PD6NG-2412E21H30中文资料

仕 様 書形 名ＣＤ１０５１．外形1-1.寸法図(mm)※印 電極寸法は参考値とする。

1-2.捺印表示例1-3.推奨ランド寸法(mm)電極（端子）間の隙間はシルク処理をして御使用下さい。

２．コイル仕様2-1.端子接続図(裏面図)9.0±0.4 5.4±0.4※9.0※φ10.0φ10.0±0.4※2.1製造密番頭部直捺印捺印位置不定電極complianceCd:Max.0.01wt%others:Max.0.1wt%RoHS12-2.電気的特性Ⅰ(リール梱包の場合)No. 品 名 表示 インダクタンス[以内]※1D.C.R.(Ω)[以下](at 20℃)定格電流(A)※2S.R.F.(MHz)[参考値]スミダコード01 CD1Ø5NP-1ØØMC 100M 10μH±20% 0.06 2.60 25.1 -011802 CD1Ø5NP-12ØMC 120M 12μH±20% 0.07 2.45 23.1 -011903 CD1Ø5NP-15ØMC 150M 15μH±20% 0.08 2.27 19.1 -012004 CD1Ø5NP-18ØMC 180M 18μH±20% 0.09 2.15 18.1 -012205 CD1Ø5NP-22ØMC 220M 22μH±20% 0.10 1.95 15.9 -012306 CD1Ø5NP-27ØMC 270M 27μH±20% 0.11 1.76 14.0 -012407 CD1Ø5NP-33ØMC 330M 33μH±20% 0.12 1.50 13.1 -012508 CD1Ø5NP-39ØMC 390M 39μH±20% 0.14 1.37 12.2 -012609 CD1Ø5NP-47ØKC 470K 47μH±10% 0.17 1.28 10.6 -012710 CD1Ø5NP-56ØKC 560K 56μH±10% 0.19 1.17 10.2 -012811 CD1Ø5NP-68ØKC 680K 68μH±10% 0.22 1.11 9.26 -012912 CD1Ø5NP-82ØKC 820K 82μH±10% 0.25 1.00 8.45 -013013 CD1Ø5NP-1Ø1KC 101K 100μH±10% 0.35 0.97 7.64 -013114 CD1Ø5NP-121KC 121K 120μH±10% 0.40 0.89 6.65 -013315 CD1Ø5NP-151KC 151K 150μH±10% 0.47 0.78 5.86 -013416 CD1Ø5NP-181KC 181K 180μH±10% 0.63 0.72 5.71 -013517 CD1Ø5NP-221KC 221K 220μH±10% 0.73 0.66 5.25 -013618 CD1Ø5NP-271KC 271K 270μH±10% 0.97 0.57 4.62 -013719 CD1Ø5NP-331KC 331K 330μH±10% 1.15 0.52 4.07 -013820 CD1Ø5NP-391KC 391K 390μH±10% 1.30 0.48 3.91 -013921 CD1Ø5NP-471KC 471K 470μH±10% 1.48 0.42 3.61 -014022 CD1Ø5NP-561KC 561K 560μH±10% 1.90 0.33 3.25 -014123 CD1Ø5NP-681KC 681K 680μH±10% 2.25 0.28 2.96 -014224 CD1Ø5NP-821KC 821K 820μH±10% 2.55 0.24 2.74 -01442-3.電気的特性Ⅱ(箱梱包の場合)No. 品 名 表示インダクタンス[以内] ※1 D.C.R. (Ω) [以下] (at 20℃)定格電流 (A) ※2 S.R.F. (MHz) [参考値]スミダコード25 CD1Ø5NP-1ØØMB 100M 10μH±20% 0.06 2.60 25.1 -0145 26 CD1Ø5NP-12ØMB 120M 12μH±20% 0.07 2.45 23.1 -0146 27 CD1Ø5NP-15ØMB 150M 15μH±20% 0.08 2.27 19.1 -0147 28 CD1Ø5NP-18ØMB 180M 18μH±20% 0.09 2.15 18.1 -0148 29 CD1Ø5NP-22ØMB 220M 22μH±20% 0.10 1.95 15.9 -0149 30 CD1Ø5NP-27ØMB 270M 27μH±20% 0.11 1.76 14.0 -0150 31 CD1Ø5NP-33ØMB 330M 33μH±20% 0.12 1.50 13.1 -0151 32 CD1Ø5NP-39ØMB 390M 39μH±20% 0.14 1.37 12.2 -0152 33 CD1Ø5NP-47ØKB 470K 47μH±10% 0.17 1.28 10.6 -0153 34 CD1Ø5NP-56ØKB 560K 56μH±10% 0.19 1.17 10.2 -0155 35 CD1Ø5NP-68ØKB 680K 68μH±10% 0.22 1.11 9.26 -0156 36 CD1Ø5NP-82ØKB 820K 82μH±10% 0.25 1.00 8.45 -0157 37 CD1Ø5NP-1Ø1KB 101K 100μH±10% 0.35 0.97 7.64 -0158 38 CD1Ø5NP-121KB 121K 120μH±10% 0.40 0.89 6.65 -0159 39 CD1Ø5NP-151KB 151K 150μH±10% 0.47 0.78 5.86 -0160 40 CD1Ø5NP-181KB 181K 180μH±10% 0.63 0.72 5.71 -0161 41 CD1Ø5NP-221KB 221K 220μH±10% 0.73 0.66 5.25 -0162 42 CD1Ø5NP-271KB 271K 270μH±10% 0.97 0.57 4.62 -0163 43 CD1Ø5NP-331KB 331K 330μH±10% 1.15 0.52 4.07 -0164 44 CD1Ø5NP-391KB 391K 390μH±10% 1.30 0.48 3.91 -0166 45 CD1Ø5NP-471KB 471K 470μH±10% 1.48 0.42 3.61 -0167 46 CD1Ø5NP-561KB 561K 560μH±10% 1.90 0.33 3.25 -0168 47 CD1Ø5NP-681KB 681K 680μH±10% 2.25 0.28 2.96 -0169 48CD1Ø5NP-821KB821K820μH±10%2.550.242.74-0170※1：測定周波数 Ｌ 10μH ～ 82μH ： at 2.52 MHz 100μH ～820μH ： at 1 kHz※2：定格電流は直流重畳特性に於て、インダクタンスが初期値より-10%となる電流もしくは直流電流を流した時のコイルの発熱が△t＝40℃となる電流とのどちらか少ない方の値。

