BSIP16-12-150W中文资料

Broadband TelCom Power, Inc.BTCPowerTMRedefining “Current” Limits In Power ConversionBSIP05-12BSMT05-12 Series 5A SIP & SMT 12V Input DC-DC ConvertersFeatures• Industry standard pin out• High efficiency to 92%• 300KHz switching frequency • 8.3 – 14 Vdc input range• 0.75-5.0Vdc wide output range • Over temperature protection• Continuous short circuit protection • Remote On/Off• Cost efficient open frame design •UL / cUL 60950 certifiedModel Input Output Output Input Current % Efficiency Number Voltage Voltage Current No Load Full LoadBSIP05-12-075 / BSMT05-12-075 8.3 -14 Vdc 0.75 Vdc 5A 20 mA 428 mA 73 BSIP05-12-120 / BSMT05-12-120 8.3 -14 Vdc 1.2 Vdc 5A 25 mA 625 mA 80 BSIP05-12-150 / BSMT05-12-1508.3 -14 Vdc 1.5 Vdc 5A 25 mA 726 mA 82 BSIP05-12-180 / BSMT05-12-180 8.3 -14 Vdc 1.8 Vdc 5A 30 mA 893 mA 84 BSIP05-12-200 / BSMT05-12-200 8.3 -14 Vdc 2.0 Vdc 5A 30 mA 980 mA 85 BSIP05-12-250 / BSMT05-12-250 8.3 -14 Vdc 2.5 Vdc 5A 35 mA 1197 mA 87 BSIP05-12-330 / BSMT05-12-330 8.3 -14 Vdc 3.3 Vdc 5A 45 mA 1545 mA 89 BSIP05-12-500 / BSMT05-12-5008.3 -14 Vdc5.0 Vdc5A50 mA2264 mA92SpecificationsInput Specifications:Input Voltage Range…………….………12V………………... 8.3-14V Under voltage lock-out ………………power up ……………8.0V Typ. Power down ………..7.9V Typ. Input Filter……………………………………………………Capacitive Positive remove on /off control:Module On …………………………Open circuit or =Vin Module Off …………………………………….. < 0.4VdcOutput Specifications:Voltage Accuracy…………….. ………………………….+/- 1.5 % max. Transient response : 25% step load change ……………< 200 u sec. Ripple & Noise, 20 MHz BW (note3)………………….50 mV p-p max. 5Vo ………………………………...75 mV p-p max. Temperature Coeffcient………………………… +/- 0.03 % / ºC max. Short Circuit Protection………………………………..……Continuous Line Regulation (note1) ………………………….……..+/- 0.2 % max. Load Regulation (note2) …… …………….…….….….+/- 0.5 % max. Capacitive load, low ESR…………………………………3000uF max.General Specifications: Efficiency………………………………………………..……...see table Isolation Resistance………………………………………Non-isolation Switching Frequency……………………………………..300 KHz, Typ. Over temperature protection ………………….………….. 120 ºC Typ. Operating Temperature Range…………………………-40ºC ~ +85ºC Power derating curve …………………………………….. see fig. 1,2. Storage Temperature Range……………………..…..-55 ºC ~ +125ºC Dimensions:SIP package: 0.9” x 0.4” x 0.22“ (22.9 x 10.16 x 5.6 mm)SMT package: 0.8” x 0.45” x 0.24” (20.3 x 11.43 x 6.09 mm) Structure …………………………..Non-potted with open frame typeNote:1. Measured from high line to low line;2. Measured from full load to zero load;3. Measured with 10uF tantalum capacitor and 1 uF ceramiccapacitor across output4. The input terminal recommend to parallel with 47uFcapacitorand 10uF ceramic capacitor cross input5. Suffix “N” to the model number with Negative logic remoteModel On: Open circuit or < 0.4VdcModel Off: > +2.8Vdc to VinOutline Information and Pin-out SMT Outline informationSIP Outline InforamtionDimensions are in Inches (millimeters)Tolerances: .XX ± 0.2” (.X ±0.5), unless otherwise noted .XXX ±0.01” (.XX ±0.25)PIN CONNECTIONPin Function1 + OutputTrim2Common34 + V Input5 On / OffBSIP05-12 Series 5A SIP&SMT 12Vi DC-DC Converters BTCPower T MProduct Brief Temperature Typical Derating CurveFig 1.: Typical Derating Curve of BSIP05-12 series Trim Resistor ValuesFig 2.: Typical Derating Curve of BSMT05-12 seriesFig 3.: Simplified Schematic Vo (set) (V) Rtrim (Kohm)0.75 Open1.2 22.331.5 13.01.8 9.02 7.42.5 5.03.3 3.123.63 1.47The information and specifications contained in this brief are believed to be accurate and reliable at the time of publication. Specifications are subject to change without notice. Refer to product specification sheet for performance characteristics and application guidelines.。

