Hz 4.7A输出:3PH 0-480V 5.6A 0-550Hz 2.2KW行车复卷行车吊钩变频TDN004E1100WM0输入:3PH 350/60Hz 4.7A输出0-480V3.4A/2.4KVA0.1-600Hz磨刀房磨刀电机VFD015B43A 输入:3PH 350/60Hz 4.3A 输出:3PH 0-480V 4.2A 3.2KVA 2HP0.1-400Hz25-26单轨吊TDN004E1100WM0输入:3PH 350/60Hz 4.7A输出0-480V3.4A/2.4KVA0.1-600Hz复卷行车行走变频FV109-4T-0022G 输入:3PH50/60Hz 5.8A 输出:380V 5.5A/2.2KW0-300Hz16吨小车主钩TDN007E1100WM0输入:3PH 350/60Hz 9.5A输出0-480V6.8A/4.7KVA0.1-600Hz16吨副钩TDW004E1100WM0输入:3PH 350/60Hz 4.7A输出0-480V3.4A/2.4KVA0.1-600Hz消防泵房消防喷淋泵房配电柜Z2400-37P输入:3PH50/60Hz输出380V 75A/37KW0.1-320Hz16吨行车行走变频FV109-4T-0055G 输入:3PH50/60Hz 14.5A 输出:380V 13A/5.5KW0-300Hz新仓库换热站补水泵EDS1000-4T0007Q/0015P3PH 380V 5输出1.5/2.4KVA2.3/3.7A低压超清滤液泵1#:33005-P1-M1 2#:33005-P2-M1NXS00615G2H1SSVA8A2B4C5DT3~380-500V50/60Hz61A3~0-U1 0-320Hz46-61A长;短纤叩后浆泵L:02070-P1-M1 S:01070-P1-M1NXS00725G2H1SSVA83~380-500V50/60Hz72A3~0-U1 0-320Hz61-74A总排污泵1#:38035-P1-M1 2#:38035-P2-M1NXS00455G2H1SSVA8A2B4C5DT3~380-500V50/60Hz46A3~0-U1 0-320Hz38-46A冷却水泵1#:31035-P1-M1 2#:31035-P2-M1NXS00725G2H1SSVA8A2B4C5DT3~380-500V50/60Hz72A3~0-U1 0-320Hz61-72A纸机润滑油泵54003-M1 54002-M1NXS00165G2H1SSVA8A2B4C5DT3~380-500V50/60Hz16A3~0-U1 0-320Hz12-16A低压温水泵1#:31005-P1-M1 2#:31005-P2-M1NXS00165G2H1SSVA8A2B4C5DT3~380-500V50/60Hz16A3~0-U1 0-320Hz12-16A抄前浆池浆泵20505-P1-M1NXS00385G2H1SSVA8A2B4C5DT3~380-500V50/60Hz38A3~0-U1 0-320Hz30-38A长;短纤链板机L:00511-E1-M1 S:00411-E1-M1NXS00075G2H1SSVA8A2B4C5DT3~380-500V50/60Hz7.6A3~0-U1 0-320Hz5.6-7.6A水针电机(2个)51045-M1进刀电机(4个)20040-E1-M1NXS00035G2H1SSVA8A2B4C5DT3~380-500V50/60Hz3.3A3~0-U1 0-320Hz2.2-3.3A低压配电室透平机NXSP08205GONSSBA8A2B4C5DT3~380-500V50/60Hz3~0-U1 0-320Hz清滤液泵1#:32001-P1-M1 2#:32001-P2-M1NXS01405GONSSBA8A2B4C5DT3~380-500V50/60Hz140A3~0-U1 0-320Hz105-140A调浓白水泵NXS01055G2H0SSVA8A2B4C5DT3~380-500V50/60Hz105A3~0-U1 0-320Hz87-105A高压超清滤液泵1#:33010-P1-M1 2#:33010-P2-M1NXS01405G2H0SSVA8A2B4C5DT3~380-500V50/60Hz140A3~0-U1 0-320Hz105-140A多盘纤维回收机40101-E1-M1NXS00075G2H1SSVA8A2B4C5DT3~380-500V50/60Hz7.6A3~0-U1 0-320Hz5.6-7.6A中压温水泵1#:31010-P1-M1 2#:31010-P2-M1NXS01055G2H0SSVA8A2B4C5DT3~380-500V50/60Hz105A3~0-U1 0-320Hz87-105A长;短纤叩后浆泵L:02070-P1-M1 S:01070-P1-M1NXS00725G2H1SSVA8A2B4C5DT~380-500V50/60Hz72A3~0-U1 0-320Hz61-74A输出:3P 380-500V 0.5-500Hz 1.9A48.2A 5035A)输入:3PH 380-500V2.3/3.7A80V 50/60Hz~3~~3~0-U1 0-320Hz61-74A ~3~~3~~3~~3~~3~~3~~3~~3~~3~~3~~3~~3~~3~~380-500V 50/60Hz 3~。

YUAO工业冷水机控制器上海渝澳安装使用手册

YUAO工业冷水机控制器上海渝澳安装使用手册

上海渝澳制冷设备有限公司上海渝澳制冷设备有限公司(未经允许以任何形式或手段复制或传播本手册内容均属侵权,必究法律责任。

)目录一、产品简介 (3)1.1 SK系列真彩触摸屏显示器 (5)1.2 ZY101控制板性能指标 (6)1.3 真彩触摸屏显示器SK070外型尺寸及开孔尺寸(单位:mm) (6)1.4 主控板ZY101外型尺寸(单位:mm) (6)二、界面说明 (界面仅供参考,有改动恕不另行通知!) (7)2.1主界面 (7)2.2输入/输出查询界面 (7)2.3故障查询界面 (8)三、参数设置 (8)3.1厂家参数设置进入方式 (8)3.2维修参数设置进入方式 (8)3.3参数初始化 (9)3.4修改密码 (9)3.5维护时间设置 (9)四、控制逻辑 (10)4.1开机逻辑 (10)4.2关机逻辑 (10)4.3线控开关 (10)4.4来电自启动 (10)4.5防冻逻辑 (10)五、参数表 (11)六、通讯接线示意图 (13)七.风冷式工业冷水机电气连接示意图 (14)八.版本说明 (15)一、 产品简介渝澳冷水机组、工业冷水机组是应用卡诺循环,通过蒸汽压缩或吸收循环达到制冷效果的节能制冷设备。

冷水机组的全称有很多种,冷却水循环机、制冷机、冷却机、冷冻机,冷水机、冷水机组、小型冷水机、工业冷水机、冷冻机组、低温冷水机、激光冷水机、油冷机,还有风冷箱机、风冷式冷水机和水冷式冷水机等等,因各行业的广泛使用,所以根据行业不同,别名也不计其数。

