RD151TS3316ARPH0中文资料
NPort 6150 6250 Series Quick Installation Guide
P/N: 1802061500016 *1802061500016*NPort 6150/6250 Series Quick Installation GuideEdition 9.0, November 2016Technical Support Contact Information/supportMoxa Americas:Toll-free: 1-888-669-2872 Tel: 1-714-528-6777 Fax: 1-714-528-6778 Moxa China (Shanghai office): Toll-free: 800-820-5036 Tel: +86-21-5258-9955 Fax: +86-21-5258-5505 Moxa Europe:Tel: +49-89-3 70 03 99-0 Fax: +49-89-3 70 03 99-99 Moxa Asia-Pacific:Tel: +886-2-8919-1230 Fax: +886-2-8919-1231 Moxa India:Tel: +91-80-4172-9088 Fax: +91-80-4132-10452016 Moxa Inc. All rights reserved.OverviewThe NPort 6150/6250 series secure serial device servers provide reliable serial-to-Ethernet connectivity for a wide range of serial devices. The NPort 6150/6250 support TCP Server, TCP Client, UDP, andPair-Connection operation modes to ensure the compatibility of network software. In addition, the NPort 6150/6250 also support Secure TCP Server, Secure TCP Client, Secure Pair-Connection, and Secure Real COM modes for security critical applications such as banking, telecom, access control, and remote site management.Package ChecklistBefore installing a NPort 6150/6250 secure device server, verify that the package contains the following items:• 1 NPort 6150 or NPort 6250•Power adapter (does not apply to -T models)• 2 wallmount ears•Documentation and software CD•Quick installation guide (this guide)•Warranty cardOptional Accessories•DK-35A: DIN-rail mounting kit (35 mm)•DIN-rail power supply•CBL-RJ45M9-150: 8-pin RJ45 to male DB9 cable•CBL-RJ45M25-150: 8-pin RJ45 to male DB25 cableNOTE: Please notify your sales representative if any of the above items are missing or damaged.Hardware IntroductionNPort 6150NPort 6250Reset Button—Press the Reset Button continuously for 5 sec to load factory defaults. Use a pointed object, such as a straightened paper clip or toothpick, to press the reset button. This will cause the Ready LED to blink on and off. The factory defaults will be loaded once the Ready LED stops blinking (after about 5 seconds). At this point, you should release the reset button.LED IndicatorsAdjustable pull high/low resistor for RS-422/485 (150 K Ω or 1 K Ω)Jumpers are used to set the pull high/low resistors. The default is 150 kΩ. Short the jumpers to set this value to 1 kΩ. Do not use the 1 kΩ setting with RS -232 mode, since doing so will degrade the RS-232 signals and shorten the communication distance.Hardware Installation ProcedureSTEP 1: Connect the 12-48 VDC power adaptor to the NPort 6150 andthen plug the power adaptor into a DC outlet.STEP 2: For first-time configuration, use a cross-over Ethernet cable toconnect the NPort 6150 directly to your computer’s Ethernet cable. For connecting to a network, use a standardstraight-through Ethernet cable to connect to a hub or switch.STEP 3: Connect the NPort 6150’s serial port to a serial device.Placement OptionsThe NPort 6150/6250 can be placed flat on a desktop or other horizontal surface. In addition, you may use the DIN-rail or wallmount options, as illustrated below.WallmountDin RailSoftware Installation InformationThe Documentation and software CD contains the user’s manual, NPort Search Utility, and the PComm Lite Suite. Insert the CD into yourcomputer’s CD-ROM drive and follow the on-screen instructions. Please refer to the user’s manual for additional details on using the NPort Search Utility and PComm Lite.Pin Assignments and Cable WiringTwo serial cables for connecting the NPort 6150 to a serial device can be purchased separately. The wiring diagrams for the two cables are shown below.。
TK11537中文资料
RR
Ripple Regulation
100 mVrms, f = 400 Hz,
VIN = 4.5 V, IO = 10 mA
∆VO/∆TA VO Temperature Coefficient
VIN = 4.5 V, IO = 10 mA, -20 °C ≤ TA ≤ 75 °C
VNO
Output Noise Voltage 10 Hz ≤ f ≤ 100 kHz, IO = 10 mA
DESCRIPTION
The TK115xx series devices are low power, linear regulators with electronic ON/OFF switches. Both active HIGH and active LOW control pins are provided.
100
UNITS µA mA µA V V mA mA
30
mV
50
mV
80
mV
dB
mV/°C
µVrms
35
mA
40
µA
VIN
V
0.6
V
120
µA
VIN-2.5
V
VIN
V
Note 1: This is a pulse measurement where TJ is constant. The output change due to temperature is not included.
VIN = 4.7 V, IO = 10 mA, -20 °C ≤ TA ≤ 75 °C
VNO
Output Noise Voltage 10 Hz ≤ f ≤ 100 kHz, IO = 10 mA
智能数字压力校验仪
新品发布NEW PRODUCTS 智能数字压力校验仪Fluke 730G智能数字压力校验仪,自带H A R T通信功能,搭配压力校验泵,实现对压力表、压力开关、压力变送器的高效、精确的测量和校验,为计量研究院和企业建立压力实验室的专业人员提供真正得心应手的极致体验。
全新的Fluke 730G智能数字压力校验仪,以其出众的操作体验,大大优化测试和测量Test & Measurement EN50121-3-2电磁辐射标准和EN50155安规标准。
50W的RDF50系列是四分之一砖大小,提供超宽的14~160V的12:1 D C输入范围,有5,12,24和48V四个单输出模块可选。
100W的RDL100系列和300W的R D H300系列是工业标准的半砖大小:R D L100系列提供66~160V的3:1输入范围,有12,15,24和48V四个单输出模块可选;R D H300系列提供43~160V的4:1输入范围,有5,12,24,28和48V五个单输出模块可选。
功率最高的系列是600W的R D H600系列,是一款全砖大小的产品,输入范围为43~160V,有12,24,28和48V四个单输出模块可选。
这些产品的其他主要性能包括:远程开/关,低功率输出开关控制;低空载能力,待机时功率损耗最小化。
XP Power ADI ...............................28,66Ampleon ..................................60Arm ......................................63ams ......................................60赛普拉斯 ...................................63Diodes Incorporated ....................................66福禄克 ..................................70Holtek ................................60HARTING ...............................64是德科技 .................................70Keyssa .. (70)Littelfuse .......................................65Lattice Semiconductor .. (37)Melexis ..................................61Maxim Integrated ..........................35美光科技 ......................................63Microchip Technology .. (26)Molex . (63)NI (71)ON ...................................61ROHM .............................62,67Renesas ...................................67Silicon Labs (72)Semtech ..................................67STMicroelectronics ..............64,68,72厂商索引新品发布 NEW PRODUCTS 今日电子 · 2018年6月 · 701080p/60帧无压缩DisplayPort视频间进行切换。
艾特顿111586型号电源保护设备说明说明书
Eaton 111586Eaton Moeller series xPole - PKP42 RCBO - residual-current circuit breaker with overcurrent protection. RCD/MCB, 32A, 30mA, MCB trip curve B, 2 p, RCCB trip char.: ACGeneral specificationsEaton Moeller series xPole - PKP42 RCBO - residual-current circuit breaker with overcurrent protection111586401508111146686 mm 75 mm 37 mm 0.25 kg CE Marked RoHS conformCE PKP42-32/2/B/003Product NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications Model Code32 AIs the panel builder's responsibility. The specifications for the switchgear must be observed.4.5 kAMeets the product standard's requirements.Is the panel builder's responsibility. The specifications for the switchgear must be observed.3Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.0 kA50 HzIs the panel builder's responsibility.20.03 AType AC, AC current sensitive.40 °C0 W eaton-xpole-pkp42-rcbo-catalog-ca019055en-en-us.pdf eaton-xpole-protective-devices-catalog-ca019014en-en-us.pdfDA-DC-03_PKP.2eaton-xeffect-frbm6/m-characteristic-curve-003.jpgeaton-xpole-afdd-characteristic-curve-002.jpgeaton-xeffect-frbm6/m-dimensions-002.jpgeaton-xpole-pkp42-3d-drawing.jpgIL019140ZUeaton-xpole-combined-mcb-rcd-device-rcbo-packaging-manual-multilingual.pdfeaton-xeffect-frbm6/m-wiring-diagram-003.jpgRated operational current for specified heat dissipation (In) 10.11 Short-circuit ratingRated switching capacity (IEC/EN 61009)10.4 Clearances and creepage distances10.12 Electromagnetic compatibilityCurrent limiting class10.2.5 Lifting10.2.3.1 Verification of thermal stability of enclosures Rated short-circuit breaking capacity (EN 60947-2) Frequency rating10.8 Connections for external conductorsNumber of poles (total)Fault current ratingSensitivity typeAmbient operating temperature - maxHeat dissipation per pole, current-dependentBuilt-in depth Catalogues Certification reports Characteristic curve DrawingsInstallation instructions Wiring diagrams70 mmConnectable conductor cross section (solid-core) - min1 mm²10.9.3 Impulse withstand voltageIs the panel builder's responsibility.Number of polesTwo-poleAmbient operating temperature - min-25 °C10.6 Incorporation of switching devices and componentsDoes not apply, since the entire switchgear needs to be evaluated.10.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.Rated switching capacity4.5 kAEquipment heat dissipation, current-dependent5.5 WTripping characteristicB10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.2.6 Mechanical impactDoes not apply, since the entire switchgear needs to be evaluated.10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.Static heat dissipation, non-current-dependent0 WApplicationSwitchgear for residential and commercial applications10.3 Degree of protection of assembliesDoes not apply, since the entire switchgear needs to be evaluated.Voltage typeACNumber of poles (protected)2Leakage current typeACRated short-circuit breaking capacity (EN 61009-1)4.5 kATrippingNon-delayedOperating ambient temperature - min-25 °CHeat dissipation capacity0 WRelease characteristicBImpulse withstand currentPartly surge-proof, 250 AProduct rangePKP42Width in number of modular spacings210.2.3.2 Verification of resistance of insulating materials to normal heatMeets the product standard's requirements.10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effectsMeets the product standard's requirements.Rated short-circuit breaking capacity (EN 61009)4.5 kAOperating ambient temperature - max40 °CVoltage rating230 V10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Connectable conductor cross section (solid-core) - max25 mm²Degree of protectionIP20Overvoltage categoryIIIPollution degree210.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.Connectable conductor cross section (multi-wired) - min1 mm²Rated impulse withstand voltage (Uimp)4 kV10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Basic functionCombined RCD/MCB devicesRated current32 AConnectable conductor cross section (multi-wired) - max25 mm²TypeRCBO10.2.2 Corrosion resistanceMeets the product standard's requirements.Surge current capacity0.25 kA10.2.4 Resistance to ultra-violet (UV) radiationMeets the product standard's requirements.10.2.7 InscriptionsMeets the product standard's requirements.Rated short-circuit breaking capacity (IEC 60947-2)0 kADisconnection characteristicUndelayedProduct applicationSwitchgear for industrial and advanced commercial applicationsRated operational voltage (Ue) - maxEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia230 V250 VRated insulation voltage (Ui)。
DPR331ARC弧光保护装置说明书
4.1 保护功能 ............................................................................................................................................................... 17 4.2 自检 ....................................................................................................................................................................... 19
NDB310 数字式备用电源自投装置说明书
DPR330ARC 弧光保护系统 说明书
南京弘毅电气自动化有限公司
* 2013 年 2 月第一次印刷。 * 本说明书内容如有修改,恕不另行通知
NDB310 ............................................................................................................................................................. 1
7.1 按键功能介绍 ....................................................................................................................................................... 27
无线红外防盗报警器的设计
1 前言随着微电子技术与网络技术的飞速进展,人们关于居住环境的平安、方便、舒适提出了愈来愈高的要求因此智能化住宅就随之显现,也随着改革开放的深切和市场经济的迅速进展、提高,城市外来流动人口的大量增加,带来了许多不平安因素,刑事案件专门是入室盗窃、抢劫居高不下,因此家庭智能平安防范系统是智能化小区建设中不可缺少的一项,而以往的做法是安装防盗门、防盗网,但普遍存在有碍美观,不符合防火要求,而且不能有效地避免犯法分子对住宅的入侵,故利用高科技的电子防盗报警系统也就应运而生。
无线红外防盗报警器的进展主若是基于传感器之上,因此有必要先谈谈红别传感器的进展状况。
而传感器技术是21世纪人们在高新技术进展方面争夺的一个制高点,各发达国家都将传感技术视为现代高新技术进展的关键。
从20世纪80年代起,日本就将传感器技术列为优先进展的高新科技之首,美国等西方国家也将此技术列为国家科技和国防技术进展的重点。
从而基于传感器技术的防盗报警系统也取得了高速进展。
不管是基于哪一种方式的无线防盗报警器,它的工作原理都是将探测到的信号,通过编码,经电路放大,输出并将报警信号通过天线发射出,再用接收电路接收信号,解码并通过操纵电路判定是不是属于异样信号,再决定是不是发送报警信号给报警电路,从而达到防盗的成效,本系统也是采纳此原理。
本系统采纳经常使用的STC89C52单片机作为系统的核心操纵部份,是一个利用红别传感器作为信号输入的操纵部份的智能报警器。
当有不明人物进过红外探头时,会有操纵信号输入单片机,进而输出扎耳报警声引发相关人员的注意,同时利用显示器来显示。
如此专门大程度上减少了搜索时刻,从而提高了时效性。
达到了信号同意灵明度高,显示反映快,报警声音响的成效。
2 整体方案设计方案比较2.1.1 方案一图方案一方框图2.1.1 方案二图方案二方框图方案论证2.3.1 收发模块的比较方案一中收发模块采纳的核心芯片是Nrf905,此芯片为32引脚芯片,工作电压在,需外接433MHz 50Ω天线。
埃特罗斯电气样本
ፆ 1,0 ੇ 0,9
(Ω) 0,8
0,7
0,6
0,5
0,4
0,3
0,2
0,1
0,0
1
3
5
7
9
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图d:阻抗-谐波次数曲线图
11
13
15
17
19
ၿհْຕ
06
非调谐补偿滤波应用场合
如果是工业配电系统,一般5次谐波为频率最低且幅值最大的谐波,对于这 样的配电网,选择非调谐补偿滤波回路的调谐频率次数应低于5次谐波。 右侧图示曲线为电抗率7%的非调谐补偿滤波回路阻抗特性,回路的调谐频 率为189Hz。接入非调谐补偿滤波回路后,可以避免5次及以上谐波的放 大,同时,非调谐补偿滤波回路在调谐频率以上的阻抗低于系统阻抗,回 路可以吸收部分调谐频率以上的谐波,起到滤波作用。
无功补偿和滤波概述
配电网无功补偿与谐波概述
无功功率补偿
在电力系统中,大部分负载在消耗有功功率的同时,也需要大量的无功 功率,这些无功功率并没有被负载真正消耗,而是以电场和磁场的形式 进行交换,因此无功功率将造成: ◎ 占用供电设备容量 ◎ 增加变压器和输电线路损耗 ◎ 降低设备供电电压 ◎ 产生无功罚款,增加用电成本
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图a:电网简化图及其单线图
串联谐振:图c的曲线图分析了串联起来的变压器和电容器(图b所示)的电路阻抗和谐波次数关系,曲线图显示了发生在11次谐波频率附近的
串联谐振。 当频率接近串联谐振频率时,供电母线上一个相对较低的谐波电压将会引起很大的谐波电流。 较大的谐波电流将会使负载母线上出现较高的谐波电压,使正弦电压发生畸变。
Fluke3310柔性电流探头详细介绍
工作电压 (见“安全标准”部分)
1000 V 交流有效值或直流
常规特性
探头和电缆材质
Alcryn 2070NC,加强绝缘, UL94 V0,颜色:红色
接合处材质
Lati Latamid 6H-V0 尼龙
探头电缆长度 探头电缆直径
610 mm (24 in.) 3310-PR 1220 mm (48 in.) 33112-PR
®
3310-PR/3312-PR
Flex Current Probe
说明书
简介
Fluke 3310-PR 和 3312-PR 柔性电流探头(以下简称作“探头”) 是采用 Rogowski 原理的交流电流探头。这些探头可配合 Fluke 1750 电力质量记录仪用于在极低频率到 15 kHz 范围之内测 量电流。灵活轻巧的测量头让用户可以快速方便地在不易接近的 区域中进行安装,适合测量粗导线上的电流。 探头针对与 Fluke 1750 电力质量记录仪配套使用而设计。
12.4 mm (0.49 in.)