P/VⅡ-12交流金属封闭开关设备使用手册安全第一：在开关设备安装使用前请先仔细阅读本使用手册：●开关设备的使用场所应符合电气设备规定的使用条件的要求。

●安装、操作和维护均需由专职电气人员完成，该人员必须接受相应的培训。

●必须保证电气设备的联锁条件和工作规程的适用和安全性。

●有关开关设备的一切操作，都要遵守手册中的相关规定。

●不要超出开关设备正常工作条件下的技术参数中规定的数值。

●手册应放于安装、操作和维护人员方便拿到的地方。

用户的专职人员应对所有影响工作安全的事项负责，并正确管理开关设备。

如果对本操作手册尚有疑问，欢迎向我们提出，我们将提供进一步的咨讯与服务版权所有，本公司保留对此手册的修改权利。

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目录产品概述概述符合标准技术参数外型尺寸和重量正常使用条件产品结构结构特点外壳与隔板手车功能隔室手车室母线室电缆室低压室防误闭锁装置压力释放装置储运与安装运输交货与保管安装安装现场的一般要求基础混凝土地坪上的基础框架柜体安装母线安装电缆连接电力电缆连接控制电缆连接开关装置接地其它事项运行与维护设备运行准备工作起动调试操作断路器手车断路器接地开关负荷开关组合式过电流继电器调试注意事项检查和维护概述检查和维护时间间隔检查维护主要附件VB2真空断路器手车典型接线图1 1 1 1 1 1 2 2 2 2 3 3 3 4 4 4 4 5 5 5 5 5 6 6 7 7 7 7 7 7 7 8 8 8 8 8 8 9 9 10 10 10 10 10 11 11 11 12概 述P/VⅡ-12型铠装移开式户内交流金属封闭开关设备是上海通用电气广电有限公司最新一代的户内成套配电装置。

设备适用于标称系统电压3~10kV，额定电流4000A及以下，额定频率50Hz的单母线或单母线分段三相交流户内配电系统，用于接收和分配电能，并对电路实行控制、保护及监测。