制冷原理:制冷系统内制冷剂的低压蒸汽被压缩机吸入被压缩为高压蒸汽后排至冷凝器,通过水或空气循环将制冷剂的高温热量散发,降低制冷机温度为常温状态,使高压制冷剂蒸汽凝结为高压液体。

高压液体经过过滤器、节流机构后喷入蒸发器,并在相应的低压下蒸发,吸取蒸发器内介质水的热量,使介质水的温度降低。

冷水机分类:z从散热方式分:1、风冷式2、水冷式由于制冷剂气体被压缩机压缩后会产生热量,要维持制冷循环不断就得将热量带走,所以有一个装置叫冷凝器,冷凝的方式有靠水循环散热和空气循环散热,前一种叫水冷式,后一种叫风冷。

海沃德泳池热泵机组安装和使用说明书

海沃德泳池热泵机组安装和使用说明书
and frequency, as stated in this manual. r6TFHFOVJOFTUBOEBSETQBSFQBSUTPOMZ r'BJMVSFUPDPNQMZXJUIUIFTFSFDPNNFOEBUJPOTXJMMJOWBMJEBUFUIFXBSSBOUZ r5IF4XJNNJOH1PPM)FBU1VNQ6OJUIFBUTUIFTXJNNJOHQPPMXBUFSBOELFFQTUIF
2. Quiet operation The unit contains efficient rotary compressor and a low noise fan motor, which assures its quiet operation
3. Electronic control board The unit is controlled by an internal micro-controller, allowing all operation parameters to be set. Operation status can be displayed on the control panel.
13
4.7 Temperature Display Change
13
5. Maintenance and Inspection
14
5.1 Maintenance
14
5.2 Troubleshooting Guide
14
5.3 Winterization
15
6. Appendix
16
6.1 Connection of PCB: Illustration
2
2.2 Dimensions for Swimming Pool Heat Pump Unit

富士智能2021产品选型手册说明书

富士智能2021产品选型手册说明书

产品参数
外观颜色 机箱 面板 外观尺寸 工作温度 工作湿度 电源电压 通讯方式 主控器 最优识别距离 最大识别⻆度 语音对讲
香槟金 1.5mm钣金喷塑工艺 防眩光AG玻璃 380*344*1500mm -25℃〜70℃ ≤95%,无凝露 AC220V±10%50Hz TCP/IP通讯 ⻋牌识别控制器+无刷道闸控制器 3~5M ⻋牌与⻋道夹⻆≤45° 对讲距离≤1米
01
PRODUCTION
INTRODUCTION
COMPANY
公司简介
COMPANY INTRODUCTION
富士智能 ,成立于2004年 ,是智能出入口管理设备供 应商 、出入口管理系统解决方案提供商 ,智慧生态 环境 解 决方案专业供应商。
富 士 智 能,坚 持 以 人 为 本 、以 质 量 求 生 存 、以 服 务 创 市 场的信念,⻓期致力于智慧社区、智慧写字楼、智慧商业综 合体 、智慧景区、智慧园区 、智慧 校园 等 智慧生态 环境建 设 ,持续为数十万场景守好⻔ 、把好关 、收好费 ,已经成为 出入口智能管理和智慧城市生态环境建设的重要实践者、 推动者和引领者。
306 mm
230 mm
w w w. f u j i c a . c o m . c n
09
智能停⻋场管理系统
全球智慧城市生态环境建设重要实践者和引领者
FJC-TZ286
“金刚”机器人无人值守智慧⻋场管家
智慧通行卓然出众
产品特点
采用高强度新合金科技材料打造,无惧岁月洗礼,品质坚若磐石 17英寸LCD高亮触摸屏可显示停⻋时⻓、收费信息等,闲时可播放 广 告 或物管通知,为物业增值创收的同时提高管理效率 全方位出入方式:动态二维码、⻋牌识别等多种出入方式,安全、高效、 顺畅通行 多样化缴费形式:支持使用微信/支付宝/聚合码等扫码( 主扫/被扫)缴 费出场,支持使用现金缴费出场,可通过微信扫码找零 支持电子发票 一键问询:⻋主可通过远程协助按钮一键发起远程服务请求,与服务中 心进行双向语音通话,迅速获取人性化服务 远程对讲:支持服务中心主动远程连接现场,为⻋主提供协助服务 ,从 而打造无人值守的工作环境,彻底取代值守岗亭,降低人力成本 具备出色的系统稳定性、扩展性及实用性,适用于各种高端停⻋场

东元牌热磁式断路器使用说明书

东元牌热磁式断路器使用说明书

0.82In0.76In +60℃+55℃0.87In0.84In 0.91In0.89In 0.96In0.95In 1.0In+50℃+45℃1.0In TBX-125L/M/H +40℃断路器型号环境系数降容系数4、热动脱扣器额定工作电流随环境温度变化的降容系数热磁式断路器使用说明书感谢您选用东元牌热磁式断路器,在此请详细阅读说明书。

1、适用范围及正常工作环境1.1 热磁式断路器(以下简称断路器),额定绝缘电压为1000V ,适用于交流50Hz ,额定工作电压690V 及以下,额定工作电流至800A 的电路中 作不频繁转换及电动机不频繁起动之用。

断路器具有过载、短路保护功能,能保护线路和电源设备不受损坏。

1.2 正常工作环境1.2.1 安装地点的海拔不超过2000m;1.2.2 周围空气温度为-5℃~+40℃,且24h 平均值不超过+35℃;1.2.3 安装地点的相对空气湿度在最高温度为+40℃时,空气的相对湿度不超过50%,在较低温度下可以有较高的相对湿度,最湿月的月平均 温度不超过+25℃,该月的月平均最大相对湿度不超过90%,并考虑因温度变化发生在产品表面的凝雾; 1.2.4 污染等级为3级;1.2.5 断路器主电路的安装类别为III ,其余辅助电路、控制电路安装类别为II 。

2、安装方式本系列断路器一般为垂直安装,也可以水平安装。

垂直安装电源侧负载侧负载侧电源侧水平安装3、连接导线的截面积和相适应的额定电流2.5导线截面积(mm )16/20额定电流(A)225432640/50106316802510035125/1405016070180/200/225952501206、断路器安全距离7、断路器内部附件安装位置8、正确使用与维护8.1 有关配线断路器配线必须符合上进下出,即1、3、5端子接电源线,2、4、6端子接负载线,不允许倒进线。