广州市东裕光电科技有限公司GUANGZHOU TONYU TECHNOLOGY CO., LTD产品规格书SPECIFICATION客户名称CUSTOMER产品名称PRODUCTION 光敏二极管Photo Diode 产品型号MODEL DY-FPD204-6B/L3版本号VERSION NO A1.0地址(Add)：广东省广州市番禺区石基镇海涌路3号10号厂房2楼电话(Tel)：************传真(Fax)：************邮箱(E-mail)：************网址(Net)：客户确认CUSTOMER CONFIRMATION审核CHECKED BY编制PREPARED BY 汪建新陈少龙DY-FPD204-6B/L3产品描述Descriptions⚫DY-FPD204-6B/L3是一种NPN型高速度和高敏感的光敏二极管.（DY-FPD204-6B/L3 is an NPN type photosensitive transistor with high speed and high sensitivity.）产品特性Features⚫响应时间快(Fast response time)⚫高灵敏度(High photo sensitivity)⚫引脚间距2.54mm (2.54mm Lead spacing)⚫无铅(Pb free)⚫符合RoHS要求(This product itself will remain within RoHS compliant version)产品应用Applications⚫自动门传感器(Automatic door sensor.)⚫游戏机(Game machine)⚫高速光电探测器(High speed photo detector)包装方式Packing Quantity Specification⚫袋装：1000PCS/袋，4袋/小盒，10小盒/箱(1000PCS/1Bag，4Bags/1Box，10Boxes/1Carton)一、外形图Outline dimensions ：单位 Unit公差 Tolerance芯片材料 Die material发光颜色 Emission color胶体颜色 Lens colormm±0.25mmSilicon－ BlackNotes: 1. All dimensions are in mm, tolerance is ±0.25 unless otherwise noted.2. An epoxy meniscus way extend about 1.5mm down the leads.3. Burr around bottom of epoxy may be 0.5mm Max. ※备注：承认书之编号和型号可用于查询，客户如有需要，请提供相应的编号和型号。