A1203中⽂资料Continuous-time operation – Fast power-on time– Low noiseStable operation over full operating temperature range Reverse battery protectionSolid-state reliabilityFactory-programmed at end-of-line for optimum performance Robust EMC performance High ESD ratingRegulator stability without a bypass capacitorA1201, A1202, A1203 and A1204 Hall-effect bipolar switches are . The extensive on-board protection circuitry makes Continuous-Time Bipolar Switch FamilyFunctional Block DiagramVOUTTerminal ListName DescriptionNumberPackage LH Package UAVCC Connects power supply to chip 11VOUT Output from circuit 23GNDGround32Part Number Packing*MountingAmbient, T A B RP (Min)B OP (Max)A1201ELHLT-T 7-in. reel, 3000 pieces/reel 3-pin SOT23W surface mount –40oC to 85oC–5050A1201EUA-T Bulk, 500 pieces/bag 3-pin SIP through hole A1201LLHLT-T 7-in. reel, 3000 pieces/reel 3-pin SOT23W surface mount –40oC to 150oC A1201LUA-T Bulk, 500 pieces/bag 3-pin SIP through hole A1202ELHLT-T 7-in. reel, 3000 pieces/reel 3-pin SOT23W surface mount –40oC to 85oC–7575A1202EUA-T Bulk, 500 pieces/bag 3-pin SIP through hole A1202LLHLT-T 7-in. reel, 3000 pieces/reel 3-pin SOT23W surface mount –40oC to 150oC A1202LUA-T Bulk, 500 pieces/bag 3-pin SIP through hole A1203ELHLT-T 7-in. reel, 3000 pieces/reel 3-pin SOT23W surface mount –40oC to 85oC–9595A1203EUA-T Bulk, 500 pieces/bag 3-pin SIP through hole A1203LLHLT-T 7-in. reel, 3000 pieces/reel 3-pin SOT23W surface mount –40oC to 150oC A1203LUA-T Bulk, 500 pieces/bag 3-pin SIP through hole A1204ELHLT-T 7-in. reel, 3000 pieces/reel 3-pin SOT23W surface mount –40oC to 85oC–150150A1204EUA-T Bulk, 500 pieces/bag 3-pin SIP through hole A1204LLHLT-T 7-in. reel, 3000 pieces/reel 3-pin SOT23W surface mount –40oC to 150oCA1204LUA-TBulk, 500 pieces/bag3-pin SIP through hole*Contact Allegro for additional packing options.Product Selection GuideOPERATING CHARACTERISTICS over full operating voltage and ambient temperature ranges, unless otherwise noted Characteristic Symbol Test Conditions Min.Typ.Max.Units Electrical CharacteristicsSupply Voltage1V CC Operating, T J < 165°C 3.8–24V Output Leakage Current I OUTOFF V OUT = 24 V, B < B RP––10µA Output On Voltage V OUT(SAT)I OUT = 20 mA, B > B OP–215400mVPower-On Time2t PO Slew rate (dV CC/dt) < 2.5 V/µs, B > B OP + 5 G orB < B RP – 5 G––4µsOutput Rise Time3t r V CC = 12 V, R LOAD = 820 ?, C S = 12 pF––2µs Output Fall Time3t f V CC = 12 V, R LOAD = 820 ?, C S = 12 pF––2µsSupply Current I CCON B > B OP– 3.87.5mA I CCOFF B < B RP– 3.57.5mAReverse Battery Current I RCC V RCC = –30 V–––10mA Supply Zener Clamp Voltage V Z I CC = 10.5 mA; T A = 25°C32––V Supply Zener Current4I Z V Z = 32 V; T A = 25°C––10.5mA Magnetic Characteristics5Operate Point B OP A1201South pole adjacent to branded faceof device–401550G A1202–2675G A1203–2695G A1204–10042150GRelease Point B RP A1201North pole adjacent to branded faceof device–50–1540G A1202–75–26–G A1203–95–26–G A1204–150–40100GHysteresis B HYS A1201B OP – B RP53055G A12023052–G A12033052–G A12045082115G1 Maximum voltage must be adjusted for power dissipation and junction temperature, see Power Derating section.2 For V CC slew rates greater than 250 V/µs, and T A = 150°C, the Power-On Time can reach its maximum value.3 C S =oscilloscope probe capacitance.4 Maximum current limit is equal to the maximum I CC(max) + 22 mA.5 Magnetic flux density, B, is indicated as a negative value for north-polarity magnetic fields, and as a positive value for south-polarity magnetic fields. This so-called algebraic convention supports arithmetic comparison of north and south polarity values, where the relative strength of the field is indicated by the absolute value of B, and the sign indicates the polarity of the field (for example, a –100 G field and a 100 G field have equivalent strength, but opposite polarity).DEVICE QUALIFICATION PROGRAMContact Allegro for information.EMC (Electromagnetic Compatibility) REQUIREMENTSContact Allegro for information.THERMAL CHARACTERISTICS may require derating at maximum conditions, see application information CharacteristicSymbolTest ConditionsValue Units Package Thermal ResistanceR θJAPackage LH, minimum-K PCB (single layer, single-sided with copper limited to solder pads)110oC/W Package LH, low-K PCB (single layer, double-sided with 0.926 in 2 copper area)228oC/W Package UA, minimum-K PCB (single layer, single-sided with copper limited to solder pads)165oC/W678923451011121314151617181920212223242520406080100120140160180M a x i m u m A l l o w a b l e V C C (V )T=165oC;I =I Power Derating Curve V CC(min)V CC(max)100200300400500600700800900100011001200130014001500160017001800190020406080100120140160180Temperature (°C)P o w e r D i s s i p a t i o n ,P D (m W )Power Dissipation versus Ambient TemperatureCharacteristic DataFunctional DescriptionBipolar Device SwitchingThe devices of the A120X family provide highly sensitive switching for applications using magnetic fields of alternating polarities, such as ring magnets. There are three switching modes for bipolar devices, referred to as latch , unipolar switch , and negative switch . Mode is determined by the switchpoint charac-teristics of the individual device. The characteristic hysteresis, B HYS , of the device, is the difference in the relative magnetic strength and polarity of the switchpoints of the device. (Note that, in the following descriptions, a negative magnetic value indicates a north polarity field, and a positive magnetic value indicates a south polarity field. For a given value of magnetic strength, B X , the values –B X and B X indicate two fields of equal strength, but opposite polarity. B = 0 indicates the absence of a magnetic field.)Bipolar devices typically behave as latches. In this mode, magnetic fields of opposite polarity and equivalent strengths are needed to switch the output. When the magnetic fields are removed (B → 0) the device remains in the same state until a magnetic field of the opposite polarity and of sufficient strength causes it to switch. The hysteresis of latch mode behavior isshown in panel A of figure 1.In contrast to latching, when a device exhibits unipolar switch-ing, it only responds to a south magnetic field. The field must be of sufficient strength, > B OP , for the device to operate. When the field is reduced beyond the B RP level, the device switches back to the high state, as shown in panel B of figure 1. Devices exhibiting negative switch behavior operate in a similar but opposite manner. A north polarity field of sufficient strength, > B RP , (more north than B RP ) is required for operation, although the result is that V OUT switches high, as shown in panel C. WhenFigure 1. Bipolar Device Output Switching Modes. These behaviors can be exhibited when using a circuit such as that shown in panel D. Panel A displays the hysteresis when a device exhibits latch mode (note that the B HYS band incorporates B= 0), panel B shows unipolar switch behavior (the B HYS band is more positive than B = 0), and panel C shows negative switch behavior (the B HYS band is more negative than B = 0). Bipolar devices, such as the 120x family, can operate in any of the three modes.HYS V O U THYS HYSV OUT(SAT)CC(A)(B)(C)(D)the field is reduced beyond the B OP level, the device switches back to the low state.The typical output behavior of the A120x devices is latching. That is, switching to the low state when the magnetic field at the Hall sensor exceeds the operate point threshold, B OP . At this point, the output voltage is V OUT(SAT). When the magnetic field is reduced to below the release point threshold, B RP , the device output, V OUT , goes high. The values of the magnetic parameters are specified in the Magnetic Characteristics table, on page 3. Note that, as shown in figure 1, these switchpoints can lie in either north or south polarity ranges.The A120x family is designed to attain a small hysteresis, and thereby provide more sensitive switching. Although this means that true latching behavior cannot be guaranteed in all cases, proper switching can be ensured by use of both south and north magnetic fields, as in a ring magnet. The hysteresis of the A120x family allows clean switching of the output, even in the presence of external mechanical vibration and electrical noise.Bipolar devices adopt an indeterminate output state when pow-ered-on in the absence of a magnetic field or in a field that lies within the hysteresis band of the device.For more information on Bipolar switches, refer to Application Note 27705, Understanding Bipolar Hall Effect Sensors . CONTINUOUS-TIME BENEFITSContinuous-time devices, such as the A120x family, offer the fastest available power-on settling time and frequency response. Due to offsets generated during the IC packaging process, continuous-time devices typically require programming after packaging to tighten magnetic parameter distributions. In con-trast, chopper-stabilized switches employ an offset cancellation technique on the chip that eliminates these offsets without the need for after-packaging programming. The tradeoff is a longer settling time and reduced frequency response as a result of the chopper-stabilization offset cancellation algorithm.Figure 2. Continuous-Time Application, B < B RP .. This figure illustrates the use of a quick cycle for chopping V CC in order to conserve battery power. Position 1, power is applied to the device. Position 2, the output assumes the correct state at a time prior to the maximum Power-On Time, t PO(max). The case shown is where the correct output state is HIGH . Position 3, t PO(max) has elapsed. The device output is valid. Position 4, after the output is valid, a control unit reads the output. Position5, power is removed from the device.VV PO(max)The choice between continuous-time and chopper-stabilized designs is solely determined by the application. Battery manage-ment is an example where continuous-time is often required. In these applications, V CC is chopped with a very small duty cycle in order to conserve power (refer to figure 4). The duty cycleis controlled by the power-on time, t PO, of the device. Because continuous-time devices have the shorter power-on time, they are the clear choice for such applications.For more information on the chopper stabilization technique, refer to Technical Paper STP 97-10, Monolithic Magnetic Hall Sensor Using Dynamic Quadrature Offset Cancellation and Technical Paper STP 99-1, Chopper-Stabilized Amplifiers with a Track-and-Hold Signal Demodulator.ADDITIONAL APPLICATIONS INFORMATION Extensive applications information for Hall-effect sensors is available in:Hall-Effect IC Applications Guide, Application Note 27701 Hall-Effect Devices: Gluing, Potting, Encapsulating, Lead Welding and Lead Forming, Application Note 27703.1Soldering Methods for Allegro’s Products – SMT and Through-Hole, Application Note 26009All are provided in Allegro Electronic Data Book, AMS-702, and the Allegro Web site,/doc/407cd0b7c77da26925c5b0c1.html .Power Derating Power DeratingThe device must be operated below the maximum junction temperature of the device, T J(max). Under certain combinations of peak conditions, reliable operation may require derating sup-plied power or improving the heat dissipation properties of the application. This section presents a procedure for correlating factors affecting operating T J. (Thermal data is also available on the Allegro MicroSystems Web site.)The Package Thermal Resistance, RθJA, is a figure of merit sum-marizing the ability of the application and the device to dissipate heat from the junction (die), through all paths to the ambient air. Its primary component is the Effective Thermal Conductivity, K, of the printed circuit board, including adjacent devices and traces. Radiation from the die through the device case, RθJC, is relatively small component of RθJA. Ambient air temperature,T A, and air motion are significant external factors, damped by overmolding.The effect of varying power levels (Power Dissipation, P D), can be estimated. The following formulas represent the fundamental relationships used to estimate T J, at P D.P D = V IN× I IN (1)T = P D× RθJA(2)T J = T A + ?T (3)For example, given common conditions such as: T A= 25°C,V CC = 12 V, I CC = 4 mA, and RθJA = 140 °C/W, then:P D = V CC× I CC = 12 V × 4 mA = 48 mWT = P D× RθJA = 48 mW × 140 °C/W = 7°CT J = T A + ?T = 25°C + 7°C = 32°CA worst-case estimate, P D(max), represents the maximum allow-able power level (V CC(max), I CC(max)), without exceeding T J(max), at a selected RθJA and T A.Example: Reliability for V CC at T A =150°C, package UA, using minimum-K PCB.Observe the worst-case ratings for the device, specifically:RθJA =165°C/W, T J(max) =165°C, V CC(max) =24 V, andI CC(max) =7.5mA.Calculate the maximum allowable power level, P D(max). First, invert equation 3:T max = T J(max) – T A = 165°C–150°C = 15°CThis provides the allowable increase to T J resulting from internal power dissipation. Then, invert equation 2:P D(max) = ?T max ÷ RθJA = 15°C ÷ 165 °C/W = 91 mWFinally, invert equation 1 with respect to voltage:V CC(est) = P D(max) ÷ I CC(max) =91 mW ÷ 7.5 mA = 12.1 VThe result indicates that, at T A, the application and device can dissipate adequate amounts of heat at voltages ≤V CC(est). Compare V CC(est) to V CC(max). If V CC(est)≤ V CC(max), then reli-able operation between V CC(est) and V CC(max) requires enhanced RθJA. If V CC(est)≥ V CC(max), then operation between V CC(est) and V CC(max) is reliable under these conditions.Package LH, 3-Pin (SOT-23W)Package UA, 3-PinThe products described herein are manufactured under one or more of the following U.S. patents: 5,045,920; 5,264,783; 5,442,283; 5,389,889; 5,581,179; 5,517,112; 5,619,137; 5,621,319; 5,650,719; 5,686,894; 5,694,038; 5,729,130; 5,917,320; and other patents pending.Allegro MicroSystems, Inc. reserves the right to make, from time to time, such de p ar t ures from the detail spec i f i c a t ions as may be required to permit improvements in the per f or m ance, reliability, or manufactur-ability of its products. Before placing an order, the user is cautioned to verify that the information being relied upon is current.Allegro products are not authorized for use as critical components in life-support devices or sys t ems without express written approval.The in f or m a t ion in c lud e d herein is believed to be ac c u r ate and reliable. How e v e r, Allegro MicroSystems, Inc. assumes no re s pon s i b il i t y for its use; nor for any in f ringe m ent of patents or other rights of third parties which may result from its use.Copyright ? 2005, Allegro MicroSystems, Inc.。