传感器弯曲半径(最小) 输出电缆 输出接头
38.1 mm (1.5 in.) 双芯屏蔽,3 m 长 LEMO 6 针公头连接器
工作温度范围 存放温度范围 工作湿度
-20 °C 至 +90 °C(-4 °F 至 +194 °F) -40 °C 至 +105 °C(-40 °F 至 221 °F) 15 % 至 85 %(非冷凝)
Fluke 公司保证本产品从购买之日起一年内,其材料和工艺均无任 何缺陷。本项保证不包括保险丝、一次性电池,或者因意外、疏 忽、误用、改装、污染及非正常情况下的操作或处理而造成的损 坏。经销商无权以 Fluke 的名义提供其它任何保证。若要在保修 期内获得保修服务,请与您最近的 Fluke 授权服务中心联系,以 获取有关产品退还的授权信息,并将产品及故障说明寄至该服务 中心。 本项保证是您唯一可以获得的补偿。除此以外,Fluke 不作其它任 何明示或隐含的保证,例如适用于某一特殊目的的隐含保证。 FLUKE 不应对基于任何原因或推测的任何特别、间接、偶发或后 续的损坏或损失负责。由于某些州或国家不允许将隐含保证或偶 发或后续损失排除在外或加以限制,故上述的责任限制或许对您 不适用。
BT151中文资料_数据手册_参数
SYMBOL PARAMETER
CONDITIONS
MIN.
VDRM, VRRM Repetitive peak off-state
-
voltages
IT(AV) IT(RMS) ITSM
I2t dIT/dt IGM VGM VRGM PGM PG(AV) Tstg Tj
Average on-state current half sine wave; Tmb ≤ 109 ˚C
IL(Tj) IL(25 C) 3
BT145
2.5
2
1.5
1
0.5
0 -50
Fig.8.
0
50
100
150
Tj / C
Normalised latching current IL(Tj)/ IL(25˚C), versus junction temperature Tj.
IH(Tj) IH(25 C) 3
currents, f = 50 Hz; Tmb ≤ 109˚C.
VGT(Tj) 1.6 VGT(25 C)
BT151
1.4
1.2
1
0.8
0.6
0.4-50
0
50
100
150
Tj / C
Fig.6. Normalised gate trigger voltage VGT(Tj)/ VGT(25˚C), versus junction temperature Tj.
September 1997
3
Rev 1.200
Philips Semiconductors
Thyristors
Product specification
新普特 i16 温度传感器控制器说明书
I16D53IS1633IS1600I16D33-DCU Universal Inputs U H igh Accuracy: 0.5°C (±0.9°F), 0.03% Reading U Totally Programmable Color Displays (Visual Alarms)U User-Friendly,Simple to Configure U Free SoftwareU Full Autotune PID Control U Embedded Ethernet Connectivity Optional U RS232 and RS485 Serial Communications Optional U Built-In Excitation U 2 Control or Alarm Outputs Optional: DC Pulse, Solid State Relays, Mechanical Relays, Analog Voltage and CurrentU Output 3: Isolated Analog Voltage and Current OptionalU NEMA 4 (IP65) Front Bezel U Temperature Stability ±0.04°C/°C RTD and±0.05°C/°C Thermocouple @ 25°C (77°F)U Front Removable and Plug ConnectorsU AC or DC Powered Units U Ratiometric Mode for Strain Gages U Programmable Digital FilterThe NEWPORT ® i16 is the popular 1⁄16 DIN size (48 mm 2) controller. It is available with a single (model i16) or dual display (model i16D) that displays a setpoint along with the process value. The i16 display can be programmed to change color between GREEN, AMBER , and RED at any setpoint or alarm point. The i16 is the first 1⁄16 DIN controller with the option of both RS232 and RS485 in 1 instrument with both MODBUS ® serial protocoland the straightforward Newport ® ASCII protocol. And of course the i16 is the first 1⁄16 DIN controller that can connect directly to an Ethernet network and features an embedded Web server. Newport ® provides free configuration and data acquisition software downloaded off of the Web.The i16 enclosure has aNEMA 4 (IP65) rated front bezel. The electronics are removable from the front panel.i16D33 shown largerthan actual size.i1633 shown larger than actual size.1⁄16 DIN Temperature, Process andStrain PID Controllersi16 SeriesAccess Vital information Anytime,Anywhere, on the Internet!1⁄16 DIN controller withembedded Web server, dual control outputs, dual display.Ordering Examples: i1633, temperature/process controller,output 1 relay, output 2 relay single display, 90 to 240 Vac power.iS1643, strain/process controller, output 1 DC pulse, output 2relay, single display, 90 to 240 Vac power.*1 Ethernet options are available for the i16D and iS16D controllers only.*2 “-DC”, “-C24”, and “-C4EIT ” not available with excitation.*3 Analog output (option 5) is not available with “-AL ” units or i16A models.*4 20 to 36 Vdc for i16D , i16D-C4EIT , i16D-EIT and i16A *5 “-SM ” option not available on iS16 or i16A models.*6 Ethernet options are not available for i16A models.*7 For i16Axx-AL: One alarm and one analog retransmission.Universal Temperature and Process Input ("i" Models)Accuracy: ±0.5°C temp; 0.03% rdg Resolution: 1°/0.1°; 10 μV process Temperature Stability: RTD: 0.04°C/°CTC @ 25°C (77°F): 0.05°C/°C Cold Junction Compensation Process: 50 ppm/°C NMRR: 60 dB CMRR: 120 dBA/D Conversion: Dual slope Reading Rate: 3 samples/s Digital Filter: Programmable Display: 4-digit 9-segment LED 10.2 mm (0.40"); i32, i16, i16D, i8DV 21 mm (0.83"); i8 10.2 mm (0.40") and 21 mm (0.83"); i8DH RED , GREEN , and AMBER programmable colors for process variable, setpoint and temperature unitsInput Types: Thermocouple, RTD, analog voltage, analog currentThermocouple Lead Resistance: 100 Ω maxThermocouple Types (ITS 90): J, K, T, E, R, S, B, C, N, L (J DIN)RTD Input (ITS 68): 100/500/1000 Ω Pt sensor, 2-, 3- or 4-wire; 0.00385 or 0.00392 curveVoltage Input: 0 to 100 mV, 0 to 1V, 0 to 10 VdcInput Impedance: 10 M Ω for 100 mV 1 M Ω for 1 or 10 VdcCurrent Input: 0 to 20 mA (5 Ω load)Configuration: Single-ended Polarity: UnipolarStep Response: 0.7 sec for 99.9%Decimal Selection: Temperature: None, 0.1 Process: None, 0.1, 0.01 or 0.001Setpoint Adjustment: -1999 to 9999 counts Span Adjustment: 0.001 to 9999 countsOffset Adjustment: -1999 to 9999Excitation (Not Included withCommunication): 24 Vdc @ 25 mA (not available for low-power option)Universal Strain and Process Input ("iS" Models)Accuracy: 0.03% reading Resolution: 10/1μVTemperature Stability: 50 ppm/°C NMRR: 60 dB CMRR: 120 dBA/D Conversion: Dual slope Reading Rate: 3 samples/s Digital Filter: ProgrammableInput Types: Analog voltage and current Voltage Input: 0 to 100 mVdc, -100 mVdc to 1 Vdc, 0 to 10 VdcInput Impedance: 10 M Ω for 100 mV; 1 M Ω for 1V or 10 VdcCurrent Input: 0 to 20 mA (5 Ω load)Linearization Points: Up to 10Configuration: Single-ended Polarity: UnipolarStep Response: 0.7 sec for 99.9%Decimal Selection: None, 0.1, 0.01 or 0.001Setpoint Adjustment: -1999 to 9999 countsSpan Adjustment: 0.001 to 9999 counts Offset Adjustment: -1999 to 9999Excitation (Optional In Place Of Communication): 5 Vdc @ 40 mA; 10 Vdc @ 60 mAControlAction: Reverse (heat) or direct (cool)Modes: Time and amplitude proportional control; selectable manual or auto PID, proportional, proportional with integral, proportional with derivative and anti-reset Windup, and on/off Rate: 0 to 399.9 s Reset: 0 to 3999 sCycle Time: 1 to 199 s; set to 0 for on/off Gain: 0.5 to 100% of span; setpoints 1 or 2Damping: 0000 to 0008Soak: 00.00 to 99.59 (HH:MM), or OFF Ramp to Setpoint:00.00 to 99.59 (HH:MM), or OFF Auto Tune: Operator initiated from front panelControl Output 1 and 2Relay: 250 Vac or 30 Vdc @ 3 A (resistive load); configurable for on/off, PID and ramp and soakOutput 1: SPDT, can be configured as alarm 1 outputOutput 2: SPDT, can be configured as alarm 2 outputSSR: ******************.5A (resistive load); continuousDC Pulse: Non-isolated; 10 Vdc @ 20 mA Analog Output (Output 1 Only):Non-isolated, proportional 0 to 10 Vdc or 0 to 20 mA; 500 Ω maxOutput 3 Retransmission:Isolated Analog Voltage and Current Current: 10 V max @ 20 mA output Voltage: 20 mA max for 0 to 10 V output Network and CommunicationsEthernet: Standards compliance IEEE 802.3 10 Base-T Supported Protocols: TCP/IP, ARP, HTTPGETRS232/RS422/RS485: Selectable from menu; both ASCII and Modbus protocol selectable from menu; programmable 300 to 19.2 Kb; complete programmable setup capability; program to transmit current display, alarm status, min/max, actual measured input value and statusCommon Specifications(All i/8, i/16, i/32 DIN)RS485: Addressable from 0 to 199 Connection: Screw terminalsAlarm 1 and 2 (Programmable)Type: Same as output 1 and 2Operation: High/low, above/below, band, latch/unlatch, normally open/ normally closed and process/deviation; front panel configurationsAnalog Output (Programmable):Non-isolated, retransmission 0 to 10 Vdc or 0 to 20 mA, 500 Ω max (output 1 only); accuracy is ±1% of FS when following conditions are satisfied: input is not scaled below 1% of input FS, analog output is not scaled below 3% of output FSGeneralPower: 90 to 240 Vac ±10%, 50 to 400Hz*, 110 to 375 Vdc, equivalent voltageLow Voltage Power Option: 24 Vac**, 12 to 36 Vdc for i/iS; 20 to 36 Vdc for dual display, ethernet, and isolated analog output from qualified safety approved source IsolationPower to Input/Output: 2300 Vac per 1 minute testFor Low Voltage Power Option: 1500 Vac per 1 minute test Power to Relay/SSR Output: 2300 Vac per 1 minute testRelay/SSR to Relay/SSR Output: 2300 Vac per 1 minute test RS232/485 to Input/Output: 500 Vac per 1 minute test Environmental Conditions:All Models: 0 to 55°C (32 to 131°F) 90% RH non-condensing Dual Display Models:0 to 50°C (32 to 122°F), 90% RH non-condensing (for UL only)Protection:i/iS32, 16, 16D, 8C:NEMA 4X/Type 4 (IP65) front bezel i/iS8, 8DH, 8DV:NEMA 1/Type 1 front bezel Approvals: UL, C-UL, CE perEN61010- 1:2001, FM (temperature units only)Dimensionsi/8 Series: 48 H x 96 W x 127 mm D (1.89 x 3.78 x 5")i/16 Series: 48 H x 48 W x 127 mm D (1.89 x 1.89 x 5")i/32 Series: 25.4 H x 48 W x 127 mm D (1.0 x 1.89 x 5")Panel Cutouti/8 Series: 45 H x 92 mm W (1.772 x 3.622"), 1⁄8 DINi/16 Series: 45 mm (1.772") square, 1⁄16 DINi/32 Series: 22.5 H x 45 mm W (0.886 x 1.772"), 1⁄32 DIN Weighti/8 Series: 295 g (0.65 lb) i/16 Series: 159 g (0.35 lb) i/32 Series: 127 g (0.28 lb)* No CE compliance above 60 Hz.** Units can be powered safely with 24 Vacpower, but no certification for CE/UL are claimed.I16D53IS1633IS1600I16D33-DC。
DT-3310 3311 3312 316 316型号的AC DC笼测量仪说明书
DT-3310/3311/3312/3 316AC, AC/DC Clamp MetersDT-3310 Series Professional 1000A AC Clamp Meters provide many functions for professional AC current and voltage measurements including resistance, capacitance and diode test, etc. Withmid-size and tear-drop shaped jaw, it is easy to use in crowded cable areas and other tight places.Features DT-3310 DT-3311 DT-3312 DT-3316 Current measurements AC AC AC AC/DC Digital display counts 4000 4000 4000 4000 Electronic overload protection * * * * Continuity buzzer & Diode check * * * * Data Hold function * * * * Peak Hold * DCA Zero function * * Auto Power Off * * * * Low battery indication * * * * Display with backlight * * * * 2.16” (55mm) Clamp jaw opening * * * * Size (H x W x D): 270mm x 107mm x 50mmWeight: 554gSpecificationsFunction MaxRangeBasicAccuracyMax.ResolutionDT-3310 DT-3311 DT-3312 DT-3316AC Current 2000 A ±(2.5%+5d) 100mA 1000A 1000A * * DC Current 2000 A ±(2.5%+5d) 100mA * AC Voltage 1000V ±(1.0%+4d) 0.1mV * * * * DC Voltage 1000V ±(0.5%+4d) 0.1mV * * * * Resistance 40MΩ ±(1.0%+2d) 0.1Ω * * * * Frequency 10MHz ±(1.2%+2d) 0.001Hz * * * * Capacitance 40mF ±(3.0%+5d) 0.01nF * *ApplicationsAccessories: T est leads, gift box with carrying case, 9V battery.CEMDT-3353DIGITAL T-RMS AC/DC CLAMP ONPOWER METERThis is a 9999 counts Backlit LCD display, Digital T-RMSAC/DC clamp on power meter. It is used to measurepower parameters like kW, kVA, power factor for threephase and single phase loads.It has USB PC Interface for Data Collection and Storage.Has max /min Record Function, Data Hold Function, DataLogging facility, Non Contact Voltage Detector Function,Low Battery and Overload Indication.Measures AC Current upto 1000A T-RMS, DC Voltage,Active Power, Apparent Power, Reactive Power, PowerFactor, Phase Angle Active Energy. Thease can be doneon three Phase and single Phase Location.Temperature Measurement is also possible.Contact :CEM INSTRUMENTS (INDIA) PVT. LTD.CEM INSTRUMENTS HEADQUATER & FACTORYGeneral SpecificationsItem DescriptionQty 1English Operating Manual 1 piece 2Red Test Lead 3 piece 3Black Test Lead 1 piece 4Red Alligator Clip 3 piece 5Black Alligator Clip 1 piece 6USB Interface Cable 1 piece 7Software 1 piece 8Tool Box 1 piece 99V Battery 1 piece 10Test Certificate1 pieceSafety InformationThis Meter complies with the standards IEC61010: in pollution degree 2, overvoltage category (CAT. III 600V , CAT IV 300V) and double insulation.CAT. III: Distribution level, fixed installation, with smaller transient overvoltages than CAT.IV: Primary supply level, overhead lines, cable systems etc.Contact :CEM INSTRUMENTS (INDIA) PVT. LTD.CEM INSTRUMENTS HEADQUATER & FACTORYElectrical Specifications Accuracy: (a% reading + b digits), guarantee for 1 year.Operating temperature: 23±5Operating humidity: 45~75%R.HRange Resolution Accuracy Allowable Maximumoverload protection voltageInputImpedanceFrequency Range 100V 0.1V±(1.2%+5)750 RMS10M50Hz~200Hz400V 750VRange ResolutionAccuracyAllowable Maximumoverload protection currentFrequency Range40A 0.1A ±(2%+5)1000A RMS50Hz~60Hz100A 400A 1000A1ACurrent / VoltageVoltages Range100V 400V 750V Current Range 40A 4.00KW 16.00KW 30.00KW 100A 10.00KW 40.00KW 75.00KW 400A 40.00KW 160.0KW 300.0KW 1000A100.0KW 400.0KW 750.0KW Accuracy ±(3%+5)Resolution<1000KW: 0.01KW 100kW: 0.1KWCurrent / VoltageVoltages Range100V 400V750VCurrent Range40A 4.00KVAr 16.00KVAr 30.00KVAr 100A 10.00KVAr 40.00KVA 75.00KVAr 400A 40.00KVAr 160.0KVAr 300.0KVAr 1000A100.0KVAr400.0KVAr750.0KVArAccuracy ±(3%+5)Resolution<1000KVAr: 0.01KVAr 100kW: 0.1KVArRange Accuracy Resolution Measuring Condition 0° - 90°(capacitive or inductive)±2°1°The minimum measuring current 10AThe minimum measuring voltage 45V0° - 90° (capacitive or inductive)For reference onlyMeasuring current less than 10A ORMeasuring voltage less than 45VA. AC Voltage (True RMS)Range ResolutionAccuracy 50Hz~200Hz1Hz±(0.5%+5)B. FrequencyC. AC Current (True RMS)D. Active Power ( W=V x A x COS θ)Current / VoltageVoltages Range100V 400V 750V Current Range 40A 4.00KVA 16.00KVA 30.00KVA 100A 10.00KVA 40.00KVA 75.00KVA 400A 40.00KVA 160.0KVA 300.0KVA 1000A100.0KVA 400.0KVA 750.0KVA Accuracy ±(3%+5)Resolution<1000KVA: 0.01KVA 100kW: 0.1KVAE. Apparent Power (VA = V x A)F . Reactive Power (Var = V x A x SIN θ)Range Accuracy Resolution Measuring Condition 0.3 - 1(capacitive or inductive)±0.0220.001The minimummeasuring current 10A The minimummeasuring voltage 45V 0.3 - 1(capacitive or inductive)For reference onlyMeasuring current less than 10A ORMeasuring voltage less than 45VG. Power Factor (PF = W / VA)H. Phase Angle (PG=acos (PF))Range Accuracy Resolution 1~9999kWh ±(3%+2)0.001kWhI. Active Energy (kWh)Remarks:● Allowable maximum overload protection voltage: 750V RMS●Allowable maximum overload protection current: 1000A RMSDT-3385/3386Professional Heavy Duty AC, AC/DC True RMS Autoranging Clamp Meters with Flexible ClampThe 3385 series clamp meters offer all needed features for measurement, design for perfectly handhold and tight place testing. A large backlit display (on most models) is easy to see and a handy Display Hold keeps measurements on the display. Flexible current probe expands the measurement range to 2500ACA.l Double molded plastic housingl True RMS measurement for ACV & ACAl Flexible current probe expands themeasurement range to 3000 ACAfor all modelsl Dual type K inputs for temperaturemeasuring support moreapplication. (3387/3388)l Flexible current probe expands themeasurement range to 3000 ACASpecifications Function Max. Range Basic Accuracy 3385 3386 Voltage DC 1000V ±(0.1%+4d) * * Voltage AC 1000V ±(1.0%+3d) * * Current DC 1000A ±(2.5%+5d) * Current AC 1000A ±(2.5%+5d) * * Resistance 50MΩ ±(3.0%+5d) * *Temperature 1000ºC/ 1832ºF ±(1.0%+2.5°C/4.5°F)* *Capacitance 5mF ±(3.5%+10d) * * Frequency 10MHz ±(0.3%+2d) * *ACA flexibleclamp3000A ±(2.8%+8d) * * Continuity check Buzzer sounds at 50ΩDiode test Test current 0.3mAFeatures 3385 3386Current measurement AC AC/DCLCD display counts withbacklight50000 500003000A ACA Flexible clamp * *AC True RMS * *Flashlight * *Data Hold & Peak Hold * *Max /Min * *REL (Zero) Function * *Auto Power Off * *Low battery indication * *1.9” (48mm) Jaw opening * *NCV Detection & flashlight * *Inrush Current * *Size(HxWxD): 230mm x 76mm x 40mmWeight: 315gAccessories: T est leads, gift box with carrying case, Temperature probe and9V battery.CEMModel 9380Model 9381 The 9380/9381/9382/9383 series clamp meters providing fast A/D converting sampling time, highaccuracy, built-in datalogging offer all needed features for measurement. It is with modern bodies and jawsdesign for perfect handheld and tight place testing. A large backlit display (on most models) is easy to seeand a handy data hold keeps measurements on the display.Double molded plastic housingTrue RMS measurement for ACV & ACAFlexible current probe expands the measurementrange to 3000 ACA (9383)EMC & LVDEN: 61326EN: 61010-1EN: 61010-02-032EN: 61010-02-033DOUBLEMOLDED。
常用开关电源芯片大全之欧阳育创编
常用开关电源芯片大全第1章DC-DC电源转换器/基准电压源1.1 DC-DC电源转换器1.低噪声电荷泵DC-DC电源转换器AAT3113/AAT31142.低功耗开关型DC-DC电源转换器ADP30003.高效3A开关稳压器AP15014.高效率无电感DC-DC电源转换器FAN56605.小功率极性反转电源转换器ICL76606.高效率DC-DC电源转换控制器IRU30377.高性能降压式DC-DC电源转换器ISL64208.单片降压式开关稳压器L49609.大功率开关稳压器L4970A10.1.5A降压式开关稳压器L497111.2A高效率单片开关稳压器L497812.1A高效率升压/降压式DC-DC电源转换器L597013.1.5A降压式DC-DC电源转换器LM157214.高效率1A降压单片开关稳压器LM1575/LM2575/LM2575HV15.3A降压单片开关稳压器LM2576/LM2576HV16.可调升压开关稳压器LM257717.3A降压开关稳压器LM259618.高效率5A开关稳压器LM267819.升压式DC-DC电源转换器LM2703/LM270420.电流模式升压式电源转换器LM273321.低噪声升压式电源转换器LM275022.小型75V降压式稳压器LM500723.低功耗升/降压式DC-DC电源转换器LT107324.升压式DC-DC电源转换器LT161525.隔离式开关稳压器LT172526.低功耗升压电荷泵LT175127.大电流高频降压式DC-DC电源转换器LT176528.大电流升压转换器LT193529.高效升压式电荷泵LT193730.高压输入降压式电源转换器LT195631.1.5A升压式电源转换器LT196132.高压升/降压式电源转换器LT343333.单片3A升压式DC-DC电源转换器LT343634.通用升压式DC-DC电源转换器LT346035.高效率低功耗升压式电源转换器LT346436.1.1A升压式DC-DC电源转换器LT346737.大电流高效率升压式DC-DC电源转换器LT378238.微型低功耗电源转换器LTC175439.1.5A单片同步降压式稳压器LTC187540.低噪声高效率降压式电荷泵LTC191141.低噪声电荷泵LTC3200/LTC3200-542.无电感的降压式DC-DC电源转换器LTC325143.双输出/低噪声/降压式电荷泵LTC325244.同步整流/升压式DC-DC电源转换器LTC340145.低功耗同步整流升压式DC-DC电源转换器LTC340246.同步整流降压式DC-DC电源转换器LTC340547.双路同步降压式DC-DC电源转换器LTC340748.高效率同步降压式DC-DC电源转换器LTC341649.微型2A升压式DC-DC电源转换器LTC342650.2A两相电流升压式DC-DC电源转换器LTC342851.单电感升/降压式DC-DC电源转换器LTC344052.大电流升/降压式DC-DC电源转换器LTC344253.1.4A同步升压式DC-DC电源转换器LTC345854.直流同步降压式DC-DC电源转换器LTC370355.双输出降压式同步DC-DC电源转换控制器LTC373656.降压式同步DC-DC电源转换控制器LTC377057.双2相DC-DC电源同步控制器LTC380258.高性能升压式DC-DC电源转换器MAX1513/MAX151459.精简型升压式DC-DC电源转换器MAX1522/MAX1523/MAX152460.高效率40V升压式DC-DC电源转换器MAX1553/MAX155461.高效率升压式LED电压调节器MAX1561/MAX159962.高效率5路输出DC-DC电源转换器MAX156563.双输出升压式DC-DC电源转换器MAX1582/MAX1582Y64.驱动白光LED的升压式DC-DC电源转换器MAX158365.高效率升压式DC-DC电源转换器MAX1642/MAX164366.2A降压式开关稳压器MAX164467.高效率升压式DC-DC电源转换器MAX1674/MAX1675/MAX167668.高效率双输出DC-DC电源转换器MAX167769.低噪声1A降压式DC-DC电源转换器MAX1684/MAX168570.高效率升压式DC-DC电源转换器MAX169871.高效率双输出降压式DC-DC电源转换器MAX171572.小体积升压式DC-DC电源转换器MAX1722/MAX1723/MAX172473.输出电流为50mA的降压式电荷泵MAX173074.升/降压式电荷泵MAX175975.高效率多路输出DC-DC电源转换器MAX180076.3A同步整流降压式稳压型MAX1830/MAX183177.双输出开关式LCD电源控制器MAX187878.电流模式升压式DC-DC电源转换器MAX189679.具有复位功能的升压式DC-DC电源转换器MAX194780.高效率PWM降压式稳压器MAX1992/MAX199381.大电流输出升压式DC-DC电源转换器MAX61882.低功耗升压或降压式DC-DC电源转换器MAX62983.PWM升压式DC-DC电源转换器MAX668/MAX66984.大电流PWM降压式开关稳压器MAX724/MAX72685.高效率升压式DC-DC电源转换器MAX756/MAX75786.高效率大电流DC-DC电源转换器MAX761/MAX76287.隔离式DC-DC电源转换器MAX8515/MAX8515A88.高性能24V升压式DC-DC电源转换器MAX872789.升/降压式DC-DC电源转换器MC33063A/MC34063A90.5A升压/降压/反向DC-DC电源转换器MC33167/MC3416791.低噪声无电感电荷泵MCP1252/MCP125392.高频脉宽调制降压稳压器MIC220393.大功率DC-DC升压电源转换器MIC229594.单片微型高压开关稳压器NCP1030/NCP103195.低功耗升压式DC-DC电源转换器NCP1400A96.高压DC-DC电源转换器NCP140397.单片微功率高频升压式DC-DC电源转换器NCP141098.同步整流PFM步进式DC-DC电源转换器NCP142199.高效率大电流开关电压调整器NCP1442/NCP1443/NCP1444/NCP1445100.新型双模式开关稳压器NCP1501101.高效率大电流输出DC-DC电源转换器NCP1550102.同步降压式DC-DC电源转换器NCP1570103.高效率升压式DC-DC电源转换器NCP5008/NCP5009 104.大电流高速稳压器RT9173/RT9173A105.高效率升压式DC-DC电源转换器RT9262/RT9262A106.升压式DC-DC电源转换器SP6644/SP6645107.低功耗升压式DC-DC电源转换器SP6691108.新型高效率DC-DC电源转换器TPS54350109.无电感降压式电荷泵TPS6050x110.高效率升压式电源转换器TPS6101x111.28V恒流白色LED驱动器TPS61042112.具有LDO输出的升压式DC-DC电源转换器TPS6112x 113.低噪声同步降压式DC-DC电源转换器TPS6200x114.三路高效率大功率DC-DC电源转换器TPS75003115.高效率DC-DC电源转换器UCC39421/UCC39422116.PWM控制升压式DC-DC电源转换器XC6371117.白光LED驱动专用DC-DC电源转换器XC9116118.500mA同步整流降压式DC-DC电源转换器XC9215/XC9216/XC9217119.稳压输出电荷泵XC9801/XC9802120.高效率升压式电源转换器ZXLB16001.2 线性/低压差稳压器121.具有可关断功能的多端稳压器BAXXX122.高压线性稳压器HIP5600123.多路输出稳压器KA7630/KA7631124.三端低压差稳压器LM2937125.可调输出低压差稳压器LM2991126.三端可调稳压器LM117/LM317127.低压降CMOS500mA线性稳压器LP38691/LP38693128.输入电压从12V到450V的可调线性稳压器LR8129.300mA非常低压降稳压器(VLDO)LTC3025130.大电流低压差线性稳压器LX8610131.200mA负输出低压差线性稳压器MAX1735132.150mA低压差线性稳压器MAX8875133.带开关控制的低压差稳压器MC33375134.带有线性调节器的稳压器MC33998135.1.0A低压差固定及可调正稳压器NCP1117136.低静态电流低压差稳压器NCP562/NCP563137.具有使能控制功能的多端稳压器PQxx138.五端可调稳压器SI-3025B/SI-3157B139.400mA低压差线性稳压器SPX2975140.五端线性稳压器STR20xx141.五端线性稳压器STR90xx142.具有复位信号输出的双路输出稳压器TDA8133143.具有复位信号输出的双路输出稳压器TDA8138/TDA8138A144.带线性稳压器的升压式电源转换器TPS6110x145.低功耗50mA低压降线性稳压器TPS760xx146.高输入电压低压差线性稳压器XC6202147.高速低压差线性稳压器XC6204148.高速低压差线性稳压器XC6209F149.双路高速低压差线性稳压器XC64011.3 基准电压源150.新型XFET基准电压源ADR290/ADR291/ADR292/ADR293151.低功耗低压差大输出电流基准电压源MAX610x152.低功耗1.2V基准电压源MAX6120153.2.5V精密基准电压源MC1403154.2.5V/4.096V基准电压源MCP1525/MCP1541155.低功耗精密低压降基准电压源REF30xx/REF31xx156.精密基准电压源TL431/KA431/TLV431A第2章AC-DC转换器及控制器1.厚膜开关电源控制器DP104C2.厚膜开关电源控制器DP308P3.DPA-Switch系列高电压功率转换控制器DPA423/DPA424/DPA425/DPA4264.电流型开关电源控制器FA13842/FA13843/FA13844/FA138455.开关电源控制器FA5310/FA53116.PWM开关电源控制器FAN75567.绿色环保的PWM开关电源控制器FAN76018.FPS型开关电源控制器FS6M07652R9.开关电源功率转换器FS6Sxx10.降压型单片AC-DC转换器HV-2405E11.新型反激准谐振变换控制器ICE1QS0112.PWM电源功率转换器KA1M088013.开关电源功率转换器KA2S0680/KA2S088014.电流型开关电源控制器KA38xx15.FPS型开关电源功率转换器KA5H0165R16.FPS型开关电源功率转换器KA5Qxx17.FPS型开关电源功率转换器KA5Sxx18.电流型高速PWM控制器L499019.具有待机功能的PWM初级控制器L599120.低功耗离线式开关电源控制器L659021.LINK SWITCH TN系列电源功率转换器LNK304/LNK305/LNK30622.LINK SWITCH系列电源功率转换器LNK500/LNK501/LNK52023.离线式开关电源控制器M51995A24.PWM电源控制器M62281P/M62281FP25.高频率电流模式PWM控制器MAX5021/MAX502226.新型PWM开关电源控制器MC4460427.电流模式开关电源控制器MC4460528.低功耗开关电源控制器MC4460829.具有PFC功能的PWM电源控制器ML482430.液晶显示器背光灯电源控制器ML487631.离线式电流模式控制器NCP120032.电流模式脉宽调制控制器NCP120533.准谐振式PWM控制器NCP120734.低成本离线式开关电源控制电路NCP121535.低待机能耗开关电源PWM控制器NCP123036.STR系列自动电压切换控制开关STR8xxxx37.大功率厚膜开关电源功率转换器STR-F665438.大功率厚膜开关电源功率转换器STR-G865639.开关电源功率转换器STR-M6511/STR-M652940.离线式开关电源功率转换器STR-S5703/STR-S5707/STR-S570841.离线式开关电源功率转换器STR-S6401/STR-S6401F/STR-S6411/STR-S6411F 442.开关电源功率转换器STR-S651343.离线式开关电源功率转换器TC33369~TC3337444.高性能PFC与PWM组合控制集成电路TDA16846/TDA1684745.新型开关电源控制器TDA1685046.“绿色”电源控制器TEA150447.第二代“绿色”电源控制器TEA150748.新型低功耗“绿色”电源控制器TEA153349.开关电源控制器TL494/KA7500/MB375950.Tiny SwitchⅠ系列功率转换器TNY253、TNY254、TNY25551.Tiny SwitchⅡ系列功率转换器TNY264P~TNY268G52.TOP Switch(Ⅱ)系列离线式功率转换器TOP209~TOP22753.TOP Switch-FX系列功率转换器TOP232/TOP233/TOP23454.TOP Switch-GX系列功率转换器TOP242~TOP25055.开关电源控制器UCX84X56.离线式开关电源功率转换器VIPer12AS/VIPer12ADIP57.新一代高度集成离线式开关电源功率转换器VIPer53第3章功率因数校正控制/节能灯电源控制器1.电子镇流器专用驱动电路BL83012.零电压开关功率因数控制器FAN48223.功率因数校正控制器FAN75274.高电压型EL背光驱动器HV8265.EL场致发光背光驱动器IMP525/IMP5606.高电压型EL背光驱动器/反相器IMP8037.电子镇流器自振荡半桥驱动器IR21568.单片荧光灯镇流器IR21579.调光电子镇流器自振荡半桥驱动器IR215910.卤素灯电子变压器智能控制电路IR216111.具有功率因数校正电路的镇流器电路IR216612.单片荧光灯镇流器IR216713.自适应电子镇流器控制器IR252014.电子镇流器专用控制器KA754115.功率因数校正控制器L656116.过渡模式功率因数校正控制器L656217.集成背景光控制器MAX8709/MAX8709A18.功率因数校正控制器MC33262/MC3426219.固定频率电流模式功率因数校正控制器NCP165320.EL场致发光灯高压驱动器SP440321.功率因数校正控制器TDA4862/TDA486322.有源功率因数校正控制器UC385423.高频自振荡节能灯驱动器电路VK05CFL24.大功率高频自振荡节能灯驱动器电路VK06TL第4章充电控制器1.多功能锂电池线性充电控制器AAT36802.可编程快速电池充电控制器BQ20003.可进行充电速率补偿的锂电池充电管理器BQ20574.锂电池充电管理电路BQ2400x5.单片锂电池线性充电控制器BQ2401xB接口单节锂电池充电控制器BQ2402x7.2A同步开关模式锂电池充电控制器BQ241008.集成PWM开关控制器的快速充电管理器BQ29549.具有电池电量计量功能的充电控制器DS277010.锂电池充电控制器FAN7563/FAN756411.2A线性锂/锂聚合物电池充电控制器ISL629212.锂电池充电控制器LA5621M/LA5621V13.1.5A通用充电控制器LT157114.2A恒流/恒压电池充电控制器LT176915.线性锂电池充电控制器LTC173216.带热调节功能的1A线性锂电池充电控制器LTC173317.线性锂电池充电控制器LTC173418.新型开关电源充电控制器LTC198019.开关模式锂电池充电控制器LTC400220.4A锂电池充电器LTC400621.多用途恒压/恒流充电控制器LTC400822.4.2V锂离子/锂聚合物电池充电控制器LTC405223.可由USB端口供电的锂电池充电控制器LTC405324.小型150mA锂电池充电控制器LTC405425.线性锂电池充电控制器LTC405826.单节锂电池线性充电控制器LTC405927.独立线性锂电池充电控制器LTC406128.镍镉/镍氢电池充电控制器M62256FP29.大电流锂/镍镉/镍氢电池充电控制器MAX150130.锂电池线性充电控制器MAX150731.双输入单节锂电池充电控制器MAX1551/MAX155532.单节锂电池充电控制器MAX167933.小体积锂电池充电控制器MAX1736B接口单节锂电池充电控制器MAX181135.多节锂电池充电控制器MAX187336.双路输入锂电池充电控制器MAX187437.单节锂电池线性充电控制器MAX189838.低成本/多种电池充电控制器MAX190839.开关模式单节锂电池充电控制器MAX1925/MAX192640.快速镍镉/镍氢充电控制器MAX2003A/MAX200341.可编程快速充电控制器MAX712/MAX71342.开关式锂电池充电控制器MAX74543.多功能低成本充电控制器MAX846A44.具有温度调节功能的单节锂电池充电控制器MAX8600/MAX860145.锂电池充电控制器MCP73826/MCP73827/MCP7382846.高精度恒压/恒流充电器控制器MCP73841/MCP73842/MCP73843/MCP73844 647.锂电池充电控制器MCP73861/MCP7386248.单节锂电池充电控制器MIC7905049.单节锂电池充电控制器NCP180050.高精度线性锂电池充电控制器VM7205。