PD6401212-channel PoE Manager Preliminary DatasheetDescription __________________ PowerDsine’s™ PD64012 Power over Ethernet (PoE) Manager chip integrates power, analog and logic functions into a single 64-pin, plastic pack. It is used in Ethernet switches and Midspans to allow next generation network devices to share power and data over the same cable.The device is a twelve-port, mix-signal, high-voltage Power over Ethernet driver. The PoE Manager allows the detection of IEEE 802.3af-2003 compliant terminals, referred to as powered devices or PDs, ensuring safe power feeding and removal over Ethernet ports. With full digital control via a serial communication interface and a minimum of external components, the device integrates in multi-port and highly populated Ethernet switches.The PD64012 implements all real time functions according to IEEE 802.3af-2003, including: detection, classification, and port status monitoring; as well as system level activities such as: power management and MIB support, for system management. The PoE Manager is designed to detect and disable disconnected ports, using both DC and AC disconnect methods, as defined in IEEE 802.3af-2003.The PD64012 has two possible working configurations: an Auto mode (stand-alone topology) for basic PoE functions and an Enhanced mode for extended functions.Pin Configuration _____________Features ____________________ ♦IEEE 802.3af-2003 compliant♦Drives 12 independent power ports♦Can be cascaded for up to 48 ports, using a master/slave architecture♦Supports IETF Power Ethernet MIB (RFC 3621) ♦Thermal protection per port♦Thermal monitoring capabilities♦Multi-point resistor detection♦Supports DC modulation method under-current detection according to IEEE 802.3af-2003♦AC & DC disconnect functions♦PD classification function♦Operates from single input (44 to 57 V)♦I2C bus interface♦Supports foldback current limiting♦Digitally programmable overcurrent protection per port♦Digitally programmable timers♦Power management algorithm for up to 48 ports ♦Internal power-on reset♦Power soft-start algorithm♦Fast power shutdown, in case of powersupply failure♦Automatic on/off sequencer for up to 48 ports♦Disable/enable power feeding♦Continuous port current monitoring♦Supports back-off feature for Midspanimplementation♦Additional features for Enhanced mode: •UART interface•Pre-standard PD detection•Supports non-standard terminals•Advanced power management•Programmable port matrixOrdering InformationPART TEMP. RANGE PIN PACKAGE PD64012 -20 to +85 °C LQFP-64 Date code: see the bottom line (04202AL1W07) in the Pin Configuration drawing. “0420” is the date code. “04” the year (2004), while “20” is the week.Maximum Ratings ______________________________________________V main ………………………………………………… -0.3 to 80 V (1) DGND, AGND, QGND, SENSE_NEG………….. -0.3 to 0.3 V (2) CLK, RESETN, CS0_N, CS1_N….………... -0.3 to (V PERI + 0.3) VV PORT_POSx ………………………………..…… -0.3 to 80 V (1) V PORT_NEGx , REF_PORT_NEG V PORT_POSx - V PORT_NEGxPORT_SENSEx…………………………..……… -0.3 to 15 V VCC 2p5, ADC 2p5………….………………………...-0.3 to 3 V V PERI ……………………………..…………………. 4 V EXT_REG……………………………………..……-0.3 to 6 V I2CINI, ASICINI…………………………………… -0.3 to 3 VMISO, MOSI, SCK, SCL, SDA,ESD (Human Body Model)…………….….… -2 to 2 kV (3)Max junction temperature (T junc )…………..…+150 °CJunction-ambient thermal resistance (θJA )….. 25 °C/WJunction-case thermal resistance (θJC )………16 °C/WLead temperature (soldering, 10 s)…………. 300 °C Storage temperature…………………………..-40 to +125 °CNotes: “x” defines port numbers, 0 thru 11, inclusive.(1) 80 V is the transient voltage that can be applied for at most one minute. (2) Maximum value between grounds.(3) ESD testing is performed in accordance with the Human Body Model (C Zap = 100 pF, R Zap = 1500 Ω).Stresses beyond those listed above, may cause permanent damage to the device. Exposure to absolute maximum rating conditions for extended periods, may affect device reliability.Operating Conditions ___________________________________________PARAMETER MIN.NOM.MAX.UNIT Operating temperature -20+85 °C Operational limitations (1)15 to 4444 to 5555 to 57V(1) Operating functions depend on the input voltage, as shown in the distribution of Figure 1.Figure 1 - Operational RangesElectrical Characteristics ________________________________________DC Characteristics for Digital Inputs and OutputsDC Characteristics for Digital Inputs and OutputsPARAMETER SYMBOL MIN. MAX. UNIT REMARKS(continued)Pin Name SCLType Schmitt Trigger CMOS input, TTL level with internal pullupHigh level input voltage V IH 2.0 VLow level input voltage V IL 0.8VInput voltage hysteresis0.3 VInput high current I IH NA NAµAInput low current I IL -150 -10 µAPin Name MOSI, MISO, CS0_N, CS1_N, SCKType CMOS I/O, TTL level with no internal pull up/pull down resistorHigh level input voltage V IH 2.0 VLow level input voltage V IL 0.8VInput voltage hysteresis0.3 VInput high current I IH -1 +1µAInput low current I IL -1 +1µAHigh level output voltage V PERI-0.4V VI out = 3 mALow level output voltage 0.4 V I out =3 mATri state output current -1 +1 µAPin Name RESET_N, SDAType CMOS open drain output with Schmitt Trigger input, TTL levelHigh level input voltage 0.4 V I out = 3mALow level input voltage V IL 0.8VInput voltage hysteresis0.3 VOFF state output current -1 +1 µAElectrical Characteristics for Analog I/O PadsPARAMETER MIN. MAX. UNIT REMARKSPin Name VPORT_POSx, VPORT_NEGx, REF_PORT_NEGOperating voltage 44 62 VPin current consumption -5 +5 µA Port driver off, V port differential measurement off, ACgenerator offPin Name PORT_SENSExOperating voltage 0 1.48 V With external 2 ohms (1%) to groundInternal current consumption 20 µAPin Name VMAINOperating voltage 44 57 VV main current consumption 20 mA Total on V mainPin Name CP outOperating voltage 44 67 VPin current consumption 5 mAPin Name ADC2p5, VCC2p5, V PERI, EXT_REGADC2p5 output voltage 2.45 2.55 VADC2p5 internal currentconsumption6 mA Recommended external cap. = 47 to 135 nFVCC2p5 output voltage 2.37 2.62 V Recommended external cap. = 47 to 135 nFVCC2p5 internal current consumption 5mAV PERI output voltage 3.13 3.46 V Recommended external cap. = 1 to 4.7 µF V PERI external current load 6 mA Without external NPNEXT_REG output current 6 mA When using external NPN for V PERIElectrical Characteristics for Analog I/O PadsPARAMETER MIN. MAX. UNIT REMARKS(continued)Pin Name ASICINI, I2CINIOperating voltage 0 ADC2p5 VCurrent consumption -1 +1 µAPin Name I REFOutput voltage 1.21 1.34 V With external 24.9 kΩ resistor to groundDynamic CharacteristicsThe PD64012 is an advanced power-limiting device that uses three programmable current level thresholds (I min, I cut, I lim) and two timers (T min, T cut ), to operate as shown in Figure 2. Loads that dissipate more than I cut for longer than T cut (OVL_S to OVL) are classified as overloads and are automatically shutdown. Output power dissipation below I min for during more than T min (UDL_S to UDL) will be classified as no-load and will also be shutdown. Automatic recovery from overload and no-load conditions are attempted every T OVLREC and T UDLREC periods (typically 5 and 1 seconds, respectively). In any case, output power is limited to I lim, which is a maximum peak power allowed at the port.PARAMETER CONDITIONS MIN. TYP. MAX. UNITAutomatic recovery from overload shutdown T OVLREC value, measured from port shutdown(can be modified through control port)5 sAutomatic recovery from no-load shutdown T UDLREC value, measured from port shutdown(can be modified through control port)1 sCutoff timers accuracy Typical accuracy of T cut10 ms Inrush current I Inrsh For t=50 ms, C load=180 uF max. 400450mAOutput current operating range I port Continuous operation afterstartup period.10350mAOutput power available, operating range P port Continuous operation afterstartup period, at port output.0.5715.4WI min1Must disconnect for t greater thanT UVL5mAOff mode currentI min2May or may not disconnect for tgreater than T UVL5 7.5 10 mAPD power maintenance request drop-out time limit T PMDO Buffer period to handletransitions300 400 msOver load currentdetection rangeI cut Time limited to T OVL350 400 mA Over load time limit T OVL50 75 ms Turn on rise time T rise From 10% to 90% of V port(specified for PD load consistingof 100 uF