8.2 有关操作8.2.1 断路器手柄可以处于三个位置,分别表示合闸、断开、脱扣三种状态,当手柄处于脱扣位置时,应向后扳动手柄,使断路器再扣,然后合闸。

华硕的显卡维修培训文档

华硕的显卡维修培训文档

VGA L3--2 Training Materials VGA L3VGA L3-2Training Materials L3Repair Knowledge & SkillOverview1.Repair Flow Chart …………....P32.Repair Knowledge …………..P4~P21 2Repair Knowledge P4~P21mon problem ………....P22~P294.Bad Phenomenon ………….P29P54Bad Phenomenon………….P29~P541. Repair Flow Chart pEngineer Key inVisual InspectionCID?YesFailTest before Power on I f C t Touch Up Repair process PassFail NoCTest before Power on Inform Customer Touch UpRepair process PassRepair process Fail Customer request Repair?Standard Test?Repair process YesFail Boot?PassRepair process NTF Test?Return ProcessRepair process PassNoFail F il PassSpecial Test?PassFailRepair processEngineer Key out2. Repair KnowledgeImportant skillpVisual InspectionClean the golden fingerCl th ld fiFlash biosCheck Main voltage(FVBDD NVVDD A3V35V12V) (FVBDD,NVVDD,A3V3,5V,12V………)Look for the same card to measure each otherVoltagePower Flow chartPower on SequencePower on SequencePower Maps And Test Point Main VoltagePower Supply CircuitThermal ProtectionThermal ProtectionPower Flow ChartMODEL:EN7300TC512RT9214PSAP60T03GHAP70T03GHPL5NVVDD/11A PEX1V2/1.6A12VFBVDDQ BA178M05FP H431BN GS358SFP3055LDG5V200mA2.5VREF2APMBS3904PLLVDD2.5V/3.3V50mA3V3PL1F3V33.3V/200mASwitching Linear SwitchqPower On SequenceMODEL:EN7300TC512F_3V35VNVVDDPLLVDDFBVDDQPEX1V2nVIDIA has no definite request to timingVIDIA h d fi it t t ti iPower On Sequence owe O Seque ceAMD SeriesGPUMemory(1.1~1.3V)(152V)1.8V (1.5~2V)1.1V AMD’s request to timing can conclude to two points:G fi i3.3V①GPU power first arise ②1.8V arise earlier than 3.3V*According to different memory producer GPU and memory will has a According to different memory producer ,GPU and memory will has a different control succession*Power Maps And Test Point pPQ1 FBVDDQPU4 12V PCE3 PLLVDDPQ1 3V3PU4 5VPCE12 PEX1V2PL1 F3V3PL4 NVVDDMODEL:EN7300TC512PU4=12VPQ1=2.6V(FBVDDQ )U2 PIN4、7、8=F3V3PU4=5VPQ1=3V3PQ7=NVVDD_INPL4=1.29V (NVVDD )MODEL:PL5=PEX1V2EN7300TC512Q502=3.3VPU1 PIN8=12V(PLLVDD)PU1 PIN5=2.5VREFPU3 PIN5=12V(NVVDD_VCC)MODEL:EN7300TC512U506 PIN14=5VL63=1.34V(VDDC)L66=2.08V(MVDDC)Ex:EAX700PROL65=2.08V(MVDDQ)1.2VMREG1REG213pin 2,4=1.8V3.3Vpin 3=3.3V12V inputVDDC/NVVDD GPU 12V golden figure/external cable GPUMVDD/FBVDDQQMemorySwitching12V Output Load Step-downcircuit256V+3.3V_BUS5V VCC +2.56V 5V VCCUP7706 will use two phases when power is higher when power is higher3V3GPU 3.3V goldenfigure1.8V GPUGPU1.1V12V golden figure 5V,5V_VESA(DDC_5V)IC VCC,connectorStep downLoadOutputInputPOWER SUPPLY:Component (1)Input capacitor I t i d t H-S MOSPOWER SUPPLY: Component (1)M Input capacitorInput inductor H-S MOS Input inductorL-S MOS OutputinductorGPU Mem powerL-S MOSOutput inductor OutputcapacitorGPU power11V 2phase Output capacitor1.1V (2 phase )Output5V output5VInputPOWER SUPPLY:Component (2)POWER SUPPLY: POWER SUPPLY: Component (2)Component (2)M GPUIC1.8V3.3VMem ICTMDS IO SUPPLY----With Backdrive ProtectionTMDS IO SUPPLY Model:EN7300TC512Thermal ProtectionThermal ProtectionModel: EN8500GT3. Common problemSimply Repairingp y p gFunction BlockClock ErrorClock ErrorNo DisplayBIOS ErrorH/W Monitor failH/W Monitor failFan failFunction BlockFunction BlockMODEL:EN7300TC512Clock Errorq yMeasure the clock frequency and wave, if both all right, the crystal work properly.Otherwise , measure voltage, if it s right, the crystal Otherwise measure voltage if it’s right the crystal vibrates wrong; or else, the GPU can’t provide proper power to the crystal.h lNo Displayp yCheck golden finger and components nearby Check golden finger and components nearbyMeasure crystal27MHzMeasure input inductor voltageCh k BIOS iCheck BIOS versionabout 1.3VBIOS ErrorCheck GPUCh k GPUCheck BIOS voltagePin8:3.3VH/W Monitor FailCheck input powerCheck input powerCheck clock, including voltage and frequencyCheck voltageFan FailCheck voltageCheck voltageUpside:GNDUnder:+12V Check BIOS4. Bad PhenomenonA.Problem Code : No display C0ZK00Problem Code:No display“C0ZK00”B.Problem Code: Screen noise “C0FZ0K”C.Problem/Display Error : Crapped displayunder 3D test “C0ZF01”D Problem/Display Error:Run3D test hung up D.Problem/Display Error :Run 3D test hung up“C0ZF02”E.Problem/Display Error : Color Error“C0ZH00”F.Function Test: Error CodeFunction Test:“Error Code”A. Problem Code :p yNo display “C0ZK00”InstructionNo display:There is more than one reason caused this phenomenon, for There is more than one reason caused this phenomenon for example, wrong voltage, abnormal frequency, GPU can’t work well, etc. Among these reasons, false BIOS setting, power switch d l f di l h iand power supply often cause no display. Another reason is output ,g g circuit failure, such as bad SMT inductor causes voltage signal not output normally.A A.Debug card running well can conclude to wrong display output port.1)Visual Inspection:if there is burnt mark,lost/shifted component,Vi l I i h i b k l/hif dor string scuffing on PCB board.2)Monitor illumines green light with no display:chiefly GPU NG,please measure whether the RSET voltage is1V.3)Monitor illumines yellow light:5V NG,or else HSYNC orVSYNC is bad,measurement need to be done whether the5V,amplifier input voltage is normal.If OK4)all5V,HSYNC and VSYNC is OK,consideration should betaken whether the connector is OK or not.B B.Debug card runs normally1)Visual Inspection:if there is burnt mark,lost/shifted component,or string scuffing on PCB board.i ffi b d2)Clean golden figures,generally,dirty golden figures can cause )g g g y y g gAGP card no display,and PCI-E card no display hanging up at D1.OK lower3)Measure whether basic main voltage wave is OK,higher or lower.4)Flash Bios.If can’t flash OK,more possibility is GPU bad,butsometimes BIOS IC maybe not good,too.good too5)Change BIOS IC.Even if bad BIOS IC has lower rate.6)If also bad,please try to change GPU.No display and hang up D1“D1”GPU works wrong.Or