MC33161DR2G资料
MC34161, MC33161,NCV33161Universal Voltage MonitorsThe MC34161/MC33161 are universal voltage monitors intended for use in a wide variety of voltage sensing applications. These devices offer the circuit designer an economical solution for positive and negative voltage detection. The circuit consists of two comparator channels each with hysteresis, a unique Mode Select Input for channel programming, a pinned out 2.54 V reference, and two open collector outputs capable of sinking in excess of 10mA. Each comparator channel can be configured as either inverting or noninverting by the Mode Select Input. This allows over, under, and window detection of positive and negative voltages. The minimum supply voltage needed for these devices to be fully functional is 2.0 V for positive voltage sensing and 4.0V for negative voltage sensing.Applications include direct monitoring of positive and negative voltages used in appliance, automotive, consumer, and industrial equipment.Features•Unique Mode Select Input Allows Channel Programming •Over, Under, and Window V oltage Detection •Positive and Negative V oltage Detection•Fully Functional at 2.0 V for Positive V oltage Sensing and 4.0 V for Negative V oltage Sensing•Pinned Out 2.54 V Reference with Current Limit Protection •Low Standby Current•Open Collector Outputs for Enhanced Device Flexibility•NCV Prefix for Automotive and Other Applications Requiring Site and Control Changes•Pb−Free Packages are AvailableFigure 1. Simplified Block Diagram(Positive Voltage Window Detector Application)See detailed ordering and shipping information in the package dimensions section on page 15 of this data sheet.ORDERING INFORMATIONMAXIMUM RATINGS (Note 1)Rating Symbol Value Unit Power Supply Input Voltage V CC40V Comparator Input Voltage Range V in−1.0to+40V Comparator Output Sink Current (Pins 5 and 6) (Note 2)I Sink20mA Comparator Output Voltage V out40V Power Dissipation and Thermal Characteristics (Note 2)P Suffix, Plastic Package, Case 626Maximum Power Dissipation @ T A = 70°C Thermal Resistance, Junction−to−AirD Suffix, Plastic Package, Case 751Maximum Power Dissipation @ T A = 70°C Thermal Resistance, Junction−to−AirDM Suffix, Plastic Package, Case 846A Thermal Resistance, Junction−to−AmbientP DR q JAP DR q JAR q JA800100450178240mW°C/WmW°C/W°C/WOperating Junction Temperature T J+150°COperating Ambient Temperature (Note 3) MC34161MC33161NCV33161T A0to+70−40to+105−40 to +125°CStorage Temperature Range T stg−55to+150°C Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.1.This device series contains ESD protection and exceeds the following tests:Human Body Model 2000 V per MIL−STD−883, Method 3015.Machine Model Method 200 V.2.Maximum package power dissipation must be observed.3.T low=0°C for MC34161T high =+70°C for MC34161−40°C for MC33161+105°C for MC33161−40°C for NCV33161+125°C for NCV33161ELECTRICAL CHARACTERISTICS (V CC = 5.0 V, for typical values T A = 25°C, for min/max values T A is the operating ambient temperature range that applies [Notes 4 and 5], unless otherwise noted.)Characteristics Symbol Min Typ Max Unit COMPARATOR INPUTSThreshold Voltage, V in Increasing(T A = 25°C)(T A = T min to T max)V th 1.2451.2351.27−1.2951.295VThreshold Voltage Variation (V CC = 2.0 V to 40 V)D V th−7.015mV Threshold Hysteresis, V in Decreasing V H152535mV Threshold Difference |V th1 − V th2|V D− 1.015mV Reference to Threshold Difference (V ref − V in1), (V ref − V in2)V RTD 1.20 1.27 1.32VInput Bias Current(V in = 1.0 V)(V in = 1.5 V)I IB−−4085200400nAMODE SELECT INPUTMode Select Threshold Voltage (Figure 6)Channel 1Channel 2V th(CH1)V th(CH2)V ref+0.150.3V ref+0.230.63V ref+0.300.9VCOMPARATOR OUTPUTSOutput Sink Saturation Voltage (I Sink = 2.0 mA)(I Sink = 10 mA)(I Sink = 0.25 mA, V CC = 1.0 V)V OL−−−0.050.220.020.30.60.2VOff−State Leakage Current (V OH = 40 V)I OH−0 1.0m A REFERENCE OUTPUTOutput Voltage (I O = 0 mA, T A = 25°C)V ref 2.48 2.54 2.60V Load Regulation (I O = 0 mA to 2.0 mA)Reg load−0.615mV Line Regulation (V CC = 4.0 V to 40 V)Reg line− 5.015mV Total Output Variation over Line, Load, and Temperature D V ref 2.45− 2.60V Short Circuit Current I SC−8.530mA TOTAL DEVICEPower Supply Current (V Mode, V in1, V in2 = GND)(V CC = 5.0 V)(V CC = 40 V)I CC−−450560700900m AOperating Voltage Range (Positive Sensing)(Negative Sensing)V CC 2.04.0−−4040V4.Low duty cycle pulse techniques are used during test to maintain junction temperature as close to ambient as possible.5.T low=0°C for MC34161T high=+70°C for MC34161−40°C for MC33161+105°C for MC33161−40°C for NCV33161+125°C for NCV33161V o u t , C H A N N E L O U T P U T V O L T A G E (V )V Mode , MODE SELECT INPUT VOLTAGE (V)Figure 2. Comparator Input Threshold VoltageV V in , INPUT VOLTAGE (V)o u t , O U T P U T V O L T A G E (V )Figure 3. Comparator Input Bias Currentversus Input Voltage, O U T P U T P R O P A G A T I O N D E L A Y T I M E (n s )P H L t I , I N P U T B I A S C U R R E N T (n A )I BV in , INPUT VOLTAGE (V)Figure 6. Mode Select ThresholdsFigure 7. Mode Select Input Currentversus Input VoltageV Mode , MODE SELECT INPUT VOLTAGE (V)r e f V , R E F E R E N C E V O L T A G E (V ), R E F E R E N C E V O L T A G E C H A N G E (m V )r e f V V CC , SUPPLY VOLTAGE (V), S U P P L Y C U R R E N T (m A )C C I Figure 12. Supply Current versusSupply Voltage Figure 13. Supply Current versus Output Sink CurrentI out , OUTPUT SINK CURRENT (mA)2.82.42.01.61.20.80.400−2.0−4.0−6.0−8.0−100.80.60.40.2Figure 14. MC34161 Representative Block DiagramV CCV refOutput 1Output 2Mode SelectInput 1Input 2Mode SelectPin 7Input 1Pin 2Output 1Pin 6Input 2Pin 3Output 2Pin 5CommentsGND 01010101Channels 1 & 2: Noninverting V ref 01010110Channel 1: Noninverting Channel 2: Inverting V CC (>2.0V)01100110Channels 1 & 2: InvertingFigure 15. Truth TableFUNCTIONAL DESCRIPTIONIntroductionTo be competitive in today’s electronic equipment market, new circuits must be designed to increase system reliability with minimal incremental cost. The circuit designer can take a significant step toward attaining these goals by implementing economical circuitry that continuously monitors critical circuit voltages and provides a fault signal in the event of an out−of−tolerance condition. The MC34161, MC33161 series are universal voltage monitors intended for use in a wide variety of voltage sensing applications. The main objectives of this series was to configure a device that can be used in as many voltage sensing applications as possible while minimizing cost. The flexibility objective is achieved by the utilization of a unique Mode Select input that is used in conjunction with traditional circuit building blocks. The cost objective is achieved by processing the device on a standard Bipolar Analog flow, and by limiting the package to eight pins. The device consists of two comparator channels each with hysteresis, a mode select input for channel programming, a pinned out reference, and two open collector outputs. Each comparator channel can be configured as either inverting or noninverting by the Mode Select input. This allows a single device to perform over, under,and window detection of positive and negative voltages. A detailed description of each section of the device is given below with the representative block diagram shown in Figure 14.Input ComparatorsThe input comparators of each channel are identical, each having an upper threshold voltage of 1.27 V ±2.0% with 25 mV of hysteresis. The hysteresis is provided to enhance output switching by preventing oscillations as the comparator thresholds are crossed. The comparators have an input bias current of 60 nA at their threshold which approximates a 21.2M W resistor to ground. This high impedance minimizes loading of the external voltage divider for well defined trip points. For all positive voltage sensing applications, both comparator channels are fully functional at a V CC of 2.0 V. In order to provide enhanced device ruggedness for hostile industrial environments, additional circuitry was designed into the inputs to prevent device latchup as well as to suppress electrostatic discharges (ESD).ReferenceThe 2.54 V reference is pinned out to provide a means for the input comparators to sense negative voltages, as well as a means to program the Mode Select input for window detection applications. The reference is capable of sourcing in excess of 2.0 mA output current and has built−in short circuit protection. The output voltage has a guaranteed tolerance of ±2.4% at room temperature.The 2.54 V reference is derived by gaining up the internal 1.27V reference by a factor of two. With a power supply voltage of 4.0 V, the 2.54 V reference is in full regulation, allowing the device to accurately sense negative voltages. Mode Select CircuitThe key feature that allows this device to be flexible is the Mode Select input. This input allows the user to program each of the channels for various types of voltage sensing applications. Figure 15 shows that the Mode Select input has three defined states. These states determine whether Channel 1 and/or Channel 2 operate in the inverting or noninverting mode. The Mode Select thresholds are shown in Figure 6. The input circuitry forms a tristate switch with thresholds at 0.63V and V ref + 0.23 V. The mode select input current is 10 m A when connected to the reference output, and 42 m A when connected to a V CC of 5.0 V, refer to Figure 7. Output StageThe output stage uses a positive feedback base boost circuit for enhanced sink saturation, while maintaining a relatively low device standby current. Figure 11 shows that the sink saturation voltage is about 0.2 V at 8.0 mA over temperature. By combining the low output saturation characteristics with low voltage comparator operation, this device is capable of sensing positive voltages at a V CC of 1.0V. These characteristics are important in undervoltage sensing applications where the output must stay in a low state as V CC approaches ground. Figure 5 shows the Output V oltage versus Supply V oltage in an undervoltage sensing application. Note that as V CC drops below the programmed 4.5 V trip point, the output stays in a well defined active low state until V CC drops below 1.0 V.APPLICATIONSThe following circuit figures illustrate the flexibility of this device. Included are voltage sensing applications for over, under, and window detectors, as well as three unique configurations. Many of the voltage detection circuits are shown with the open collector outputs of each channel connected together driving a light emitting diode (LED). This ‘ORed’ connection is shown for ease of explanation and it is only required for window detection applications.Note that many of the voltage detection circuits are shown with a dashed line output connection. This connection gives the inverse function of the solid line connection. For example, the solid line output connection of Figure 16 has the LED ‘ON’ when input voltage V S is above trip voltage V2, for overvoltage detection. The dashed line output connection has the LED ‘ON’ when V S is below trip voltage V2, for undervoltage detection.The above figure shows the MC34161 configured as a dual positive overvoltage detector. As the input voltage increases from ground, the LED will turn ‘ON’ when V S1 or V S2 exceeds V 2. With the dashed line output connection, the circuit becomes a dual positive undervoltage detector. As the input voltage decreases from the peak towards ground, the LED will turn ‘ON’ when V S1 or V S2 falls below V 1.For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:V 1+(V th *V H )ǒR 2R 1)1ǓV 2+V thǒR 2R 1)1ǓR 2R 1+V 1V th *V H*1R 2R 1+V 2V th*1Figure 16. Dual Positive Overvoltage DetectorInput V SOutput VoltagePins 5, 6V V GNDV GNDThe above figure shows the MC34161 configured as a dual positive undervoltage detector. As the input voltage decreases towards ground, the LED will