capacitor in parallel to200 Ω).15 usTurn off time Toff From V port to 5 Vdc 500 msThermal DataPower consumption – the internal power consumption of a single device from the DC input is based on: Input voltage range………… 44 to 57 VDCInput current………………… 10 mA typ.; 15 mA max.P main = V main x I mainP main typ. = 48 VDC x 10 mA = 0.480 W.P main max. = 57 VDC x 15 mA = 0.855 WDevice Power Dissipation – the PD64012 incorporates 12 power MOSFETs, each characterized by: Resistance from drain-source R ds(on) = 0.3 Ω typ. ; 0.5 Ω max.Drain-source current I ds = 360 mA max.Maximum power dissipation P MOSFET max. of a single PD64012 device (for 12 MOSFETs) :[(I ds)2 x R ds(on)]x 12 = [(0.36 A)2 x 0.5 Ω]x 12 = 0.78 WCharge pump (see Analog Section of Block Diagram Description, hereafter) power dissipation P CP is 0.21 W.Total power dissipation P total by device, under maximum conditions:P total = P main max. + P MOSFET max. + P CP = 0.855 W + 0.78 W + 0.21 W = 1.845 WFigure 2: Power LimitsProtection MechanismThe PD64012 includes internal thermal protection to avoid junction overheat. Three types of temperature sensors are integrated into the device: two are used for protection and one for temperature monitoring.Hi-temp protection – the device contains thermal shutdowns. This protection system is activated in extreme conditions.Lo-temp protection – there are thermal sensors that are intended to protect the functionality of the device, in cases of temperature rise.Indicator sensors – four temperature sensors monitor the local temperature in the device. Their average is also calculated by the PD64012. All values are stored in internal registers for data retrieval. The register values are calculated by:Decimal value = 684 - 1.514 x [(T junc)+ 40 °C].Pins Descriptions ______________________________________________PIN PIN NAME PIN TYPE PIN DESCRIPTION 51. AGND Supply Analog ground 52. PORT_SENSE5 Analog I/O Channel current monitoring 53. V PORT_NEG4 Analog I/O Port 4 negative voltage feeding 54. PORT_SENSE4 Analog I/O Channel current monitoring 55. V PORT_NEG3 Analog I/O Port 3 negative voltage feeding 56. PORT_SENSE3 Analog I/O Channel current monitoring 57. PORT_SENSE2 Analog I/OChannel current monitoring 58. V PORT_NEG2 Analog I/O Port 2 negative voltage feeding 59. PORT_SENSE1 Analog I/O Channel current monitoring 60. V PORT_NEG1 Analog I/O Port 1 negative voltage feeding 61. PORT_SENSE0 Analog I/O Channel current monitoring 62. SENSE_NEG Analog I/O Port sense reference 63. V PORT_NEG0 Analog I/O Port 0 negative voltage feeding 64.Reserved TBD Not connectedFunctional Description ________Operational ModesThe PD64012 supports two main modes of operation, based on two different architectures, as described hereafter. The two modes are: Enhanced mode and Automatic mode.Enhanced mode – in this mode of operation, the PD64012s communicate with the PD63000 PoE MCU (dedicated MCU for Power over Ethernet tasks), through a Serial Parallel Interface (SPI) bus. In this mode, all PD64012s are directly connected to the PD63000 through the SPI, in slave mode. The MCU is used for additional Power over Ethernet features, such as:♦ Legacy PDs detection (including Cisco discovery) ♦ Enhanced power management algorithms ♦ LED indicators support ♦ Port matrix control♦ Communication protocol translator.The switch host CPU communicates with the PD63000, via an isolated I 2C or UART bus, as shown in Figure 3.Figure 3: Enhanced ModeAutomatic mode – in this mode the PD64012 PoEManagers communicate with the host CPU, throughan isolated I2C bus. The PD64012 SPI bus isdedicated for internal communication amongPD64012s (for power management), as illustrated inFigure 4.Anyone of the devices (for example, PD64012 #00)may be configured as Master, while the others areSlaves. This Master/Slave configuration only affectsthe Serial Peripheral Interface (SPI) bus. It is criticalthat only one of them be set-up as a Master, with theothers acting as Slaves, in order to avoid SPI clockand data I/Os contentions.Figure 4: Automatic ModeMode Configuration MethodThe PoE Manager’s configuration is done via the ASIC_INI pin, according to the following table.The ASIC_INI analog signal is converted into a 10-bit register (A/D). Once a hard Reset pulse is detected, the data is latched into an internal mode register.MODE NAMEASIC_INIVOLTAGE LEVELASIC_INI INTERNAL A/DREGISTERI2C 2 LSB ADDRESS(set internally)Enhanced mode 0.31 to 0.63 V 001 00Auto mode – Slave 1 0.63 to 0.94 V 010 01Auto mode – Slave 2 0.94 to 1.25 V 011 10Auto mode – Slave 3 1.25 to 1.56 V 100 11Auto mode - Master 2.19 to 2.5 V 111 00 Notes:In the Auto mode – the PD64012 is communicating with the host via I2C.In the Enhanced mode – the PD64012 is communicating with the controller via SPI.Block Diagram Description(see Figure 5)The PD64002 PoE Manager complies with all requirements of IEEE standard 802.3af-2003, for detection. The device has been designed around two major sections:1. A common Digital section, that serves all 12 channels2. Twelve separate and identical channels for driving ports.Figure 5: Internal Block DiagramDigital SectionCommunication I/OThe PD64012 incorporates two communication interfaces. When operating in the Enhanced mode, an SPI bus connects the PD63000 MCU to the PD64012s. The second interface is the I2C, used in the Automatic mode (with the host).Both interfaces are used to communicate the contents of internal registers between the PD64012 logic and the MCU.PoE SequencerThis central block of the Digital section includes a combination of internal state machines (macros). It is fed from the Overload/Disconnect Recovery circuit and from the Power Management block.Power ManagementReceives data from the Vport Measurement block and receives commands and controls from the Communication Interface. This, in order to control the power allocated to the system, as defined by the host. Power Management receives requests to enable ports and decides, by communicating with the Sequencer, whether power is to be allocated.Overload /Disconnect RecoveryThere is a number of macros which decide on port enable and some on port disconnect.Port enabling: Classification, Resistor Line Detection and Vport Measurement.Port disable: AC Disconnect, DC Disconnect and Overload Logic. These macros are connected to the Channel RT Control Status block. Based on the inputs from these macros, the Channel RT controller starts the shutdown operation or the recovery process. This is done according to preprogrammed parameters for different time windows, as shown in Figure 2, Power Limits.Macros (802.3 Standard)Classification – upon request from the MCU, a state machine applies a regulated 18 V on the port output. The internal current is measured by a metering circuit, compared with a number of preset ranges and in this manner, the classification is established.Line Detection – the MCU generates a request to have four separate voltage levels applied to the output port. A unique measurement circuit monitors the delta between the second and third levels, and between the third and fourth levels. The voltage differences are compared with values stored in registers. By comparing the values, the system can decide whether or not to enable the port.AC Disconnect – the system applies a sinusoidal signal to the positive terminal of the port. The voltage developed on the port terminals is proportional to the value of the load. If the load is high, the AC component riding on the port terminals, will be small and reversed. If the load low, the AC component will be large. A special circuit measures the level of the AC component and compares it with a value stored in a register. Based on the comparison results, the system decides to disable the port or not.DC Disconnect for DC Modulation: senses if the port current falls below 7.5 mA. If so, a flag is raised and timers in the Channel RT Controller are enabled. The Channel RT Controller acts according to pre-programmed limits for thresholds and time windows, prior to initiating a disconnect status for that port. The circuitry takes into account PD’s that modulate their current consumption, disconnecting them only if necessary.Analog SectionClock OscillatorA 4 MHz oscillator, used for internal logic and timers.Power on Reset(POR)Monitors