GPU works well,but data exchange(with CPU) channel--PCIE bus has problem.pa)Visual inspection:if coupling capacitors of16pairs nearby golden figureor shifted SMT inductors on bottom are bad.And if golden figures hasg goxidize or obvious flax.b)Measure whether these voltages is short to GND before power on:3.3V,GPU voltage,Memory voltage,12V.lt M ltc)Power on,check if above voltages are OK,PCIE RST is3.3V,and clockfrequency is27.0MHz270MHzd)If all above is OK,please check if the resistance between GND and eachdata string of16pairs both on top and bottom is well,also to the resistance of each coupling capacitor of all16pairs(lower shows GPU NG,OL is GPU OPEN).e)Consider change GPU.GPUNo display and hung up“2A”1)Visual Inspection:if there is burnt mark,lost/shifted )p,component,or string scuffing on PCB board.2)Power on,and measure whether27MHz crystal vibrates well.on well If voltage is OK with no wave,please first change crystal,or else,no power is GPU bad.else bad3)Flash BIOS.4)Try to change GPU.B. Screen Noise: “C0FZ0K”IntroductionScreen Noise:Screen noise has many types.If only a very small area displays garbage,most possible reason is resistor or array resistor nearby memory is bad,such as open,cold solder joint,short or wrong resistance.If screen noise with stripe garbage,it is more possiblei f i i h i b i i ibl that memory voltage is wrong,please check voltage path.5models that bad bits can be detected:1Single bad1.bit bad.2.8bits bad.3.32bits bad.3bad4.Bits of single channel bad.5.Bits of multiple channels bad.5badTrouble Shootingg gTrouble Shooting——Single bit badA. Check if the array resistor on the path has solder problem or wrong resistance. Check if the connect between GPU and the memory channel is OK.B. Measure the resistance between the bad bit and GND, if it B.Measure the resistance between the bad bit and GND,if it closes to OK board, the most possibility is memory bad, change memory; if it higher by 100Ohm, GPU OPEN.y;g y,Shooting Trouble Shooting——8bits badBad Bits Three signal points should be measured Trouble Shooting 8 bits bad Bad BitsThree signal points should be measured A00-A07FBADQM0 FBADQS0 FBADQSN0A08-A15FBADQM1 FBADQS1 FBADQSN1 A16-A23FBADQM2 FBADQS2 FBADQSN2Q Q Q A24-A31FBADQM3 FBADQS3 FBADQSN3A32A39FBADQM4FBADQS4FBADQSN4A32-A39FBADQM4 FBADQS4 FBADQSN4A40-A47FBADQM5 FBADQS5 FBADQSN5A48-A55FBADQM6 FBADQS6 FBADQSN6A56-A63FBADQM7FBADQS7FBADQSN7A56A63FBADQM7 FBADQS7 FBADQSN7Method is same to single bit bad after problem is measured out.ShootingTrouble Shooting32 bits badTrouble Shooting——32bits badIt is most possible that memory is bad, memory reference voltage,VREF needs to be measured, which is 1V transferred from memory power FBVDDQ by two resistors, as well as reference frequency CLK, please contrast OK card, accordant wave forms is considered OK.If the resistance to GND is measured lower, most possibility isIf the resistance to GND is measured lower most possibility is memory bad; higher by 80Ohm is GPU path wrong, or GPU wrong.A.Visual Inspection: if there is burnt mark, lost/shiftedp,g gcomponent, or string scuffing on PCB board.B.Check the resistance between address string and GND is OKor not.or notC.If GPU NG, please try to change GPU.D.If GPU OPEN, please remove GPU, and measure whetherPCB OPEN.A. Check memory work voltage, (can refer to OK card), theA Check memory work voltage(can refer to OK card)the voltage wave must be smooth.B. Flash BIOS. Wrong BIOS statistics can cause all points, too.yC. Determine all memory bad or GPU bad.D. In most case, GPU bad is more likely than all memory bad. Try to change GPU.Try to change GPUD. Problem/Display Error :D Problem/Display Error: Crapped Display under 3D test C0ZF01 Crapped Display under3D test“C0ZF01”Trouble Shooting gAMD Card1.Flash BIOS.2.Run the whole memory test.3.If failing bits can’t be detected, may try to change GPU first.3If failing bits can’t be detected ma tr to change GPU first4.Change GPU.Nvidia CardN idi C d1.Check memory frequency mclk() and GPU frequency nvclk().2.Lower frequency will has value in blacket directly, for example,2Lower frequency will has value in blacket directly for example mclk(400)3.Over clock test commandmods–s; <Enter>WfMats.Run();WfMats.Status() <Enter>4.Change right component according to detected failing bit.4Ch i ht t di t d t t d f ili bit Sometimes failing bit can’t be detected under low frequency, we can try to turn up work clock to reveal it.k l k l iD. Problem/Display Error : D.Problem/Display Error: Run 3D test hung up C0ZF02 Run3D test hung up“C0ZF02”Trouble Shooting g1.Hang up is likely to occur in running3D test program,picturepauses.Sometimes,test will go on after pause for several seconds, so please wait a moment to see result.2.When test can’t go on,and no response to press Number Lock key,itis“hang up”.This time,instantly power on is in vain,GPU NG and power supply deficiency can cause the phenomenon,as well as weak heat dissipate,if so,please power off,and then test again after card is cooled.i l d3.Try to lower memory or engine’s frequency,for example,memoryfrequency can be turned down from196MHz to180MHz,also to engine clock set up.If pass,please check whether BIOS or GPU is bad.bad4.Generally speaking,hang up is caused by GPU Engine bad,canchange GPU.h GPUE. Problem/Display Error : E.Problem/Display Error: Color Error C0ZH00 Color Error“C0ZH00”Trouble Shooting g1.Visual Inspection: Check if component nearby connector is OK,not shifted, and no string scuffing on PCB board.2.Check R,G,B resistor is 75 Ohm, if higher, please check ifrelated circuit has string cut, two 150 Ohm resistors are OK. Ifg,lower, problem generally is GPU NG.3.Measure R,G,B waveform using oscillograph probes, if there 3Measure R G B waveform using oscillograph probes if there is no waveform, GPU can’t send it out, change GPU. If there is proper waveform, maybe the connector or string is NG.proper waveform maybe the connector or string is NG。