turn ‘ON’when V S1 or V S2 falls below V 1. With the dashed line output connection, the circuit becomes a dual positive overvoltage detector. As the input voltage increases from ground, the LED will turn ‘ON’ when V S1 or V S2 exceeds V 2.V 1+(V th *V H )ǒR 2R 1)1ǓV 2+V thǒR 2R 1)1ǓR 21+V 1th *V H*1R 21+V 2th*1For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:Figure 17. Dual Positive Undervoltage DetectorInput V SOutput VoltagePins 5, 6V 2V 1GNDV CC GNDThe above figure shows the MC34161 configured as a dual negative overvoltage detector. As the input voltage increases from ground, the LED will turn ‘ON’ when −V S1 or −V S2 exceeds V 2. With the dashed line output connection, the circuit becomes a dual negative undervoltage detector. As the input voltage decreases from the peak towards ground, the LED will turn ‘ON’ when −V S1 or −V S2 falls below V 1.For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:Figure 18. Dual Negative Overvoltage DetectorV 1+R 1R 2(V th *V ref ))V thV 2+R 1R 2(V th *V H *V ref ))V th *V HR 1R 2+V 1*V th V th *V refR 1R 2+V 2*V th )V H V th *V H *V ref−V Input −V SOutput VoltagePins 5, 6GND V 1V 2V CC GNDwhen −V S1 or −V S2 falls below V 1from ground, the LED will turn ‘ON’ when −V S1 or −V S2 exceeds V 2.For known resistor values, the voltage trip points are:Figure 19. Dual Negative Undervoltage DetectorV 1+R 12(V th *V ref ))V thV 2+R 12(V th *V H *V ref ))V th *V H2th ref2th H ref−V Input −V SOutput VoltagePins 5, 6GND V 1V 2V CC GNDThe above figure shows the MC34161 configured as a positive voltage window detector. This is accomplished by connecting channel 1 as an undervoltage detector,and channel 2 as an overvoltage detector. When the input voltage V S falls out of the window established by V 1 and V 4, the LED will turn ‘ON’. As the input voltage falls within the window, V S increasing from ground and exceeding V 2, or V S decreasing from the peak towards ground and falling below V 3, the LED will turn ‘OFF’.With the dashed line output connection, the LED will turn ‘ON’ when the input voltage V S is within the window.For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:V 1+(V th1*V H1)ǒR 3R 1)R 2)1ǓV 3+(V th2*V H2)ǒR 2)R 3R 1)1ǓV 2+V th1ǒR 31)R 2)1ǓV 4+V th2ǒR 2)R 31)1ǓR 2R 1+V 3(V th2*V H2)V 1(V th1*V H1)*1R 3R 1+V 3(V 1*V th1)V H1)V 1(V th2*V H2)R 21+V 4x V th22th1*1R 31+V 4(V 2*V th1)2th2R R R Output Voltage Pins 5, 6GNDCH2CH1V 4V 3V 2V 1V CC GNDInput V SThe above figure shows the MC34161 configured as a negative voltage window detector. When the input voltage −V S falls out of the window established by V 1and V 4, the LED will turn ‘ON’. As the input voltage falls within the window, −V S increasing from ground and exceeding V 2, or −V S decreasing from the peak towards ground and falling below V 3, the LED will turn ‘OFF’. With the dashed line output connection, the LED will turn ‘ON’ when the input voltage −V S is within the window.For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:Figure 21. Negative Voltage Window DetectorV 1+R 1(V th2*V ref )R 2)R 3)V th2V 2+R 1(V th2*V H2*V ref )R 2)R 3)V th2*V H2V 3+(R 1)R 2)(V th1*V ref )R 3)V th1V 4+(R 1)R 2)(V th1*V H1*V ref )R 3)V th1*V H1R 1R 2)R 3+V 1*V th2V th2*V ref R 1R 2)R 3+V 2*V th2)V H2V th2*V H2*V ref R 3R 1)R 2+V th1*V ref V 3*V th1R 3R 1)R 2+V th1*V H1*V ref V 4)V H1*V th1R R R Output Voltage Pins 5, 6GND CH2CH1V V V V V CC GNDInput −V SThe above figure shows the MC34161 configured as a positive and negative overvoltage detector. As the input voltage increases from ground, the LED will turn ‘ON’ when either −V S1 exceeds V 2, or V S2 exceeds V 4. With the dashed line output connection, the circuit becomes a positive and negative undervoltage detector.As the input voltage decreases from the peak towards ground, the LED will turn ‘ON’ when either V S2 falls below V 3, or −V S1 falls below V 1.For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:Figure 22. Positive and Negative Overvoltage DetectorV 1+R 3R 4(V th1*V ref ))V th1V 2+R 3R 4(V th1*V H1*V ref ))V th1*V H1V 3+(V th2*V H2)ǒR 2R 1)1ǓV 4+V th2ǒR 2R 1)1ǓR 3R 4+(V 1*V th1)(V th1*V ref )R 3R 4+(V 2*V th1)V H1)(V th1*V H1*V ref )R 2R 1+V 4V th2*1R 2R 1+V 3V th2*V H2*1−V S1V S2Output Voltage Pins 5, 6GND V CC GNDInput −V S1V 4V 3V 1V 2Input V S2The above figure shows the MC34161 configured as a positive and negative undervoltage detector. As the input voltage decreases toward ground, the LED will turn ‘ON’ when either V S1 falls below V 1, or −V S2 falls below V 3. With the dashed line output connection, the circuit becomes a positive and negative overvoltage detector. As the input voltage increases from the ground, the LED will turn ‘ON’ when either V S1 exceeds V 2, or −V S1 exceeds V 1.For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:Figure 23. Positive and Negative Undervoltage DetectorV 1+(V th1*V H1)ǒR 4R 3)1ǓV 2+V th1ǒR 43)1ǓV 3+R 1R 2(V th *V ref ))V th2V 4+R 1R 2(V th *V H2*V ref ))V th2*V H2R 4R 3+V 2V th1*1R 4R 3+V 1V th1*V H1*1R 1R 2+V 4)V H2*V th2V th2*V H2*V ref R 1R 2+V 3*V th2V th2*V refV 2V 1V 3V 4GND V CC GNDOutputVoltagePins 5, 6Input −V S2Input V S1The above figure shows the MC34161 configured as an overvoltage detector with an audio alarm. Channel 1 monitors input voltage V S while channel 2 is connected as a simple RC oscillator. As the input voltage increases from ground, the output of channel 1 allows the oscillator to turn ‘ON’ when V S exceeds V 2.For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:Figure 24. Overvoltage Detector with Audio AlarmV 1+(V th *V H )ǒR 2R 1)1ǓV 2+V th ǒR2R 1)1ǓR 2R 1+V 1V th *V H*1R 2R 1+V 2V th*1R R V 2V 1Input V SOutput Voltage Pins 5, 6GNDV CC GNDThe above figure shows the MC34161 configured as a microprocessor reset with a time delay. Channel 2 monitors input voltage V S while channel 1 performs the time delay function. As the input voltage decreases towards ground, the output of channel 2 quickly discharges C DLY when V S falls below V 1. As the input voltage increases from ground, the output of channel 2 allows R DLY to charge C DLY when V S exceeds V 2.For known resistor values, the voltage trip points are:For a specific trip voltage, the required resistor ratio is:Figure 25. Microprocessor Reset with Time DelayV 1+(V th *V H )ǒR 2R 1)1ǓV 2+V thǒR 2R 1)1ǓFor known R DLY C DLY values, the reset time delay is:R 2R 1+V 1V th *V H*1R 2R 1+V 2V th*1R DLYR R Input V SOutput Voltage Pin 6V 2V 1GNDV CC GNDV CC GNDOutput Voltage Pin 511 −V th V CCt DLY = R DLY C DLY InB+ Array RTNThe above circuit shows the MC34161 configured as an automatic line voltage selector. The IC controls the triac, enabling the circuit to function as a fullwave voltage doubler or a fullwave bridge. Channel 1 senses the negative half cycles of the AC line voltage. If the line voltage is less than150V, the circuit will switch from bridge mode to voltage doubling mode after a preset time delay. The delay is controlled by the 100 k W resistorand the 10 m F capacitor. If the line voltage is greater than 150V, the circuit will immediately return to fullwave bridge mode.Figure 26. Automatic AC Line Voltage SelectorFigure 27. Step−Down ConverterV in 12VOTestConditionsResults Line Regulation V in = 9.5 V to 24 V, I O = 250 mA 40 mV = ±0.1%Load Regulation V in = 12 V, I O = 0.25 mA to 250 mA 2.0 mV = ±0.2%Output Ripple V in = 12 V, I O = 250 mA 50 mVpp EfficiencyV in = 12 V, I O = 250 mA87.8%The above figure shows the MC34161 configured as a step−down converter. Channel 1 monitors the output voltage while Channel 2 performs the oscillator function. Upon initial powerup, the converters output voltage will be below nominal, and the output of Channel 1 will allow the oscillator to run. The external switch transistor will eventually pump−up the output capacitor until its voltage exceeds the input threshold of Channel 1. The output of Channel 1 will then switch low and disable the oscillator. The oscillator will commence operation when the output voltage falls below the lower threshold of Channel 1.ORDERING INFORMATIONDevice Package Shipping†MC34161D SOIC−898 Units/RailMC34161DG SOIC−8(Pb−Free)MC34161DR2SOIC−82500/T ape & ReelMC34161DR2G SOIC−8(Pb−Free)MC34161DMR2Micro84000/T ape & ReelMC34161DMR2G Micro8(Pb−Free)MC34161P PDIP−850 Units/RailMC34161PG PDIP−8(Pb−Free)MC33161D SOIC−898 Units/RailMC33161DG SOIC−8(Pb−Free)MC33161DR2SOIC−82500/T ape & ReelMC33161DR2G SOIC−8(Pb−Free)MC33161DMR2Micro84000/T ape & ReelMC33161DMR2G Micro8(Pb−Free)MC33161P PDIP−850 Units/RailMC33161PG PDIP−8(Pb−Free)NCV33161DR2*SOIC−82500/T ape & Reel†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D.*NCV: T low = −40°C, T high = +125°C. Guaranteed by design. NCV prefix is for automotive and other applications requiring site and control changes.PACKAGE DIMENSIONSNOTES:1.DIMENSION L TO CENTER OF LEAD WHEN FORMED PARALLEL.2.PACKAGE CONTOUR OPTIONAL (ROUND OR SQUARE CORNERS).3.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.DIM MIN MAX MIN MAX INCHESMILLIMETERS A 9.4010.160.3700.400B 6.10 6.600.2400.260C 3.94 4.450.1550.175D 0.380.510.0150.020F 1.02 1.780.0400.070G 2.54 BSC 0.100 BSC H 0.76 1.270.0300.050J 0.200.300.0080.012K 2.92 3.430.1150.135L 7.62 BSC 0.300 BSC M −−−10 −−−10 N0.76 1.010.0300.040__PDIP−8CASE 626−05ISSUE LPACKAGE DIMENSIONSSOIC−8 NBCASE 751−07ISSUE AHNOTES:1.DIMENSIONING AND TOLERANCING PERANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: MILLIMETER.3.DIMENSION A AND B DO NOT INCLUDEMOLD PROTRUSION.4.MAXIMUM MOLD PROTRUSION 0.15 (0.006)PER SIDE.5.DIMENSION D DOES NOT INCLUDE DAMBARPROTRUSION. ALLOWABLE DAMBARPROTRUSION SHALL BE 0.127 (0.005) TOTALIN EXCESS OF THE D DIMENSION ATMAXIMUM MATERIAL CONDITION.6.751−01 THRU 751−06 ARE OBSOLETE. NEWSTANDARD IS 751−07.DIMAMIN MAX MIN MAXINCHES4.805.000.1890.197MILLIMETERSB 3.80 4.000.1500.157C 1.35 1.750.0530.069D0.330.510.0130.020G 1.27 BSC0.050 BSCH0.100.250.0040.010J0.190.250.0070.010K0.40 1.270.0160.050M0 8 0 8N0.250.500.0100.020S 5.80 6.200.2280.244 YM0.25 (0.010)Z S X S____ǒmminchesǓSCALE 6:1*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering andMounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*PACKAGE DIMENSIONSMicro8t CASE 846A−02ISSUE GNOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: MILLIMETER.3.DIMENSION A DOES NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE BURRS. MOLD FLASH, PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED 0.15 (0.006) PER SIDE.4.DIMENSION B DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSION.INTERLEAD FLASH OR PROTRUSION SHALL NOT EXCEED 0.25 (0.010) PER SIDE.5.846A−01 OBSOLETE, NEW STANDARD 846A−02.*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*8XDIM A MIN NOM MAX MIN MILLIMETERS−−−− 1.10−−INCHES A10.050.080.150.002b 0.250.330.400.010c 0.130.180.230.005D 2.90 3.00 3.100.114E 2.903.00 3.100.114e 0.65 BSCL 0.400.550.700.016−−0.0430.0030.0060.0130.0160.0070.0090.1180.1220.1180.1220.026 BSC 0.0210.028NOM MAX 4.75 4.90 5.050.1870.1930.199H EON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATIONMicro8 is a trademark of International Rectifier.。
cc1150中文
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目录 1 缩写词 ......................................................................................................................................... 2 2 绝对最大等级 ............................................................................................................................. 5 3 工作条件 ..................................................................................................................................... 5 4 电气规范 ..................................................................................................................................... 5 5 常规特性 ..................................................................................................................................... 6 6 RF 传输环节 .............................................................