型号额定电压 额定电流外型尺寸 通过认证 资料下载2920SMD 自复保险丝15~60V0.3~3.0A7.3 ×5.0mmUL TUVPtc2920-1.PDF29 20 英寸 1812SMD 自复保险丝10~40V0.1~2.6A4.6 ×3.0mmUL TUVPTC1812-1.PDF PTC1812-2.PDF18 12 英寸 1206SMD 自复保险丝6V0.35~1.5A3.2×1.6mmUL TUV PTC1206-1.PDF PTC1206-2.PDF12 06 英寸0805SMD 自复保险丝6~15V0.1~0.75A2.0×1.2mmUL TUVPTC0805-1.PDF PTC0805-2.PDF系列外型尺寸1206 系列贴片保险丝3.2*1.6mm 0.12*0.06 英寸0603 系列贴片保险丝 1.6*0.8mm 0.06*0.03 英寸0402 系列贴片保险丝 1.0*0.5mm 0.01*0.005 英寸2410 系列贴片保险丝 6.8*2.7mm 0.24*0.10 英寸型号额定电压额定电流外型尺寸(mm)通过认证资料下载20N 速断型250V/125V 0.1∽20AΦ2.7*7.2 UL/CSA/PSE20N.pdf20T.pdf 20T 延时型250V/125V0.1∽7.0AΦ2.7*7.2 UL/CSA/PSEMCR.pdf MCR 速断型125V0.062∽10AΦ3.1*7.5UL/CSAR251 速断型125V0.062∽15AΦ2.4*7.2 UL/CSA r251-253.pdf型号额定电压额定电流外型尺寸(mm)通过认证资料下载SR5 圆柱型250V 1∽5A Φ8.4*7.6 UR/VDE/CCC SR5.pdfSS5.pdf SS5 方型250V1∽5A Φ8.6*7.6*4 UR/CCCmet.pdf MET 圆柱型250V0.04∽6.3AΦ8.4*7.6UR/VDE/CCCMST 方型250V0.04∽6.3AΦ8.6*7.6*4 UR/VDE/CCC mst.pdfU30系列自恢复保险丝 耐压 30VG16系列自恢复保险丝耐压 16VS 系列自恢复保险丝 耐压 6-16V BR 系列自恢复保险丝 耐压 125V R250系列自恢复保险丝 耐压 250V原理说明 参数说明：保持电流（Ih ）：25℃静止空气环境中不触发电阻突越的最高电流。