南科品牌 H3-50 中号 H3-60 大号 摇柄门锁组件 产品说明说明书

南科品牌 H3-50 中号  H3-60 大号 摇柄门锁组件 产品说明说明书

30.3 (1.19) E5-6117
16.3 (.64) E5-6110
32.3 (1.27) E5-6118
18.3 (.72) E5-6111
34.3 (1.35) E5-6119
20.3 (.80) E5-6112
36.3 (1.43) E5-6120
22.3 (.88) E5-6113
38.3 (1.51) E5-6121
187
Medium H3-50
25
+.2 -0
(.98
+.008 -0
)
Door
50
+.2 -0
(1.97 +.-0008)
125
+0.4 -0
(4.92+.-0016 )
50
+.2 -0
(1.97+.-0008)
Frame
Large H3-60
25
+.2 -0
(.98 +.-0008)
Door
50
For single point: Order latch and cam separately
For multi-point: 1. Order latch and cam separately 2. Order multi-point system
accessories (linear actuator or actuator plate, rod, rod guide) if 3 point latching required see pages 224-232.
Panel gaskets
Panel gaskets
Panel gaskets

1000人无线网络解决方案设计

1000人无线网络解决方案设计

1000人无线网络解决方案设计篇一:中小型无线网络解决方案中大型企业无线网络解决方案无线局域网的特点近些年来随着个人数据通信的发展,功能强大的便携式数据终端以及多媒体终端得到了广泛的应用。

为了实现使用户能够在任何时间、任何地点均能实现数据通信的目标,要求传统的计算机网络由有线向无线、由固定向移动、由单一业务向多媒体发展,由此无线局域网技术得到了快速的发展。

在互联网高速发展的今天,可以认为无线局域网将是未来发展的趋势,必将最终代替传统的有线网络。

无线局域网,也被称为 WLAN ,一般用于宽带家庭,大楼内部以及园区内部,典型距离覆盖几十米至几百米,目前采用的技术主要是 /b/g 系列。

WLAN 利用无线技术在空中传输数据、话音和视频信号,作为传统布线网络的一种替代方案或延伸。

无线局域网的出现使得原来有线网络所遇到的问题迎刃而解,它可以使用户任意对有线网络进行扩展和延伸。

只要在有线网络的基础上通过无线接入点、无线网桥、无线网卡等无线设备使无线通信得以实现。

在不进行传统布线的同时,提供有线局域网的所有功能,并能够随着用户的需要随意的更改扩展网络,实现移动应用。

无线局域网把个人从办公桌边解放了出来,使他们可以随时随地获取信息,提高了员工的办公效率。

一般而言,对比于传统的有线网络,无线局域网的应用价值体现在:- 可移动性:由于没有线缆的限制,用户可以在不同的地方移动工作。

网络用户不管在任何地方都可以实时地访问信息。

- 布线容易:由于不需要布线,消除了穿墙或过天花板布线的繁琐工作,因此安装容易,建网时间可大大缩短。

- 组网灵活:无线局域网可以组成多种拓扑结构,可以十分容易地从少数用户的点对点模式扩展到上千用户的基础架构网络。

- 成本优势:这种优势体现在用户网络需要租用大量的电信专线进行通信的时候,自行组建的 WLAN 会为用户节约大量的租用费用。

在需要频繁移动和变化的动态环境中,无线局域网的投资更有回报。

另外,无线网络通信范围不受环境条件的限制,室外可以传输几十公里、室内可以传输数十、几百米。

AP60T03GH中文资料

AP60T03GH中文资料

N-CHANNEL ENHANCEMENT MODE Electronics Corp.POWER MOSFET▼ Simple Drive Requirement BV DSS 30V ▼ Low Gate Charge R DS(ON)12m Ω▼ Fast Switching I D45A▼ RoHS CompliantDescriptionAbsolute Maximum RatingsSymbol Units VDS V V GSV I D @T C =25℃A I D @T C =100℃A I DMA P D @T C =25℃W W/℃T STG ℃T J℃Symbol Value Units Rthj-c Maximum Thermal Resistance, Junction-case 3.4℃/W Rthj-aMaximum Thermal Resistance, Junction-ambient110℃/WData and specifications subject to change without notice Total Power Dissipation 44-55 to 175Thermal DataParameter1Operating Junction Temperature Range-55 to 175Linear Derating Factor 0.3Storage Temperature RangeContinuous Drain Current, V GS @ 10V 32Pulsed Drain Current 1120Gate-Source Voltage±20Continuous Drain Current, V GS @ 10V 45ParameterRating Drain-Source Voltage 30AP60T03GH/JRoHS-compliant ProductG DSTO-252(H)GDSTO-251(J)Advanced Power MOSFETs from APEC provide the designer with the best combination of fast switching,ruggedized device design, low on-resistance and cost-effectiveness.The TO-252 package is widely preferred for all commercial-industrial surface mount applications and suited for low voltage applications such as DC/DC converters. The through-hole version (AP60T03GJ)are available for low-profile applications.Electrical Characteristics@T j=25o C(unless otherwise specified) Symbol Parameter Test Conditions Min.Typ.Max.UnitsBV DSS Drain-Source Breakdown Voltage V GS=0V, I D=250uA30--V ΔB V DSS/ΔT j Breakdown Voltage Temperature Coefficient Reference to 25℃, I D=1mA-0.03-V/℃R DS(ON)Static Drain-Source On-Resistance2V GS=10V, I D=20A--12mΩV GS=4.5V, I D=15A--25mΩV GS(th)Gate Threshold Voltage V DS=V GS, I D=250uA1-3V g fs Forward Transconductance2V DS=10V, I D=10A-25-S I DSS Drain-Source Leakage Current VDS=30V, V GS=0V--1uA Drain-Source Leakage Current (T j=175o C)V DS=24V ,V GS=0V--250uAI GSS Gate-Source Leakage VGS= ±20V--±100nA Q g Total Gate Charge2I D=20A-1220nC Q gs Gate-Source Charge V DS=20V-4-nC Q gd Gate-Drain ("Miller") Charge V GS=4.5V-7-nC Q oss Output Charge V DD=15V,V GS=0V-1016nC t d(on)Turn-on Delay Time2V DS=15V-9-ns t r Rise Time I D=20A-58-ns t d(off)Turn-off Delay Time R G=3.3Ω,V GS=10V-18-ns t f Fall Time R D=0.75Ω-6-ns C iss Input Capacitance V GS=0V-11351820pF C oss Output Capacitance V DS=25V-200-pF C rss Reverse Transfer Capacitance f=1.0MHz-135-pF R g Gate Resistance f=1.0MHz- 1.4 2.1ΩSource-Drain DiodeSymbol Parameter Test Conditions Min.Typ.Max.Units V SD Forward On Voltage2I S=45A, V GS=0V-- 1.3V t rr Reverse Recovery Time2I S=20A, V GS=0V,-24-ns Q rr Reverse Recovery Charge dI/dt=100A/µs-16-nC Notes:1.Pulse width limited by Max. junction temperature.2.Pulse testTHIS PRODUCT IS SENSITIVE TO ELECTROSTATIC DISCHARGE, PLEASE HANDLE WITH CAUTION.USE OF THIS PRODUCT AS A CRITICAL COMPONENT IN LIFE SUPPORT OR OTHER SIMILAR SYSTEMS IS NOT AUTHORIZED.APEC DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.APEC RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN.AP60T03GH/JAP60T03GH/JFig 1. Typical Output Characteristics Fig 2. Typical Output CharacteristicsFig 3. On-Resistance v.s. Gate VoltageFig 4. Normalized On-Resistancev.s. Junction TemperatureFig 6. Gate Threshold Voltage v.s.Reverse DiodeJunction TemperatureFig7. Gate Charge Characteristics Fig 8. Typical Capacitance CharacteristicsFig 9. Maximum Safe Operating Area Fig10. Effective Transient Thermal ImpedanceFig 11. Switching Time Waveform Fig 12. Gate Charge WaveformAP60T03GH/JADVANCED POWER ELECTRONICS CORP.6。