UPSD3315AV-24T1中文资料
1/8DATA BRIEFINGJune 2002Complete data available on Data-on-Disc CD-ROM or at .µPSD3200FAMILYFlash Programmable System Devicewith 8032Microcontroller CoreFEATURES SUMMARYs The µPSD3200Family combines a Flash PSD architecture with an 8032microcontroller core The µPSD3200Family of Flash PSDs features dual banks of Flash memory,SRAM,general purpose I/O and programmable logic,supervi-sory functions and access via USB,I 2C,ADC,DDC and PWM channels,and an on-board 8032microcontroller core,with two UARTs,three 16-bit Timer/Counters and one External Interrupt.As with other Flash PSD families,the µPSD3200Family is also in-system program-mable (ISP)via a JTAG ISP interface.sLarge 8KByte SRAM with battery back-up optionsDual bank Flash memories–128KByte or 256KByte main Flash memory –32KByte secondary Flash memorysContent Security–Block access to Flash memorysProgrammable Decode PLD for flexible address mapping of all memories.s High-speed clock standard 8032core (12-cycle)s USB Interface (µPSD3234A-40U6only)s I 2C interface for peripheral connections s Five Pulse Width Modulator (PWM)channels s Standalone Display Data Channel (DDC)s Six I/O ports with up to 50I/O pins s 3000gate PLD with 16macrocells s Supervisor functionss In-System Programming (ISP)via JTAG s Zero-Power Technology sSingle Supply Voltage –4.5to 5.5V –3.0to 3.6VFigure 1.PackagesTQFP52(T)TQFP80(U)µPSD3200FAMILY2/8SUMMARY DESCRIPTION s Dual bank Flash memories–Concurrent operation,read from memory one while erasing and writing the other.In-Appli-cation Programming (IAP)for remote updates –Large 128KByte or 256KByte main Flash memory for application code,operating sys-tems,or bit maps for graphic user interfaces –Large 32KByte secondary Flash memory di-vided in small sectors.Eliminate external EE-PROM with software EEPROM emulation –Secondary Flash memory is large enough for sophisticated communication protocol (USB)during IAP while continuing critical system taskssLarge SRAM with battery back-up option –8KByte SRAM for RTOS,high-level languag-es,communication buffers,and stackssProgrammable Decode PLD for flexible address mapping of all memories–Place individual Flash and SRAM sectors on any address boundary –Built-in page register breaks restrictive 8032limit of 64KByte address space –Special register swaps Flash memory seg-ments between 8032“program”space and “data”space for efficient In-Application Pro-grammingsHigh-speed clock standard 8032core (12-cycle)–40MHz operation at 5V,24MHz at 3.3V –Two UARTs with independent baud rate,three 16-bit Timer/Counters and two External InterruptssUSB Interface (µPSD3234A-40U6only)–Supports USB 1.1Slow Mode (1.5Mbit/s)–Control endpoint 0and interrupt endpoints 1and 2sI 2C interface for peripheral connections –Capable of master or slave operation sFive Pulse Width Modulator (PWM)channels –Four 8-bit PWM units–One 16-bit PWM unitsStandalone Display Data Channel (DDC)–For use in monitor,projector,and TV applica-tions –Compliant with VESA standards DDC1and DDC2B –Eliminate external DDC PROM s Six I/O ports with up to 50I/O pins–Multifunction I/O:GPIO,DDC,I 2C,PWM,PLD I/O,supervisor,and JTAG –Eliminates need for external latches and logics3000gate PLD with 16macrocells–Create glue logic,state machines,delays,etc.–Eliminate external PALs,PLDs,and 74HCxx –Simple PSDsoft Express software ...FreesSupervisor functions–Generates reset upon low voltage or watch-dog time-out.Eliminate external supervisor device –Reset In pinsIn-System Programming (ISP)via JTAG –Program entire chip in 10-25seconds with no involvement of 8032–Allows efficient manufacturing,easy product testing,and Just-In-Time inventory –Eliminate sockets and pre-programmed parts –Program with FlashLINK TM cable and any PCsContent Security–Programmable Security Bit blocks access of device programmers and readerssZero-Power Technology–Memories and PLD automatically reach standby current between input changessPackages –52-pin TQFP–80-pin TQFP:allows access to 8032address/data/control signals for connecting to external peripherals3/8µPSD3200FAMILYFigure 2.µPSD3200Family Functional ModulesAI066194Channel ADC1Mb or 2Mb Main FlashDecode PLD64Kb SRAMCPLD -16MACROCELLSJTAG ISP Port 1Port 32UARTS Interrupt3Timer /Counters256Byte SRAM8051Core Port 3,UART,Intr,Timers,I2CPSD Internal Bus8032Internal BusUSB &TransceiverPort 1,Timers and 2nd UART and ADCDDC w/256Byte SRAM PWM 5Channels Port 4PWM and DDCDedicated USB PinsPort A &B,PLD I/O and GPIOPort D GPIO Port C,JTAG,PLD I/O and GPIOVCC,GND,XTAL256Kb Secondary FlashDedicated PinsI2CPort 0,2Ext.BusReset LogicLVD &WDTBus InterfaceResetD0-D7A0-A15RD,PSEN WR,ALEPage Register PSD MODULEMCU MODULEµPSD3200FAMILY4/8Table 1.80-Pin Package Pin DescriptionNote:PSD Port A and MCU Address/Data bus are added for 80-pin deviceSignal Name In/Out FunctionBasicAlternateAD7-AD0I/O Multiplexed Address/Data bus A11-A8I/O External Address BusRxD2-RxD1I/O General I/O port pinsUART Receive TxD2-TxD1I/O UART TransmitINT1-INT0I/O Interrupt inputs /timer gate controls T2-T0I/O Counter inputsSDA1-SDA2I/OI 2C Bus serial data I/O /DDC interface SCL1-SCL2I/O I 2C Bus clock I/OVSYNC I/O VSYNC input for DDC interface T2EX I/O Timer 2Trigger input ADC3-ADC0I/O ADC Channels inputPWM4-PWM0I/O 8-bit Pulse Width Modulation outputsUSB-,USB+I/O USB I/OAVREF O Reference Voltage input for ADC RD_O Read signal,external bus WR_O Write signal,external bus PSEN_O PSEN signal,external bus ALE O Address Latch signal,external bus RESET_I Active low reset inputXTAL1I Oscillator input pin for system clock XTAL2OOscillator output pin for system clockPA7-P A0I/O General I/O port pins1.PLD Macro-cell outputs2.PLD inputstched Address Out (A0-A7)4.Peripheral I/O mode PB7-PB0I/O General I/O port pins1.PLD Macro-cell outputs2.PLD inputstched Address Out (A0-A7)PC7-PC0I/O General I/O port pins1.PLD Macro-cell outputs2.PLD inputs3.SRAM stand by voltage input (VSTBY)4.JTAG Interface (TDI,TDO,TMS,TCK,TSTA T,TERR)5.SRAM battery-on indicator (PC4)PD2-PD1I/O General I/O port pin1.PLD I/O2.Clock input to PLD and APD3.Chip select to PSD ModuleµPSD3200FAMILY Figure3.TQFP52ConnectionsNote:NC=Not ConnectedPU=Pull-up resistor required(2kΩfor3V devices,7.5kΩfor5V devices)39P1.5/ADC1 38P1.4/ADC0 37P1.3/TXD1 36P1.2/RXD1 35P1.1/T2X 34P1.0/T233V CC32XTAL231XTAL130P3.7/SCL1 29P3.6/SDA1 28P3.5/T127P3.4/T0PD1 PC7 PC6 PC5 PU PC4 NC V CC GND PC3 PC2 PC1 PC0 12345678910111213525154948474645444342414PBPB1PB2PB3PB4PB5VREFGNDRST-INPB6PB7ADC3ADC21415161718192212223242526P4.7/PWM4P4.6/PWM3P4.5/PWM2P4.4/PWM1P4.3/PWMGNDP4.2/DDCVSYNCP4.1/DDCSCLP4./DDCSDAP3./RXDP3.1/TXDP3.2/EXINTP3.3/EXINT1AI05790B5/8µPSD3200FAMILY6/8Figure 4.TQFP80ConnectionsNote: 1.NC =Not ConnectedB-needs a pull-up resistor (see the description of the USB function)60P1.5/ADC1 59P1.4/ADC0 58P1.3/TXD1 57P2.3,A11 56P1.2/RXD1 55P2.2,A10 54P1.1/T2X 53P2.1,A9 52P1.0/T2 51P2.0,A8 50V CC 49XTAL2 48XTAL1 47P0.7,AD7 46P3.7/SCL1 45P0.6,AD6 44P3.6/SDA1 43P0.5,AD5 42P3.5/T1 41P0.4,AD4PD2 P3.3/EXINT1 PD1 PD0,ALE PC7 PC6 PC5 USB- PC4 USB+ NC V CC GND PC3 PC2 PC1 NC P4.7/PWM4 P4.6/PWM3 PC0123 45 6 7 8 9 10 11 12 13 14 15 16 1718 192080 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61P B 0P 3.2/E X I N T 0P B 1P 3.1/T X DP B 2P 3.0/R X DP B 3P B 4P B 5N CV R E FG N DR E S E T -I NP B 6P B 7R D ,C N T L 1P 1.7/A D C 3P S E N ,C N T L 2W R ,C N T L 0P 1.6/A D C 22122232425262728293031323334353637383940P A 7 P A 6 P 4.5/P W M 2 P A 5 P 4.4/P W M 1 P A 4 P 4.3/P W M 0 P A 3 G N D P 4.2/D C C V S Y N C P 4.1/D D C S C L P A 2 P 4.0/D D C S D A P A 1 P A 0 A D 0,P 0.0 A D 1,P 0.1 A D 2,P 0.2 A D 3,P 0.3 P 3.4/T 0AI05791µPSD3200FAMILY PART NUMBERINGTable2.Ordering Information SchemeFor a list of available options(speed,package, etc.)or for further information on any aspect of this device,please contact your nearest ST Sales Of-fice.Example:uPSD3234B V–24U6TDevice TypeuPSD=Microcontroller PSDFamily3=8032corePLD Size2=16Macrocells3=32MacrocellsSRAM Size1=16Kbit3=64Kbit5=256KbitMain Flash Memory Size3=1Mbit4=2Mbit5=4MbitIP MixA=USB,I2C,PWM,DDC,ADC,(2)UARTsSupervisor(Reset Out,Reset In,LVD,WD)B=I2C,PWM,DDC,ADC,(2)UARTsSupervisor(Reset Out,Reset In,LVD,WD)Operating Voltageblank=V CC=4.5to5.5VV=V CC=3.0to3.6VSpeed24=24MHz40=40MHzPackageT=52-pin TQFPU=80-pin TQFPTemperature Range1=0to70°C(commercial)6=–40to85°C(industrial)OptionT=Tape&Reel Packing7/8µPSD3200FAMILYInformation furnished is believed to be accurate and reliable.However,STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use.No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics.Specifications mentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.The ST logo is registered trademark of STMicroelectronicsAll other names are the property of their respective owners©2002STMicroelectronics-All Rights ReservedSTMicroelectronics group of companiesAustralia-Brazil-Canada-China-Finland-France-Germany-Hong Kong-India-Israel-Italy-Japan-Malaysia-Malta-Morocco-Singapore-Spain-Sweden-Switzerland-United Kingdom-United States.8/8。
STS321XXXBXX1 TVS 电路保护器数据手册说明书
STS321XXXBXX1 TVS Diode ESD suppressorProduct features• 400 Watts peak pulse power per line (t P =8/20 µs)• Protects one bi-directional I/O line• Low clamping voltage• Low leakage current• Meets moisture sensitivity level (MSL) 3• Molding compound flammability rating: UL 94V-0• Termination finish: Tin Applications• Cellular handsets and accessories• Microprocessor based equipment• Poratble electronics• Notebooks, desktops, and servers• Portable instrumentation• Peripherals• PagersEnvironmental compliance and general specifications• IEC61000-4-2 (ESD)• Up to ±30 kV (air)• Up to ±30 kV (contact)• IEC61000-4-5 (Lightning) Up to 22 A (8/20 µs) Pb HALOGENHFFREEST S32 1 033 B 401FamilyPackage (S32- SOD-323)Number of channels (1-1)Operating voltage (033- 3.3 V)Ordering part numberBi/Uni directional (B- Bi)Capacitance (401- 40 pF)Pin out/functional diagram2Technical Data 11151Effective September 2020STS321XXXBXX1 TVS Diode ESD suppressor/electronicsParameterSymbolValueUnitPeak pulse power dissipation on 8/20 μs waveform P pp 400W ESD per IEC 61000-4-2 (Air)ESD per IEC 61000-4-2 (Contact)V ESD +/-30+/-30kVLead soldering temperature T L +260 (10 seconds)°C Operating junction temperature range T J -55 to +125°C Storage temperature rangeT STG-55 to +150°CElectrical characteristics (+25 °C)STS321033B401ParameterTest conditionMinimumTypicalMaximumSymbol (Units)Reverse working voltage --- 3.3V RWM (V)Reverse breakdown voltage I T = 1 mA 3.6--V BR (V)Reverse leakage current V RWM = 3.3 V --1I R (μA)Clamping voltage I PP = 30 A, t p = 8/20 μs --15V C (V)Junction capacitanceV RWM = 0 V, f = 1 MHz-4060C J (pF)STS321050B331ParameterTest condition Minimum Typical Maximum Symbol (Units)Reverse working voltage ---5V RWM (V)Reverse breakdown voltage I T = 1 mA 5.5--V BR (V)Reverse leakage current V RWM = 5 V --1I R (μA)Clamping voltageI PP = 1 A, t p = 8/20 μs I PP = 22 A, t p = 8/20 μs ----918V C (V)V C (V)Junction capacitanceV RWM = 0 V, f = 1 MHz-3375C J (pF)STS321120B301ParameterTest condition Minimum Typical Maximum Symbol (Units)Reverse working voltage ---12V RWM (V)Reverse breakdown voltage I T = 1 mA 13.3--V BR (V)Reverse leakage current V RWM = 12 V --1I R (μA)Clamping voltageI PP = 1 A, t p = 8/20 μs I PP = 12 A, t p = 8/20 μs ----1933V C (V)V C (V)Junction capacitanceV RWM = 0 V, f = 1 MHz-3045C J (pF)Absolute maximum ratings(+25 °C, RH=45%-75%, unless otherwise noted)3Technical Data 11151Effective September 2020STS321XXXBXX1TVS Diode ESD suppressor /electronics STS321150B351ParameterTest condition Minimum Typical Maximum Symbol (Units)Reverse working voltage ---15V RWM (V)Reverse breakdown voltage I T = 1 mA 16.7--V BR (V)Reverse leakage current V RWM = 15 V --1I R (μA)Clamping voltageI PP = 1 A, t p = 8/20 μs I PP = 10 A, t p = 8/20 μs ----2333V C (V)V C (V)Junction capacitanceV RWM = 0 V, f = 1 MHz-3540C J (pF)STS321240B301ParameterTest condition Minimum Typical Maximum Symbol (Units)Reverse working voltage ---24V RWM (V)Reverse breakdown voltage I T = 1 mA 26.7--V BR (V)Reverse leakage current V RWM = 24 V --1I R (μA)Clamping voltageI PP = 1 A, t p = 8/20 μs I PP = 8 A, t p = 8/20 μs ----4050V C (V)V C (V)Junction capacitanceV RWM = 0 V, f = 1 MHz-3035C J (pF)STS321360B141ParameterTest condition Minimum Typical Maximum Symbol (Units)Reverse working voltage ---36V RWM (V)Reverse breakdown voltage I T = 1 mA 404247.6V BR (V)Reverse leakage current V RWM = 36 V --0.2I R (μA)Clamping voltageI PP = 1 A, t p = 8/20 μs I PP = 6 A, t p = 8/20 μs --45606070V C (V)V C (V)Junction capacitanceV RWM = 0 V, f = 1 MHz-1425C J (pF)4Technical Data 11151Effective September 2020STS321XXXBXX1 TVS Diode ESD suppressor/electronicsMechanical parameters, pad layout- mm/inchesMillimetersInches DimensionMinimumMaximumMinimumMaximumA 1.60 1.800.0630.071B 0.250.350.0100.014C 2.50 2.750.0980.108D 0.00 1.000.0000.039E 1.20 1.400.0470.055F 0.080.150.0030.006L 0.475 REF 0.019 REF L10.250.400.0100.016H 0.000.100.0000.004P 3.00 0.118P10.800.031Part marking(STS321033B401)(STS321360B141)(STS321240B301)(STS321150B351)(STS321120B301)(STS321050B331)5Technical Data 11151Effective September 2020STS321XXXBXX1TVS Diode ESD suppressor /electronics Packaging information mm/inchesDrawing not to scale.Supplied in tape and reel packaging, 3,000 parts per 7” diameter reel (EIA-481 compliant)6Technical Data 11151Effective September 2020STS321XXXBXX1 TVS Diode ESD suppressor/electronicsRatings and V-I characteristic curves(+25 °C unless otherwise noted)V- I curve characteristics (Bi-directional)Pulse waveform (8/20 µs)Pulse derating curve ESD waveformEatonElectronics Division 1000 Eaton Boulevard Cleveland, OH 44122United States/electronics© 2020 EatonAll Rights Reserved Printed in USAPublication No. 11151 BU-MC20133September 2020Technical Data 11151Effective September 2020STS321XXXBXX1TVS Diode ESD suppressor Life Support Policy: Eaton does not authorize the use of any of its products for use in life support devices or systems without the express writtenapproval of an officer of the Company. Life support systems are devices which support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also reserves the right to change or update, without notice, any technical information contained in this bulletin.Solder reflow profileT e m p e r a t u r eT LT PEaton is a registered trademark.All other trademarks are property of their respective owners.Follow us on social media to get the latest product and support information.Reference J-STD-020Profile featureStandard SnPb solderLead (Pb) free solderPreheat and soak • Temperature min. (T smin )100 °C 150 °C • Temperature max. (T smax )150 °C 200 °C • Time (T smin to T smax ) (t s )60-120 seconds 60-120 seconds Ramp up rate T L to T p 3 °C/ second max. 3 °C/ second max.Liquidous temperature (T l ) Time (t L ) maintained above T L183 °C60-150 seconds 217 °C60-150 seconds Peak package body temperature (T P )*Table 1Table 2Time (t p )* within 5 °C of the specified classification temperature (T c )20 seconds*30 seconds*Ramp-down rate (T p to T L ) 6 °C/ second max. 6 °C/ second max.Time 25 °C to peak temperature6 minutes max.8 minutes max.* Tolerance for peak profile temperature (T p ) is defined as a supplier minimum and a user maximum.Table 1 - Standard SnPb solder (T c )Package thicknessVolume mm3 <350Volume mm3 ≥350<2.5 mm 235 °C 220 °C ≥2.5 mm220 °C220 °CTable 2 - Lead (Pb) free solder (T c )Package thicknessVolume mm 3 <350Volume mm 3350 - 2000Volume mm 3 >2000<1.6 mm 260 °C 260 °C 260 °C 1.6 – 2.5 mm 260 °C 250 °C 245 °C >2.5 mm250 °C245 °C245 °C。
中国电缆有限公司电子产品 电气产品 中文名字说明书
5Medium Voltage Motor ControlAssembliesArc Resistant AMPGARD5.1AMPGARD Motor ControlProduct Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V3-T5-2Application Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V3-T5-2Features, Benefits and Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V3-T5-3Standards and Certifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V3-T5-4Product Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V3-T5-5Technical Data and Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . .V3-T5-655.1Medium Voltage Motor Control AssembliesAMPGARD Motor ControlAMPGARD Motor Control Assembly with Main Breaker, SC 9000 AFD,RVSS and Two-High FVNRContentsDescription PageFeatures, Benefits and Functions. . . . . . . . . . . . . .V3-T5-3Standards and Certifications . . . . . . . . . . . . . . . . .V3-T5-4Product Selection. . . . . . . . . . . . . . . . . . . . . . . . . .V3-T5-5Technical Data and Specifications . . . . . . . . . . . . .V3-T5-6Product DescriptionEaton’s AMPGARD® mediumvoltage starter family providesflexibility never beforeavailable. Rated at 2200–15,000 volts up to 8000 hp,they are the first startersdesigned as integrated,complete units preciselymatched to motor ratings,and engineered to providecomponent-to-componentcircuitry and front accessi-bility of all componentsand terminals. AMPGARDstarters are used in a variety ofindustrial process applications,such as pulp and paper,petrochemical, HVAC (chillers),where proper control andprotection of the motor andsystem are critical to theuser. AMPGARD has beenthe industry leader in mediumvoltage motor control for over60 years in these applications,and our starters have beendesigned with that experiencebehind them.Application DescriptionAMPGARD starters areequipped with current limitingpower fuses to interrupt theshort-circuit faults shownbelow. The contactor andfuses are completelycoordinated.Squirrel Cage Motor Starters:Starters for squirrel cagemotors are available in full orreduced voltage designs in allratings. Full voltage startersare available one-high or two-high in a factory-assembledstructure. Electromechanicalreduced voltage starters areavailable in either reactor orautotransformer type. Bothprovide closed transitionfrom reduced to full voltage.See table on Page V3-T5-6for application data.SC 9000 Adjustable Frequency Drive (AFD)This newest member ofthe AMPGARD family wasdesigned for maximumflexibility in the control ofmedium voltage motors.The SC 9000™ combinesinnovative technology withthe reliable design andconstruction the industryhas come to expect of theAMPGARD products. Ratedat 2400 volts up to 2500 hpand 4160 volts up to 4500 hp,the SC 9000 delivers thesmallest footprint in theindustry. The standard24-pulse phase shiftingisolating transformer andrectifier minimizes anyharmonic noise sent backon to the supply.The SC 9000 is a fullyintegrated, three-line-in—three-line-out, plug-and-playproduct that includes highlyreliable AMPGARD mediumvoltage components onthe input (isolation switch,power fuses and SL vacuumcontactor), isolatingtransformer, rectifier, inverterand controls. The SC 9000uses the same keypad andprogramming software as theEaton SVX9000 line of lowvoltage drives for a reliable,easy-to-use system thatdoes not require time spentin learning new software.In addition, the SC 9000can interface with manycontrol systems, suchas Modbus®, Ethernet,DeviceNet™, CANbus®and PROFIBUS® DP.In an industry first, theSC 9000 can be placed in alineup with other AMPGARDand Eaton motor controlproducts on a common busknown as AMPGARDMedium Voltage IntegratedControl Gear. Now, all typesof motor starters, load breakswitches, integrated AFDs,AFD synchronous transfercontrol, AFD bypasses, andmain and feeder breakers canbe integrated into a single line.The Integrated Control Gearcapabilities and reliabledesign make the SC 9000the perfect choice for speedcontrol in industries such aspetrochemical, water/wastewater, utility, HVAC, pulp andpaper, and many more.55.1Medium Voltage Motor Control AssembliesAMPGARD Motor ControlReduced Voltage Solid-State Starters: Offered as an alternative to traditional reactor or auto-transformer type reduced voltage starter, the AMPGARD RVSS allows the user to fine-tune starting parameters to meet a wide variety of unique load conditions. The onboarduser-friendly microprocessor provides the ability to select the proper combination of initial current, maximum current and ramp time,resulting in smooth, stepless load acceleration whileminimizing mechanical shock to system components.The AMPGARD RVSS is available as a standalonestarter or can be incorporated into a lineup with other AMPGARD starters. Adding to an existing AMPGARD installation is easy via asimple splice kit. Starters are available in 400 ampere and 720 ampere frame sizes.Arc-Resistant AMPGARD: When specified, AMPGARD is available in special arc-resistant construction. Two ratings are available: 30 kA and 50 kA. Both designs have been tested and verified to meet the requirements of IEEE ® C37.20.7 for Type 2B construction. Type 2B construction is defined as arc-resistant at front, back and sides of the enclosure with the low voltagecompartment door open. All types of 400 ampere and 800 ampere starters, as well as 24-inch wide incoming cable sections are available in arc-resistant construction. Main Breaker AMPGARD, SC 9000 AFD, LBS Load Break Switches are not available in arc-resistant construction. Consult Eaton for more details.Main Breaker AMPGARD (MBA): The MBA is the industry’s first trulyintegrated medium voltage metal-enclosed main breaker and starter assembly combination.The MBA comprises a metal-enclosed drawout vacuum circuit breaker section that is integrally connected via main bus to the balance of the AMPGARD starter assembly it protects.The main bus configuration is in the same top-mounted location as on all AMPGARD assemblies, allowing for ease of installation with adjacent sections and addition for future sections.Front aligned, rear aligned, or front and rear aligned with back-to-back starters are available.The main breaker is theindustry-leading Type VCP-W drawout vacuum circuit breaker, which provides the performance our customers expect.Lead-time is dramatically reduced, typically 50% less than the industry norm. Our single-source approach has cut delivery time from months to weeks. The extended waiting period between order placement and delivery has been eliminated.Other Motor Starters: Starters for wound rotor and multispeed motors are available. However, eachapplication must be reviewed for proper motor protection and operation. Refer to the factory for pricing and equipment details.Features, Benefits and FunctionsPersonnel Safety: A positive mechanical isolating switch with visible disconnect completely grounds and isolates the starter from the line connectors with a mechanically driven isolating shutter, leaving no exposed high voltage. Additional safety features include:●Isolated cable entry for added safety. The starters and cables are completely isolated from each other by steel barriers●All new low voltage wireway. Low voltage wire is isolated from the medium voltage compartment, andcustomer terminal blocks are accessible through the low voltage control panel ●Easily accessible low voltage panel completely isolated from the medium voltage compartment that offers generous device mounting space●Standard viewing window for visual verification of isolation switch operation ●Optional remote operator for isolation switch allows user to open and close switch while remaining outside the equipment flash boundaryEase of Installation: Current limiting fuses, contactorassembly and isolating switch assembly are easily removed from the enclosure; line and load terminals are completely accessible from the front. Standard structures are 36.00 W x 92.00 H x 30.00 in D (914.4 W x 2336.8 H x 762.0 mm D) including a 12.00 in (304.8 mm) top-mounted main bus compartment. The main bus compartment is top, side and front accessible, making maintenance and lineup extensions easy.Ease of Maintenance: All components are front accessible, facilitating routine inspection or parts replacement. Isolation switch life is 10,000 operations.Vacuum Contactor: The Type SL vacuumcontactors were designed and engineered specifically for use in AMPGARD starters. They are self-supporting, compact, bolt-in or stab-in three-pole contactors. The contactors utilize a solid-state control board, allowing the user maximum flexibility to change control voltages and dropout times in the field, simply by adjusting DIP switch settings. To permit application matching of the starter to the motor rating,contactors are available for2200–7200 volts at ratings of 400 and 800 amperes, and 15 kV at 250 amperes.The 400 ampere contactor interrupting rating is the highest in the industry at 8500 amperes, allowing for higher levels of coordination with power fuses. The 800 ampere contactor has an interrupting rating of 12,500 amperes, also the highest in the industry.Note: For full starter/contactor horsepower ratings and other technical data (including power fuse coordination), refer to Tab 13, Medium Voltage Power Contactors.Motor Protective Relay: When a motor protective relay is required, the AMPGARD starters are provided with the MP-3000 or MP-4000 microprocessor-based motor protective relay as standard. This package offers benefits like a 20-cycle voltage sag ride-through, UL 1053 certification for ground fault sensing that is internal to the relay, arm/disarm