Low Power Transformers Single Primary, Input 115 VoltsDual Secondary: PL-11 thru -14, Single Secondary: PL-32 thru -34PL-11, -12, -13, -14, -32, -33, -34Vishay Dale For technical questions contact magnetics@Document Number: 340712Revision: 10-Aug-06FEATURES•PC pin mounting•Provides isolation from power line•Mounting frames and bobbin standoff are available •Modification to these standard itmes are availableas specially products•Laminated construction for low-cost industrial applications,including power supplies, controls and instrumentation •PL-11, PL-12, PL-13, PL-14: Dual secondaries for series connection to obtain twice voltage with center tap or parallel connection for twice current rating•PL-32, PL-33, PL-34: Single secondary and lower cost construction. Recognized under the Component Program of Underwriters Laboratories, Inc., U.L. Files E71961. For general purpose transformers (U.L. Standard 506).ELECTRICAL SPECIFICATIONSInput Voltage: 115 V , 60 Hz Output Power Rating: PL-11 = 0.75 VAPL-12, PL-32 = 1.50 VA PL-13, PL-33 = 4.50 VA PL-14, PL-34 = 10.0 VADielectric Strength: All models are 1500 V, 60 Hz from primary to secondary winding and all windings to core Temperature Class: Insulation Class A, + 105 °CMECHANICAL SPECIFICATIONSTerminals Brass, solder coated Weight: (reference)PL-11 = 35 gramsPL-12, PL-32 = 100 grams PL-13, PL-33 = 160 grams PL-14, PL-34 = 240 gramsPL-11, -12, -13, -14, -32, -33, -34Vishay DaleDocument Number: 34071For technical questions contact magnetics@Revision: 10-Aug-063OUTPUT VOLTAGE TABLEDUAL SECONDARYSINGLE SECONDARYMODELOUTPUT VOLTAGEOUTPUT CURRENT (mA)MODEL OUTPUT VOLTAGE OUTPUT CURRENT (mA)SERIES PARALLEL SERIES PARALLELPL-32-01PL-33-01PL-34-016.4 V2007001300PL-11-01PL-12-01PL-13-01PL-14-018VCT 4 V9418856294018837611241880PL-11-02PL-12-02PL-13-02PL-14-0210VCT 5 V7512044010001502408802000PL-32-02PL-33-02PL-34-0210 V120450800PL-11-03PL-12-03PL-13-03PL-14-0312.6VCT 6.3 V 601003508001202007001600PL-32-03PL-33-03PL-34-0312.6 V100350650PL-11-04PL-12-04PL-13-04PL-14-0415VCT 7.5 V 501003005001002006001000PL-32-04PL-33-04PL-33-0415 V80300550PL-11-05PL-12-05PL-13-05PL-14-0516VCT 8 V4775260640941505201280PL-11-06PL-12-06PL-13-06PL-14-0620VCT 10 V3860220500761204401000PL-32-05PL-33-05PL-34-0520 V60225400PL-11-07PL-12-07PL-13-07PL-14-0724VCT 12 V 315018045062100360900PL-32-06PL-33-06PL-34-0624 V50185330PL-11-08PL-12-08PL-13-08PL-14-0830VCT 15 V 255015025050100300500PL-32-07PL-33-07PL-34-07Z30 V40150270PL-11-09PL-12-09PL-13-09PL-14-0934VCT 17 V22351253004470250600PL-11-10PL-12-10PL-13-10PL-14-1040VCT 20 V19301102503860220500PL-12-11PL-13-11PL-14-1154VCT 27 V 288414056168280PL-32-08PL-33-08PL-34-0854 V2280150PL-12-12PL-13-12PL-14-1256VCT 28 V 208018040160360PL-12-13PL-13-13PL-14-1376VCT 38 V 206010040120200PL-32-09PL-33-09PL-34-0976 V 1660110PL-12-14PL-13-14PL-14-1488VCT44 V155012030100240PL-32-10PL-33-10PL-34-1088 V 145090PL-32-11PL-33-11PL-34-11115 V104070PL-12-15PL-13-15PL-14-15120VCT 60 V 1035852070170PL-12-16PL-13-16PL-14-16180VCT 90 V 624551248110PL-32-12PL-33-12PL-34-12180 V 72545PL-12-17PL-13-17PL-14-17230VCT115 V52040104080PL-32-13PL-33-13PL-34-13230 V52035PL-11, -12, -13, -14, -32, -33, -34Vishay Dale For technical questions contact magnetics@Document Number: 340714Revision: 10-Aug-06MARKING- Dale - Mode- Date CodeORDERING INFORMATIONPL-1101ASEB e2MODELOUTPUT VOL TAGE AND CURRENT MOUNTING FRAME (If not required, leave blank)BOBBIN STANDOFF (If not required, leave blank)PACKAGE CODEJEDEC LEAD (Pb)-FREE STANDARDDocument Number: 91000Revision: 18-Jul-081DisclaimerLegal Disclaimer NoticeVishayAll product specifications and data are subject to change without notice.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.元器件交易网。