the internal regulated +3.3 V and generates a Reset signal, if this value drops below 2.8 V. The Reset signal resets the ASIC’s logic and generates an output flag to the other PD64012 ASICs, via the RESET_N pin. Charge PumpThis circuit block generates a voltage which increases the main input voltage by 10 VDC (approx.). This potential is used to operate the AC Disconnect circuits.Current LimitThis circuit continuously checks the current for enabled ports. Once the current exceeds a specific level, the system starts to measure the elapsed time. If this period is greater than a preset threshold, the port is disabled. In all cases, the output current will not exceed a pre-established maximum.Real Time ProtectionThis circuit receives flags from two locations in the PD64012: from the sense resistor and from the main input voltage (48 V). A 10-bit A/D Converter feeds the Digital section, at the Current and AC Voltage Measurement block. From there on, the system handles the levels according to pre-programmed limits.DC Disconnect ComparatorOnce the port current drops below a set limit, the comparator provides an indication to the DC Disconnect Logic to that effect.PD-IM-7348 Evaluation BoardThe performance features of the PD64012 PoE Manager can be fully appreciated with the PD-IM-7348 Evaluation Board. This board allows to investigate all functions accessible to the designer. The evaluation board supports upto 48 ports, has both I2C and UART interfaces and can demonstrate the Enhanced and Auto modes.I2C InterfaceA standard I2C interface is used to communicate between the PD64012 and the host controller.The PD64012’s I2C interface is designed to support the following features:♦SLAVE mode only♦Normal-mode and Fast-mode data rate (0 to 400 kb/s)♦7-bit addressing - the 7-bit addressing (128 addresses) uses the following address code: •First MSB = “0” (forced by internal logic)• 4 MSB address bits are set via the I2C_INI pin, according to the following table•“mm” bits are set through the ASIC_INI pin (Enhanced mode = “00”; Automatic mode Master =”00”; Automatic mode Slave = “01”, “10”, “11”)•“xxx” - 3 LSB are ignored.I2C ADDRESS I2C_INI VOLTAGE LEVEL I2C_INI INTERNAL A/D REGISTER NOTES Address #0 0 to 0.15 V 0,0000,mm,xxxAddress #1 0.16 to 0.31 V 0,0001,mm,xxx Address #2 0.32 to 0.47 V 0,0010,mm,xxx Address #3 0.48 to 0.62 V 0,0011,mm,xxx General call addresses; not to be usedAddress #4 0.63 to 0.77 V 0,0100,mm,xxx Address #5 0.78 to 0.93 V 0,0101,mm,xxx Address #6 0.94 to 1.09 V 0,0110,mm,xxx Address #7 1.10 to 1.24 V 0,0111,mm,xxx Address #8 1.25 to 1.40 V 0,1000,mm,xxx Address #9 1.41 to 1.55 V 0,1001,mm,xxx Address #10 1.56 to 1.71 V 0,1010,mm,xxx Address #11 1.72 to 1.87 0,1011,mm,xxx Address #12 1.88 to 2.02 V 0,1100,mm,xxx Address #13 2.03 to 2.18 V 0,1101,mm,xxx Address #14 2.19 to 2.33 V 0,1110,mm,xxx Address #15 2.34 to 2.5 V 1,1111,mm,xxxPackage InformationThe PD64012 is housed in a 64-pin plastic package, 10 x 10 x 1.4 mm, meeting JEDEC’s MS-026 package outline and dimensions. Exposed pad (for heat-sinking purposes) dimensions are 6.00 by 7.00 mm.Figure 6: PD64012 Mechanical DimensionsApplicationsThe PD64012 may be integrated into a number of applications, ranging from daughter boards to full integration into Ethernet switches. Examples of such applications are:Integrated directly in a switch – facilitates the entire PoE concept, by including the ASIC(s) on the main switch PCB. Daughter board add-on – in which the ASIC is integrated into a small PCB for PoE, mounted on top of the switch’s main PCB.Midspan units – stand alone devices, installed between the Ethernet switch and powered devices (telephone, camera, wireless LAN, etc..). These Midspan units include the PD64012 ASIC as a PoE control element, to inject power over the communication lines.Figures 7 thru 10 provide detailed schematic diagrams for various applications of the PD64012.Figure 7 - Single-port Application with AC Disconnect SupportFigure 8 - Typical Power FilteringFigure 9 - Enhanced Mode ApplicationFigure 10 - Automatic Mode ApplicationReader NotesNotice ________________________________________________________ PowerDsine assumes no responsibility or liability arising from the use of this Data Sheet, as described herein, nor does it convey any license under its patent rights or the rights of others.The information contained herein is believed to be accurate and reliable at the time of printing. However, due to ongoing product improvements and revisions, PowerDsine cannot accept responsibility for inadvertent errors, inaccuracies, subsequent changes or omissions of printed material.PowerDsine Ltd. reserves the right to make changes to products and to their specifications as described in this document, at any time, without prior notice. No rights toany PowerDsine Ltd. Intellectual property are licensed to any third party, directly, by implication or by any other method.Covered under one or more of the following patents: 6,643,566; 6,473,608.No Use with Life-Support or Critical Applications _____________________________________________________________________ PowerDsine’s products are not designed, intended, or authorized for use as components in systems intended for:(1)surgical implant into the body, or other applications intended to support or sustain life, or(2)any other applications whereby a failure of the PowerDsine’s product could create a situation where personal injury, death or damage to persons, systems, data orbusiness may occur.PowerDsine assumes no liability in connection with use in these situations and the disclaimers provided below in this manual shall apply. Should a buyer purchase or use PowerDsine’s products for any such unintended use or unauthorized applications, buyer shall indemnify PowerDsine and its officers and employees against any and all claims arising out of or in connection with any claim of personal injury, death or other damage of the type described above, associated with such use.DISCLAIMERS __________________________________________________________________________________________________ POWERDSINE MAKES NO WARRANTY, REPRESENTATION OR GUARANTEE REGARDING THE SUITABILITY OF THE PRODUCTS CONTAINED HEREIN FOR ANY PARTICULAR PURPOSE, NOR DOES POWERDSINE ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCTS OR CIRCUIT, AND SPECIFICALLY DISCLAIMS ANY AN ALL LIABILITY, INCLUDING, WITHOUT LIMITATION, CONSEQUENTIAL OR INCIDENTAL DAMAGES. BY USING OUR PRODUCTS USER AGREES NOT TO MAKE ANY CLAIM FOR PUNITIVE DAMAGES.POWERDSINE MAKES NO REPRESENTATION OR WARRANTY, EXPRESSED OR IMPLIED, WITH RESPECT TO THE SUFFICIENCY OR ACCURACY OR UTILITY OF ANY INFORMATION CONTAINED HEREIN. POWERDSINE EXPRESSLY ADVISES THAT ANY USE OF OR RELIANCE UPON SAID INFORMATION IS AT THE RISK OF THE USER AND THAT POWERDSINE SHALL NOT BE LIABLE FOR ANY DAMAGE OR INJURY INCURRED BY ANY PERSON OR ORGANIZATION ARISING OUT OF THE SUFFICIENCY, ACCURACY, OR UTILITY OF ANY INFORMATION CONTAINED HEREIN OR IN CONNECTION WITH THE USE OF ANY OF THE PRODUCTS DESCRIBED HEREIN. POWERDSINE IS NOT RESPONSIBLE FOR ANY CHANGES IN THE SPECIFICATIONS OR ERRATA OF THIS PRODUCT. INFORMATION ON THE BASIC PRODUCT CAN BE FOUND AT MOTOROLA'S HOMEPAGE.Revision HistoryRevision Level / Date Para. Affected/page Description2.3 / 10 Dec. 03 OrderingInformation/page 1Lower temperature range deleted. Remains single range only: -20 to +85 °C.2.4 / 18 Dec. 03 Mode ConfigurationMethod/page 8I2C Interface/page 11 Deleted extreneous values for ASIC_INI and deleted default Mode value. Deleted primary default value in the table column for Notes.2.41 / 10 Jan. 04 Features/page 1 Changed MIB from draft to RFC 3621.2.5 / 9 Feb. 04 Front & back pages Added policy statements and disclaimers.2.6 / 10 Mar. 04 Several Added temp. of junction-case, under max ratings; added thermal data on page4; added protection mechanism on page 5.2.7 / 1 Aug. 04 Macros/page 8Analog section/page 9Corrected inacuracies in descriptions.2.8 / 5 Aug. 04 Pin Configuration/1 Added part number and associated description.© 2003 PowerDsine Ltd.All rights reserved.PowerDsine is a registered trademark of PowerDsine LTD.All other products or trademarks are property of their respective owners.The product described by this manual is a licensed product of PowerDsine.。