capability, a drawout case option, Intel-I-Trip overload protection for custom curve setting toprecisely match your motor’s requirements, and optional PowerNet™ or Modbus communications capability.15 kV Starter: A 15 kV rated AMPGARD starter is available with the same features and capabilities as described for the 7.2 kV rated starter. The starter is supplied with a 250 ampere vacuum contactor and three power fuses (maximum 250E) for motors rated to 5000 horsepower. These starters may be supplied with the Eaton InsulGard™ relay for partial discharge detection.55.1Medium Voltage Motor Control AssembliesAMPGARD Motor ControlLow Voltage and High Voltage CompartmentsIsolated Low Voltage Control PanelOptional Stab-In Contactor, Bolted Main Fusesand Optional Blown Fuse IndicatorMP-3000(when specified)1/4-Turn Door LatchTop and BottomLow VoltageAccess DoorDP-4000 Meter(when specified)Indicating Lights Start/Stop Pushbutton(when specified)Note: Isolation Switch MechanismLocks Medium Voltage DoorClosed in ON PositionIsolation SwitchViewing WindowStandards andCertificationsUL and CSA CertificationAMPGARD starters aredesigned, assembled andtested to meet all applicablestandards. AMPGARD meetsANSI, NEMA® and IECstandards, and is UL, CSA,cUL® and KEMA third-partycertified. The majorcomponents, i.e., contactor,isolating switch, fuses,MP-3000, MP-4000,IQ DP-4000 and IQ Analyzer,are UL recognized.UL or CSA labeling of aspecific starter requiresreview to ensure that allrequested modifications andauxiliary devices meet theappropriate standards. Referto factory when specified.Contact Eaton for detailsand part numbers forCSA-approved units.Seismic CertificationAMPGARD starters areseismically tested andseismically qualified, andexceed requirements of boththe International BuildingCode (IBC) and CaliforniaBuilding Code Title 24.Reference Information●AMPGARD BrochureBR02003002E●AMPGARD RVSS BrochureBR02003001E●Technical DataTD02003001E●Renewal PartsRP.48J.01.T.E●AMPGARD Main BreakerPA48D01SE●15 kV AMPGARDTechnical DataTD02003002E●Remote OperatorPA02003002E●Arc-Resistant AMPGARDSA02003003E●720A RVSSPA02000001E55.1Medium Voltage Motor Control AssembliesAMPGARD Motor ControlProduct SelectionAMPGARD RVSSMain Breaker AMPGARD15 kV StarterDescription Catalog Number 400 ampere RVSS SP10B4B 720 ampere RVSSSP10B8SDescriptionCatalog Number 1200A, 250 MVA Main Breaker BLR122000A, 350 MVA Main Breaker BLR233000A, 350 MVA Main BreakerBLR33DescriptionCatalog Number 13.8 kV FVNR Starter S210B2SBB 13.8 kV Autotransformer StarterS610B2SBBAMPGARD RVSSMain Breaker AMPGARD15 kV Starter with InsulGard55.1Medium Voltage Motor Control AssembliesAMPGARD Motor ControlTechnical Data and SpecificationsMain Breaker AMPGARDStarting CharacteristicsInterrupting Capacity—kVANote1Factory set on 65% tap.RatingsDescription Amperes Volts HorsepowerMain breaker1200, 2000 and 30002200 to 7200—Starters400 and 8002200 to 7200Up to 8000Starters25010,000–15,000Up to 5000StarterType% MotorVoltage% MotorCurrent% LineCurrent% Torque Reactor Reduced Voltage80%tap8080806465% tap ➀6565654250%tap50505025 Autotransformer Reduced Voltage80%tap8080676465% tap16565454250%tap50502825NEMA Class E2Starter MaximumHorsepower2300 Volt4600 Volt6600 Volt3000200,000——5000 1,190,000——5500—400,000—8000——570,000。
Schneider Electric XPSATR1153C 安全自动化产品数据册说明书
i s c l a i m e r: T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n sProduct data sheetCharacteristicsXPSATR1153Cmodule XPSATR - Emergency stop and protective guard - 24V DC, time delay 3sProduct availability : Stock - Normally stocked in distribution facilityPrice* : 600.00 USDMainRange of productPreventa Safety automation Product or component type Preventa safety module Safety module name XPSATRSafety module application For emergency stop and protective guard applications Function of moduleEmergency stop monitoring 1-channel wiring Emergency stop monitoring 2-channel wiring Protective guard monitoringSafety levelCan reach SILCL 3 conforming to EN/IEC 62061 time delay safety outputsCan reach PL e/category 4 conforming to EN/ISO 13849-1 instantaneous safety outputs Safety reliability dataMTTFd = 85 years conforming to EN/ISO 13849-1PFHd = 2E-9 1/h conforming to EN/IEC 62061DC > 99 % conforming to EN/ISO 13849-1Type of startAutomatic ManualConnections - terminalsCage clamp terminals, removable terminal blockCage clamp terminals, removable terminal block, clamping capacity: 1 x 0.25...1 x 2.5 mm² flexible cable with cable end, with bezelCage clamp terminals, removable terminal block, clamping capacity: 1 x 0.25...1 x 2.5 mm² flexible cable with cable end, without bezelCage clamp terminals, removable terminal block, clamping capacity: 1 x 0.2...1 x 2.5 mm² solid or flexible cable without cable endCage clamp terminals, removable terminal block, clamping capacity: 2 x 0.5...2 x 1 mm² flexible cable with cable end, with bezelOutput typeRelay instantaneous opening 3 NO, volt-free Relay time delay opening 3 NO, volt-free Number of additional circuits 1 NC[Us] rated supply voltage24 V DC (- 15...10 %)ComplementarySynchronisation time between inputs1 sPower consumption in W 2.8 W DCInput protection type Internal, electronicTime delay range0.1...3 sControl circuit voltage24 V DCBreaking capacity 3 A at 24 V (DC-13) for relay outputOutput thermal current 6 A instantaneous and time delay outputs[Ith] conventional free air thermal8 AcurrentAssociated fuse rating 6 A fuse type gG for instantaneous and time delay outputs conforming to EN/IEC 60947-5-1, DINVDE 0660 part 200Minimum output current10 mA relay outputMinimum output voltage17 V relay outputResponse time on input open<= 20 ms[Ui] rated insulation voltage300 V[Uimp] rated impulse withstand voltage 4 kV overvoltage category III conforming to EN/IEC 60947-5-1, DIN VDE 0110 parts 1 & 2 Local signalling 5 LEDsMounting support35 mm symmetrical DIN railProduct weight0.73 lb(US) (0.33 kg)EnvironmentStandards EN 60204-1EN/IEC 60947-5-1EN/IEC 61496-1EN/ISO 13849-1EN 62061EN 50156-1Product certifications CSATÜVULIP degree of protection IP20 (terminals) conforming to EN/IEC 60529IP40 (enclosure) conforming to EN/IEC 60529Ambient air temperature for operation-13...131 °F (-25...55 °C)Ambient air temperature for storage-13...167 °F (-25...75 °C)Ordering and shipping detailsCategory22477 - SAFETY MODULES (PREVENTA)Discount Schedule SAF2Nbr. of units in pkg.1Package weight(Lbs)0.77000000000000002Returnability NCountry of origin DEContractual warrantyWarranty period18 months。
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RD151TS3316ARP, RD151TS3326ARP Spread Spectrum Clock for EMI SolutionREJ03D0797-0100Rev.1.00May 11, 2006 DescriptionRD151TS3316ARP and RD151TS3326ARP is a high-performance Spread Spectrum Clock generator. It is suitable for EMI solution of electric systems.Features• Supports 40 MHz to 80 MHz operations. Multiple rate (XIN: SSCOUT) = 1: 1Input frequency 40 MHz to 80 MHz• Spread spectrum modulation ; RD151TS3316ARP : ±1.5%, ±0.5% (Central spread modulation)RD151TS3326ARP : –3.0%, –1.0% (Down spread modulation)Key Specifications• Supply voltages: V DD = 3.3 V ±0.3 V• Cycle to cycle jitter = ±100 ps typ.• Clock output duty cycle = 50 ±5%• Output slew rate = 0.7 V/ns typ.• Ordering InformationPart Name Package TypePackage Code(Previous Code)PackageAbbreviationTaping Abbreviation(Quantity)RD151TS3316ARPH0 RD151TS3326ARPH0 SOP-8 pin(JEDEC)PRSP0008DD-C(FP-8DCV)RP H (2,500 pcs / Reel)Block DiagramPin ArrangementPin DescriptionsPin name No. Type DescriptionpinGNDGND 5Groundpin.supplyPowerVDD 8PowerNC 3 NC Don’t connect any VDD or GND.SSCOUT 6 Output Spread spectrum modulated clock output.input.OscillatorXIN 1InputOscillatoroutput.OutputXOUT 2InputSEL 7SSC% mode select pin. LVCMOS level input.Pull-down by internal resistor (350 kΩ).InputSSN 4SSC ON/OFF select pin. LVCMOS level input.Pull–down by internal resistor (350 kΩ).SSC Function TableSTB SEL RD151TS3316ARP(Central spread) RD151TS3326ARP(Down spread)0 0 ±1.5%*1 –3.0%*10 1 ±0.5% –1.0%1 0OFF OFF1 1Note: 1. ±1.5% (TS3316ARP) / -3.0%(TS3326ARP) SSC is selected for default by internal pull-down resistors.Clock Frequency TableMultiply rate (XIN: SSCOUT)SSCOUT(MHz)PRODUCT XIN(MHz)RD151TS3316ARP 40 to 80 40 to 80 1:1RD151TS3326ARP 40 to 80 40 to 80 1:1Absolute Maximum RatingsItem Symbol Ratings Unit ConditionsSupply voltage V DD –0.5 to 4.6 V Input voltage V I –0.5 to 4.6 VOutput voltage *1V O –0.5 to V DD +0.5 V Input clamp current I IK –50 mA V I < 0 Output clamp current I OK –50 mA V O < 0 Continuous output current I O ±50 mA V O = 0 to V DD Maximum power dissipation 0.7 W Ta = 55°C (in still air) Storage temperature T stg –65 to +150 °C Notes: Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. 1. The input and output negative voltage ratings may be exceeded if the input and output clamp current ratingsare observed.Recommended Operating ConditionsItem Symbol Min Typ Max Unit ConditionsSupply voltage V DD 3.0 3.3 3.6 V DC input signal voltage–0.3 — V DD +0.3 VHigh level input voltage V IH 0.7×V DD — V DD +0.3 V Low level input voltage V IL –0.3 — 0.3×V DD V Input clock duty cycle 45 50 55 % Operating temperature T a –20 — 85 °CDC Electrical CharacteristicsTa = –20 to 85 °C, V DD = 3.0 to 3.6 VItem Symbol Min Typ Max Unit Test Conditions— — ±20 V I = 0 V or 3.6 V, V DD = 3.6 V,XIN pinInput current I I — — ±100 µA V I = 0 V or 3.6 V, V DD = 3.6 V,SEL, SSN pinsInput capacitance C I — 3 — pF SEL, SSN pinsDC Electrical Characteristics / SSC Clock OutputTa = –20 to 85 °C, V DD = 3.0 to 3.6 VItem Symbol Min Typ Max Unit Test Conditions V OH V DD –0.2 — — V I OH = –1 mAOutput voltage V OL — — 200 mV I OL = 1 mAI OH — –19 — V OH = 1.5 V, V DD = 3.3 VOutput current I OL — 19 — mA V OL = 1.5 V, V DD = 3.3 VOutput impedance — 40 — ΩAC Electrical Characteristics / SSC Clock OutputTa = 25°C, V DD = 3.3 V, C L = 15 pFItem Symbol Min Typ Max Unit Test Conditions NotesOperating current I DD — 18 24 mA V DD = 3.3 V, C L = 15 pF,XIN = 40 MHzCycle to cycle jitter *1t CCS — |100| — ps SEL = 0, C L = 0 pF SSC= ±1.5%(TS3316ARP) SSC= -3.0%(TS3326ARP)Figure 1Slew rate t SL — 0.7 4.0 V/ns V DD = 3.3 V,0.2 × V DD to 0.8 × V DDClock duty cycle 45 50 55 %Stabilization time *2— — 2 ms Notes: Parameters are target of design. Not 100% tested in production. 1. Cycle to cycle jitter is included spread spectrum modulation. 2. Stabilization time is the time required for the integrated circuit to obtain phase lock of its input signal afterpower up.Figure 1 Cycle to cycle jitterApplication Information1. Recommended Circuit ConfigurationThe power supply circuit of the optimal performance on the application of a system should refer to Figure 2. VDD decoupling is important to both reduce Jitter and EMI radiation.The C1 decoupling capacitor should be placed as close to the VDD pin as possible, otherwise the increased trace inductance will negate its decoupling capability.Figure 2 Recommended circuit configuration2. Example Board Layout ConfigurationFigure 3 Example Board Layout3. Example of TS33XX EMI Solution IC’s ApplicationFigure 4 Ref. Clock Input ExampleFigure 5 XTAL Ref. Clock Input ExamplePackage Dimensions RENESAS SALES OFFICESRefer to "/en/network" for the latest and detailed information.Renesas Technology America, Inc.450 Holger Way, San Jose, CA 95134-1368, U.S.ATel: <1> (408) 382-7500, Fax: <1> (408) 382-7501Renesas Technology Europe LimitedDukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.K.Tel: <44> (1628) 585-100, Fax: <44> (1628) 585-900Renesas Technology (Shanghai) Co., Ltd.Unit 204, 205, AZIACenter, No.1233 Lujiazui Ring Rd, Pudong District, Shanghai, China 200120Tel: <86> (21) 5877-1818, Fax: <86> (21) 6887-7898Renesas Technology Hong Kong Ltd.7th Floor, North Tower, World Finance Centre, Harbour City, 1 Canton Road, Tsimshatsui, Kowloon, Hong KongTel: <852> 2265-6688, Fax: <852> 2730-6071Renesas Technology Taiwan Co., Ltd.10th Floor, No.99, Fushing North Road, Taipei, TaiwanTel: <886> (2) 2715-2888, Fax: <886> (2) 2713-2999Renesas Technology Singapore Pte. Ltd.1 Harbour Front Avenue, #06-10, Keppel Bay Tower, Singapore 098632Tel: <65> 6213-0200, Fax: <65> 6278-8001Renesas Technology Korea Co., Ltd.Kukje Center Bldg. 18th Fl., 191, 2-ka, Hangang-ro, Yongsan-ku, Seoul 140-702, KoreaTel: <82> (2) 796-3115, Fax: <82> (2) 796-2145Renesas Technology Malaysia Sdn. BhdUnit 906, Block B, Menara Amcorp, Amcorp Trade Centre, No.18, Jalan Persiaran Barat, 46050 Petaling Jaya, Selangor Darul Ehsan, MalaysiaTel: <603> 7955-9390, Fax: <603> 7955-9510© 2006. Renesas Technology Corp., All rights reserved. Printed in Japan.。