长城电器 YCB1000系列变频调速器 说明书

长城电器 YCB1000系列变频调速器 说明书

前 言感谢您选用长城电器集团有限公司生产的YCB1000系列变频调速器。

YCB1000系列变频调速器是我公司自主研制开发的新一代高性能通用型变频器。

产品具有先进的控制方式,实现了高转矩、高精度、高可靠性、宽调速驱动。

丰富的功能设计,为用户提供简易PLC、PID 调节器、编程输入输出端子、RS485接口、脉冲频率输入输出和其它特殊行业专用控制功能等等多种强大控制功能。

为设备配套、工程改造、自动化控制及特殊行业应用提供了高度集成的解决方案。

YCB1000系列变频器采用G/P机型一体化设计,极大的方便了客户的选型及使用。

本手册为随机技术资料。

本手册提供用户安装配线、参数设定、故障诊断与对策、日常维护及相关注意事项等。

本手册是您正确使用,发挥其优越性能和安全运行的指导文件,请务必详细阅读和妥善保存,并请交给本变频器的最终使用者。

在使用过程中,如遇有疑难问题或特殊要求,请随时同本公司办事处或经销商联络,也可直接同本公司客户服务中心联系,我们将竭诚为您服务。

我公司一直致力于产品的持续改进,因此本系列的相关资料如有变动,恕不另行通知。

由此带来的不便,敬请谅解。

目 录第一章 安全及注意事项┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅11.1 安全定义┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅11.2 安全注意事项┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅11.3 使用注意事项┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅61.4 报废注意事项┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅6 第二章 购入检查及产品技术指标┅┅┅┅┅┅┅┅┅┅┅┅┅┅72.1 购入检查 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅72.2 铭牌及型号说明 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅72.3 产品技术指标 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅82.4 变频器额定输出电流表 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅10 第三章 安装┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅113.1 安装环境要求 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅113.2 产品外观及部件名称 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅123.3 安装方向与空间 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅123.4 塑壳机器尾盖和键盘的拆卸与安装 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅133.5 变频器的安装尺寸 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅153.6 操作键盘尺寸 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅19 第四章 变频器配线┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅204.1配线注意事项 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅204.2 变频器基本配线图 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅224.3 主回路端子 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅234.4 推荐使用电器规格 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅254.5 控制回路端子 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅264.6 RS485通讯模块及控制板跳线说明┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅274.7 备用电路 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅28 第五章 键盘的操作与使用┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅295.1 键盘布局及功能说明┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅295.2 指示灯含义说明┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅315.3 键盘操作方式┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅32 第六章 功能参数┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅376.1 基本参数┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅376.2 外部端子功能参数┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅436.3 专用功能参数┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅48第七章 功能参数详细说明┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅527.1 基本参数详细说明┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅527.2 外部端子功能参数详细说明┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅827.3 专用功能参数详细说明 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅100 第八章 异常诊断与处理 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅1148.1 故障信息及详细内容 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅1178.2 故障诊断 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅125 第九章 保养与检修 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅1259.1 检查与保养 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅1259.2 必须定期更换的器件 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅1259.3 储存与保管 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅1269.4 测量与判断 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅126 第十章 选件 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅12710.1 交流电抗器 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅12810.2 杂讯滤波器 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅12810.3 制动单元及制动电阻 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅12810.4 电容箱 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅129 第十一章 品质保证 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅13011.1 三包服务┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅13011.2 享受终身有偿服务┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅13011.3 服务商┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅13011.4 三包责任┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅13011.5 三包服务范围┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅13011.6 三包服务前提┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅130 第十二章 附录 ┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅131 附录一: RS485通讯协议┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅┅131第一章 安全及注意事项为了确保您的人身、设备及财产安全,在使用变频器之前,请务必认真阅读本章内容。