POWERLINE+DC/DC-Converterwith 3 year WarrantyRPP30-W PP-19REV: 1/2012Ambient Temperature Range (°C)O u t p u t P o w e r (%)RPP30-4805SWDerating graphs are valid only for the shown part number.Please contact Technical Support for more information:info@recom-development.at t● Up to 90°C ambient, no derating ● 120°C Maximum Case T emperature ● -45°C MinimumT emp. (optional: -55°C)● Built-in FCC/EN55022 Class B Filter ● 4:1 Wide Input Voltage Range ● Six Sided Shielded Enclosure● Ribbed, Flat or Baseplate Case Styles ● Efficiency to >89%● 3kVDC Isolation ● Fully Protected● Low Quiescent CurrentFeatures ICETechnology*Selection Guide 24V and 48V 4:1 Input TypesPart Number Input Output Output Input (1) Efficiency (2) Max (3) Range Voltage Current Current (Typ.) Ambient VDC VDC mA mA Temp RPP30-243.3SW 9-36 3.3 8400 57/1326 87.1% 85°C RPP30-2405SW 9-36 5 6000 62/1397 89.5% 89°C RPP30-2412SW 9-36 12 2500 27/1420 88.0% 85°C RPP30-2415SW 9-36 15 2000 31/1436 89.7% 90°C RPP30-2424SW 9-36 24 1250 31/1436 89.7% 90°C RPP30-483.3SW 18-75 3.3 9000 46/704 87.6% 84°C RPP30-4805SW 18-75 5 6000 38/710 89.7% 90°C RPP30-4812SW 18-75 12 2500 15/727 87.8% 85°C RPP30-4815SW 18-75 15 2000 19/718 89.3% 89°C RPP30-4824SW 18-75 24 1250 19/718 89.3% 89°C RPP30-2412DW 9-36 ±12 ±1250 32/1453 89.2% 89°C RPP30-2415DW 9-36 ±15 ±1000 30/1436 87.2% 85°C RPP30-2424DW 9-36 ±24 ±625 30/1436 87.2% 85°C RPP30-4812DW 18-75 ±12 ±1250 18/727 87.5% 85°CRPP30-4815DW18-75 ±15 ±1000 20/718 89.1% 89°C RPP30-4824DW 18-75 ±24 ±625 20/718 89.1% 89°C ** add suffixes for case, temperature or CTRL logic options.DescriptionDerating Graph (Ambient Temperature)30 Watt 4:1 Single &Dual OutputRoHS2002/95/EC6/6UL-60950-1 Certified E224736The RPP30-W series 4:1 input range DC/DC converters are ideal for high end industrial applications and COTS Military applications where a very wide operating temperature range of -45°C to +120°C is required. The converters are also optionally available with a -55°C start-up temperature. Although the case size is compact, the converter contains a built-in filter EN55022 Class B / FCC Level B without the need for any external components.The RPP30-W is available in three case styles: the high operating temperature ribbed case,the low profile flat case and the baseplate case for high vibration or bulkhead-mounting applications. They are UL-60950-1 certified.* ICE TechnologyICE (Innovation in Converter Excellence)uses state-of-the-art techniques tominimise internal power dissipation and to increase the internal temperature limits to extend the ambient operating temperature range to the maximum.Refer to Application NotesSUFFIX INFORMATIONnone = Standard Ribbed Case -B = Baseplate Case -F = Flat Case-L = Low Temp (-55°C) Ribbed Case -M = Low Temp (-55°C) Baseplate Case -T = Low Temp (-55°C) Flat Case add “1” before suffix for neg. CTRL logic e.g. -1, -1B, -1F, etc./PP-20REV: 1/2012R P P 30-WSpecifications (typical at nominal input and 25°C unless otherwise noted)Input Voltage Range 24V nominal input 9-36VDC 48V nominal input 18-75VDC Under Voltage Lockout 24V input DC-DC ON (min.) 8.5VDC DC-DC OFF (max.) 8VDC 48V input DC-DC ON (min.) 17.5VDC DC-DC OFF (max.) 17VDC Input Filter Common Mode EMC Filter Input Voltage Variation dv/dt (Complies with ETS300 132 part 4.4) 5V/ms max Input Surge Voltage (100 ms max.) 24V Input 50VDC 48V Input 100VDC Input Reflected Ripple nominal Vin and full load 30mAp-p Start Up Time nominal Vin and constant resistor load 2ms typ., 5ms max.Remote ON/OFF (4) Logic High Open or 3.0V < Vr < 5.5V Logic Low Short or 0V < Vr < 1.2V Remote OFF input current Nominal input 2mA typ.Output Power 30W max.Output Voltage Accuracy 50% Load and nominal Vin ±1.5%Voltage Adjustability Single Output only ±5%Minimum Load 0%Line Regulation low line, high line at full load ±0.3%Load Regulation 10% to 100% full load ±0.5%Cross Regulation (10% <> 100% Load) Dual Outputs only 3% typ./ 5% max.Ripple and Noise (20MHz bandwith limited) 3.3V, 5V 80mVp-p typ.(measured with 1µF capacitor across outputs) All others 27mV-60mVp-p max Temperature Coefficient ±0.04%/°C max.Transient Response 25% load step change 800µs Over Load Protection % of full load at nominal Vin 120% typ.Short Circuit Protection hiccup, automatic recovery Output Over Voltage Protection (refer to block diagram in Application Notes) Converter shutdown if Vout > Vout nominal +20%Isolation Voltage Rated at 2250VDC/1 minute, Flash tested at 3000VDC/1 second Isolation Resistance 10M Ωmin.Isolation Capacitance (refer to block diagram in Application Notes) 3000pF max. Operating Frequency 300kHz ± 30kHz Operating Temperature Range Ambient, Free Convection -45°C to +90°C max (without derating) -45°C to +105°C max (with derating) -55°C Version -55°C to +90°C (without derating) Maximum Case Temperature +120°C Storage Temperature Range -55°C to +125°C Over Temperature Protection (refer to block diagram in Application Notes) internal thermistor Thermal Impedance Ribbed Case: Vertical 7.3°C/Watt (Natural convection) Ribbed Case: Horizontal 10°C/Watt Relative Humidity 5% to 95% RH Case Material (7) Aluminium Potting Material Silicone (UL94-V0)Weight Ribbed Case 39g Flat Case 34g Basrplate Case 43g POWERLINE+DC/DC-ConverterRPP30-S_DW Series/RPP30-W PP-21REV: 1/2012Specifications (typical at nominal input and 25°C unless otherwise noted)POWERLINE+DC/DC-ConverterRPP30-S_DW SeriesPacking Quantity Ribbed and Flat Case 4 pcs per Tube Baseplate Case Single Packed Safety Standards certified UL-60950-1, 1st Edition Thermal Cycling complies with MIL-STD-810F Vibration 10-55Hz, 12G, 30 Min. along X, Y and Z Conducted Emissions EN55022 Class B Radiated Emissions EN55022 Class B ESD EN61000-4-2 Perf. Criteria B Radiated Immunity EN61000-4-3 Perf. Criteria A Fast Transient (5) EN61000-4-4 Perf. Criteria B Surge (5) EN61000-4-5 Perf. Criteria B Conducted Immunity EN61000-4-6 Perf. Criteria A MTBF calculated according to BELLCORE TR-NWT-000332 (6) 2195 x 103hoursNotes :1. Typical values at nominal input voltage and no load/full load.2. Typical values at nominal input voltage and full load.3. Typical values at nominal input voltage and full load in vertical orientation and with Eurocard-sized PCB ground planes to assist in heat dissipation. For horizontal orientation, reduce the maximum temperatures by 10°C.4. The ON/OFF pin voltage is referenced to negative input. The pin is pulled high internally. ON/OFF control is standard with positive logic: e.g. RPP30-2405SW, RPP30-4805DW-B.Add “1” before the suffix for negative logic: e.g. RPP30-2405SW-1, RPP30-4805DW-1B.Positive logic: 0= OFF, 1 = ON. The converter will be ON if the CTRL is left open.Negative logic: 1 = OFF, 0 = ON. The converter will be OFF if the CTRL is left open.5. Requires an external 100µF low ESR capacitor to meet EN61000-4-4 and EN61000-4-56. Case l: 50% Stress, Temperature at 50°C (Ground Benign).7. To ensure a good all-round electrical contact, the baseplate is pressed firmly into place within the aluminium housing.The hydraulic press can leave tooling marks and deformations to both the housing and baseplate. The case is anodised aluminium, so there will be natural variations in the case colour and the aluminium is not scratch resistant. Any resultant marks, scratches and colour varations are cosmetic only and do not affect the operation or performance of the converters.10k W Trimpot 10k W Trimpot10k W TrimpotTrim +Vout-VoutTrim+Vout-VoutExternal Output Trimming/PP-22REV: 1/2012R P P 30-WPOWERLINE+DC/DC-ConverterRPP30-S_DW SeriesRecommended PCB LayoutInput Capacitor, C1, is required to meet EN61000 Surge and Fast Transient, otherwise it is not required for normal operation.Output Capacitors C2/C3 are recommended, but not required for normal operation. Typical capacitor values are 1µF MLCCTo ensure optimum thermal performance, use large areas of copper on the PCB to assist with heat dissipation and mount the converter vertically./RPP30-W PP-23REV: 1/201250.80Pin Pitch Tolerance ±0.35 mmPin ConnectionsPin # Single Dual 1 +Vin +Vin 2 -Vin -Vin 3 +Vout +Vout 4 -Vout Com 5 Trim -Vout 6 CTRL CTRLPOWERLINE+DC/DC-ConverterRPP30-S_DW Series30.55.103rd angle projectionPin Pitch Tolerance ±0.35 mmPin ConnectionsPin # Single Dual 1 +Vin +Vin 2 -Vin -Vin 3 +Vout +Vout 4 -Vout Com 5 Trim -Vout 6 CTRL CTRLFlat Case (-F Suffix)(Low temperature version = suffix -T)/R P P 30-WPOWERLINE+DC/DC-ConverterRPP30-S_DW SeriesPackage Style and Pinning (mm)3rd angle projectionPin Pitch Tolerance ±0.35 mmPin ConnectionsPin # Single Dual 1 +Vin +Vin 2 -Vin -Vin 3 +Vout +Vout 4 -Vout Com 5 Trim -Vout 6 CTRL CTRLBaseplate Case (-B Suffix)(Low temperature version = suffix -M)/分销商库存信息:RECOM-POWERRPP30-2412SW RPP30-2405SW RPP30-4805SW RPP30-4812SW RPP30-2424SW-B RPP30-2412DW RPP30-2415SW RPP30-243.3SW RPP30-4812DW RPP30-4815DW RPP30-4815SW RPP30-483.3SW RPP30-2424DW RPP30-2424DW-1RPP30-2424DW-1F RPP30-2424SW RPP30-2424SW-1RPP30-2424SW-1F RPP30-2424SW-F RPP30-4824DW RPP30-4824DW-1 RPP30-4824DW-1F RPP30-4824DW-F RPP30-4824SW-1 RPP30-4824SW-1F RPP30-4824SW-F RPP30-2415DW RPP30-2424DW-1B RPP30-2424DW-B RPP30-2424SW-1B RPP30-4824DW-1B RPP30-4824DW-B RPP30-4824SW-1B RPP30-4824SW-B RPP30-2405SW/N RPP30-2412DW/N RPP30-2412SW/N RPP30-2415DW/N RPP30-2415SW/N RPP30-243.3SW/N RPP30-4805SW/N RPP30-4812DW/N RPP30-4812SW/N RPP30-4815DW/N RPP30-4815SW/N RPP30-483.3SW/N RPP30-2424DW-1L RPP30-2424DW-F RPP30-2424DW-L RPP30-2424DW-T RPP30-2424SW-1L RPP30-2424SW-1T RPP30-2424SW-L RPP30-2424SW-T RPP30-4824DW-1L RPP30-4824DW-1T RPP30-4824DW-L RPP30-4824DW-T RPP30-4824SW-1L RPP30-4824SW-1T RPP30-4824SW-L RPP30-4824SW-T RPP30-2424DW-1M RPP30-2424DW-M RPP30-2424SW-1M RPP30-2424SW-M RPP30-4824DW-1M RPP30-4824DW-M RPP30-4824SW-1M RPP30-4824SW-M。