Document Number: 34103For technical questions, contact: magnetics@Chip Array Ferrite BeadsILAS-1206Vishay DaleMECHANICAL SPECIFICATIONSSolderability: 90 % coverage after 5 s dip in 235 °C solder following 60 s preheat at 120 °C to 150 °C and type R flux dip Resistance to Solder Heat: 10 s in 260 °C solder, after preheat and flux per aboveTerminal Strength: 1.2 kg (2.64 lbs) minimum for 30 s Beam Strength: 2.0 kg (4.4 lbs) minimumFlex: 0.079" [2 mm] min. mounted on 0.063" [1.6 mm] thick PC boardFEATURES•Combines four single 0603 chips into one package to reduce board space and placement time•Highly effective in high density applications•0.031" [0.8 mm] terminal pitch makes it easy toapply EMI prevention in multiple-lines such as connectors amd IC pins•Material and construction design minimize crosstalk between adjacent circuits•Compliant to RoHS directive 2002/95/ECENVIRONMENTAL SPECIFICATIONSOperating Temperature: - 55 °C to + 125 °C Thermal Shock: 300 cycles, - 40 °C to + 125 °CBiased Humidity: 85 % RH at 85 °C, 1000 h at full rated currentSTANDARD ELECTRICAL SPECIFICATIONSZ± 25 % AT 100 MHz(Ω)DCR MAX.(Ω)RATED DC CURRENT(mA)SIGNAL SPEED600.12300Standard 1200.21503000.41006000.610010000.850DESCRIPTIONILAS-1206120± 25 %ERe 3MODELIMPEDANCE VALUEIMPEDANCE TOLERANCEPACKAGE CODEJEDEC LEAD (Pb)-FREE STANDARDGLOBAL PART NUMBERILAS1206ER121V PRODUCT FAMILYSIZEPACKAGE CODEIMPEDANCE VALUEIMPEDANCE TOLERANCEILAS-1206Vishay Dale Chip Array Ferrite Beads For technical questions, contact: magnetics@ Document Number: 34103Legal Disclaimer Notice VishayDisclaimerALL PRODU CT, PRODU CT SPECIFICATIONS AND DATA ARE SU BJECT TO CHANGE WITHOU T NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product.Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability.Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein.Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining applications or for any other application in which the failure of the Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk and agree to fully indemnify and hold Vishay and its distributors harmless from and against any and all claims, liabilities, expenses and damages arising or resulting in connection with such use or sale, including attorneys fees, even if such claim alleges that Vishay or its distributor was negligent regarding the design or manufacture of the part. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.Material Category PolicyVishay Intertechnology, Inc. hereb y certifies that all its products that are identified as RoHS-Compliant fulfill the definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (EEE) - recast, unless otherwise specified as non-compliant.Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.Revision: 12-Mar-121Document Number: 91000分销商库存信息:VISHAYILAS1206ER102V ILAS1206ER121V ILAS1206ER301V ILAS1206ER600V ILAS1206ER601V。

Product:9912Lead Wire, #12 Str TC, PVC Ins, AWM 1015 AWM 1230Product DescriptionLow Temp Plastic Lead Wire, 12AWG (65x30) Tinned Copper, PVC Insulation, AWM 1015 AWM 1230 CSA TYPE TEW JQA-F 600V 105C Technical SpecificationsProduct OverviewPhysical Characteristics (Overall)ConductorInsulationConstruction and DimensionsCablingElectrical CharacteristicsConductor DCRCurrentVoltageTemperature RangeMechanical CharacteristicsStandardsNEC Articles:Article 310NEC/(UL) Compliance:MTW or TWUL Rating:600V, 105°CUL AWM Style Compliance:UL AWM Styles 1015, 1230CSA Rating:600V, 105°CCSA AWM Compliance:CSA AWM I A/BCSA Type:AWM I A/B or TEWApplicable Environmental and Other ProgramsEU Directive 2000/53/EC (ELV):YesEU Directive 2003/96/EC (BFR):YesEU Directive 2011/65/EU (ROHS II):YesEU Directive 2012/19/EU (WEEE):YesEU Directive 2015/863/EU:YesEU Directive Compliance:EU Directive 2003/11/EC (BFR)EU CE Mark:YesEU RoHS Compliance Date (yyyy-mm-dd):2005-07-01CA Prop 65:YesMII Order #39 (China RoHS):YesFlammability, LS0H, Toxicity TestingUL Flammability:VW-1CSA Flammability:FT1UL voltage rating:600 V RMSPart NumberVariantsItem #Color Putup Type Length UPC9912 010100Black Reel100 ft6128252615209912 010250Black Reel250 ft6128252615449912 0102000Black Reel2,000 ft6128252615379912 013100Blue, Dark Reel100 ft6128252615759912 013250Blue, Dark Reel250 ft6128252615829912 001100Brown Reel100 ft6128252612789912 008250Gray Reel250 ft6128252614219912 005100Green, Dark Reel100 ft6128252613779912 005250Green, Dark Reel250 ft6128252613919912 0052000Green, Dark Reel2,000 ft6128252613849912 003250Orange Reel250 ft6128252613229912 002100Red Reel100 ft6128252612929912 002250Red Reel250 ft6128252613159912 0022000Red Reel2,000 ft6128252613089912 009100White Reel100 ft6128252614529912 009250White Reel250 ft6128252614769912 0092000White Reel2,000 ft6128252614699912 004100Yellow Reel100 ft6128252613399912 004250Yellow Reel250 ft612825261346Footnote: C - CRATE REEL PUT-UP.HistoryUpdate and Revision:Revision Number: 0.326 Revision Date: 07-26-2020© 2020 Belden, IncAll Rights Reserved.Although Belden makes every reasonable effort to ensure their accuracy at the time of this publication, information and specifications described here in are subject to error or omission and to change without notice, and the listing of such information and specifications does not ensure product availability.Belden provides the information and specifications herein on an "ASIS" basis, with no representations or warranties, whether express, statutory or implied. In no event will Belden be liable for any damages (including consequential, indirect, incidental, special, punitive, or exemplary damages) whatsoever, even if Belden has been advised of the possibility of such damages, whether in an action under contract, negligence or any other theory, arising out of or in connection with the use, or inability to use, the information or specifications described herein.All sales of Belden products are subject to Belden's standard terms and conditions of sale.Belden believes this product to be in compliance with all applicable environmental programs as listed in the data sheet. The information provided is correct to the best of Belden's knowledge, information and belief at the date of its publication. This information is designed only as a general guide for the safe handling, storage, and any other operation of the product itself or the one that it becomes a part of. The Product Disclosure is not to be considered a warranty or quality specification. Regulatory information is for guidance purposes only. Product users are responsible for determining the applicability of legislation and regulations based on their individual usage of the product.。