华为室内机 NetCol5000-A 35kW 说明书

华为室内机 NetCol5000-A 35kW 说明书

1产品简介室内机NetCol5000-A 35kW电源形式380V AC ~480V AC 3Ph 50Hz/60Hz 额定风量6800m 3/h 走管方式上、下走管兼容高×宽×深2000mm ×600mm ×1100mm 净重350kg选配件电加热、加湿器、水泵(1)加湿器手动排水开关(2)电控盒(3)视液镜(4)压缩机(5)干燥过滤器(6)制冷剂液管(7)自排水管(8)制冷剂气管(9)水泵排水管(10)水泵(11)视油镜(12)热力膨胀阀(13)加湿器(14)蒸发器(15)风机(16)电加热(17)压缩机驱动器室外机NetCol500-A036NetCol500-A072电源形式380V AC ~480V AC 3Ph 50/60Hz 380V AC ~480V AC 3Ph 50/60Hz 风机风量12000m 3/h26000m 3/h 净重NetCol500-A0365C :130kg NetCol500-A0365S :147kg185kg尺寸 D = 1094mm ,W1 = 1370mm ,W2 = 1220mm ,H1 = 1160mm ,H2 = 714mm D = 1094mm ,W1 = 2200mm ,W2 = 2050mm ,H1 = 1100mm ,H2 = 654mm 选配件低温组件遮阳板文档版本:08发布日期:2019-01-15NetCol5000-A035 行级风冷智能温控产品快速指南NetCol500-A036NetCol500-A072随机物料扎带、OT 端子、冷压端子、电压跨接器、水浸传感器组件、群控网线、喉箍、管路附件、膨胀螺栓、柜外温湿度传感器(1PCS )工程采购装机必备制冷剂管路制冷剂管路组件(含铜管、保温棉、集油弯和反向弯)、制冷剂管路支撑水路硬管水管转接头(BSPT 1/2in ,外螺纹连接转硬管接头)+水路硬管(材质为PP-R 或C-PVC 等)或宝塔转接头+软管(内径3/4in ,材质为EPDM 等)、水路保温棉线缆室内机电源线、室外机电源线、室内外机开/关信号线可选线缆、底座柜外温湿度传感器及线缆、室内机支架(根据场景确定)、室外机支架或室外机水泥底座(根据场景确定)特殊工具及物料要求•真空泵:使用流量为7.2-14.4m³/h ,绝对真空度≤60Pa•压力表和皮管:须满足R410A 专用,压力表量程≥4.0MPa ,皮管耐压≥4.5MPa •焊枪和焊条:焊条为含银5%的银铜焊条•氮气减压阀:氮气瓶需配备氮气减压阀,且量程≥4.0MPa •干氮气2物料准备请勿使用劣质制冷剂,否则由于劣质制冷剂对设备造成的损坏,华为公司不承担责任。

卡萨帝反渗透净水机 CRO500-E3说明书

卡萨帝反渗透净水机 CRO500-E3说明书

反渗透净水机CRO500-E3使用前请仔细阅读说明书请妥善保存,以备参阅本产品只适合在中国大陆销售和使用产品外观请以实物为准如遇产品技术或软件升级,恕不另行通知鲜滤大水量 直饮无止净ENJOY PURITY卡萨帝为了精确实现您的格调生活,对其家族每一类产品都赋予了专属的境界理念。

本产品为您带来的是鲜滤双水。

请仔细阅读本说明书来帮助您安全、舒适地使用产品。

为了能安全地使用产品,请在使用产品之前务必仔细阅读安全注意事项等内容。

12关于本产品的安全注意事项..........................................3-4安装指南.....................................................................7-11工艺原理图...................................................................................7...............................................................................电气原理图7.................................................................................安装方法8-11.......................................................................................................................................外观及部件介绍装箱单56............................................................................技术数据6.................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................本产品的主要功能介绍12-14显示屏12-13本产品的日常保养与维护16滤芯更换周期16滤芯更换16有疑问?先看这儿!17-18(若对反渗透净水机有疑问,请先按本章内容检查处理。

直线导轨型号对照表

直线导轨型号对照表

IKO 高荷重形 — — — — — — — — — — — — — — — — 高荷重形 LWES15Q LWES20Q LWES25Q LWES30Q LWES35Q LWE15Q LWE20Q LWE25Q LWE30Q LWE35Q 高荷重形 LWHD08 LWHD10 LWHD12 LWHD15 LWHS20B LWHD25B LWHD30B LWHD35B LWHD45B LWHD55B LWHD65B — LWHT(LWH)15B LWHT(LWH)20B LWHT(LWH)25B LWHT(LWH)30B LWHT(LWH)35B LWHT(LWH)45B LWHT(LWH)55B LWHT(LWH)65B — 高荷重形 LWES15 超高荷重形 — — — — — — — — — — — — — — — — 中荷重形 — — — — — — — — — — 超高荷重形 — — — — LWHSG20 LWHDG25 LWHDG30 LWHDG35 LWHDG45 LWHDG55 LWHDG65 — — LWHTG(LWHG)20 LWHTG(LWHG)25 LWHTG(LWHG)60 LWHTG(LWHG)35 LWHTG(LWHG)45 LWHTG(LWHG)55 LWHTG(LWHG)65 — 中荷重形 LWESC15
带 保 持 器 高 负 荷 型
方 形
法 兰 形
类型 带 保 持 器 小 型 方 形
法 兰 形
类型
方 形 高 负 荷 型
法 兰 形
SH55EM(EL·FL) SH55GM(GL·HL) — — 高荷重形 中荷重形 *SS15AL *SS15CL *SS20AL *SS20CL *SS25AL *SS25CL *SS30AL *SS30CL *SS35AL *SS35CL *SS15FL *SS15KL *SS20FL *SS20KL *SS25FL *SS25KL *SS30FL *SS30KL *SS35FL *SS35KL 高荷重形 超高荷重形 #LH08AN — #LH10AN — #LH12AN — *LH15AN *LH15BN *LH20AN *LH20BN *LH25AN *LH25BN *LH30AN *LH30BN LH35AN LH35BN LH45AN LH45BN LH55AN LH55BN LH65AN LH65BN — — *LH15EL or FL — *LH20EL or FL *LH20GL or HL *LH25EL or FL *LH25GL or HL *LH30EL or FL *LH30GL or HL LH35EL or FL LH35GL or HL LH45EL or FL LH45GL or HL LH55EL or FL LH55GL or HL LH65EL or FL LH65GL or HL — LH85GL or HL 15~65: 滑块的安装孔形式还有EM·GM 高荷重形 *LS15AL 中荷重形 *LS15CL

TAC60i 系列高精度三相电力调整器说明书

TAC60i 系列高精度三相电力调整器说明书

TAC60i系列高精度三相电力调整器说明书北京南岸普力自动化科技有限公司TAC60i系列高精度三相调功/调压电力调整器说明书TAC60i是大功率晶闸管模块应用技术的新产品。

它集三相调压/调功方式为一体,采用有源触发方式、锁相环同步电路、带自动判别相位、电源缺相保护、上电缓启动、缓关断、散热器超温、电流限制、过流保护、串行工作状态指示等功能,适用于电阻性负载和感性负载。