筒灯系列技术规格书产品名称：LED 筒灯产品型号：BQZ-01W WW KL-01 BQZ-03W WW KL-01 BQZ-05W WW KL-01 BQZ-05W WW KL-02 BQZ-12W WW KL-01地址：西安市高新区电子三路西京国际电气中心1211室.ADD: Room 1211, Xijing Electronic Corp., Electronic Road 3 , High-tech Zone, Xi ’an City, P.R.ChinaWeb: 邮编：710077 TEL:+86-029-********/77/78 FAX:+86-029-********产品主要特点：☞优质铝合金外壳，散热性能和聚光性能好。

☞精致小巧，安装方便，无热辐射，符合消防要求。

☞大功率LED光源，有单色、双色、七彩等多彩选择。

☞使用寿命超达30,000小时。

☞环保，低热，照度高，非常节电，使用安全、稳定、可靠。

特殊的发光角度混合设计。

安装方便、体积小。

直接点亮，无频闪、无杂光、响应时间短，适应频繁开关和各种照明组合。

特殊的电路设计，避免单颗LED损坏而影响整条灯管发光效果。

无荧光闪烁、无汞或铅污染。

应用：橱柜、饭店、餐厅等室内装饰照明展示厅、艺术厅、博物馆、办公室、阅览室等局部照明酒吧、的士高、卡拉OK等氛围照明水景、地下长明点灯等耐用性特殊环境照明特别适用于珠宝、金饰和时装照明发光角度：15/35/45/50/60度灯具50度发光角度分布图（仅作发光角度分析）产品照片：产品实物图筒灯主体尺寸3W 筒灯实体该系列筒灯输入电压范围为交流120V~240V （50/60Hz ）,输出额定电源，额定直流，红色输出线为正极，黑色输出线为负极。