STP16NE06L STP16NE06L/FPN -CHANNEL ENHANCEMENT MODE SINGLE FEATURE SIZE ™POWER MOSFETTARGET DATAs TYPICAL R DS(on)=0.09Ωs AVALANCHE RUGGED TECHNOLOGY s 100%AVALANCHE TESTEDs 175o C OPERATING TEMPERATURE s HIGH dV/dt CAPABILITY sAPPLICATION ORIENTED CHARACTERIZATIONDESCRIPTIONThis Power Mosfet is the latest development of SGS-THOMSON unique ”Single Feature Size”process whereby a single body is implanted on a strip layout structure.The resulting transistor shows extremely high packing density for low on-resistance,rugged avalance characteristics and less critical alignment steps therefore a remark-able manufacturingreproducibility.APPLICATIONS s DC MOTOR CONTROL s DC-DC &DC-AC CONVERTERS s SYNCHRONOUS RECTIFICATION INTERNAL SCHEMATIC DIAGRAMABSOLUTE MAXIMUM RATINGSSymbol ParameterValueUnit STP16NE06LSTP16NE06LFP V DS Drain-source Voltage (V GS =0)60V V DGR Drain-gate Voltage (R GS =20k Ω)60V V GS Gate-source Voltage±15VI D Drain Current (continuous)at T c =25oC 1611A ID Drain Current (continuous)at T c =100o C 107A I DM (•)Drain Current (pulsed)6464A P t ot Total Dissipation at T c =25oC 6030W Derating Factor0.40.2W/oC V ISO Insulation Withstand Voltage (DC)2000V dV/dt Peak Diode Recovery voltage slope 6V/nsT stg Storage Temperature-65to 175o C T jMax.Operating Junction Temperature175o C(•)Pulse width limited by safe operating area(1)I SD ≤16A,di/dt ≤200A/µs,V DD ≤V (BR)DSS ,T j ≤T JMAXTYPE V DSS R DS(on)I D STP16NE06L STP16NE06LFP60V 60V<0.12Ω<0.12Ω16A 11AOctober 1997TO-220TO-220FP1231231/7THERMAL DATATO-220TO-220FP R t hj-ca se Thermal Resistance Junction-case Max 2.55o C/WR t hj-amb R thc-si nkT l Thermal Resistance Junction-ambient MaxThermal Resistance Case-sink TypMaximum Lead Temperature For Soldering Purpose62.50.5300o C/Wo C/Wo CAVALANCHE CHARACTERISTICSSymbol Parameter Max Value UnitI AR Avalanche Current,Repetitive or Not-Repetitive(pulse width limited by T j max,δ <1%)16AE AS Single Pulse Avalanche Energy(starting T j=25o C,I D=I AR,V DD=25V)80mJELECTRICAL CHARACTERISTICS(T case=25o C unless otherwise specified)OFFSymbol Parameter Test Conditions Min.Typ.Max.Unit V(BR)DSS Drain-sourceBreakdown VoltageI D=250µA V GS=060VI DSS Zero Gate VoltageDrain Current(V GS=0)V DS=Max RatingV DS=Max Rating T c=125o C110µAµAI GSS Gate-body LeakageCurrent(V DS=0)V GS=±15Væ100nA ON(∗)Symbol Parameter Test Conditions Min.Typ.Max.Unit V GS(th)Gate Threshold Voltage V DS=V GS I D=250µA234VR DS(on)Static Drain-source OnResistance V GS=5V I D=8AV GS=10V I D=8A0.0900.12ΩI D(o n)On State Drain Current V DS>I D(on)x R DS(on)maxV GS=10V16A DYNAMICSymbol Parameter Test Conditions Min.Typ.Max.Unitg fs(∗)ForwardTransconductanceV DS>I D(on)x R DS(on)max I D=8A6SC iss C oss C rss Input CapacitanceOutput CapacitanceReverse TransferCapacitanceV DS=25V f=1MHz V GS=080010050pFpFpFSTP16NE06L/FP 2/7ELECTRICAL CHARACTERISTICS(continued)SWITCHING ONSymbol Parameter Test Conditions Min.Typ.Max.Unitt d(on) t r Turn-on TimeRise TimeV DD=30V I D=8AR G=4.7W V GS=5VnsnsQ g Q gs Q gd Total Gate ChargeGate-Source ChargeGate-Drain ChargeV DD=40V I D=16A V GS=5V nCnCnCSWITCHING OFFSymbol Parameter Test Conditions Min.Typ.Max.Unitt r(Vof f) t ft c Off-voltage Rise TimeFall TimeCross-over TimeV DD=48V I D=16AR G=4.7 ΩV GS=5VnsnsnsSOURCE DRAIN DIODESymbol Parameter Test Conditions Min.Typ.Max.UnitI SD I SDM(•)Source-drain CurrentSource-drain Current(pulsed)AAV SD(∗)Forward On Voltage I SD=16A V GS=0 1.5Vt rr Q rr I RRM Reverse RecoveryTimeReverse RecoveryChargeReverse RecoveryCurrentI SD=16A di/dt=100A/µsV DD=30V T j=150o CnsµCA(∗)Pulsed:Pulse duration=300µs,duty cycle1.5%(•)Pulse width limited by safe operating areaSTP16NE06L/FP3/7Fig.1:Unclamped Inductive Load Test Circuit Fig.3:Switching Times Test Circuits For Resistive Load Fig.2:Unclamped Inductive Waveform Fig.4:Gate Charge test CircuitFig.5:Test Circuit For Inductive Load Switching And Diode Recovery TimesSTP16NE06L/FP4/7DIM.mminch MIN.TYP.MAX.MIN.TYP.MAX.A 4.40 4.600.1730.181C 1.23 1.320.0480.051D 2.402.720.0940.107D1 1.270.050E 0.490.700.0190.027F 0.610.880.0240.034F1 1.14 1.700.0440.067F2 1.14 1.700.0440.067G 4.95 5.150.1940.203G1 2.4 2.70.0940.106H210.010.400.3930.409L216.40.645L413.014.00.5110.551L5 2.65 2.950.1040.116L615.2515.750.6000.620L7 6.2 6.60.2440.260L9 3.5 3.930.1370.154DIA.3.75 3.850.1470.151L6ACDED 1FGL7L2Dia.F 1L5L4H 2L9F 2G 1TO-220MECHANICAL DATAP011CSTP16NE06L/FP5/7DIM.mm inch MIN.TYP.MAX.MIN.TYP.MAX.A 4.4 4.60.1730.181B 2.5 2.70.0980.106D 2.5 2.750.0980.108E 0.450.70.0170.027F 0.7510.0300.039F1 1.15 1.70.0450.067F2 1.15 1.70.0450.067G 4.95 5.20.1950.204G1 2.4 2.70.0940.106H 1010.40.3930.409L2160.630L328.630.6 1.126 1.204L49.810.60.3850.417L615.916.40.6260.645L799.30.3540.366Ø3 3.20.1180.126L2ABDEHGL6¯FL3G 1123F 2F 1L7L4TO-220FP MECHANICAL DATASTP16NE06L/FP6/7STP16NE06L/FP Information furnished is believed to be accurate and reliable.However,SGS-THOMSON Microelectronics assumes no responsability for the consequences of use of such information nor for any infringementof patents or other rights of third parties which may results from its use.No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.Specifications mentionedin this publication are subject to change without notice.This publicationsupersedes and replaces all information previously supplied.SGS-THOMSON Microelectronics products are notauthorized for use as critical components in life support devices or systems without express written approval of SGS-THOMSON Microelectonics.©1997SGS-THOMSON Microelectronics-Printed in Italy-All Rights ReservedSGS-THOMSON Microelectronics GROUP OF COMPANIESAustralia-Brazil-Canada-China-France-Germany-Hong Kong-Italy-Japan-Korea-Malaysia-Malta-Morocco-The Netherlands-Singapore-Spain-Sweden-Switzerland-Taiwan-Thailand-United Kingdom-U.S.A...7/7。