一.产品特点本公司自主研发生产的TAC60i系列高精度三相调功/调压一体化电力调整器,是一种高性能的控温设备。

电力调整器的TAC60i控制板具有国际先进的六路独立触发功能,采用直流宽脉冲有源触发技术、输入和输出光电隔离、六路触发脉冲相互隔离。

是目前世界上最为安全、可靠、稳定的触发方式。

适合各种三相电加热的大功率晶闸管驱动及三相全控,半控桥式整流触发。

其采用的德国西门康模块,体积小、容量大、可靠性高、过载能力超强,有效地提高了设备的运行可靠性。

其散热风冷单元采用特殊设计的插片式散热器及大功率风机,比普通铝型材散热器散热效率提高一倍以上,更利于模块的散热,从而极大的提高了模块的使用寿命。

同时,还具有模块超温报警功能,便于及时了解模块的工作状态。

本产品还装配有快速熔断器保护组件和用于电压调整的电流反馈线圈,监测每相电流,具有电流限制,过流报警等功能。

本产品结构合理,保护功能完善,规格齐全,有150A至500A的电流容量机型可供用户选择。

该产品可广泛适用于工业热处理、电热加工、材料制造、航天航空、冶金、有色、医药、电子、食品机械、注塑机械、喷涂机械、真空镀膜机等各种设备上。

二.技术规格1负载控制元件光隔离触发型单向晶闸管反并联模块 (调相型大电流固态继电器)2负载电源三相380V AC ±10% 50HZ3电流容量20,21,50,80,100,105,150,155,200,201,260,261,300,400,500,600,800,1500A AC4控制板电源与功耗电源:380V AC ±10% 50HZ, 要求与负载电源同相位功耗:5W最大5风扇电源(根据型号配备)电压:220V AC 电流:0.5 A以下6控制输入 4~20mA D C输入, 接收阻抗100Ω0~10V DC输入, 输入电阻 >100KΩ7 LED状态显示灯 输入指示LED灯(1支):绿色,输入线性亮度指示三色状态LED灯(1支):绿色,运行(有输出))出输无(机停,烁闪色黄)出输无(警报流过,色红)出输无(相缺源电,烁闪色红无(警报温超器热散,烁闪绿红输出)电供未源电相三,烁闪绿黄障故板制控,色黄三相电源相位检测LED灯(3支):红色,相电压正常8 控制方式 调相控制:连续调压调功控制:阻性过零调功,感性调功9 调节输出分辨率 调相0.2°,调功 20m s10移相范围 0~175°,星型负载(中心点接地)0~145°,三角型负载或星型负载(中心点不接地)11驱动输出 配调相型固态继电器,可变宽度脉冲:8°~120° 电压:8V 电流:20m A最大12手动方式 外接10KΩ电位器调整13缓启动时间 调相控制时,P3电位器调整。

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N-CHANNEL ENHANCEMENT MODE Electronics Corp.
POWER MOSFET
▼ Simple Drive Requirement BV DSS 30V ▼ Low Gate Charge R DS(ON)
12m Ω▼ Fast Switching I D
45A
▼ RoHS Compliant
Description
Absolute Maximum Ratings
Symbol Units V DS V V GS
V I D @T C =25℃A I D @T C =100℃A I DM
A P D @T C =25℃W W/℃T STG ℃T J

Symbol Value Units Rthj-c Thermal Resistance Junction-case Max. 3.4℃/W Rthj-a
Thermal Resistance Junction-ambient
Max.
110
℃/W
Data and specifications subject to change without notice
Thermal Data
Parameter
Storage Temperature Range
Total Power Dissipation 44-55 to 175Operating Junction Temperature Range
-55 to 175
Linear Derating Factor 0.3Continuous Drain Current, V GS @ 10V 32Pulsed Drain Current 1120Gate-Source Voltage
±20Continuous Drain Current, V GS @ 10V 45Parameter
Rating Drain-Source Voltage 30200823053-1/4
AP60T03GH/J
Pb Free Plating Product
G D
S
TO-252(H)
G
D
S
TO-251(J)
The Advanced Power MOSFETs from APEC provide the designer with the best combination of fast switching,
ruggedized device design, low on-resistance and cost-effectiveness.The TO-252 package is universally preferred for all commercial-industrial surface mount applications and suited for low voltage applications such as DC/DC converters. The through-hole version (AP60T03GJ) are available for low-profile applications.
Electrical Characteristics@T j=25o C(unless otherwise specified) Symbol Parameter Test Conditions Min.Typ.
Max.Units
BV DSS Drain-Source Breakdown Voltage V GS=0V, I D=250uA30--V ΔB V DSS/ΔT j Breakdown Voltage Temperature Coefficient Reference to 25℃, I D=1mA-0.03-V/℃R DS(ON)Static Drain-Source On-Resistance2V GS=10V, I D=20A--12mΩ
V GS=4.5V, I D=15A--25mΩV GS(th)Gate Threshold Voltage V DS=V GS, I D=250uA1-3V g fs Forward Transconductance2V DS=10V, I D=10A-25-S I DSS Drain-Source Leakage Current (T
j
=25o C)V DS=30V, V GS=0V--1uA Drain-Source Leakage Current (T j=175o C)V DS=24V ,V GS=0V--250uA
I GSS Gate-Source Leakage V
GS
= ±20V--±100nA Q g Total Gate Charge2I D=20A-1220nC Q gs Gate-Source Charge V DS=20V-4-nC Q gd Gate-Drain ("Miller") Charge V GS=4.5V-7-nC Q oss Output Charge V DD=15V,V GS=0V-1016nC t d(on)Turn-on Delay Time2V DS=15V-9-ns t r Rise Time I D=20A-58-ns t d(off)Turn-off Delay Time R G=3.3Ω,V GS=10V-18-ns t f Fall Time R D=0.75Ω-6-ns C iss Input Capacitance V GS=0V-11351820pF C oss Output Capacitance V DS=25V-200-pF C rss Reverse Transfer Capacitance f=1.0MHz-135-pF Source-Drain Diode
Symbol Parameter Test Conditions Min.Typ.Max.Units V SD Forward On Voltage2I S=45A, V GS=0V-- 1.3V t rr Reverse Recovery Time I S=20A, V GS=0V,-24-ns Q rr Reverse Recovery Charge dI/dt=100A/µs-16-nC
Notes:
1.Pulse width limited by safe operating area.
2.Pulse width <300us , duty cycle <2%.
2/4 AP60T03GH/J
AP60T03GH/J
Fig 2. Typical Output Characteristics
Fig 3. On-Resistance v.s. Gate Voltage
Fig 4. Normalized On-Resistance
v.s. Junction Temperature
Fig 6. Gate Threshold Voltage v.s.
Reverse Diode
Junction Temperature
Fig7. Gate Charge Characteristics Fig 8. Typical Capacitance Characteristics
Fig 9. Maximum Safe Operating Area Fig10. Effective Transient Thermal Impedance
Fig 11. Switching Time Waveform Fig 12. Gate Charge Waveform
AP60T03GH/J。

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