光源与电源连接时，红色电源线连接电源正极（即电源红色输出线），黑色电源线连接电源负极（即电源黑色输出线），注意正负极不能接反。

红色电源线，连接电源正极黑色电源线，连接电源负极直流电源220V 交流电输入端电源输出。

Cj Junction Capacitance 结电容ηV Rectification Efficiency 整流效率If DC Forward Current 正向直流电流I（AV）Average Forward Rectified Current 正向平均整流电流ID Stand—off Reverse Leakage Current 关态反向漏电流IFSM Peak Forward Surge Current 正向浪涌峰植电流ITSM Non Repetitive Surge Peak on—state Current 不重复浪涌峰值开态电流IDM Maximum Reverse Leakage 最大反向漏电流IFRM Repetitive Peak Forward Current 正向重复峰值电流IH Holding Current 维持电流IO Mean Forward Current 正向平均电流IR Reverse Leakage Current 反向漏电流Irr Reverse Recovery Current 反向恢复电流IPPM Maximum peak lmpulse Current 最大脉冲峰值电流IRM Maximum peak Reverse Current 最大峰值反向电流IRM(REC) Maximum peak Reverse recovery Current 最大峰值反向恢复电流IRSM Maximum Non-repetitive recovery Peak Current 最大峰值反向恢复电流IT On—state Test Current 导通测试电流I2t Rating for fusing 正向浪涌电流的平方对电流浪涌持续时间的积分值PM(AV) Maximum Steady State Power Dissipation 最大稳态功耗PPM Peak Pulse Power Dissipation 峰值脉冲功耗Ptot Total Power Dissipation 总功耗Qrr Recovered Charge 恢复电荷ROJA Thermal Resistance (Junction to Ambient）热阻（结到环境）ROJC Thermal Resistance（Junction to Case ) 热阻（结到管壳）ROJL Thermal Resistance(Junction to Lead ）热阻(结到引线) TA Ambient Temperature 环境温度TC Case Temperature 管壳温度td Time Duration 持续时间tf Fall Time 下降时间Tj Junction Temperature 结温TL Lead Temperature 引线温度tfr Forward Recovery Time 正向恢复时间tr Rise Time 上升时间trr Reverse Recovery Time 反向恢复时间TSTG Storage Temperature 存储温度VBO Breakover Voltage 转折电压V（BR) Reverse Breakdown Voltage 反向击穿电压VF Instantaneous Forward Voltage 正向瞬态电压VFR Forward Recovery Voltage 正向恢复电压VDC，VR DC Reverse Voltage 反向直流电流VRM Maximum Reverse Paek Reverse Voltage 最大重复峰值反向电压VRMS RMS Input Voltage 均方根输入电压VRRM Peak Repetitive Reverse Voltage 反向重复峰值电压VWM Working Peak Reverse Voltage 反向工作峰值电压VC Clamping Voltage 箝位电压VWM Working Stand-off Voltage 关态工作电压VZ Zener Voltage 齐纳电压ZZ Dynamia Zener Impedance 动态齐纳阻抗αVF Temperature coefficient of forward voltage 正向压降的温度系数二极管电压参数及含义1）UTo:阈值电压.2）UBO：转折电压。

VOLTAGE RANGE 50 to 200 Volts CURRENT 1.0 AmpereELECTRICAL CHARACTERISTICS (At T A = 25o C unless otherwise noted)MAXIMUM RATINGS (At T A = 25o C unless otherwise noted)NOTES : 1. Test Conditions: I F =0.5A, I R =-1.0A, I RR =-0.25A.2. Measured at 1 MH Z and applied reverse voltage of 4.0 volts.2005-1REV:ARATINGSMaximum Recurrent Peak Reverse Voltage Maximum RMS VoltsMaximum DC Blocking Voltage Maximum Average Forward Current at T A = 25o CPeak Forward Surge Current I FM (surge):8.3 ms single half sine-wave superimposed on rated load (JEDEC method)Typical Junction Capacitance (Note 2)Operating and Storage Temperature RangeSYMBOL V RRM V DC I O I FSM C J T J , T STGV RMS Volts Volts Volts Amps 1.02515-55 to + 150Amps pFCUNITS 1E11E41E21E350200100150351407010550200100150at Rated DC Blocking VoltageCHARACTERISTICSMaximum Reverse Recovery Time (Note 1)V FSYMBOL I R trrUNITS 0.955.0uAmps nSec Maximum DC Reverse Current Maximum Forward Voltage at 1.0A DC Volts @T A = 25o C @T A =150oC1E11E41E21E350353. “Fully ROHS compliant”, “100% Sn plating (Pb-free)”.RATING AND CHARACTERISTIC CURVES ( 1E1 THRU 1E4 )FIG. 6 - TYPICAL JUNCTION CAPACITANCEJ U N C T I O N C A P A C I T A N C E , (p F )REVERSE VOLTAGE, ( V )604020106421.1.2.41.024102040100FIG. 1 - TEST CIRCUIT DIAGRAM AND REVERSE RECOVERY TIME CHARACTERISTIC50102. Rise Time = 10ns max. Source Impedance = 50 ohms.+0.5A0-0.25A-1.0A10 ns/cmFIG. 2 - TYPICAL FORWARD CURRENT DERATING CURVE A V E R A G E F O R W A R D C U R E N T , (A )AMBIENT TEMPERATURE ( )2.01.00255075100125150175Single Phase Half Wave 60Hz Resistive or Inductive LoadFIG. 3 - TYPICAL REVERSE CHARACTERISTICSI N S T A N T A N E O U S R E V E R S E C U R R E N T , (u A )PERCENT OF RATED PEAK REVERSE VOLTAGE, (%)100101.0.1.01400206080100120140FIG. 5 - MAXIMUM NON-REPETITIVE FORWARD SURGE CURRENT P E A K F O R W A R D S U R G E C U R R E N T , (A )NUMBER OF CYCLES AT 60Hz 353025201510501251020501008.3ms Single Half Sine-Wave (JEDEC Method)FIG. 4 - TYPICAL INSTANTANEOUS FORWARDI N S T A N T A N E O U S F O R W A R D C U R R E N T , (A )INSTANTANEOUS FORWARD VOLTAGE, (V)0.2.4.6.8 1.0 1.2 1.4.001.01.11.010CHARACTERISTICSDISCLAIMER NOTICERectron Inc reserves the right to make changes without notice to any product specification herein,to make corrections,modifications,enhancements or other changes.Rectron Inc or anyone on its behalf assumes no responsibility or liabi-lity for any errors or inaccuracies.Data sheet specifications and its information contained are intended to provide a product description only."T ypical"paramet-ers which may be included on RECTRON data sheets and/or specifications ca-n and do vary in different applications and actual performance may vary over ti-me.Rectron Inc does not assume any liability arising out of the application or use of any product or circuit.Rectron products are not designed,intended or authorized for use in medical, life-saving implant or other applications intended for life-sustaining or other rela-ted applications where a failure or malfunction of component or circuitry may di-rectly or indirectly cause injury or threaten a life without expressed written appr-oval of Rectron Inc.Customers using or selling Rectron components for use in such applications do so at their own risk and shall agree to fully indemnify Rect-ron Inc and its subsidiaries harmless against all claims,damages and expendit-ures.RECTRON。