ISC-PPR1-W16 Professional 系列被动红外探测器非常适合室内商业环境。

传感器数据融合技术可以确保探测器能够依据准确的信息发送报警状态。

三焦距光学技术消除了探测盲区，并能高效地对入侵者做出响应。

Professional 系列集各种独特、强大的功能于一身，提供卓越的捕获性能，并从根本上消除了误报。

自锁双体式外壳、内置水平仪、灵活调整的安装高度以及三种可选的安装支架，帮助简化安装和缩短维护时间。

基本功能传感器数据融合技术传感器数据融合技术是一项非常独特的功能，它使用强大的软件算法收集来自多个传感器的数据：两个热电传感器、一个室温传感器和一个白光强度传感器。

微控制器能够分析和比较传感器数据，从而为保安领域提供最精确的报警决策。

三焦距光学技术三焦距光学技术采用具有三种特定焦距的光学元件：长焦范围、中焦范围和短焦范围。

探测器可将这三种焦距应用于 86 个探测防区，从而组合成 11 个严密的探测网。

此外，三焦距光学技术还包括两个热释电传感器，拥有双倍的标准光学增益。

传感器可以处理多个数据信号，性能精确，真正消除了误报。

主动白光抑制内部光传感器可以测量照射在探测器表面的光照强度。

传感器数据融合技术利用此信息来消除强光源导致的误报。

可选探测范围（16 米 x 21 米或 8 米 x 10 米）安装人员可以使用拨码开关选择 16 米 x 21 米或 8 米 x 10 米（50英尺 x 70 英尺或 25 英尺 x 33 英尺）探测范围。

动态温度补偿探测器能够自动调整被动红外线的灵敏度，即使在临界温度下也可以探测入侵者。

动态温度补偿技术准确探测人体热量，避免误报，并能在各种操作温度下提供一致的捕捉性能。

外壳/墙壁防拆开关当入侵者卸下外壳或尝试从墙壁卸下探测器时，常闭触点将会打开，向控制主机发出报警。

自调 LED 指示灯LED 指示灯能够自动调整亮度，从而与周围的光照强度和谐一致。

在步测期间，蓝色发光二极管 (LED) 将会指示报警条件并进入活动状态。